SHASTA COUNTY OFFICE OF EDUCATIONvisualcxcec.com/files/wa155/WA155-8-20180418010428.pdf · Digital...

CONSULTANT REPORT

SHASTA COUNTY OFFICE OF EDUCATION

Shasta COE

Early Childhood Services Oasis Campus Professional Development Center

Prepared for: California Energy Commission Prepared by: Digital Energy, Inc.

Cal i fornia Energy Commiss ion Apri l 17, 2018 Edmund G. Brown Jr . , Governor Contract Number: CEC ‐400‐14‐001 Work Author izat ion Number: 155

Performance Specification – Shasta COE

Prepared by:

Ethan Flyer Vishal Diddi, CEM, CPMP Primary Authors Digital Energy, Inc. 555 Marin St, Suite 230 Westlake Village, CA 91360 805-374-1777 Contract Number: 400-14-001 Work Authorization# 155 Prepared for: California Energy Commission Marites Antonio Contract Agreement Manager Judy Brewster Project Manager Elise Brown Office Manager Local Assistance and Financing Office Dave Ashuckian P. E. Deputy Director Efficiency Division Drew Bohan Executive Director

DISCLAIMER This report was prepared as the result of work sponsored by the California Energy Commission. It does not necessarily represent the views of the Energy Commission, its employees or the State of California. The Energy Commission, the State of California, its employees, contractors and subcontractors make no warrant, express or implied, and assume no legal liability for the information in this report; nor does any party represent that the uses of this information will not infringe upon privately owned rights. This report has not been approved or disapproved by the California Energy Commission nor has the California Energy Commission passed upon the accuracy or adequacy of the information in this report.

Performance Specification – Shasta COE Preface

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PREFACE

This bid specification document was prepared as a follow up to the energy efficiency report

prepared for Shasta County Office of Education, under the Bright Schools Program. This

California Energy Commission program assists K through 12 schools in identifying measures

that can cut energy use and cost in existing and planned facilities, while concurrently enhancing

building performance. Once the measures are identified, the program can provide additional

assistance to help implement or finance the recommendations. This study was conducted for the

Commission by Digital Energy, Inc., under the direction of Jairam Agaram, P.E. The contract

assignment was directed and managed with the assistance of Judy Brewster, Project Manager

for the Commission. Digital Energy, Inc. and the Commission appreciate the assistance offered

by all Shasta County Office of Education personnel during the study.

School Name Location

Shasta COE 1644 Magnolia Avenue, Redding, CA 96001

Early Childhood Services 43 Hilltop Dr, Redding, CA 96003

Oasis Campus 3711 Oasis Rd, Redding, CA 96003

Professional Development Center 2985 Innsbruck Dr, Redding, CA 96003

Performance Specification – Shasta COE Table of Contents

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TABLE OF CONTENTS EXECUTIVE SUMMARY

DIVISION 2 EXISTING CONDITIONS

02 4100 DEMOLITION

02 8416 HANDLING OF BALLASTS AND LAMPS CONTAINING PCBs AND

MERCURY

DIVISION 11 EQUIPMENT

11 2000 COMMERCIAL EQUIPMENT – VENDING MISERS

DIVISION 23 HEATING VENTILATION AND AIR CONDITIONING

23 0000 GENERAL MECHANICAL REQUIREMENTS

23 0700 HVAC INSULATION

DIVISION 26 ELECTRICAL

26 0160 ELECTRICAL DEMOLITION

26 0923 LIGHTING CONTROL SYSTEMS

26 0943 PLUG LOAD CONTROL SYSTEMS

26 5119

26 5619

LED INTERIOR LIGHTING

EXTERIOR LIGHTING

APPENDIX A – RETROFIT SCHEDULE

Performance Specification – Shasta COE Executive Summary

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EXECUTIVE SUMMARY

1. ECM L-1: Retrofit Linear Fluorescent Fixtures with New LED Bypass Lamps

This measure proposes to retrofit linear fluorescent fixtures with new 18‐watt LED bypass

lamps. This would trigger the Title 24 Code and would require installation of interior

occupancy sensors to control the retrofitted fixtures.

2. ECM L-3: Install Occupancy Sensors for Interior Lighting Control

Retrofitting interior fluorescent fixtures would trigger Title 24 Compliance. This measure entails

installation of occupancy sensors to control the fixtures retrofitted as a part of ECM L‐1.

3. ECM L-4: Install A-shape LED Lamps for Interior Spaces

This measure proposes re‐lamping interior screw‐in and/or pin‐based fixture lamps with new

lower wattage LED A‐shape lamps, or equivalent.

4. ECM L-5A: Install A-shape LED Lamps for Exterior Spaces

This measure proposes re‐lamping exterior screw‐in and/or pin‐based fixture lamps with new

lower wattage LED A‐shape lamps, or equivalent.

5. ECM L-5B: Install Photocells for Exterior Circuits and Fixtures

This measure entails installation of exterior photocell sensors to control the fixtures retrofitted

as a part of ECM L‐5A.

6. ECM L-6A: Replace Exterior HID Fixtures with New LED Fixtures

This measure proposes replacing exterior high‐intensity discharge fixtures with new lower

wattage LED fixtures.

7. ECM L-6B: Install Exterior Smart Controls for New Exterior LED Fixtures

Replacing exterior HID fixtures would trigger Title 24 Compliance. This measure entails

installation of exterior smart controls to control the fixtures replaced as a part of ECM L‐6A.

8. ECM M-5: Re-Insulate Refrigerant Lines for HVAC Systems

This measure proposes re‐insulating deteriorating insulation for refrigerant lines on split HVAC

systems.

Performance Specification – Shasta COE Executive Summary

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9. ECM E-1: Provide Occupancy Sensor Controller for Vending Machine

This measure proposes use of occupancy sensor controllers to control the vending machines.

10. ECM E-2: Install Plug Load Occupancy Sensors for Copy Machines

This measure proposes installing plug load occupancy sensors and controlling power strip for

controlling copy machines. The devices activate the controlled receptacles only when the space

is occupied and de‐energize them when the space is vacant.

Performance Specification – Shasta COE Section 02 4100

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SECTION 02 4100 DEMOLITION

PART 1 - GENERAL

1.1 SUMMARY A. Related Documents:

General provisions of the Subcontract apply to this Section.

Review these documents for coordination with additional requirements and

information that apply to work under this Section.

B. This section specifies demolition and removal of buildings, portions of buildings,

utilities, other structures and debris from trash dumps shown.

C. Related Sections:

Division 01 Section, General Requirements.

Division 01 Section, Safety Requirements Article, ACCIDENT PREVENTION

PLAN (APP).

Division 01 Section, Temporary Environmental Control.

Division 01 Section, Construction Waste Management.

Division 01 Section, Temporary Facilities and Controls.

Division 02 Section, Traditional Asbestos Abatement.

Division 02 Section, Lead based Paint Removal and Disposal.

Division 31 Section, Grading: Topsoil removal.

Division 31 Section, Fill: Fill material for filling holes, pits, and excavations

generated as a result of removal operations.

1.2 REFERENCES A. 29 CFR 1926 ‐ U.S. Occupational Safety and Health Standards (OSHA); current edition.

B. NFPA 241 ‐ Standard for Safeguarding Construction, Alteration, and Demolition

Operations; 2013.

1.3 SUBMITTALS A. Comply with Division 01 Section, Submittal Procedures.

B. Demolition Plan: The Contractor shall furnish a demolition plan (drawings) as

specified by OSHA and local authorities.

Indicate extent of demolition, removal sequence, bracing and shoring, and

location and construction of barricades and fences.

Identify demolition firm and submit qualifications.

Include a summary of safety procedures.

C. Project Record Documents: Accurately record actual locations of capped and active

utilities and subsurface construction.


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1.4 PROTECTION A. Perform demolition in such manner as to eliminate hazards to persons and property; to

minimize interference with use of adjacent areas, utilities and structures or

interruption of use of such utilities; and to provide free passage to and from such

adjacent areas of structures. Comply with requirements of General Conditions Article,

Accident Prevention.

B. Provide safeguards, including warning signs, barricades, temporary fences, warning

lights, and other similar items that are required for protection of all personnel during

demolition and removal operations. Comply with requirements of Division 01

Sections, General Requirements, Article Protection of Existing Vegetation, Structures,

Equipment, Utilities and Improvements.

C. Maintain fences, barricades, lights, and other similar items around exposed

excavations until such excavations have been completely filled.

D. Provide enclosed dust chutes with control gates from each floor to carry debris to truck

beds and govern flow of material into truck. Provide overhead bridges of tight board

or prefabricated metal construction at dust chutes to protect persons and property

from falling debris.

E. Prevent spread of flying particles and dust. Sprinkle rubbish and debris with water to

keep dust to a minimum. Do not use water if it results in hazardous or objectionable

condition such as, but not limited to; ice, flooding, or pollution. Vacuum and dust the

work area daily.

F. In addition to previously listed fire and safety rules to be observed in performance of

work, include following:

No wall or part of wall shall be permitted to fall outwardly from structures.

Wherever a cutting torch or other equipment that might cause a fire is used,

provide and maintain fire extinguishers nearby ready for immediate use. Insure

all possible users know how to properly use fire extinguishers.

Keep hydrants clear and accessible at all times. Prohibit debris from

accumulating within a radius of 4500 mm (15 ft.) of fire hydrants.

G. Before beginning any demolition work, the Contractor shall survey the site and

examine the demolition drawings (if available) and specifications to determine the

extent of the work. The contractor shall take necessary precautions to avoid damages to

existing items to remain in place or to be reused; any damaged items shall be repaired

or replaced as approved by the Resident Engineer. The Contractor shall coordinate the

work of this section with all other work and shall construct and maintain shoring,

bracing, and supports as required. The Contractor shall ensure that structural elements

are not overloaded and shall be responsible for increasing structural supports or

adding new supports as may be required as a result of any cutting, removal, or

demolition work performed under this contract. Do not overload structural elements.

Provide new supports and reinforcement for existing construction weakened by

demolition or removal works. Repairs, reinforcement, or structural replacement must

have Resident Engineer’s approval.


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H. The work shall comply with the requirements of Division 01 Section, Temporary

Facilities and Controls.

I. The work shall comply with the requirements of Division 01 Section, General

Requirements, Article 1.7 Infection Prevention Measures.

PART 2 - PRODUCTS – Not Applicable

PART 3 - EXECUTION

3.1 SCOPE A. Remove other items indicated for salvage, relocation, and recycling.

B. Fill excavations, open pits, and holes in ground areas generated as result of removals,

using specified fill.

3.2 GENERAL PROCEDURES AND PROJECT CONDITIONS A. Comply with other requirements specified in Division 01.

B. Comply with applicable codes and regulations for demolition operations and safety of

adjacent structures and the public.

Obtain required permits.

Comply with applicable requirements of NFPA 24 ‐ Standard for Safeguarding

Construction.

Take precautions to prevent catastrophic or uncontrolled collapse of structures to

be removed; do not allow worker or public access within range of potential

collapse of unstable structures.

Provide, erect, and maintain temporary barriers and security devices.

Use physical barriers to prevent access to areas that could be hazardous to

workers or the public.

Conduct operations to minimize effects on and interference with adjacent

structures and occupants.

Do not close or obstruct roadways or sidewalks without permit.

Conduct operations to minimize obstruction of public and private entrances and

exits; do not obstruct required exits at any time; protect persons using entrances

and exits from removal operations.

Obtain written permission from owners of adjacent properties when demolition

equipment will traverse, infringe upon or limit access to their property.

C. Do not begin removal until receipt of notification to proceed from Owner.

D. Protect existing structures and other elements that are not to be removed.

Provide bracing and shoring.

Prevent movement or settlement of adjacent structures.

Stop work immediately if adjacent structures appear to be in danger.


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E. Minimize production of dust due to demolition operations; do not use water if that will

result in ice, flooding, sedimentation of public waterways or storm sewers, or other

pollution.

F. If hazardous materials are discovered during removal operations, stop work and notify

Architect and Owner; hazardous materials include regulated asbestos containing

materials, lead, PCBʹs, and mercury.

G. Perform demolition in a manner that maximizes salvage and recycling of materials.

Comply with requirements of Division 01 Section, Waste Management.

Dismantle existing construction and separate materials.

Set aside reusable, recyclable, and salvageable materials; store and deliver to

collection point or point of reuse.

3.3 EXISTING UTILITIES A. Coordinate work with utility companies; notify before starting work and comply with

their requirements; obtain required permits.

B. Protect existing utilities from being damaged.

C. Do not disrupt public utilities without permit from authority having jurisdiction.

D. Do not close, shut off, or disrupt existing life safety systems that are in use without at

least 7 days prior written notification to Owner.

E. Do not close, shut off, or disrupt existing utility branches or take‐offs that are in use

without at least 3 days prior written notification to Owner.

F. Locate and mark utilities to remain; mark using highly visible tags or flags, with

identification of utility type; protect from damage due to subsequent construction,

using substantial barricades if necessary.

G. Remove exposed piping, valves, meters, equipment, supports, and foundations of

disconnected and abandoned utilities.

3.4 SELECTIVE DEMOLITION FOR ALTERATIONS A. Existing drawings (plans) showing existing construction and utilities are based on

casual field observation and existing record documents only.

Verify that construction and utility arrangements are as shown.

Report discrepancies to Architect before disturbing existing installation.

Beginning of demolition work constitutes acceptance of existing conditions that

would be apparent upon examination prior to starting demolition.

B. Separate areas in which demolition is being conducted from other areas that are still

occupied.

Provide, erect, and maintain temporary dustproof partitions of construction

specified in Division 01 Section, Temporary Facilities and Controls, in locations

indicated on demolition drawings.

C. Maintain weatherproof exterior building enclosure except for interruptions required

for replacement or modifications; take care to prevent water and humidity damage.


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D. Remove existing work as indicated and as required to accomplish new work.

E. Services (Including but not limited to HVAC, Plumbing, Fire Protection, Electrical, and

Telecommunications):

Remove existing systems and equipment as indicated.

Maintain existing active systems that are to remain in operation; maintain access

to equipment and operational components.

Where existing active systems serve occupied facilities, but are to be replaced

with new services, maintain existing systems in service until new systems are

complete and ready for service.

Verify that abandoned services serve only abandoned facilities before removal.

Remove abandoned pipe, ducts, conduits, and equipment, including those above

accessible ceilings; remove back to source of supply where possible, otherwise

cap stub and tag with identification.

F. Protect existing work to remain.

Prevent movement of structure; provide shoring and bracing if necessary.

Perform cutting to accomplish removals neatly and as specified for cutting new

work.

Repair adjacent construction and finishes damaged during removal work.

Patch as specified for patching new work.

G. No services or equipment are to be abandoned in place. All decommissioned elements

are to be removed.

3.5 DEBRIS AND WASTE REMOVAL A. Remove debris, junk, and trash from site.

B. Remove from site all materials not to be reused on site; comply with requirements of

Division 01 Section, Waste Management.

C. Leave site in clean condition, ready for subsequent work.

D. Clean up spillage and wind‐blown debris from public and private lands.

END OF SECTION 02 4100


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SECTION 02 8416 HANDLING OF LIGHTING BALLASTS AND LAMPS

CONTAINING PCBS AND MERCURY

PART 1 - GENERAL

1.1 SUMMARY A. Section includes:

1. Furnish labor, materials, services, and equipment necessary for the removal of

Polychlorinated Biphenyl (PCB) containing lighting ballasts, associated mercury

containing fluorescent lamps, and High Intensity Discharge (HID) lamps in

accordance with local, state, or federal regulations. Do not expose PCBs to open

flames or other high temperature sources since toxic decomposition by‐products

may be produced. Do not break mercury containing fluorescent lamps or HID

lamps.

1.2 REFERENCES A. Environmental Protection Agency (EPA) Regulations:

1. 40 CFR 260‐40 CFR 265 ‐ Various Hazardous Waste Standards.

2. 40 CFR 268 ‐ Land Disposal Restrictions.

3. 40 CFR 270 ‐ EPA Administered Permit Programs: The Hazardous Waste Permit

Program.

4. 40 CFR 273 ‐ Standards for Universal Waste Management.

5. 40 CFR 761 ‐ Polychlorinated Biphenyls (PCBs) Manufacturing, Processing,

Distribution in Commerce, and Use Prohibitions.

B. U.S. Department of Labor, Occupational Safety and Health Administration (OSHA)

Regulation:

1. 29 CFR 1910.1000 ‐ Air Contaminants.

C. Department of Transportation (DOT):

1. 49 CFR 178 ‐ Regulations for Shipping Container Specifications.

1.3 DESCRIPTION OF WORK A. Removal and disposal of PCB containing lighting ballasts and associated mercury

containing lamps. Contractor may encounter leaking PCB ballasts.


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1.4 DEFINITIONS A. Certified Industrial Hygienist (CIH) – An industrial hygienist hired by the contractor shall

be certified by the American Board of Industrial Hygiene.

B. Leak – Leak or leaking means any instance in which a PCB article, PCB container, or PCB

equipment has any PCBs on any portion of its external surface.

C. Lamps – Lamp, also referred to as ʺuniversal waste lamp,ʺ is defined as the bulb or tube

portion of an electric lighting device. A lamp is specifically designed to produce radiant

energy, most often in the ultraviolet, visible, and infra‐red regions of the electromagnetic

spectrum. Examples of common universal waste electric lamps include, but are not limited

to, fluorescent, high intensity discharge, neon, mercury vapor, high pressure sodium, and

metal halide lamps.

D. Polychlorinated Biphenyls (PCBs) – PCBs as used in this specification shall mean the same

as PCBs, PCB containing lighting ballast, and PCB container, as defined in 40 CFR 761,

Section 3, Definitions.

E. Spill – Spill means both intentional and unintentional spills, leaks, and other uncontrolled

discharges when the release results in any quantity of PCBs running off or about to run off

the external surface of the equipment or other PCB source, as well as the contamination

resulting from those releases.

F. Universal Waste – Universal Waste means any of the following hazardous wastes that are

managed under the universal waste requirements 40 CFR 273:

1. Batteries

2. Pesticides

3. Thermostats

4. Lamps

1.5 QUALITY ASSURANCE A. Regulatory Requirements: Perform PCB related work in accordance with 40 CFR 761.

Perform mercury containing lamps storage and transport in accordance with 40 CFR 261,

40 CFR 264, 40 CFR 265, and 40 CFR 273.

B. Training: Certified Industrial Hygienist (CIH) shall instruct and certify the training of all

persons involved in the removal of PCB containing lighting ballasts and mercury

containing lamps. The instruction shall include: The dangers of PCB and mercury

exposure, decontamination, safe work practices, and applicable OSHA and EPA

regulations. The CIH shall review and approve the PCB and Mercury Containing Lamp

Removal Work Plans.

C. Regulation Documents: Maintain, at all times, one copy each at the office and one copy

each in view at the job site of 29 CFR 1910.1000, 40 CFR 260, 40 CFR 261, 40 CFR 262, 40

CFR 263, 40 CFR 265, 40 CFR 268, 40 CFR 270, and 40 CFR 273 and of the Contractor

removal work plan and disposal plan for PCB and for associated mercury containing

lamps.


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1.6 SUBMITTALS A. Submit in accordance with Division 01 Section, Submittal Procedures. Final payments will

not be made until all copies of all submittals have been furnished to the Officer‐in‐Charge.

B. Certificates:

1. Qualifications of CIH: Submit the name, address, and telephone number of the

Industrial Hygienist selected to perform the duties in paragraph entitled ʺCertified

Industrial Hygienist.ʺ

2. Training Certification: Submit training certification that the Industrial Hygienist is

certified, including certification number and date of certification or re certification.

3. PCB and Lamp Removal Work Plan: Submit a job specific plan within 20 calendar

days after award of contract of the work procedures to be used in the removal,

packaging, and storage of PCB containing lighting ballasts and associated mercury

containing lamps. Include in the plan: Requirements for Personal Protective

Equipment (PPE), spill cleanup procedures and equipment, eating, smoking, and

restroom procedures. The plan shall be approved and signed by the Certified

Industrial Hygienist. Obtain approval of the plan by the Officer‐in‐Charge prior to

the start of PCB and/or lamp removal work.

4. PCB and Lamp Disposal Plan: Submit a PCB and Lamp Disposal Plan within 45

calendar days after award of contract. The PCB and Lamp Disposal Plan shall

comply with applicable requirements of federal, state, and local PCB and Universal

waste regulations and address:

a. Estimated quantities of wastes to be generated, disposed of, and recycled.

b. Names and qualifications of each Contractor that will be transporting, storing,

treating, and disposing of the wastes. Include the facility location. Furnish two

copies of EPA and state PCB and mercury containing lamp waste permit

applications and EPA identification numbers, as required.

c. Names and qualifications (experience and training) of personnel who will be

working on‐site with PCB and mercury containing lamp wastes.

d. Spill prevention, containment, and cleanup contingency measures to be

implemented.

e. Work plan and schedule for PCB and mercury containing lamp waste removal,

containment, storage, transportation, disposal and/or recycling. Wastes shall

be cleaned up and containerized daily.

C. Closeout Submittals:

1. Transporter certification of notification to EPA of their PCB waste activities and EPA

ID numbers.

2. Certification of Decontamination.

3. Certificate of Disposal and/or recycling. Submit to the State before application for

payment within 30 days of the date that the disposal of the PCB and mercury

containing lamp waste identified on the manifest was completed.



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PART 3 - EXECUTION

3.1 WORK OPERATIONS A. Ensure that work operations or processes involving PCB or PCB contaminated materials

are conducted in accordance with 40 CFR 761, 40 CFR 262, 40 CFR 263, and the applicable

requirements of this section, including but not limited to:

1. Obtaining suitable PCB and mercury containing lamp storage sites.

2. Notifying Officer‐in‐Charge prior to commencing the operation.

3. Reporting leaks and spills to the Officer‐in‐Charge.

4. Cleaning up spills.

5. Inspecting PCB and PCB contaminated items and waste containers for leaks and

forwarding copies of inspection reports to the Officer‐in‐Charge.

6. Maintaining inspection, inventory and spill records.

3.2 PCB SPILL CLEANUP REQUIREMENTS A. PCB Spills: Immediately report to the Officer‐in‐Charge any PCB spills.

B. PCB Spill Control Area: Rope off an area around the edges of a PCB leak or spill and post a

ʺPCB Spill Authorized Personnel Onlyʺ caution sign. Immediately transfer leaking items to

a drip pan or other container.

C. PCB Spill Cleanup: 40 CFR 761, subpart G. Initiate cleanup of spills as soon as possible, but

no later than 24 hours of its discovery. Mop up the liquid with rags or other conventional

absorbent. The spent absorbent shall be properly contained and disposed of as solid PCB

waste.

D. Records and Certification: Document the cleanup with records of decontamination in

accordance with 40 CFR 761, Section 125, Requirements for PCB Spill Cleanup. Provide

test results of cleanup and certification of decontamination.

3.3 REMOVAL A. Ballasts: As ballasts are removed from the lighting fixture, inspect label on ballast. Ballasts

without a ʺNo PCBʺ label shall be assumed to contain PCBs and containerized and

disposed of as required under paragraphs STORAGE FOR DISPOSAL and DISPOSAL. If

there are less than 1600 ʺNo PCBʺ labeled lighting ballasts, dispose of them as normal

demolition debris.

B. Lighting Lamps: Remove lighting tubes/lamps from the lighting fixture and carefully place

(unbroken) into appropriate containers (original transport boxes or equivalent). In the

event of a lighting tube/lamp breaking, sweep and place waste in double plastic taped

bags and dispose of as universal waste as specified herein.


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3.4 STORAGE FOR DISPOSALL A. Storage Containers for PCBs: 49 CFR 178. Store PCB in containers approved by DOT for

PCB.

B. Storage Containers for lamps: Store mercury containing lamps in appropriate DOT

containers. The boxes shall be stored and labeled for transport in accordance with 40 CFR

273.

C. Labeling of Waste Containers – Label with the following:

1. Date the item was placed in storage and the name of the cognizant activity/building.

2. ʺCaution Contains PCB,ʺ conforming to 40 CFR 761, CFR Subpart C. Affix labels to

PCB waste containers.

3. Label mercury containing lamp waste in accordance with 40 CFR 273. Affix labels to

all lighting waste containers.

3.5 DISPOSAL A. Identification Number: Federal regulations 40 CFR 761, and 40 CFR 263 require that

generators, transporters, commercial storage, and disposers of PCB waste possess U.S.

EPA identification numbers. The contractor shall verify that the activity has a U.S. EPA

generator identification number for use on the Uniform Hazardous Waste manifest. If not,

the contractor shall advise the activity that it must file and obtain an I.D. number with EPA

prior to commencement of removal work. For mercury containing lamp removal, Federal

regulations 40 CFR 273 require that large quantity handlers of Universal waste (LQHUW)

must provide notification of universal waste management to the appropriate EPA Region

(or state director in authorized states), obtain an EPA identification number, and retain

records for three years of off‐site shipments of universal waste.

B. Transporter Certification: Comply with disposal and transportation requirements outlined

in 40 CFR 761 and 40 CFR 263. Before transporting the PCB waste, sign and date the

manifest acknowledging acceptance of the PCB waste from the City. Return a signed copy

to the City before leaving the job site. Ensure that the manifest accompanies the PCB waste

at all times. Submit transporter certification of notification to EPA of their PCB waste

activities (EPA Form 7710‐53).

C. Certificate of Disposal and/or Recycling: 40 CFR 761. Certificate for the PCBs and PCB

items disposed shall include:

1. The identity of the disposal and/or recycling facility; by name, address, and EPA

identification number.

2. The identity of the PCB waste affected by the Certificate of Disposal including

reference to the manifest number for the shipment.

3. A statement certifying the fact of disposal and/or recycling of the identified PCB

waste, including the date(s) of disposal, and identifying the disposal process used.

4. A certification as defined in 40 CFR 761.



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SECTION 11 2000 COMMERCIAL EQUIPMENT – VENDING MISERS

PART 1 - GENERAL


1. General provisions of the Subcontract apply to this Section.

2. Review these documents for coordination with additional requirements and


B. Section Includes:

1. Vending Machine Occupancy Sensors.


1. Division 01 Section, General Requirements.

2. Division 01 Section, Special Procedures.

3. Division 26 Section, Electrical service and distribution.

1.2 REFERENCES A. General:

1. The following documents form part of the Specifications to the extent stated. Where

differences exist between codes and standards, the one affording the greatest

protection shall apply.

2. Unless otherwise noted, the referenced standard edition is the current one at the

time of commencement of the Work.

3. Refer to Division 01 Section, General Requirements for the list of applicable

regulatory requirements.

4. Refer to Division 23 Section, Common Results for HVAC for codes and standards,

and other general requirements.

B. American National Standards Institute (ANSI):

1. ANSI/NFPA 101 – Life Safety Code.

2. ANSI/NFPA 70 – National Electrical Code.

C. Underwriters Laboratories, Inc. (UL).

D. National Electrical Manufacturers Association (NEMA) Publications.

E. California Title 24, Non‐Residential: Section 120 (Mechanical).

1.3 SUBMITTALS A. Provide complete system drawings, wiring diagrams, and written detailed operational

description of sequences, and description and engineering data on each control system

component. Include sizing as requested.


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B. Samples: Submit samples for finish, color, and texture.

C. Submit manufacturerʹs installation instructions.

D. Submit warranty documentation.

1.4 QUALITY ASSURANCE A. Electrical components, devices, and accessories will be listed and labeled as defined in

NFPA 70, Article 100, by a testing agency acceptable to authorities having jurisdiction, and

marked for intended use.

1.5 WARRANTY A. Warranty Period: Five years from date of purchase.

PART 2 - PRODUCTS

2.1 MANUFACTURERS A. Occupancy Sensors

1. EnergyMiser – VendingMiser VM150, or equivalent.

B. Substitutions: Under provisions of Division 01 Section, General Requirements

2.2 SYSTEM REQUIREMENTS A. Provide control systems consisting of occupancy sensors to operate vending machines and

to perform functions specified.

B. Provide materials and field work necessary to connect control components factory‐

supplied as part of equipment controlled, unless specified otherwise.

C. Unless specified otherwise, provide fully proportional components.

2.3 OCCUPANCY SENSORS A. Shall use Passive Infrared (PIR) motion detection.

B. Shall use PIR to initially detect motion and turn on vending machine units. PIR shall be

used to keep vending machine units on while occupied.

C. Manual timer settings shall be available up to 15 min.

PART 3 - EXECUTION

3.1 INSTALLATION A. Check and verify location of vending machines with plans and room details before

installation. Locate EnergyMisers on wall or on machine.

B. Occupancy Sensor Locations: Sensor locations indicated are diagrammatic. Within the

design intent, reasonably minor adjustments to locations may be made in order to

optimize coverage and avoid conflicts or problems affecting coverage, in accordance with

manufacturerʹs recommendations.

C. Contractor is responsible for coordinating, delivery, proper storage (if necessary),

installation, startup and first year of labor warranty. Installation includes replacement of

missing and/or damaged materials and final connections to vending machine units.

3.2 FIELD QUALITY CONTROL


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A. Perform the following field tests and inspections:

1. Operational Test: After electrical circuitry has been energized, start units to confirm

proper unit operation.

2. Test and adjust controls and safeties.

3. Test each control loop to verify stable mode of operation and compliance with

sequence of operations.

3.3 DEMONSTATION A. Engage a factory authorized service representative to train Ownerʹs maintenance

personnel or Owner’s authorized maintenance company to adjust, operate, and maintain

vending machine instrumentation and controls.

PART 4 - MATERIAL SCHEDULE

4.1 OCCUPANCY SENSORS FOR VENDING MACHINE CONTROL A. EnergyMiser – VendingMiser VM150, or equivalent.

1. Includes PIR occupancy sensor and indoor wall mount

a. For use in locations where vending machine placements are not subject to

change

b. Separate sensor assembly provides flexibility in placement to achieve best

occupancy detection

2. External EnergyMisers use a controller and machine mounted sensor to monitor

room occupancy and temperature

a. If 15 minutes pass without pedestrian traffic, the EnergyMiser will power

down the machine

b. The machine is powered back up when people return and at regular intervals

to keep products cold.

3. Specifications:

a. Input voltage: 115V

b. Input frequency 50/60 Hz

c. Maximum load: 12A (steady‐state)

d. Power consumption: less than 1W (standby)

e. Occupancy timeout: 15 minutes

f. Auto re‐power: 90 minutes maximum. Dynamically adjusted, based on

ambient temperature

g. Dimensions: 4.5ʺW x 1.75ʺH x 3.25ʺD

h. Weight: 2.2 lb

END OF SECTION – 11 2000


18

SECTION 23 0000 GENERAL MECHANICAL REQUIREMENTS

PART 1 - GENERAL

1.1 SUMMARY A. General provisions of the Subcontract apply to this Section.

B. Review these documents for coordination with additional requirements and


1.2 SCOPE A. Basic mechanical requirements specifically applicable to Division 23 Sections.

B. Work includes but is not necessarily limited to the following:

Labor, materials, services, equipment, and appliances required for completion of

tasks as indicated in specification or as inherently necessary to prepare spaces

and systems for new installations as follows:

a. Heating, ventilating, and air conditioning systems and equipment

b. Testing, adjusting, and balancing

1.3 DRAWINGS AND SPECIFICATIONS A. The Contractor shall furnish mechanical plans/drawings showing the scope of the

project.

B. Drawings accompanying these Specifications show intent of Work to be done.

Specifications shall identify quality and grade of installation and where equipment and

hardware is not particularly specified, Contractor shall provide submittals for all

products and install them per manufacturers’ recommendations, and in a first‐class

manner.

C. Examine specifications for elements in connection with this Work; determine existing

and new general construction conditions and be familiar with all limitations caused by

such conditions.

D. Plans are intended to show general arrangement and extent of Work contemplated.

Exact location and arrangement of parts shall be determined after the Owner has

reviewed equipment, as Work progresses, to conform in best possible manner with

surroundings, and as directed by the Owner.

E. Follow dimensions without regard to scale. Where no figures or notations are given,

the Plans shall be followed.

1.4 UTILITIES A. Location and sizes of electrical, mechanical, and plumbing service facilities are shown

in accordance with data secured from existing record drawings and site observations.

Data shown are offered as an estimating guide without guarantee of accuracy. Check


19

and verify all data given, and verify exact location of all utility services pertaining to

Work prior to excavation or performing Work.

1.5 APPLICABLE REFERENCE STANDARDS, CODES, AND REGULATIONS A. Meet requirements of all state codes having jurisdiction.

B. State of California Code of Regulations:

Title 8, Industrial Relations

Title 19, State Fire Marshal Regulations

2016 California Building Code, Title 24, Part 2

2016 California Electrical Code, Title 24, Part 3

2016 California Mechanical Code, Title 24, Part 4

2016 California Plumbing Code, Title 24, Part 5

2016 California Fire Code, Title 24, Part 9

2016 California Standards Code, Title 24, Part 12

2016 California Title 24, Energy Conservation Standards

C. Additional Reference Standards:

AABC – Associated Air Balance Council

AMCA – Air Moving and Conditioning Association

AHRI – Air Conditioning, Heating and Refrigeration Institute

ASHRAE – American Society of Heating, Refrigeration and Air Conditioning

Engineers

ASME – American Society of Mechanical Engineers

ASTM – American Society of Testing Materials

NEMA – National Electrical Manufacturer’s Association

NFPA – National Fire Protection Association Standards

PDA – Plumbing and Drainage Institute

UL – Underwriters Laboratories

D. Codes and ordinances having jurisdiction over Work are minimum requirements; but,

if Contract Documents indicate requirements, which are in excess of those minimum

requirements, then requirements of the Contract Documents shall be followed. Should

there be any conflicts between Contract Documents or codes or any ordinances having

jurisdiction, report these to the Owner.

E. Obtain permits and request inspections from authority having jurisdiction.

1.6 PROJECT AND SITE CONDITIONS A. The arrangement of, and connection to, equipment shown on the Drawings is based

upon information available and is not intended to show exact dimensions peculiar to a

specific manufacturer. The Mechanical Drawings are, in part, diagrammatic and some

features of the illustrated equipment installations may require revision to meet actual

equipment installation requirements. Structural supports, housekeeping pads, piping

connections, and adjacent equipment may have to be altered to accommodate the


20

equipment provided. No additional payment will be made for such revisions or

alterations.

B. Examine all specifications to be fully cognizant of all work required under this

Division.

C. Examine site related work and surfaces before starting work of any Section.

D. Prepare revised shop drawings showing proposed rearrangement of Work to meet

Project conditions, including changes to Work specified in other Sections. Obtain

permission from the Owner before proceeding.

E. Beginning work of any Section constitutes acceptance of conditions.

1.7 COOPERATION WITH WORK UNDER OTHER DIVISIONS A. Cooperate with other trades to facilitate general progress of Work. Allow all other

trades every reasonable opportunity for installation of their work.

B. Work under this Division shall follow general building construction closely. Set pipe

sleeves and inserts and verify that openings for chases and pipes are provided.

C. Work with other trades in determining exact location of outlets, pipes, and pieces of

equipment to avoid interference with lines required to maintain proper installation of

Work.

D. Make such progress in the Work to not delay work of other trades.

E. Mechanical Work shall have precedence over the other in the following sequence:

Soil and waste piping

Hydronic piping

Ductwork

Fire sprinkler piping

Domestic water piping

1.8 DISCREPANCIES A. The Contractor shall check conduct the site visit and shall promptly notify the Owner

of any discrepancies.

B. Where requirements between Drawings (if available) and Specifications conflict, the

more restrictive provisions shall apply. Also, see Contract General Conditions.

C. If any part of the Specifications or Drawings (if available) appears unclear or

contradictory, apply to Owner for interpretation and decision as early as possible,

including during bidding period. Beginning work of any Section constitutes acceptance

of conditions.

1.9 CHANGES A. The Contractor shall be responsible to make and obtain approval from the Owner for

all necessary adjustments in piping and equipment layouts as required to

accommodate the relocations of equipment and/or devices, which are affected by any

approved authorized changes or Product substitutions. All changes shall be clearly

indicated on the ʺRecordʺ drawings.

1.10 SUBMITTALS


21

A. Refer to Division 01 for additional requirements.

B. The manufacturer, contractor, or supplier shall include a written statement that the

submitted equipment, hardware, or accessory complies with the requirement of that

particular specification section.

The manufacturer shall resubmit the specification section showing compliance

with each respective paragraph and specified items and features in that

particular specification section.

All exceptions shall be clearly identified by referencing respective paragraph and

other requirements along with proposed alternative.

C. Note that prior to acceptance of shop drawings for review, a submittal schedule shall

be submitted to the Owner.

D. Submit all Division 23 shop drawings and product data grouped and referenced by the

specification technical section numbers in one complete submittal package.

E. Shop Drawings:

Provide all shop drawings in latest version of AutoCAD format. FTP upload is

acceptable.

Drawings shall be a minimum of 8.5 inches by 11 inches in size with a minimum

scale of ¼ inch per foot, except as specified otherwise.

Include installation details of equipment indicating proposed location, layout

and arrangement, accessories, piping, and other items that must be shown to

assure a coordinated installation.

Indicate adequate clearance for operation, maintenance, and replacement of

operating equipment devices.

If equipment is disapproved, revise drawings to show acceptable equipment and

resubmit.

F. Whenever more than one manufacturer’s product is specified, the first named product

is the basis of design used in the Work and the use of alternate named manufacturer’s

products or substitutes may require modifications in that design.

G. Proposed Products List: Include Products as required by the individual section in this

Division.

H. The Contractor shall be responsible for all equipment ordered and/or installed prior to

receipt of shop drawings returned from the Owner bearing a stamp of ʺReviewed.ʺ All

corrections or modifications to the equipment as noted on the shop drawings shall be

performed and equipment be removed from the job site at the request of the Owner

without additional compensation.

I. Manufacturerʹs Data: For each manufactured item, provide current manufacturerʹs

descriptive literature of cataloged products, certified equipment drawings, diagrams,

performance and characteristic curves if applicable, and catalog cuts.

J. Standard Compliance: When materials or equipment provided by the Contractor must

conform to the standards of organizations such as American National Standards

Institute (ANSI) or American Water Works Association (AWWA), submit proof of such


22

conformance to the Owner for approval. If an organization uses a label or listing to

indicate compliance with a particular standard, the label or listing will be acceptable

evidence, unless otherwise specified. In lieu of the label or listing, submit a certificate

from an independent testing organization, which is competent to perform acceptance

testing and is approved by the Owner. The certificate shall state that the item has been

tested in accordance with the specified organizationʹs test methods and that the item

conforms to the specified organizationʹs standard.

K. Certified Test Reports: Before delivery of materials and equipment, certified copies of

all test reports specified in individual sections shall be submitted for approval.

L. Certificates of Compliance or Conformance: Submit manufacturerʹs certifications as

required on products, materials, finish, and equipment indicated in the technical

sections. Certifications shall be documents prepared specifically for this Contract. Pre‐

printed certifications and copies of previously submitted documents will not be

acceptable. The manufacturerʹs certifications shall name the appropriate products,

equipment, or materials and the publication specified as controlling the quality of that

item. Certification shall not contain statements to imply that the item does not meet

requirements specified, such as ʺas good as,ʺ or ʺachieve the same end use and results

as materials formulated in accordance with the referenced publications,ʺ or ʺequal or

exceed the service and performance of the specified material.ʺ Certifications shall

simply state that the item conforms to the requirements specified. Certificates shall be

printed on the manufacturerʹs letterhead and shall be signed by the manufacturerʹs

official authorized to sign certificates of compliance or conformance.

1.11 PRODUCT ALERTNATIVES OR SUBSTITUTIONS A. Refer to General Conditions and Division 01 for additional requirements

1.12 POSTED OPERATING INSTRUCTIONS A. Furnish approved operating instructions for systems and equipment indicated in the

technical sections for use by operation and maintenance personnel.

B. The operating instructions shall include control diagrams, and control sequence for

each principal system and equipment. Print or engrave operating instructions and

frame under glass or in approved laminated plastic. Post instructions as directed.

Attach or post operating instructions adjacent to each principal system and equipment.

Provide weather‐resistant materials or weatherproof enclosures for operating

instructions exposed to the weather. Operating instructions shall not fade when

exposed to sunlight and shall be secured to prevent easy removal or peeling.

1.13 MANUFACTURER’S RECOMMENDATION A. Where installation procedures or any part thereof are required to be in accordance with

manufacturerʹs recommendations, furnish printed copies of the recommendations

prior to installation. Installation of the item shall not proceed until recommendations

are received. Failure to furnish recommendations shall be cause for rejection of the

equipment or material.


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1.14 DELIVERY AND STORAGE A. Refer to Division 01 for additional requirements.

B. Handle, store, and protect equipment and materials in accordance with the

manufacturerʹs recommendations. Replace damaged or defective items with new

items.

1.15 EXTRA MATERIALS A. Refer to Division 01 for additional requirements.

B. Unless otherwise specified, spare parts, wherever required by detailed specification

sections, shall be stored in accordance with the provisions of this paragraph. Spare

parts shall be tagged by project equipment number and identified as to part number,

equipment manufacturer, and subassembly component (if appropriate). Spare parts

subject to deterioration, such as ferrous metal items and electrical components, shall be

properly protected by lubricants or desiccants and encapsulated in hermetically sealed

plastic wrapping. Spare parts with individual weights less than 50 pounds and

dimensions less than 2 feet wide, or 18 inches high, or 3 feet in length shall be stored in

a wooden box with a hinged wooden cover and locking hasp. Hinges shall be strap

type. The box shall be painted and identified with stenciled lettering stating the name

of the equipment, equipment numbers, and the words “spare parts.” A neatly typed

inventory of spare parts shall be taped to the underside of the cover.



24

PART 3 - EXECUTION

3.1 GENERAL A. Obtain and pay for all permits and inspections, including any independent testing

required to verify standard compliance, and deliver certificates for same to the Owner.

3.2 WORK RESPONSIBILITIES A. The Mechanical Drawings indicate diagrammatically the desired locations or

arrangement of piping, equipment, etc., and are to be followed as closely as possible.

Proper judgment must be exercised in executing the work to secure the best possible

installation in the available space and to overcome local difficulties due to space

limitations or interference with structural conditions

B. The Contractor is responsible for the correct placing of Work and the proper location

and connection of Work in relation to the work of other trades. Advise appropriate

trade as to locations of access panels.

C. In the event that changes in the indicated locations or arrangements are necessary due

to developed conditions in the building construction or rearrangement of furnishings

or equipment, such changes shall be made without extra cost, providing the change is

ordered before the ductwork, piping, etc., and work directly connected to same is

installed and no extra materials are required.

D. Where equipment is furnished by others, verify dimensions and the correct locations of

this equipment before proceeding with the roughing‐in of connections.

E. All scaled and figured dimensions are approximate of typical equipment of the class

indicated. Before proceeding with any work, carefully check and verify all dimensions,

sizes, etc., with the drawings to see that the equipment will fit into the spaces provided

without violation of applicable codes.

F. Should any changes to the Work indicated on the Drawings or described in the

Specifications be necessary in order to comply with the above requirements, notify the

Owner immediately and cease work on all parts of the contract, which are affected

until approval for any required modifications to the construction has been obtained

from the Owner.

G. Be responsible for any cooperative work, which must be altered due to lack of proper

supervision or failure to make proper provisions in time. Such changes shall be under

direction of the Owner and shall be made to his satisfaction. Perform all Work with

competent and skilled personnel.

H. All work, including aesthetic as well as mechanical aspects of the Work, shall be of the

highest quality consistent with the best practices of the trade.

I. Replace or repair, without additional compensation, any Work which, in the opinion of

the Owner, does not comply with these requirements.


25

3.3 PAINTING A. Factory Applied:

Mechanical equipment shall have factory applied painting systems which shall,

at a minimum, meet the requirements of NEMA ICS 6 corrosion resistance test.

Refer to individual sections of this Division for more stringent requirements.

B. Field Applied:

Paint all mechanical equipment as required to touch up, to match finish on other

equipment in adjacent spaces or to meet safety criteria



26

SECTION 23 0700 HVAC INSULATION

PART 1 - GENERAL

1.1 SUMMARY A. Section Includes:

1. Insulation Materials:

a. Flexible elastomeric.

b. Mineral fiber.

2. Insulating cements.

3. Adhesives.

4. Mastics.

5. Sealants.

6. Field‐applied jackets.

7. Tapes.

8. Securements.

9. Corner angles.

B. Related Sections:

1. Division 22 Section ʺPlumbing Insulation.ʺ

1.2 SUBMITTALS A. Product Data: For each type of product indicated.

B. Shop Drawings:

1. Detail application of protective shields, saddles, and inserts at hangers for each

type of insulation and hanger.

2. Detail insulation application at elbows, fittings, flanges, valves, and specialties

for each type of insulation.

3. Detail removable insulation at piping specialties, equipment connections, and

access panels.

4. Detail application of field‐applied jackets.

5. Detail application at linkages of control devices.

6. Detail field application for each equipment type.

C. Field quality‐control reports.

1.3 QUALITY ASSURANCE A. Fire‐Test‐Response Characteristics: Insulation and related materials shall have fire‐test‐

response characteristics indicated, as determined by testing identical products per

ASTM E 84, by a testing and inspecting agency acceptable to authorities having

jurisdiction. Factory label insulation and jacket materials and adhesive, mastic, tapes,

and cement material containers, with appropriate markings of applicable testing and

inspecting agency.


27

1. Insulation Installed Indoors: Flame‐spread index of 25 or less, and smoke‐

developed index of 50 or less.

2. Insulation Installed Outdoors: Flame‐spread index of 75 or less, and smoke‐

developed index of 150 or less.

PART 2 - PRODUCTS

2.1 INSULATION MATERIALS A. Comply with requirements in Part 3 schedule articles for where insulating materials

shall be applied.

B. Products shall not contain asbestos, lead, mercury, or mercury compounds.

C. Products that come in contact with stainless steel shall have a leachable chloride

content of less than 50 ppm when tested according to ASTM C 871.

D. Insulation materials for use on austenitic stainless steel shall be qualified as acceptable

according to ASTM C 795.

E. Foam insulation materials shall not use CFC or HCFC blowing agents in the

manufacturing process.

F. Mineral‐Fiber Board Insulation: Mineral or glass fibers bonded with a thermosetting

resin. Comply with ASTM C 612, Type IA or Type IB. For duct and plenum

applications, provide insulation with factory‐applied FSK jacket. For equipment

applications, provide insulation with factory‐applied ASJ. Factory‐applied jacket

requirements are specified in ʺFactory‐Applied Jacketsʺ Article.

1. Products: Subject to compliance with requirements, provide one of the

following:

a. CertainTeed Corp.; Commercial Board.

b. Johns Manville; 800 Series Spin‐Glas.

c. Knauf Insulation; Insulation Board.

d. Owens Corning; Fiberglas 700 Series.

G. Mineral‐Fiber, Preformed Pipe Insulation:


following:

a. Johns Manville; Micro‐Lok.

b. Knauf Insulation; 1000 Pipe Insulation.

c. Owens Corning; Fiberglas Pipe Insulation.

2. Type I, 850 deg F Materials: Mineral or glass fibers bonded with a thermosetting

resin. Comply with ASTM C 547, Type I, Grade A, with factory‐applied ASJ.

Factory‐applied jacket requirements are specified in ʺFactory‐Applied Jacketsʺ

Article.

2.2 INSULATING CEMENTS A. Mineral‐Fiber, Hydraulic‐Setting Insulating and Finishing Cement: Comply with

ASTM C 449/C 449M.


28

1. 1. Products: Subject to compliance with requirements, provide one of the

following:

a. Insulco, Division of MFS, Inc.; SmoothKote.

b. P. K. Insulation Mfg. Co., Inc.; PK No. 127, and Quik‐Cote.

c. Rock Wool Manufacturing Company; Delta One Shot.

2.3 ADHESIVES A. Materials shall be compatible with insulation materials, jackets, and substrates and for

bonding insulation to itself and to surfaces to be insulated, unless otherwise indicated.

B. Adhesives to be waterproof fire‐retardant type.

C. For indoor applications, use adhesive for Flexible Elastomeric, ASJ, and PVC Jacket

that has a VOC content of 50 g/L or less and for Mineral‐Fiber Adhesive that has a

VOC content of 80 g/L or less when calculated according to 40 CFR 59, Subpart D (EPA

Method 24).

2.4 MASTICS A. Materials shall be compatible with insulation materials, jackets, and substrates.

2.5 SEALANTS A. Joint Sealants:

1. Materials shall be compatible with insulation materials, jackets, and substrates.

2. Permanently flexible, elastomeric sealant.

3. Service Temperature Range: Minus 100 to plus 300 deg F.

4. For indoor applications, use sealants that have a VOC content of 420 g/L or less

when calculated according to 40 CFR 59, Subpart D (EPA Method 24).

B. FSK and Metal Jacket Flashing Sealants:


following:

a. Childers Products, Division of ITW; CP‐76‐8.

b. Foster Products Corporation, H. B. Fuller Company; 95‐44.

c. Vimasco Corporation; 750.


3. Fire‐ and water‐resistant, flexible, elastomeric sealant.


5. Color: Aluminum.



C. ASJ Flashing Sealants, and Vinyl, PVDC, and PVC Jacket Flashing Sealants:


2. Fire‐ and water‐resistant, flexible, elastomeric sealant.


4. Color: White.


29



2.6 FACTORY-APPLIED JACKETS A. Insulation system schedules indicate factory‐applied jackets on various applications.

When factory‐applied jackets are indicated, comply with the following:

1. ASJ: White, kraft‐paper, fiberglass‐reinforced scrim with aluminum‐foil backing;

complying with ASTM C 1136, Type I.

2. FSK Jacket: Aluminum‐foil, fiberglass‐reinforced scrim with kraft‐paper backing;

complying with ASTM C 1136, Type II.

2.7 TAPES A. ASJ Tape: White vapor‐retarder tape matching factory‐applied jacket with acrylic

adhesive, complying with ASTM C 1136.


following:

a. Avery Dennison Corporation, Specialty Tapes Division; Fasson 0835.

b. Compac Corp.; 104 and 105.

c. Ideal Tape Co., Inc., an American Biltrite Company; 428 AWF ASJ.

d. Venture Tape; 1540 CW Plus, 1542 CW Plus, and 1542 CW Plus/SQ.

2. Width: 3 inches.

3. Thickness: 11.5 mils.

4. Adhesion: 90 ounces force/inch in width.

5. Elongation: 2 percent.

6. Tensile Strength: 40 lbf/inch in width.

7. ASJ Tape Disks and Squares: Precut disks or squares of ASJ tape.

B. FSK Tape: Foil‐face, vapor‐retarder tape matching factory‐applied jacket with acrylic

adhesive; complying with ASTM C 1136.


following:


b. Compac Corp.; 110 and 111.

c. Ideal Tape Co., Inc., an American Biltrite Company; 491 AWF FSK.

d. Venture Tape; 1525 CW, 1528 CW, and 1528 CW/SQ.

2. Width: 3 inches.

3. Thickness: 6.5 mils.




7. FSK Tape Disks and Squares: Precut disks or squares of FSK tape.

C. PVC Tape: White vapor‐retarder tape matching field‐applied PVC jacket with acrylic

adhesive. Suitable for indoor and outdoor applications.


30


following:


b. Compac Corp.; 130.

c. Ideal Tape Co., Inc., an American Biltrite Company; 370 White PVC tape.

d. Venture Tape; 1506 CW NS.

2. Width: 2 inches.

3. Thickness: 6 mils.




2.8 SECUREMENTS A. Aluminum Bands: ASTM B 209, Alloy 3003, 3005, 3105, or 5005; Temper H‐14, 0.020

inch thick, 1/2 inch wide with wing or closed seal.

B. Insulation Pins and Hangers:

1. Metal, Adhesively Attached, Perforated‐Base Insulation Hangers: Baseplate

welded to projecting spindle that is capable of holding insulation, of thickness

indicated, securely in position indicated when self‐locking washer is in place.

Comply with the following requirements:

a. Baseplate: Perforated, galvanized carbon‐steel sheet, 0.030 inch thick by 2

inches square.

b. Spindle: Copper‐ or zinc‐coated, low carbon steel, fully annealed, 0.106‐

inchdiameter shank, length to suit depth of insulation indicated.

c. Adhesive: Recommended by hanger manufacturer. Product with

demonstrated capability to bond insulation hanger securely to substrates

indicated without damaging insulation, hangers, and substrates.

2. Self‐Sticking‐Base Insulation Hangers: Baseplate welded to projecting spindle

that is capable of holding insulation, of thickness indicated, securely in position

indicated when self‐locking washer is in place. Comply with the following

requirements:

a. Baseplate: Galvanized carbon‐steel sheet, 0.030 inch thick by 2 inches

square.

b. Spindle: Copper‐ or zinc‐coated, low carbon steel, fully annealed, 0.106‐

inchdiameter shank, length to suit depth of insulation indicated.

c. Adhesive‐backed base with a peel‐off protective cover.

3. Insulation‐Retaining Washers: Self‐locking washers formed from 0.016‐inch‐

thick, galvanized‐steel sheet, with beveled edge sized as required to hold

insulation securely in place but not less than 1‐1/2 inches in diameter.


31

a. Protect ends with capped self‐locking washers incorporating a spring steel

insert to ensure permanent retention of cap in exposed locations.

C. Wire: 0.062‐inch soft‐annealed, stainless steel.

2.9 CORNER ANGLES A. PVC Corner Angles: 30 mils thick, minimum 1 by 1 inch, PVC according to ASTM D

1784, Class 16354‐C. White or color‐coded to match adjacent surface.

B. Aluminum Corner Angles: 0.040 inch thick, minimum 1 by 1 inch, aluminum

according to ASTM B 209, Alloy 3003, 3005, 3105 or 5005; Temper H‐14.

PART 3 - EXECUTION

3.1 PREPARATION A. Surface Preparation: Clean and dry surfaces to receive insulation. Remove materials

that will adversely affect insulation application.

B. Coordinate insulation installation with the trade installing heat tracing. Comply with

requirements for heat tracing that apply to insulation.

C. Mix insulating cements with clean potable water; if insulating cements are to be in

contact with stainless‐steel surfaces, use demineralized water.

3.2 GENERAL INSTALLATION REQUIREMENTS A. Install insulation materials, accessories, and finishes with smooth, straight, and even

surfaces; free of voids throughout the length of equipment, ducts and fittings, and

piping including fittings, valves, and specialties.

B. Install insulation materials, forms, vapor barriers or retarders, jackets, and thicknesses

required for each item of equipment, duct system, and pipe system as specified in

insulation system schedules.

C. Install accessories compatible with insulation materials and suitable for the service.

Install accessories that do not corrode, soften, or otherwise attack insulation or jacket in

either wet or dry state.

D. Install insulation with longitudinal seams at top and bottom of horizontal runs.

E. Install multiple layers of insulation with longitudinal and end seams staggered.

F. Do not weld brackets, clips, or other attachment devices to piping, fittings, and

specialties.

G. Keep insulation materials dry during application and finishing.

H. Install insulation with tight longitudinal seams and end joints. Bond seams and joints

with adhesive recommended by insulation material manufacturer.

I. Install insulation with least number of joints practical.

J. Where vapor barrier is indicated, seal joints, seams, and penetrations in insulation at

hangers, supports, anchors, and other projections with vapor‐barrier mastic.

1. Install insulation continuously through hangers and around anchor attachments.

2. For insulation application where vapor barriers are indicated, extend insulation

on anchor legs from point of attachment to supported item to point of


32

attachment to structure. Taper and seal ends at attachment to structure with

vapor‐barrier mastic.

3. Install insert materials and install insulation to tightly join the insert. Seal

insulation to insulation inserts with adhesive or sealing compound

recommended by insulation material manufacturer.

4. Cover inserts with jacket material matching adjacent pipe insulation. Install

shields over jacket, arranged to protect jacket from tear or puncture by hanger,

support, and shield.

K. Apply adhesives, mastics, and sealants at manufacturerʹs recommended coverage rate

and wet and dry film thicknesses.

L. Install insulation with factory‐applied jackets as follows:

1. Draw jacket tight and smooth.

2. Cover circumferential joints with 3‐inch‐ wide strips, of same material as

insulation jacket. Secure strips with adhesive and outward clinching staples

along both edges of strip, spaced 4 inches o.c.

3. Overlap jacket longitudinal seams at least 1‐1/2 inches. Install insulation with

longitudinal seams at bottom of pipe. Clean and dry surface to receive self‐

sealing lap.

4. Cover joints and seams with tape as recommended by insulation material

manufacturer to maintain vapor seal.

5. Where vapor barriers are indicated, apply vapor‐barrier mastic on seams and

joints and at ends adjacent to pipe flanges and fittings.

M. Cut insulation in a manner to avoid compressing insulation more than 75 percent of its

nominal thickness.

N. Finish installation with systems at operating conditions. Repair joint separations and

cracking due to thermal movement.

O. Repair damaged insulation facings by applying same facing material over damaged

areas. Extend patches at least 4 inches beyond damaged areas. Adhere, staple, and seal

patches similar to butt joints.

P. For above ambient services, do not install insulation to the following:

1. Vibration‐control devices.

2. Testing agency labels and stamps.

3. Nameplates and data plates.

4. Manholes.

5. Handholes.

6. Cleanouts.

3.3 PENETRATIONS A. Insulation Installation at Roof Penetrations: Install insulation continuously through

roof penetrations.

1. Seal penetrations with flashing sealant.


33

2. For applications requiring only indoor insulation, terminate insulation above

roof surface and seal with joint sealant. For applications requiring indoor and

outdoor insulation, install insulation for outdoor applications tightly joined to

indoor insulation ends. Seal joint with joint sealant.

3. Extend jacket of outdoor insulation outside roof flashing at least 2 inches below

top of roof flashing.

4. Seal jacket to roof flashing with flashing sealant.

B. Insulation Installation at Underground Exterior Wall Penetrations: Terminate

insulation flush with sleeve seal. Seal terminations with flashing sealant.

C. Insulation Installation at Aboveground Exterior Wall Penetrations: Install insulation

continuously through wall penetrations.

1. Seal penetrations with flashing sealant.

2. For applications requiring only indoor insulation, terminate insulation inside

wall surface and seal with joint sealant. For applications requiring indoor and

outdoor insulation, install insulation for outdoor applications tightly joined to

indoor insulation ends. Seal joint with joint sealant.

3. Extend jacket of outdoor insulation outside wall flashing and overlap wall

flashing at least 2 inches.

4. Seal jacket to wall flashing with flashing sealant.

D. Insulation Installation at Interior Wall and Partition Penetrations (That Are Not Fire

Rated): Install insulation continuously through walls and partitions.

E. Insulation Installation at Fire‐Rated Wall and Partition Penetrations: Install insulation

continuously through penetrations of fire‐rated walls and partitions. Terminate

insulation at fire damper sleeves for fire‐rated wall and partition penetrations.

Externally insulate damper sleeves to match adjacent insulation and overlap duct

insulation at least 2 inches.

1. Comply with requirements in Division 07 Section ʺPenetration Firestoppingʺ

Firestopping and fire‐resistive joint sealers.

F. Insulation Installation at Floor Penetrations:

1. Duct: Install insulation continuously through floor penetrations that are not fire

rated. For penetrations through fire‐rated assemblies, terminate insulation at fire

damper sleeves and externally insulate damper sleeve beyond floor to match

adjacent duct insulation. Overlap damper sleeve and duct insulation at least 2

inches.

2. Pipe: Install insulation continuously through floor penetrations.

3. Seal penetrations through fire‐rated assemblies. Comply with requirements in

Division 07 Section ʺPenetration Firestopping.ʺ

G. Insulation Installation on Pumps:

1. Fabricate metal boxes lined with insulation. Fit boxes around pumps and

coincide box joints with splits in pump casings. Fabricate joints with outward

bolted flanges. Bolt flanges on 6‐inch centers, starting at corners. Install 3/8‐inch‐

diameter fasteners with wing nuts. Alternatively, secure the box sections

together using a latching mechanism.


34

2. Fabricate boxes from aluminum, at least 0.050 inch thick.

3. For below ambient services, install a vapor barrier at seams, joints, and

penetrations. Seal between flanges with replaceable gasket material to form a

vapor barrier.

3.4 GENERAL PIPE INSULATION INSTALLATION A. Requirements in this article generally apply to all insulation materials except where

more specific requirements are specified in various pipe insulation material installation

articles.

B. Insulation Installation on Fittings, Valves, Strainers, Flanges, and Unions:

1. Install insulation over fittings, valves, strainers, flanges, unions, and other

specialties with continuous thermal and vapor‐retarder integrity, unless

otherwise indicated.

2. Insulate pipe elbows using preformed fitting insulation or mitered fittings made

from same material and density as adjacent pipe insulation. Each piece shall be

butted tightly against adjoining piece and bonded with adhesive. Fill joints,

seams, voids, and irregular surfaces with insulating cement finished to a smooth,

hard, and uniform contour that is uniform with adjoining pipe insulation.

3. Insulate tee fittings with preformed fitting insulation or sectional pipe insulation

of same material and thickness as used for adjacent pipe. Cut sectional pipe

insulation to fit. Butt each section closely to the next and hold in place with tie

wire. Bond pieces with adhesive.

4. Insulate valves using preformed fitting insulation or sectional pipe insulation of

same material, density, and thickness as used for adjacent pipe. Overlap

adjoining pipe insulation by not less than two times the thickness of pipe

insulation, or one pipe diameter, whichever is thicker. For valves, insulate up to

and including the bonnets, valve stuffing‐box studs, bolts, and nuts. Fill joints,

seams, and irregular surfaces with insulating cement.

5. Insulate strainers using preformed fitting insulation or sectional pipe insulation

of same material, density, and thickness as used for adjacent pipe. Overlap

adjoining pipe insulation by not less than two times the thickness of pipe

insulation, or one pipe diameter, whichever is thicker. Fill joints, seams, and

irregular surfaces with insulating cement. Insulate strainers so strainer basket

flange or plug can be easily removed and replaced without damaging the

insulation and jacket. Provide a removable reusable insulation cover. For below

ambient services, provide a design that maintains vapor barrier.

6. Insulate flanges and unions using a section of oversized preformed pipe

insulation. Overlap adjoining pipe insulation by not less than two times the

thickness of pipe insulation, or one pipe diameter, whichever is thicker.

7. Cover segmented insulated surfaces with a layer of finishing cement and coat

with a mastic. Install vapor‐barrier mastic for below ambient services and a

breather mastic for above ambient services. Reinforce the mastic with fabric‐

reinforcing mesh. Trowel the mastic to a smooth and well‐shaped contour.


35

8. For services not specified to receive a field‐applied jacket except for flexible

elastomeric, install fitted PVC cover over elbows, tees, strainers, valves, flanges,

and unions. Terminate ends with PVC end caps. Tape PVC covers to adjoining

insulation facing using PVC tape.

9. Stencil or label the outside insulation jacket of each union with the word

ʺUNION.ʺ Match size and color of pipe labels.

C. Insulate instrument connections for thermometers, pressure gages, pressure

temperature taps, test connections, flow meters, sensors, switches, and transmitters on

insulated pipes, vessels, and equipment. Shape insulation at these connections by

tapering it to and around the connection with insulating cement and finish with

finishing cement, mastic, and flashing sealant.

D. Install removable insulation covers at locations indicated. Installation shall conform to

the following:

1. Make removable flange and union insulation from sectional pipe insulation of

same thickness as that on adjoining pipe. Install same insulation jacket as

adjoining pipe insulation.

2. When flange and union covers are made from sectional pipe insulation, extend

insulation from flanges or union long at least two times the insulation thickness

over adjacent pipe insulation on each side of flange or union. Secure flange cover

in place with stainless‐steel or aluminum bands. Select band material compatible

with insulation and jacket.

3. Construct removable valve insulation covers in same manner as for flanges

except divide the two‐part section on the vertical center line of valve body.

4. When covers are made from block insulation, make two halves, each consisting

of mitered blocks wired to stainless‐steel fabric. Secure this wire frame, with its

attached insulation, to flanges with tie wire. Extend insulation at least 2 inches

over adjacent pipe insulation on each side of valve. Fill space between flange or

union cover and pipe insulation with insulating cement. Finish cover assembly

with insulating cement applied in two coats. After first coat is dry, apply and

trowel second coat to a smooth finish.

5. Unless a PVC jacket is indicated in field‐applied jacket schedules, finish exposed

surfaces with a metal jacket.

3.5 MINERAL-FIBER INSULLATINO INSTALLATION A. Insulation Installation on Straight Pipes and Tubes:

1. Secure each layer of preformed pipe insulation to pipe with wire or bands and

tighten bands without deforming insulation materials.

2. Where vapor barriers are indicated, seal longitudinal seams, end joints, and

protrusions with vapor‐barrier mastic and joint sealant.

3. For insulation with factory‐applied jackets secure tabs with additional adhesive

as recommended by insulation material manufacturer and seal with vapor‐

barrier mastic and flashing sealant.

B. Insulation Installation on Pipe Flanges:


36

1. Install preformed pipe insulation to outer diameter of pipe flange.

2. Make width of insulation section same as overall width of flange and bolts, plus

twice the thickness of pipe insulation.

3. Fill voids between inner circumference of flange insulation and outer

circumference of adjacent straight pipe segments with mineral‐fiber blanket

insulation.

4. Install jacket material with manufacturerʹs recommended adhesive, overlap

seams at least 1 inch, and seal joints with flashing sealant.

C. Insulation Installation on Pipe Fittings and Elbows:

1. Install preformed sections of same material as straight segments of pipe

insulation when available.

2. When preformed insulation elbows and fittings are not available, install mitered

sections of pipe insulation, to a thickness equal to adjoining pipe insulation.

Secure insulation materials with wire or bands.

D. Insulation Installation on Valves and Pipe Specialties:

1. Install preformed sections of same material as straight segments of pipe

insulation when available.

2. When preformed sections are not available, install mitered sections of pipe

insulation to valve body.

3. Arrange insulation to permit access to packing and to allow valve operation

without disturbing insulation.

4. Install insulation to flanges as specified for flange insulation application.

3.6 FIELD-APPLIED JACKET INSTALLATION A. Where FSK jackets are indicated, install as follows:

1. Draw jacket material smooth and tight.

2. Install lap or joint strips with same material as jacket.

3. Secure jacket to insulation with manufacturerʹs recommended adhesive.

4. Install jacket with 1‐1/2‐inch laps at longitudinal seams and 3‐inch‐ wide joint

strips at end joints.

5. Seal openings, punctures, and breaks in vapor‐retarder jackets and exposed

insulation with vapor‐barrier mastic.

B. Where PVC jackets are indicated, install with 1‐inch overlap at longitudinal seams and

end joints; for horizontal applications, install with longitudinal seams along top and

bottom of tanks and vessels. Seal with manufacturerʹs recommended adhesive.

1. Apply two continuous beads of adhesive to seams and joints, one bead under

lap and the finish bead along seam and joint edge.

C. Where metal jackets are indicated, install with 2‐inch overlap at longitudinal seams

and end joints. Overlap longitudinal seams arranged to shed water. Seal end joints

with weatherproof sealant recommended by insulation manufacturer. Secure jacket

with stainless‐steel bands 12 inches o.c. and at end joints.

3.7 FIELD QUALITY CONTROL A. Perform tests and inspections.


37

B. Tests and Inspections:

1. Inspect pipe, fittings, strainers, and valves, randomly selected by Architect, by

removing field‐applied jacket and insulation in layers in reverse order of their

installation. Extent of inspection shall be limited to three locations of straight

pipe, three locations of threaded fittings, three locations of welded fittings, two

locations of threaded strainers, two locations of welded strainers, three locations

of threaded valves, and three Insert number locations of flanged valves for each

pipe service defined in the ʺPiping Insulation Schedule, Generalʺ Article.

C. All insulation applications will be considered defective Work if sample inspection

reveals noncompliance with requirements.



38

SECTION 26 0160 ELECTRICAL DEMOLITION

PART 1 - GENERAL

1.1 SUMMARY A. Section includes:

1. Removal of existing electrical feeders, receptacles, electrical conduits/conductors

associated with mechanical equipment intended to be demolished or replaced.

2. The Contractor shall dispose of demolished electrical equipment as directed by

the Owner. The Owner has first right of refusal for all equipment including

copper cabling.

1.2 REFERENCES A. Environmental Protection Agency (EPA) Regulations:

1. 40 CFR 261, Identification and Listing of Hazardous Waste.

2. 40 CFR 263, Standards Applicable to Transporters of Hazardous Wastes.

3. Hazardous Waste Facilities.

B. U.S. Department of Labor, Occupational Safety and Health Administration (OSHA)

Regulation:

1. 29 CFR 1910 Subpart G, Occupational Health and Environmental Control.

C. Department of Transportation (DOT):

1. 49 CFR 178, Regulations for Shipping Container Specifications.

PART 2 - PRODUCTS

2.1 MATERIALS AND EQUIPMENT A. Materials and equipment for patching and extending work: As specified in individual

Sections, if applicable.

PART 3 - EXECUTION

3.1 EXAMINATION A. Verify that abandoned wiring and equipment serve only abandoned facilities.

B. Conduct site inspection and report discrepancies to Engineer before disturbing

existing installation.

C. Beginning of demolition means installer accepts existing conditions.

3.2 PREPARATION A. Disconnect electrical systems in and under walls, concrete, and structures scheduled

for removal.


39

B. Coordinate electrical outages with the Facility.

C. Provide temporary wiring and connections to maintain existing systems in‐service

during construction. When work must be performed on energized equipment or

circuits, use personnel experienced in such operations.

3.3 DEMOLITION AND EXTENSION OF EXISTING ELECTRICAL WORK A. Demolish existing electrical work under provisions of this Section.

B. Remove abandoned wiring to source of supply unless otherwise indicated.

C. Remove exposed abandoned conduit. Cut conduit flush with walls and floors, and

patch surfaces.

D. Disconnect and remove abandoned distribution equipment.

E. Repair adjacent construction and finishes damaged during demolition and extension

work.

F. Maintain access to existing electrical installations which remain active. Modify

installation or provide access panel as appropriate.

3.4 CLEAUP AND REPAIR A. Clean and repair existing materials and equipment which remain or are to be reused.



40

SECTION 26 0923 LIGHTING CONTROL SYSTEMS

PART 1 - GENERAL


1. Drawings and general provisions of the Subcontract apply to this Section.




1. Occupancy Sensors for Interior Lighting.

2. Photocell Sensors for Exterior Lighting.

3. Exterior Smart Controls.




3. Division 26 Section, Common Work Results for Electrical.

4. Division 26 Section, Electrical Conduit.

5. Division 26 Section, 600 Volt Conductors and Cable.

6. Division 26 Section, Boxes for Electrical Systems.

7. Division 26 Section, Lighting.

8. Division 26 Section, Wiring Devices.









4. Refer to Division 26 Section, Common Results for Electrical for codes and standards,



41

B. Illuminating Engineering Society (IES):

1. RP‐33‐99 – Recommended Practices for Exterior Environmental Lighting.

2. LM‐79 – Electrical and Photometric Measurements of Solid‐State Lighting Products.

3. LM‐80 – Measuring Lumen Maintenance of LED Light Sources.

4. TM‐15 – Luminaire Classification System for Outdoor Luminaires.

5. TM‐21 – Projecting Long Term Lumen Maintenance of LED Light Sources.

C. American National Standards Institute (ANSI):



D. National Electrical Manufacturers Association (NEMA):

1. NEMA WD 6 – Wiring Devices Dimensional Requirements.

E. Underwriters Laboratories, Inc. (UL):

1. UL 1598 – Standard for Luminaires.

2. UL 8750 – Light Emitting Diode Equipment for Use in Lighting Products.

F. California Title 24, Non‐Residential Lighting: Section 130.

1. California Building Code (CBC).

2. California Electrical Code (CEC).

G. OSHA Illumination Standards

1.3 SUBMITTALS A. Manufacturerʹs Data: Submit catalog cuts and description of each system component.

B. Provide wiring diagrams and installation details for lighting control equipment.

C. Shop Drawings: Submit a complete set of detailed Shop Drawings for the entire lighting

control system; the shop drawings shall include but not be limited to relay panels with

designations and dimensions, daylight sensors locations based on manufacturer’s

recommendations, and system components with manufacturer’s part numbers.

D. Installation Instructions: Submit manufacturerʹs written installation instructions and

wiring diagrams. Instructions shall include recommendations for handling of equipment

and parts, and protection and storage requirements.

1.4 QUALITY ASSURANCE A. Components shall be listed and labeled by Underwriterʹs Laboratories (UL), or another

Nationally Recognized Testing Laboratory (NRTL).

B. Lighting Control Systems shall comply with the state of California Building and Electrical

Codes, and Title 24 energy requirements in effect at time of submittal for building permit.

C. Conduct a coordination meeting with the lighting control contractor, electrical contractor

and Manufacturer Representative to validate the location of lighting control system

components, including daylight sensors. Sensors shall be located based on manufacturer’s

recommendations.


42

1.5 DELIVERY, STORAGE, AND HANDLING A. Store product in clean, dry space, protected from weather.

1.6 WARRANTY A. Provide a five year warranty for the Occupancy Sensors.

B. Provide a one year warranty for the Photocell Sensors.

C. Provide a five year warranty for the Wireless Sensors and one year warranty for the

Network Gateway.

PART 2 - PRODUCTS

2.1 MANUFACTURERS A. Occupancy Sensors:

1. WattStopper – Legrand North America, LLC

2. Leviton Manufacturing Co., Inc.

3. Lutron Electronics Co., Inc.

B. Photocell Sensors:


2. Leviton Manufacturing Co., Inc.

3. Intermatic, Inc.

C. Exterior Smart Controls

1. Cree


D. Substitutions: Under provisions of Division 01 Section, General Requirements.

2.2 OCCUPANCY SENSORS FOR INTERIOR LIGHTING A. General

1. Coordinate occupancy sensor locations, coverages and required quantities with

manufacturer’s recommendations. Coverage areas indicated on the Drawings are for

minor motion (6 to 8 inches of hand movement). Provide additional occupancy

sensors and control units as required to achieve complete minor motion coverage of

the space indicated.

2. Adjust occupancy sensors and test that complete minor motion coverage. Provide

written confirmation of testing to owner, architect and engineer.

3. Provide occupancy sensors with a bypass switch to override the “ON” function in

the event of sensor failure.

4. Provide occupancy sensors with an LED indicator indicating when motion is being

detected during testing and normal operation of the sensor.

5. Provide occupancy sensors and occupancy sensor control units from single

manufacturer.

B. Occupancy Sensor Control Units


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1. Description: Transformer and relay combined in single unit to provide 24DC power

to sensors and provide 20A contact(s) for control of lighting loads at 120 or 277V.

Control unit input power shall be from unswitched leg of lighting circuit it is

controlling.

a. Control units shall be provided as required to power ceiling mounted

occupancy sensors, control lighting loads and provide a minimum of one

auxiliary contact.

b. Occupancy sensor control units shall mount external to 4 sq. in. junction box in

the ceiling space. Wiring between control unit and occupancy sensor shall be

plenum rated.

c. Additional auxiliary relay modules shall be provided as required to provide

control of all lighting circuits and additional auxiliary contacts as required.

d. It is acceptable to provide controls and auxiliary contacts as required integral

to the ceiling sensor, provided all required contacts are provided.

e. Maximum of 3 sensors per power pack. Verify exact quantities required with

manufacturer.

2.3 PHOTOCELL SENSORS A. Photocells work with other components in the system to automatically adjust light levels

to a user defined level.

B. Photocells must be hardwired to a compatible lighting control system. The photocell

measures ambient light in a specific area and sends this data to a dimmer or relay that, in

turn, adjusts fixtures to a constant lighting level as measured in that specific area.

C. With the addition of photocells, the added control will provide savings for lighting

operations. Between dusk and dawn only, the photocell will keep the interior or exterior

lights on until adequate natural light becomes available.

2.4 EXTERIOR LIGHT SENSORS A. Title 24 guidelines mandate that all exterior lighting must be controlled with either a

photocell or astronomical time clock that automatically turns off the lights as daylight

becomes available. Additionally, the luminaires, with some exceptions, mounted at 24 ft.

or less from the ground must comply with the following requirements:

1. Must have motion sensors or other controls that automatically reduce lighting power

by 40 to 80 percent when the area is vacant.

2. The controls must provide auto‐on when area is occupied.

3. No more than 1,500 watt of lighting power shall be controlled together.

4. Includes wall packs as well as pole mounted fixtures.

B. The intelligent lighting control system should have the following hardware:

1. Sensor ‐ Sensor installed at each lighting fixture; integrated with occupancy,

daylight, and temperature sensors.

2. Gateways – Gateways are intermediary devices that wirelessly connect sensors with

to the server. One gateway should be adequate for the mock‐up.


44

3. Energy Manager –The energy manager acts as the server. Control sequences

including occupancy, scheduling, and energy use are programmed and viewed

through the energy manager.

PART 3 - EXECUTION

3.1 INSTALLATION A. Occupancy Sensors for Interior Lighting

1. Install wall mounted occupancy sensors as noted on plan. Arrange occupancy

sensors with adjacent switch devices so that device plates line‐up and are equally

spaced.

2. Install ceiling mounted sensors at approximate locations as indicated on plan. Sensor

manufacturer shall provide quantity of sensors as required to provide complete

coverage for rooms.

3. Locate sensors such that motion through open doors will not falsely activate sensors.

4. Do not locate ultrasonic sensors within six feet of supply air diffusers.

5. Locate infrared sensors to avoid obstructions.

6. Provide the services of a manufacturer’s representative for commissioning of

occupancy sensor installation. This shall include consultation on layout and location

prior to installing sensors, testing of each sensor for compliance with Contract

Documents and field adjustment and fine tuning after installation is complete.

Provide written confirmation of testing to the Owner, Architect and Engineer.

7. Field adjustments shall take place in the presence of the owner and the engineer.

This shall include owner training on adjustment techniques for the occupancy

sensors

B. Photocell Controllers for Exterior Lighting

1. Prior to initiating service, follow all safety precautions associated with working on

exterior lighting fixtures.

2. Installation and wiring shall be conducted by a certified electrician. Installation shall

be based on the manufacturer’s recommendations.

3. Install the sensor on the exterior or roof of a building with the light level window

facing north.

4. The photocell sensor should be positioned correctly and not exposed to bright light

sources.

5. Installation shall be in compliance with the latest NEC and all applicable regulations.

C. Exterior Smart Controls

1. Prior to initiating service, follow all safety precautions associated with working on

exterior lighting fixtures.

2. Installation and wiring shall be conducted by a certified electrician. Installation shall

be based on the manufacturer’s recommendations.

3. Install a sensor at each existing lighting fixture being controlled.

4. Install a power pack per manufacturerʹs instructions.


45

5. The photocell control probe should be positioned correctly and not exposed to bright

light sources.

6. Install the gateway and energy manager in a suitable location per the manufacturer’s

recommendation.

7. Program the system to provide the desired modes of operation.

8. Installation shall be in compliance with the latest NEC and all applicable regulations.

3.2 FIELD QUALITY CONTROL A. Confirm the operation of individual relays, switches, occupancy sensors, and daylight

sensors.

B. Provide training to cover installation, maintenance, troubleshooting, and repair and

operation of the lighting control system.

3.3 CLEANUP A. Remove rubbish, debris, and waste materials and legally dispose of off the Project site.


4.1 OCCUPANCY SENSORS FOR INTERIOR LIGHTING (MEASURE L-3) A. WattStopper Dual Technology Ceiling Mount (DT‐355)/ Wall Switch Occupancy Sensor

(LMDW‐100)

1. DT‐355 (or equivalent):

a. Time Delay 5 min ‐ 30 min

b. Coverage up to 1000 sq. ft.

c. 360 degree Fresnel lens for superior occupancy detection

2. DW ‐100‐24 (or equivalent)

a. Input voltage: 18‐24VDC

b. Time Delay 5 min ‐ 30 min

c. Coverage:

Major motion, PIR 35’ x 30’, Ultrasonic 20’ x 20’

Minor motion, PIR 20’ x 15’, Ultrasonic 15’ x 15’

B. Leviton Multi‐Technology Ceiling Mount Occupancy Sensors (OSC‐10‐RMW)/ Decora

Wall Switch Lev‐Lok Occupancy Sensor (MSSMT‐GDW)

1. OSC‐10‐RMW (or equivalent)

a. Input Voltage: 24VDC

b. Manual Time Adjustment: 30 sec. – 30 min

c. Operating Temperature: 32 °F to 104 °F (0 °C to 40 °C)

d. Operating Humidity: 0% to 95% Relative, Non‐Condensing

e. Pattern Degrees: 360 degree

f. Coverage: 1000 sq. ft.

2. MSSMT‐GDW (or equivalent)


46

a. Manual Time Adjustment: 30 sec. – 30 min

b. Operating Temperature: 32 °F to 104 °F (0 °C to 40 °C)

c. Operating Humidity: 20% to 90% Relative, Non‐Condensing

d. Pattern Degrees: 180 degree

e. Coverage: 2400 sq. ft.

C. Lutron Dual Technology Ceiling Mount Sensor (LOS‐CDT)/ Maestro Dual Technology

Wall Sensor Switch (MS‐B102‐XX)

1. LOS‐CDT‐2000‐WH (or equivalent)

a. Input Voltage: 20‐24VDC

b. Manual Time Adjustment: 8 sec. – 30 min

c. Operating Temperature: 32 °F to 104 °F (0 °C to 40 °C)

d. Operating Humidity: 0% to 95% Relative, Non‐Condensing

e. Pattern Degrees: 360 degree

f. Coverage: 2000 sq. ft.

2. MS‐B102‐XX (or equivalent)

a. Manual Time Adjustment: 30 sec. – 30 min

b. Operating Temperature: 32 °F to 104 °F (0 °C to 40 °C)

c. Operating Humidity: 0% to 90% Relative, Non‐Condensing

d. Pattern Degrees: 180 degree

e. Coverage: 900 sq. ft.

4.2 PHOTOCELL SENSORS (MEASURE L-5B) A. WattStopper Photocell (EM‐24A2 or equivalent)

1. Rain tight enclosure

2. Input Voltage: 24 VAC

3. Default range: 0‐32 footcandles

B. Leviton Photocells (PCOUT‐000 or equivalent)

1. Outdoor photocells are IP54 rated to guarantee ultimate protection from dirt, dust,

oil and other non‐corrosive material.

2. Input Voltage: 24 VDC

3. Operating Temperature: ‐40 °F to 122 °F (‐40 °C to 50 °C)

4. Default range: 0‐15 footcandles

C. Intermatic Electronic Photo Control (EK4136S or equivalent)

1. Operating Temperature: ‐40 °F to 158 °F (‐40 °C to 70 °C)

2. Turn ON footcandles: 1.5

3. Turn OFF footcandles: 2.25


47

4.4 EXTERIOR SMART CONTROLS (MEASURE L-6B) A. Cree LED Multi‐Level Options:

1. The Cree Multi‐Level options include a factory installed sensor integrated into the

luminaire which allows the luminaire to produce different lumen outputs in High

Mode and Low Mode. The multi‐level option is designed to operate all LEDs at the

same output for maximum and uniform life.

2. The occupancy sensor uses passive infrared technology that reacts to changes in

infrared energy (moving heat) within the coverage area of the sensor. When motion

is detected the luminaire is switched to High Mode. After motion is no longer

detected and the time delay cycle has been completed, the luminaire is returned to

its Low Mode setting.

3. Multi‐Level option available with Photocell option.

4. Multi‐Level options are available for use with Cree Edge Series, LED way Series, 228

Series, 304 Series, XSP Series, CPY Series, OSQ series and VG Series Luminaires.

5. Cree Edge Series Luminaire – Flood

a. Mounting Height – 10 ft. to 30 ft.

b. Optimal Lens Coverage – 40 ft. diameter coverage with a 360° circular pattern

(at 20 ft. mounting height). Lens mounting height to coverage radius ratio is

1:1

c. Voltage: 120‐277 Volts

6. XPS Series – XPSW Wall Mount

a. Maximum Mounting Height – 15 ft.

b. Optimal Lens Coverage – 50 ft. diameter coverage with a 360° circular pattern

(at 10 ft. mounting height). Lens mounting height to coverage radius ratio is

1:2.5

c. Voltage: 120‐277 Volts

7. Five Year Limited Warranty: If Seller determines the Product is defective, Seller will

elect, in its sole discretion, to refund you the purchase price of the Product, repair the

Product or replace the Product. This limited warranty excludes field labor and

service charges related to the repair or replacement of the Product.

B. Watt Stopper Wireless Exterior Lighting Controls

1. Intelligent, fixture mounted control nodes replace traditional twist‐lock photocells

and deliver unprecedented functionality including:

a. Wireless connectivity via self‐healing IP network.

b. Full range 0‐10 volt dimming control.

c. Connection via NEMA standard ANSI C136.41‐2013 twist‐lock.

d. Initiation of self‐contained astronomic and scheduled control events.

e. Compatibility with secure, web‐enabled Building Automation Systems (BAS).

2. Wireless Control Node (NWTL‐111 BULIT® or equivalent) ® is a distributed

intelligence controller designed to replace standard photocell modules on outdoor


48

lighting fixtures. It connects to a 5‐ or 7‐pin twist‐lock receptacle compliant with

NEMA standard C136.41 to provide ON/OFF and dimming control. The BULIT also

connects to a WattStopper Wireless Network Manager via a robust and scalable self‐

healing wireless IP network.

a. Operating voltage: 120/277/347 VAC, single phase

b. Radio: 2.4 GHz IEEE 802.15.4

c. Up to 1000 ft. range between nodes

d. Operating conditions: ‐40 °F to 158 °F (‐40 to 70°C)

3. The Wireless Network Manager and Supervisor are scalable hardware and software

designed to manage exterior lighting control networks. A network consists of at least

one wireless control node, such as the NWTL‐111, and a Network Manager.

Networks can be expanded by adding nodes, and, if needed, more managers.

Network Supervisor software can coordinate control of multiple managers, and

provide long term data storage.

a. Operating voltage: 15 VDC from 120 VAC plug‐in power supply (included) or

auxiliary enclosure.

b. Wired and wireless connectivity for data and user interface.

c. Operating conditions: 32 °F – 122 °F (0 –50 °C); 0% ‐ 90% RH, non‐condensing.



49

SECTION 26 0943 PLUG LOAD CONTROL SYSTEMS

PART 1 - GENERAL


1. Drawings and general provisions of the Subcontract apply to this Section.




1. Plug Load Controls

1.2 RELATED SECTIONS A. Section 27 05 39 ‐ Surface Raceways for Communications Systems.

B. Section 25 55 00 ‐ Integrated Automation Control of HVAC‐ Integrated Automation,

Building integrator shall provide integration of the lighting control system with

Building Automation Systems.

1.3 REFERENCES A. NFPA 70 ‐ National Electrical Code; National Fire Protection Association.

B. NEMA ‐ National Electrical Manufacturers Association

C. FCC emission standards

D. UL ‐ Underwriters Laboratories, Inc. Listings

E. UL 2043 ‐ Standard for Fire Test for Heat and Visible Smoke Release for Discrete

Products Installed in Air‐Handling Spaces.

F. UL 20 ‐ General Use Switches, Plug Load Controls

G. UL 924 ‐ Standard for Emergency Lighting and Power Equipment

H. ULC ‐ Underwriter Laboratories of Canada Listings

1.4 DESIGN / PERFORMANCE REQUIREMENTS A. System shall conform to requirements of NFPA 70.

B. System shall comply with FCC emission standards specified in part 15, sub‐part J for

commercial and residential application.

C. System shall be listed under UL sections 916 and/or 508.

1.5 SUBMITTALS A. Manufacturerʹs Data: Submit catalog cuts and description of each system component.

B. Provide wiring diagrams and installation details for lighting control equipment.

C. Shop Drawings: Submit a complete set of detailed Shop Drawings for the entire

lighting control system; the shop drawings shall include but not be limited to relay

panels with designations and dimensions, daylight sensors locations based on


50

manufacturer’s recommendations, and system components with manufacturer’s part

numbers.

D. Installation Instructions: Submit manufacturerʹs written installation instructions and

wiring diagrams. Instructions shall include recommendations for handling of

equipment and parts, and protection and storage requirements.

1.6 QUALITY ASSURANCE A. Manufacturer Qualifications: Company specializing in manufacturing of centralized

and distributed control systems with a minimum of 10 years documented experience.

B. Installer Qualifications: Company certified by the manufacturer and specializing in

installation of networked control products with minimum three years documented

experience.

C. System Components: Demonstrate that individual components have undergone

quality control and testing prior to shipping.

1.7 DELIVERY, STORAGE, AND HANDLING A. Store products in a clean, dry space in original manufacturerʹs packaging in accordance

with manufacturerʹs written instructions until ready for installation.

1.8 PROJECT CONDITIONS A. Maintain environmental conditions (temperature, humidity, and ventilation) within

limits recommended by manufacturer for optimum results. Do not install products

under environmental conditions outside manufacturerʹs absolute limits.

B. Do not install equipment until following conditions can be maintained in spaces to

receive equipment:

1. Ambient temperature: 32 to 104 degrees F (0 to 40 degrees C).

2. Relative humidity: Maximum 90 percent, non‐condensing.

1.9 WARRANTY A. Manufacturer shall provide a 5 year limited warranty on products within this

installation, except where otherwise noted, and consisting of a one for one device

replacement.

PART 2 - PRODUCTS

2.1 MANUFACTURERS A. Acceptable Manufacturer: WattStopper

2.2 DISTRIBUTED DIGITAL LIGHTING CONTROL SYSTEM A. System General: Provide a WattStopper, complete with all necessary enclosures,

wiring, and system components to ensure a complete and properly functioning system

as indicated on the Drawings and specified herein. If a conflict is identified, between

the Drawing and this Specification, contact the Architect for clarification prior to

proceeding.


51

1. Plug Loads: Provide automatic shut off of non essential plug loads in spaces as

required by the applicable energy code. Provide Automatic‐ON of plug loads

whenever spaces are occupied. For spaces with multiple occupants a single shut

off consistent with the overhead lighting may be used for the area.

B. Equipment Required: Lighting Control and Automation system as defined under this

section covers the following equipment.

1. Digital Plug Load Controllers: Self‐configuring, digitally addressable, single

relay, plenum‐rated application‐specific controllers. Selected models include

integral current monitoring capabilities.

2.3 DIGITAL LOAD CONTROLLERS (PLUG LOAD CONTROLLERS) A. Digital Load Controllers: Digital controllers for lighting zones, fixtures and/or plug

loads automatically bind room loads to the connected control devices in the space

without commissioning or the use of any tools. Provide controllers to match the room

lighting and plug load control requirements. Controllers are simple to install, and do

not have dip switches/potentiometers, or require special configuration for standard

Plug nʹ Go applications. Control units include the following features

1. Automatic room configuration to the most energy‐efficient sequence of

operation based upon the devices in the room.

2. Simple replacement using the default automatic configuration capabilities, a

room controller may be replaced with an off‐the‐shelf device.

3. Multiple room controllers connected together in a local network must

automatically arbitrate with each other, without requiring any configuration or

setup, so that individual load numbers are assigned starting with load 1 to a

maximum of 64, assigned based on each controllerʹs device IDʹs from highest to

lowest.

4. Device Status LEDs to indicate:

a. Data transmission

b. Device has power

c. Status for each load

d. Configuration status

5. Quick installation features including:

a. Standard junction box mounting

b. Quick low voltage connections using standard RJ‐45 patch cable

6. Based on individual configuration, each load shall be capable of the following

behavior on power up following the loss of normal power:

a. Turn on to 100 percent

b. Turn off

c. Turn on to last level


52

7. Each load be configurable to operate in the following sequences based on

occupancy:

a. Auto‐on/Auto‐off (Follow on and off)

b. Manual‐on/Auto‐off (Follow off only)

8. Polarity of each load output shall be reversible, via digital configuration, so that

on is off and off is on.

9. BACnet object information shall be available for the following objects:

a. Load status

b. Schedule state, normal or after‐hours

c. Demand Response enable and disable

d. Room occupancy status

e. Total room lighting and plug loads watts

f. Electrical current

g. Total watts per controller

h. Total room watts/sq ft.

i. Force on/off all loads

10. UL 2043 plenum rated

11. Manual override and LED indication for each load

12. Zero cross circuitry for each load

13. All digital parameter data programmed into an individual room controller or

plug load controller shall be retained in non‐volatile FLASH memory within the

controller itself. Memory shall have an expected life of no less than 10 years.

B. Plug Load Controllers shall include:

1. 120 VAC, 60 Hz rated for 20A total load. Controller carries application‐specific

UL 20 rating for receptacle control.

2. One relay configuration with additional connection for unswitched load

3. Configurable additive time delay to extend plug load time delay beyond

occupancy sensor time delay (e.g. a 10 minute additive delay in a space with a 20

minute occupancy sensor delay ensures that plug loads turn off 30 minutes after

the space is vacated).

4. Factory default operation is Auto‐on/Auto‐off, based on occupancy

5. Real time current monitoring of both switched and un‐switched load (LMPL‐201

only)

6. Switching power supply

a. Simple 150mA ‐ Only 4 100 series devices on a Cat 5e local network

(LMPL‐101)

b. Smart 250mA (LMPL‐201)

7. RJ‐45 DLM local network ports

a. Three RJ‐45 ports (LMPL‐101)


53

b. Four RJ‐45 ports (LMPL‐201)

8. Provide a wireless transmitter that can be connected to any Cat 5e network of the

lighting controls that will communicate the roomʹs occupancy state to

receptacles mounted in the area with integral relays. Binding of the transmitter

to the receptacles shall be accomplished by pressing a test button on the

transmitter, and then a test button on the receptacle.

9. WattStopper product numbers:

a. Plug Load Controllers: LMPL‐101, LMPL‐201.

b. Wireless Transceiver and Receptacles: WRC‐TX‐LM, WRC‐15‐1/2, WRC‐20‐

1/2

PART 3 - EXECUTION

3.1 PREPARATION A. Do not begin installation until measurements have been verified and work areas have

been properly prepared.

B. If preparation is the responsibility of another installer, notify Architect of

unsatisfactory preparation before proceeding.

C. Verify that required pre‐installation meeting specified in Part 1 of this specification has

been completed, recorded meeting minutes have been distributed and all outstanding

issues noted have been resolved prior to the start of installation.

3.2 INSTALLATION A. Install system in accordance with the approved system shop drawings and

manufacturerʹs instructions.

B. Install all room/area devices using manufacturerʹs factory‐tested Cat 5e cable with pre‐

terminated RJ‐45 connectors.

1. If pre‐terminated cable is not used for room/area wiring, each field‐terminated

cable shall be tested following installation and testing results submitted to the

Manufacturerʹs Representative for approval prior to proceeding with the Work.

2. If fixtures have internal DLM Control Modules, ensure that they are also

connected with Cat 5e cable.

3. Install all room to room network devices using manufacturer‐supplied LM‐

MSTP network wire or wireless devices. Network wire substitution is not

permitted and may result in loss of product warranty.

4. Low voltage wiring topology must comply with manufacturerʹs specifications.

5. Route network wiring as indicated on the Drawings as closely as possible.

Document final wiring location, routing and topology on as built drawings.

C. All line voltage connections shall be tagged to indicate circuit and switched legs.

D. Test all devices to ensure proper communication.

E. Calibrate all sensor time delays and sensitivity to guarantee proper detection of

occupants and energy savings. Adjust time delay so that controlled area remains

lighted while occupied.


54

F. Provide written or computer‐generated documentation on the configuration of the

system including room by room description including:

1. Sensor parameters, time delays, sensitivities, and daylighting setpoints.

2. Sequence of operation, (e.g. manual ON, Auto OFF. etc.)

3. Load Parameters (e.g. blink warning, etc.)

G. Post start‐up tuning ‐ Adjust sensor time delays and sensitivities to meet the Ownerʹs

requirements 30 days from beneficial occupancy. Provide a detailed report to the

Architect / Owner of post start‐up activity.

H. Tighten all panel Class I conductors from both circuit breaker and to loads to torque

ratings as marked on enclosure UL label.

I. All Class II cabling shall enter enclosures from within low‐voltage wiring areas and

shall remain within those areas. No Class I conductors shall enter a low‐voltage area.

J. Run separate neutrals for any phase dimmed branch load circuit. Different types of

dimming loads shall have separate neutral.

K. Verify all non‐panel‐based lighting loads to be free from short circuits prior to

connection to room controllers.

3.3 FIELD QUALITY CONTROL A. Manufacturerʹs Field Service: Engage a factory‐authorized service representative to

inspect components, assemblies, and equipment installations, including connections,

and to assist in testing. Notify Architect and Manufacturer in writing a minimum of 3

weeks prior to system start‐up and testing.

B. Tests and Inspections: Manufacturerʹs service representative shall perform the

following inspections and prepare reports.

1. Verify Class I and II wiring connections are terminated properly by validating

system performance.

2. Set IP addresses and other network settings of system front end hardware per

facilities IT instructions.

3. Verify / complete task programming for all switches, dimmers, time clocks, and

sensors.

4. Verify that the control of each space complies with the Sequence of Operation.

5. Correct any system issues and retest..

C. Provide a report in table format with drawings, or using a software file that can be

opened in the manufacturerʹs system software including each room or space that has

lighting control installed. Indicate the following:

1. Date of test or inspection.

2. Loads per space, or Fixture Address identification.

3. Quantity and Type of each device installed

4. Reports providing each deviceʹs settings.



55

SECTION 26 5119 LED INTERIOR LIGHTING

PART 1 - GENERAL






1. Interior 4’ LED bypass lamps.

2. Interior LED luminaires

3. LED drivers

4. A‐Shape LED lamps


















B. IES – Illuminating Engineering Society

1. LM‐79 – Electrical and Photometric Measurements of Solid‐State Lighting Products.




56

C. ANSI – American National Standards Institute:



3. ANSI C78.377 – Specifications for the Chromaticity of Solid State Lighting Products.

D. NEMA – National Electrical Manufacturers Association:


E. UL – Underwriters Laboratories:






G. OSHA Illumination Standards

1.3 DEFINITIONS A. CCT: Correlated color temperature.

B. CRI: Color Rendering Index.

C. Fixture: See ʺLuminaire.ʺ

D. IP: International Protection or Ingress Protection Rating.

E. LED: Light emitting diode.

F. Lumen: Measured output of lamp and luminaire, or both.

G. Luminaire: Complete lighting unit, including lamp, reflector, and housing.

1.4 PERFORMANCE REQUIREMENTS A. All lighting products as herein after specified shall be a standard product of the

manufacturer, and shall consist of components that will be readily available for future

replacement for a period of five years.

B. Provide all lighting LED lamps as shown complete with all hardware necessary to install

lamps.

C. Luminaire shall be free of light leaks.

D. All wiring shall be adequate for LEDs lamps and Voltage requirements.

1.5 SUBMITTALS A. Submit under provisions of Division 26 Section, Common Results for Electrical and


B. Product Data: Submit catalog cuts, drawings, descriptive matter, and lighting

performance characteristics as required to completely define the materials and

construction details employed, finishes applied, dimensions, hinging, and electrical

characteristics.

C. Manufacturerʹs Instructions: Include instructions for storage, handling, protection,

examination, preparation, and installation of product.

D. Project Record Documents: Accurately record actual locations of each lamp.


57

1.6 QUALITY ASSURANCE A. Products shall be tested, approved, and labeled/listed by Underwriters Laboratories, Inc.,

or by a Nationally Recognized Testing Laboratory (NRTL) as listed in Division 26 Section,

Common Work Results for Electrical.

B. Electrical equipment and materials shall be new and within one year of manufacture,

complying with the latest codes and standards. No used, re‐built, refurbished and/or re‐

manufactured electrical equipment and materials shall be furnished on this project.

1.7 DELIVERY, STORAGE, AND HANDLING A. Deliver lamps individually in factory fabricated fireboard type containers.

B. Handle lamps carefully to prevent breakage.

C. Store product in clean, dry space, protected from weather.

1.8 WARRANTY A. Manufacturers standard form in which manufacturer of LED’s agrees to replace

components that fails in materials or workmanship within specified warranty period.

1. LED lamps: Five years from date of substantial completion.

PART 2 - PRODUCTS

2.1 GENERAL A. Descriptions, type letters, manufacturersʹ names, and general characteristics are shown on

the drawings. Manufacturersʹ names noted are for defining quality of construction only

and do not limit other manufacturersʹ products.

B. Special Adapters, Plates, Brackets, and Anchors: Provide where required by construction

features of the building to suitably mount lighting fixtures; all such appurtenances and

mounting methods approved by the Owner prior to fabrication and installation.

2.2 MANUFACTURERS A. Keystone Technologies.

B. Ledtronics, Inc.

C. Hyperikon, Inc.

D. Cree.

E. RAB Lighting.

F. Philips

G. GE.

H. Lithonia.

I. Sylvania

J. Substitutions: Under provisions of Division 01 Section, General Requirements.

2.3 LIGHT EMITTING DIODE (LED) BYPASS LAMPS A. Provide design information including lumen output and design life in lamp schedule on

project plans for LED lamps.

B. Lamps must have a minimum L70 lumen maintenance value of 45,000 hours as calculated

by IES TM‐21, with data obtained per IES LM‐80 requirements.

C. Luminaires must be tested to IES LM‐79 and IES LM‐80 standards.


58

D. Electrical Contractor is responsible for reviewing all re‐lamping and retrofitting

arrangements prior to ordering any products. Electrical Contractor is responsible for

ordering all of the proper lamps and miscellaneous fasteners to complete project.

2.4 LED DRIVER A. LED driver shall be installed in an electrical enclosure.

B. Wiring inside enclosure shall comply 600V/105 degrees rating or higher.

C. LED driver shall comply with UL standard 8750.

D. LED driver shall have Class A sound rating.

E. LED driver shall be UL certified for use in a dry or damp location.

F. LED driver shall tolerate sustained open circuit and short circuit output conditions without

damage.

2.5 LIGHT EMITTING DIODE (LED) LUMINAIRES A. Provide luminaires with complete power supplies (drivers) and light sources.

B. Provide design information including lumen output and design life in luminaire schedule

on project plans for LED luminaires.

C. Interior High Bay LED luminaires must have a minimum luminaire efficacy of 110 LPW

(lumens per watt) and a minimum Color Rendering Index (CRI) of 70.

D. Luminaires must have a minimum L70 lumen maintenance value of 50,000 hours as

calculated by IES TM‐21, with data obtained per IES LM‐80 requirements.

E. The maximum re‐lamping rated wattage of a luminaire shall be listed on a permanent,

preprinted, factory installed label, as specified by UL 1574, 1598, 2108, or 8750, as

applicable.

F. Luminaires must be tested to IES LM‐79 and IES LM‐80 standards.

G. Luminaire shall have door frame and lens with LED arrays and integral airflow ventilation

system.

H. The light distribution pattern of the luminaires shall be suitable for a S/H ratio of

approximately 1.8.

I. The lighting system shall consist of the type and manufacturer as shown on the drawings

or approved equal. If other than fixture shown is submitted, complete illumination

calculations are required to show equality.

J. Electrical Contractor is responsible for reviewing all mounting arrangements prior to

ordering any products. Electrical Contractor is responsible for ordering all of the proper

fixtures, mounting hardware, and miscellaneous fasteners to complete project.

K. All exposed portions (permanent or adjustable) of fixtures to be finished by the

manufacturer in a finish as specified.

L. Fixtures shall come pre‐assembled and complete with all sockets, lamp ends, ballasts,

transformers, fixture ends, trim rings, plates, and low density mounting kits (as required)

for a complete installation.

2.6 A-SHAPE LED LAMPS A. ECM proposes replacement of existing CFL and incandescent lamps with new, lower

wattage LED A‐shape lamps, or equivalent.

B. Lamps shall be either pin‐based or screw‐in lamps that plug‐and‐play in the existing

fixtures, with the option of pin‐based adapter plugs, where necessary.


59

C. It is recommended that prior to a full‐scale retrofit, pilot measures be done in various

representative areas to determine if light levels are adequate.

PART 3 - EXECUTION

3.1 INSTALLATION, GENERAL REQUIREMENTS A. Fixture Location: Locations shown are approximate only. Install at locations shown on

architectural drawings.

3.2 INDOOR INSTALLATION A. Linear LED Lamps

1. Remove existing linear fluorescent lamps. Follow Local, State, Federal, and industry

recommended guidelines associated with storage, transport, and waste disposal of

lamps and ballasts.

2. Clean the existing fixtures, including all reflective surfaces inside the fixture and

lens. Use an approved cleansing agent that is non‐toxic. Wherever specified, replace

old lenses with new clear prismatic acrylic lenses.

3. Install new LED direct drive tubes in place of existing T8 or T12 fluorescent lamps,

rewire line voltage directly to lamp holders. If the current lamp holders are shunted,

remove them and replace them with non‐shunted lamp holders.

4. Prior to a full‐scale retrofit measure, a pilot measure should be performed to verify

the performance of the new LED system.

5. Conduct retrofits so as to preserve existing switching arrangements. For instance,

newer buildings are typically designed for multi‐level lighting using A/B circuits.

Where fixtures are tandem wired, apply ʺTandemʺ stickers for the benefit of future

maintenance staff, to indicate the location of the ballast.

B. LED Luminaires

1. Install in accordance with manufacturer’s instructions.

2. Install suspended luminaires using pendants supported from swivel hangers.

Provide pendant length required to suspend luminaire at indicated height.

3. Install accessories furnished with each luminaire.

4. Connect luminaires to branch circuit outlets provided under Division 26 Section,

Boxes for Electrical Systems using flexible conduit or as indicated on the drawings.

5. Make wire connections within fixtures using solderless connectors as specified;

automatic splicing devices or connectors will not be allowed. Make wiring

connections to branch circuit using building wire with insulation suitable for

temperature conditions within luminaire.

6. Bond products and metal accessories to branch circuit equipment grounding

conductor.

C. A‐Shape LED Lamps

1. For each lamp to be replaced, confirm the fixture socket type.

2. Remove any existing screws‐in lighting fixtures.

3. Install new low wattage screw‐in or pin‐based LED lamps in their place.


60

4. Take lighting measurements before and after to confirm that the new lighting system

meets or exceeds original lighting levels.

3.3 FIELD QUALITY CONTROL A. Operate each luminaire after re‐lamping. Inspect for improper connections and operation.

B. Measure illumination levels to verify conformance with performance requirements.

3.4 ADJUSTING A. Aim and adjust luminaires to provide illumination levels and distribution indicated on the

drawings.

3.5 CLEANING A. Clean electrical parts to remove conductive and deleterious materials.

B. Remove dirt and debris from enclosure.

C. Clean photometric control surfaces as recommended by manufacturer.

D. Clean finishes and touch up damage.

E. Clean lighting control elements, lamps, fixture interiors, and exposed exterior surfaces

thoroughly before requesting final inspection.

3.6 DIFFUSERS AND ENCLOSURES A. Install lighting fixture diffusers and enclosures only after construction work, painting, and

clean up are completed. Handle with clean white canvas gloves.


4.1 INTERIOR LINEAR LED BYPASS LAMPS (MEASURE L-1) A. Keystone Technologies Direct Drive LED lamps (18 watts or equivalent)

1. Bare Lamp Wattage: 18 watts

2. Input Voltage: 120 – 277 V

3. CCT: 5000 K

4. Initial Lumens: 2,000 Lumens

5. Efficacy (LPW): 111 Lumens Per Watt

6. Lifetime: 50,000 hours

7. Five Year Warranty.

B. Ledtronics 4 ft. LED lamps (18 watts or equivalent)



3. CCT: 5000 K






61

D. Hyperikon 4 ft. LED T8 lamps (18 watts or equivalent)



3. CCT: 5000 K





4.2 A-SHAPE LED LAMPS (OR EQUIVALENT) (MEASURE L-4) A. Philips A‐Shape LED Lamps

1. Bare Lamp Wattage: 8 watts (13W CFL replacement), 9.5 watts (100W incandescent

replacement), 22 Watts (42 CFL Replacement)

2. Input Voltage: 120 V

3. CCT: 5000 K

4. Initial Lumens: 800 Lumens (8 watts) , 1000 (9.5 watts), 2,200 (22 watts).

5. Efficacy (LPW): 100 Lumens Per Watt (8 watts) and 105 Lumens Per Watt.

6. Lifetime: 10,950 hours.

B. Cree A‐Shape LED Lamps

1. Bare Lamp Wattage: 8.5 watts (13W CFL replacement) and 10.2 watts (100W

incandescent replacement).

2. CCT: 5000 K

3. Initial Lumens: 820 Lumens (8.5 watts) and 1150 (10.2 watts).

4. Efficacy (LPW): 96 Lumens Per Watt (8.5 watts) and 112 Lumens Per Watt (10.2

watts).


C. Sylvania A‐Shape LED Lamps




3. CCT: 5000 K



watts).




62

SECTION 26 5619 EXTERIOR LIGHTING

PART 1 - GENERAL






1. Outdoor LED luminaire.

2. LED drivers.

3. A‐Shape LED Lamps




3. Division 03 Section, Cast‐in‐Place Concrete.



6. Division 26 Section, 600 Volt Conductors and Cable.













B. IES – Illuminating Engineering Society

1. RP‐33‐99 – Recommended Practices for Exterior Environmental Lighting.

2. LM‐79 – Electrical and Photometric Measurements of Solid State Lighting Products.


4. TM‐15 – Luminaire Classification System for Outdoor Luminaires.



63

C. ANSI – American National Standards Institute:



3. ANSI C78.377 – Specifications for the Chromaticity of Solid State Lighting Products.

4. ANSI C136.25‐2013 – Roadway and Area Lighting Equipment ‐ Ingress Protection

(resistance to Dust, Solid Objects and Moisture) for Luminaire Enclosures.

D. NEMA – National Electrical Manufacturers Association:


E. UL – Underwriters Laboratories:






G. International Electrotechnical Commission (IEC) 60529 – Degrees of Protection Provided

by Enclosures.

H. OSHA Illumination Standards

1.3 DEFINITIONS A. CCT: Correlated color temperature.

B. CRI: Color Rendering Index.

C. Fixture: See ʺLuminaire.ʺ

D. LED: Light emitting diode.

E. Lumen: Measured output of lamp and luminaire, or both.

F. Luminaire: Complete lighting unit, including lamp, reflector, and housing.

1.4 PERFORMANCE REQUIREMENTS A. All lighting products as herein after specified shall be a standard product of the

manufacturer, and shall consist of components that will be readily available for future

replacement for a period of five years.

B. Provide all lighting fixtures as shown complete with all hardware necessary to install

fixtures.

C. Luminaire shall be free of light leaks.

D. Luminaire suitable for use in maximum ambient temperatures of 35 °C (95 °F) and

minimum ambient temperature of 0 °C (32 °F).

E. All wiring shall be adequate for LEDs, Driver, and Voltage requirements.

F. Luminaire suitable for wet locations.

1.5 SUBMITTALS A. Submit under provisions of Division 26 Section, Common Results for Electrical and



64

B. Product Data: Submit catalog cuts, drawings, descriptive matter, and lighting

performance characteristics as required to completely define the materials and

construction details employed, finishes applied, dimensions, hinging, latching and re‐

lamping provisions, and electrical characteristics.

C. Manufacturerʹs Instructions: Include instructions for storage, handling, protection,

examination, preparation, and installation of product.

D. Project Record Documents: Accurately record actual locations of each luminaire.

1.6 QUALITY ASSURANCE A. Products shall be tested, approved, and labeled/listed by Underwriters Laboratories, Inc.,

or by a Nationally Recognized Testing Laboratory (NRTL) as listed in Division 26 Section,

Common Work Results for Electrical.

B. Electrical equipment and materials shall be new and within one year of manufacture,

complying with the latest codes and standards. No used, re‐built, refurbished and/or re‐

manufactured electrical equipment and materials shall be furnished on this project.

1.7 DELIVERY, STORAGE, AND HANDLING A. Deliver luminaires individually in factory fabricated fireboard type containers.

B. Handle luminaires carefully to prevent breakage, denting, and scouring of the luminaire

finish.

C. Store product in clean, dry space, protected from weather.

1.8 WARRANTY A. Manufacturers standard form in which manufacturer of LED’s and drivers agrees to

replace components that fails in materials or workmanship within specified warranty

period.

1. LED arrays: Five years from date of substantial completion.

PART 2 - PRODUCTS

2.1 GENERAL A. Descriptions, type letters, manufacturersʹ names, and general characteristics are shown on

the drawings. Manufacturersʹ names noted are for defining quality of construction only

and do not limit other manufacturersʹ products.

B. Metal Parts of Exterior Fixtures: Corrosion resisting metal, (non‐ferrous or stainless steel)

and in all cases, suitable for outdoor service without tarnishing or other damage due to

exposure; manufacturerʹs standard colors, unless specified otherwise; cadmium plate all

metal parts concealed by canopies, including screws, plates and brackets.

C. Special Adapters, Plates, Brackets, and Anchors: Provide where required by construction

features of the building to suitably mount lighting fixtures; all such appurtenances and

mounting methods approved by the University prior to fabrication and installation.

D. Lighting fixtures replacement shall not require removal or alteration to a permanent

section of the structure i.e. permanent ceiling. Fixtures shall be easily replaceable otherwise

a different type of fixture should be provided.


65

2.3 MANUFACTURERS A. Cree.

B. Current powered by GE.

C. Lithonia Lighting.

D. Philips

E. Sylvania

F. Substitutions: Under provisions of Division 01 Section, General Requirements.

2.4 LED DRIVER A. LED driver shall be installed in an electrical enclosure.

B. Wiring inside enclosure shall comply 600V/105 degrees rating or higher.

C. LED driver shall comply with UL standard UL 8750.

D. LED driver shall have Class A sound rating.

E. LED driver shall be UL certified for use in a dry or damp location.

F. LED driver shall tolerate sustained open circuit and short circuit output conditions without

damage.

2.5 LIGHT EMITTING DIODE (LED) LUMINAIRES A. Provide luminaires with complete power supplies (drivers) and light sources.

B. Provide design information including lumen output and design life in luminaire schedule

on project plans for LED luminaires.

C. Outdoor high output LED luminaires must have a minimum luminaire efficacy of 90 LPW

(lumens per watt) and a minimum color rendering index (CRI) of 70.

D. Luminaires must have a minimum L70 lumen maintenance value of 50,000 hours as

calculated by IES TM‐21, with data obtained per IES LM‐80 requirements.

E. Luminaires must be tested to IES LM‐79 and IES LM‐80 standards.

F. Outdoor luminaires shall have provisions for house side shield to prevent glare to uphill

neighbors.

G. Luminaire shall have door frame and lens with LED arrays and integral airflow ventilation

system.

H. The light distribution pattern of the luminaires shall be suitable for a S/H ratio of

approximately 1.8.

I. Pole mounted lights shall have in line/in pole fusing.

J. The lighting system shall consist of the type and manufacturer as shown on the drawings

or approved equal. If other than fixture shown is submitted, complete illumination

calculations are required to show equality.

K. Electrical Contractor is responsible for reviewing all mounting arrangements prior to

ordering any products. Electrical Contractor is responsible for ordering all of the proper

fixtures, mounting hardware, and miscellaneous fasteners to complete project. Fixtures to

be secured to the structure from a minimum of two points, at opposing ends of the fixture

when ceiling recessed or surface mounted.

L. All exposed portions (permanent or adjustable) of fixtures to be finished by the

manufacturer in a finish as specified.

M. Fixtures shall come pre‐assembled and complete with all sockets, lamp ends, ballasts,

transformers, fixture ends, trim rings, plates, and low density mounting kits (as required)

for a complete installation.


66

N. Luminaire should have IP66 rate optical enclosure per ANSI C136.25‐2013, Roadway and

Area Lighting Equipment ‐ Ingress Protection (resistance to Dust, Solid Objects and

Moisture) for Luminaire Enclosures.

2.6 A-SHAPE LED LAMPS A. ECM proposes replacement of existing CFL and incandescent lamps with new, lower

wattage LED A‐shape lamps, or equivalent.

B. Lamps shall be either pin‐based or screw‐in lamps that plug‐and‐play in the existing

fixtures, with the option of pin‐based adapter plugs, where necessary.

C. It is recommended that prior to a full‐scale retrofit, pilot measures be done in various

representative areas to determine if light levels are adequate.

PART 3 - EXECUTION

3.1 INSTALLATION, GENERAL REQUIREMENTS A. Fixture Location: Locations shown are approximate only. Install at locations shown on

architectural drawings and as required to coordinate with tile patterns, architectural

features, and Mechanical Work.

3.2 OUTDOOR INSTALLATION A. Install in accordance with manufacturersʹ instructions.

B. Install lighting poles at locations indicated.

C. Install poles plumb. Provide double nuts to adjust plumb. Grout around each base.

D. Install lamps in each luminaire.

E. Fasten luminaire to structural support.

F. Supports:

1. Sized and rated for luminaire weight.

2. Able to maintain luminaire position after cleaning and re‐lamping.

3. Support luminaires without causing deflection of finished surface.

4. Luminaire mounting devices shall be capable of supporting a horizontal force of 100

percent of luminaire weight and a vertical force of 400 percent of luminaire weight.

G. Wall Mounted Luminaire Support:

1. Attached to structural members in walls.

H. Bond luminaires, metal accessories, and metal poles to branch circuit equipment

grounding conductor or provide supplementary grounding electrode at each pole as

shown on the drawings.

I. Coordinate layout and installation of luminaires with other construction.

J. Comply with requirements in Division 26 Section, Low Voltage Electrical Power

Conductors and Cables and Section, Raceways and Boxes for Electrical Systems for wiring

connections and wiring methods.

3.3 FIELD QUALITY CONTROL A. Operate each luminaire after installation and connection. Inspect for improper connections

and operation.

B. Measure illumination levels to verify conformance with performance requirements.


67

C. Take measurements during night sky, without moon, or with heavy overcast clouds

effectively obscuring moon.

D. Operational Test: After installing luminaires, switches, and accessories, and after electrical

circuitry has been energized, test units to confirm proper operation.

E. Luminaire will be considered defective if it does not pass tests and inspections.

3.4 ADJUSTING A. Aim and adjust luminaires to provide illumination levels and distribution indicated on the

drawings.

B. Re‐lamp luminaires which have failed lamps at Date of Substantial Completion.

3.5 CLEANING A. Clean electrical parts to remove conductive and deleterious materials.

B. Remove dirt and debris from enclosure.

C. Clean photometric control surfaces as recommended by manufacturer.

D. Clean finishes and touch up damage.

E. Clean lighting control elements, lamps, fixture interiors, and exposed exterior surfaces

thoroughly before requesting final inspection.

3.6 DIFFUSERS AND ENCLOSURES A. Install lighting fixture diffusers and enclosures only after construction work, painting, and

clean up are completed. Handle with clean white canvas gloves.

3.7 A-SHAPE LED LAMPS 1. For each lamp to be replaced, confirm the fixture socket type.

2. Remove any existing screws‐in lighting fixtures.

3. Install new low wattage screw‐in or pin‐based LED lamps in their place.

4. Take lighting measurements before and after to confirm that the new lighting system

meets or exceeds original lighting levels.


4.1 EXTERIOR 70 WATT HIGH PRESSURE SODIUM AND 100 WATT METAL HALIDE TO LED FIXTURE REPLACEMENT (MEASURE L-6A)

A. Cree Edge Series LED Wall Pack Luminaire (37 watts or equivalent)

1. Replacement for 70 watt high pressure sodium fixtures.

2. Input Wattage: 37 watts


4. CCT: 4000 K (+/‐ 300 K)

5. Minimum CRI: 70+

6. Initial Lumens: 3,310 Lumens (4000 K)

7. Lumens Per Watt (LPW): 90 LPW

8. Temperature rated at 5 °C (41 °F) to 25 °C (77 °F)

9. IP66 rate optical enclosure per IEC 60529


11. Ten Year Limited Warranty: If Seller determines the Product is defective, Seller will



68



B. Lithonia Lighting D‐Series LED Wall Luminaire (36 watts or equivalent)




4. CCT: 4000 K

5. Minimum CRI: 70+



8. Temperature rated at ‐40 °C (‐40 °F) to 32 °C (104 °F)


10. Warranty: Commercial LED fixtures, including the LED arrays and the LED drivers,

to be free from defect in material and workmanship for a period of five years from

the date of shipment.

C. GE Evolve Series EWS3 LED Wall Pack (32 watts or equivalent)




4. CCT: 4000 K

5. Minimum CRI: 70+



8. Temperature rated at –40 °C (‐40 °F) to 50 °C (122 °F)


10. Warranty: LED Luminaires purchased directed from GE to be free from defects in

material and workmanship unit the earlier of (1) Five years, and (2) 22,000 hours. If a

Product fails to meet this warrant, the GE will at its option, either (1) repair the

defective Product, (2) provide a free replacement product or replacement parts, or (3)

refund the purchase price paid to GE of the Product or replacement parts.


A. Cree Edge Series LED Canopy Luminaire (46 watts or equivalent)




4. CCT: 4000 K (+/‐ 300 K)

5. Minimum CRI: 70+






69


11. Ten Year Limited Warranty

B. Lithonia Lighting VRC LED Canopy Luminaire (41 watts or equivalent)




4. CCT: 5000 K

5. Minimum CRI: 70+





10. Five Year Limited Warranty

C. GE Evolve Series ECBB LED Canopy Luminaire (35 watts or equivalent)




4. CCT: 5000 K

5. Minimum CRI: 70+







1. Replacement for 150 watt high pressure sodium and 150 watt metal halide fixtures.



4. CCT: 5700 K (+/‐ 500 K)

5. Minimum CRI: 70+

6. Initial Lumens: 6,584 lumens for 150‐watt HPS and 7,012 lumens for 150‐watt MH

(5700 K)

7. Lumens Per Watt (LPW): 100 LPW and 106 LPW, respectively









70

4. CCT: 4000 K

5. Minimum CRI: 70+

6. Initial Lumens: 6,896 lumens for 150‐watt HPS and 7,373 lumens for 150‐watt MH

(4000 K)

7. Lumens Per Watt (LPW): 94 LPW and 101 LPW, respectively




C. GE Evolve Series EWNB LED Wall Pack (70 watts or equivalent)




4. CCT: 3000 K

5. Minimum CRI: 70+






4.4 EXTERIOR 250 WATT METAL HALIDE AND 250 WATT HIGH PRESSURE SODIUM TO FLOOD LED FIXTURE REPLACEMENT (MEASURE L-6A)

A. Cree Edge Series LED Flood Luminaire (130 watts or equivalent)

1. Replacement for 250 watt metal halide fixtures.



4. CCT: 4000 K (+/‐ 300 K)

5. Minimum CRI: 70+






11. Ten Year Limited Warranty: If Seller determines the Product is defective, Seller will




B. Lithonia Lighting D‐Series LED Flood Luminaire (125 watts or equivalent)




4. CCT: 5000 K

5. Minimum CRI: 70+


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C. GE Evolve LED Flood Light EFM1 (96 watts or equivalent)




4. CCT: 5000 K

5. Minimum CRI: 70+





10. Warranty: LED Luminaires purchased directed from GE to be free from defects in

material and workmanship unit the earlier of (1) Five years, and (2) 22,000 hours. If a

Product fails to meet this warrant, the GE will at its option, either (1) repair the

defective Product, (2) provide a free replacement product or replacement parts, or (3)

refund the purchase price paid to GE of the Product or replacement parts.

4.5 EXTERIOR 250 WATT METAL HALIDE TO LED FIXTURE REPLACEMENT (MEASURE L-6A)





4. CCT: 5700 K (+/‐ 500 K)

5. Minimum CRI: 70+

6. Initial Lumens: 9,349 lumens (5700 K)









4. CCT: 3000 K

5. Minimum CRI: 70+

6. Initial Lumens: 10,184 lumens (3000 K)




72



C. GE Evolve Series EWNB LED Wall Pack (89 watts or equivalent)




4. CCT: 4000 K

5. Minimum CRI: 70+






4.6 A-SHAPE LED LAMPS (MEASURE L-5A) A. Philips A‐Shape LED Lamps

1. Bare Lamp Wattage: 8 watts (13W CFL replacement) and 9.5 watts (100W



3. CCT: 5000 K

4. Initial Lumens: 800 Lumens (8 watts) and 1000 (9.5 watts).

5. Efficacy (LPW): 100 Lumens Per Watt (8 watts) and 105 Lumens Per Watt (9.5 watts).


B. Cree A‐Shape LED Lamps



2. CCT: 5000 K



watts).


C. Sylvania A‐Shape LED Lamps




3. CCT: 5000 K



watts).



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