2016 digital

LAURA GRADEN-COTTS

COVER IMAGE: CENTER OF EXCELLENCE, BINGHAMTON, NY PHOTO BY: JONATHAN COHEN

DESIGN PORTFOLIO [email protected] 208.521.8442 LNGCDESIGN.COM

ENERGY RESEARCH &DEVELOPMENT BUILDING

LEGACY CROSSING

M.R.E.C NET-ZERO LAB

FIRE STATION

CONSTRUCTION DOCUMENTS

CHEMISTRY LAB RENOVATION

ARCHITECURAL GRAPHICS

MARKETING MATERIALS

0204060810121416

MARINE RESEARCH EDUCATION CENTER SUSTAINABLE LAB ST. CROIX, US VIRGIN ISLANDS

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

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FIRST FLOOR

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LEARNING LAB 1

LEARNING LAB 2

COMPUTERCOLLECTIONS/ RESEARCH

This lab was funded as part of a Sustainable Laboratory competition challenging students to design a Net-Zero, Car-bon Neutral Marine Biology lab serving the MREC institute on the island of St. Croix, in the US Virgin Islands. The lab provides “wet lab” space for processing marine tissues, as well as support services, student laboratories, offices, and computing labs.

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MAIN CORRIDOR

FIRST FLOOR CORRIDOR

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SECOND FLOOR

INSTRUMENT LAB COMPUTATIONAL LAB

DARK ROOMSTO

R/ MECH.

WET CHEMISTRY LAB

STORAGE

LOUNGE

opento below

roof access

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FACADE PERFORATION DEVELOPMENTTrabeculae: The facade pattern is derived from an image of Acropora Millepora, or Pacific Coral, a species indigenous to the Salt River Bay.

EXTENSIVE GREEN ROOF A lightly seeded green roof helps mitigate solar heat gain, filters storm water for collection, and helps prevent excess stormwater runoff. The cooler temperatures can increase the efficiency of photovoltaics, while the plantings provide habitat for native species of birds and insects.

BRISE SOLEILLow energy glass allows the transmission of sunlight, but not heat. The system mimics a Double- Skin Facade, which cools passively by circulating warm air past the facade, pulling warm air from the interior.

OCCUPANCY SENSOR LIGHTINGLighting that operates only when a space is occupied prevents overuse of electricity. Lights in day lit spaces can be set to auto-dim when the lighting levels are sufficient with daylight alone.

RADIANT FLOOR COOLINGExcept for the laboratories, which have strict air quality and humidity constraints, the building is cooled using hydronic radiant-in-floor cooling, which is more energy efficient.

SUSTAINABLE PRINCIPLES:

WET CHEMISTRY LAB

COLLECTIONS LIBRARY

VIEW FROM ADMINISTRATIVE BUILDING

WET DOCK ADMIN

LAB

DORMS

2 BED2 BED LOUNGE

2 BED

TYP. STUDIO DELUXE STUDIO

1 BED

1 BED

LEGACY CROSSING MASTER PLAN CORNER OF SIXTH + JACKSON, MOSCOW, ID04This collaborative project developed a phased master plan for a crucial junction between the University and downtown known as Legacy crossing. Currently, the site is a brownfield; the site of an old rail station and grain elevators used for processing the area’s wheat and lentils. I was responsible for the design of the Legacy Circle apartments, in conjunction with rendering all the images shown, and rendering the site plan.

GROUND FLOOR AMENITIES:

1 GROCERY/ CONVENIENCE2 OPEN RETAIL3 MECHANICAL ROOMS4 LOBBY5 RESIDENT MAIL ROOM6 RENTAL OFFICE7 LIVE-WORK STUDIOS8 PUBLIC RESTROOMS9 MEDICAL OFFICE

F. E.F. E.

GROUND FLOOR

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SIXTH STREET PLAZA

SECOND--FIFTH FLOOR (TYP.)

LEGACY CROSSING MIXED-INCOME APARTMENTS

x100HOTEL BEDS

x7DINING

x90+DWELLING UNITS

x223PARKING SPACES

LEGACY CIRCLE APARTMENTSURBAN DENSITY FIGURES

HIGH BAYOPEN TO BELOW

OPEN TO BELOW

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BOISE FIRE STATION 5 212 SOUTH 16TH STREET, BOISE ID

VIEW FROM FRONT ST.

SECOND FLOOR

The station was designed using CMU as a prominent material for the Idaho Concrete Masonry Association annual design com-petition. It was one of 10 finalists out of almost 50 entries. The project mitigates many challenges, including the nearby freeway interchange sheltering a homeless population, requiring a careful interface between public and private to maintain the privacy of the resident firefighters while still promoting the Civic nature of a fire station.

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KEY:1 CONFERENCE ROOM2 OPEN OFFICES3 ROOF DECK4 VEHICLE MAINTENANCE 5 TRUCK BAYS & GEAR-UP 6 LIVING QUARTERS7 FIREFIGHTER LOUNGE8 PRIVATE COURTYARD9 KITCHEN10 EXERCISE ROOM11 PUBLIC LOBBY12 TRAINING TOWER

FIRST FLOOR

LOBBY

SECOND FLOOR

15TH STREET ELEVATION

FIRST FLOOR

EXPLODED AXON WALL SECTION

PUBLIC LOBBY

ENERGY RESEARCH & DEVELOPMENT BUILDING SUNY BINGHAMTON, BINGHAMTON, NY

STATUS: SUBSTANTIAL COMPLETION MAY 2017COST: $70,000,000 TOTAL PROJECTSQ. FOOTAGE: 104,036 NET

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CONTRIBUTION TO THE PROJECT-Construction Administration- Prepare and answers RFPs, RFIs and Change Order Requests-Prepare daily field reports and monthly status reports-Ensure all work is completed in accordance with the contract documents-Prepare Site inspections for SWPPP and Code compliance during construction-Produce coordination and job drawings and act as BIM manager for the project model -Program furniture and equipment with end users and ensure provided infrastructure meets labs users’ needs. -Specify and procure FF+E-Coordinate FF+E installation with contractors-Leader of the project LEED team, and LEED Project Administrator

CHEMISTRY LAB RENOVATION AND FIT-OUT SUNY BINGHAMTON, BINGHAMTON, NEW YORK

STATUS: COMPLETED SPRING 2015COST: $400,000SQ. FOOTAGE: 36,000

10Meeting room furniture selection

This project included a renovation and fit-out of two large student offices, a combined lab area for three researchers, and a central meeting pod. The architectural scope included adding a secondary entry door, and adding built-in storage cabinets and minor ceiling renovations to accommodate new equipment. I also specified and procured 13 additional chemical fume hoods and coordinated their arrival and installation. Further work included coordinating the installation of specialized lab equipment such as X-rays, glove boxes, and hazardous materials storage, as well as identifying the power and cooling requirements for existing equipment to be moved. I was responsible for the entire scope of the project from programming and schematic design through construction and final fit-out and move-in of the occupants. I coordinated the project independently with all parties from clients and vendors to contractors. I coordinated the equipment specifications directly with the campus engineers to ensure the researchers HVAC and electrical needs were accommodated.

CONTRIBUTION TO THE PROJECT

LAB BEFORE

LAB AFTER

student office before student office after

SILL BELOW

EIFS MFR APPROVED

SEALANT W/ BACKER ROD

ALUMINUM AWNING WINDOW UNIT

AS SPECIFIED

1x1 ALUMINUM TRIM

SILL BELOW

EIFS PER SPECIFICATIONS

VAPOR/ AIR BARRIER AS SPECIFIED.

6"/ 8" CONCRETE MASONRY UNIT

W/ BULLNOSED EDGE

AWNING JAMB @ CMU W/ EIFS

EIFS AS SPECIFIED

CONT. SEALANT

ALUMINUMTHRUWALL FLASHING

8/ 10" CMU

SEALANT & BACKER RODS(BOTH SIDES)

AIR BARRIER AS SPECIFIED

8/ 10" REINF. CMULINTEL, GROUTED FULL

1x1 SNAP TRIM

ALUMINUM AWNING WINDOW UNIT,AS SPECIFIED

AWNING HEAD @ CMU W/ EIFS

ALUMINUM AWNING WINDOWAS SPECIFIED

EIFS APPLIED AS SPECIFIED

PRECAST SILLWITH DRIP EDGE

8" OR 10" CMU WALL

SHEET METAL FLASHING

SEALANT AT SILL, BOTH SIDES

5/8" GWBON 7/8" METAL FURRING

P-LAM, OR WOOD WINDOW STOOL

PRECAST SILL ALUMINUM SILL




8" OR 10" CMU WALL


SEALANT AT INTERIOR SILL, BOTH SIDES



AWNING SILL @ CMU W/ EIFS

EIFS SILL




8" OR 10" CMU WALL


SEALANT AT INTERIOR STOOL, BOTH SIDES



HEAD

HEAD HEAD

SILL

SILL

HEAD

1 ALUMINUM AWNING WINDOW @ CMU W/ EIFSN.T.S

3 WF SINGLE HUNG WINDOW @ WLF W/ FIBER CEMENTN.T.S 4 SLIDING WINDOW @ CFMF W/ INSULATED METAL PANEL

N.T.S

2 ALUMINUM CASEMENT WINDOW @ CFMF W/ BRICK

N.T.S

SILL

JAMB

SHIM AS REQ'D

UTILITY MASONRY VENEER

CONT. SEALANT

AIRSPACE DRAINAGE MATON 1 1/2" RIGID INSULATION

CAVITY VENT@ 24" O.C.

ALUMINUMTHRUWALL FLASHING

LOOSE-LAID LINTEL

SEALANT & BACKER RODS(BOTH SIDES)

ALUMINUM CASEMENT WINDOWAS SPECIFIED

CORNER BEAD

C-CHANNEL HEADER

5/8" ABUSE RESISTANT GWB

3 5/8" CFMF STUD WALL16" O.C.

LIQUID-APPLIEDAIR BARRIER AS SPECIFIED

CASEMENT HEAD @ CFMF W/ BRICK VENEER

WOOD FRAME & SILL

ALUMINUM FLASHING

SEALANT

1/2" EXTERIOR GRADE SHEATHING

CAULK- COLOR TO MATCH WALL COLOR

2X P.T. BLOCKING

5/8" GWB


AIRSPACE DRAINAGE MAT ON 1 1/2" RIGID INSULATION

ALUMINUM CASEMENT WINDOW

AS SPECIFIED

3 5/8" CFMF STUD WALL

W/ BATT INSULATION R=


SHIM AS REQ'D

ALUMINUM SNAP TRIM


2x BLOCKING

5/8" GWB


ALUMINUM CASEMENT WINDOW

AS SPECIFIED

BATT INSULATION R=

ON 3 5/8" CFMF STUD WALL

ALUMINUM FRAME & SILLALUMINUM FRAME, BRICK SILL

WOOD FRAME, BRICK SILL

MASONRY OR PRECAST CONCRETE SILL

RIGID INSULATION R=

FRAME EXTENDER/ FLASHING

SET IN CONTINUOUS SEALANT BED

AGAINST SILL

ALUMINUM THRUWALL FLASHING


SHIM AS REQ'D

WINDOW STOOL

PROFILE WILL VARY


2X BLOCKING

5/8" GWB


6" CFMF STUD WALL

W/ BATT INSULATION R=

MASONRY OR PRECAST CONCRETE SILL

PROFILE MAY VARY

D.H. WOOD FRAME WINDOW

AS SPECIFIED


LAP OVER AIR BARRIER


WINDOW STOOL

PROFILE WILL VARY

2X P.T. BLOCKING

1/2" GWB



W/ BATT INSULATION

R=

P.T., WEATHER PROOFED

WOOD SILL. PROFILE WILL VARY

RIGID INSULATION R=

WOOD FRAME CASEMENT WINDOW

AS SPECIFIED


SILL FLASHING UNDER WINDOW FIN

LAP OVER AIR BARRIER

ALUMINUM SNAP TRIM

WOOD FRAME CASEMENT WINDOW

AS SPECIFIED

INVERTED C- CHANNEL SILL PLATE

CASEMENT SILL @ CFMF W/ BRICK VENEER

LIQUID-APPLIED AIR BARRIER

SELF-ADHERED 40 MILVAPOR/AIR BARRIER

WINDOW PERIMETER WRAP

AIR SPACE DRAINAGEMAT ON 1 1/2 RIGID INSULATION

R=


5/8" ABUSE-RESISTANT GYPSUM WALLBOARD ON3 5/8" METAL STUD FRAMING

2X P.T. BLOCKING

CAULK-COLOR TO MATCH WALL COLOR SELECTION

UTILITY BRICK MASONRYVENEER

ALUMINUM CASEMENT WINDOWAS SPECIFIED

SILL BELOW

SILL BELOW

CASEMENT JAMB @ CFMF W/ BRICK VENEER

JAMB

SILL

ALUMINUM WINDOW FRAME CLIP

1/2" GYPSUM WALL BOARD

BATT INSULATION R=

2x WOOD HEADER(WOOD/ FIBER CEMENT/ VINYL/ ALUMINUM) SIDINGON 1/2" EXT. PLYWOOD SHEATHING

FIXED WOOD WINDOWAS SPECIFIED

PROFILE WILL VARY

FIXED HEAD @ WLF W/ SIDING

ALUMINUM FRAME

WOOD FRAME

FIXED WOOD WINDOW UNIT

AS SPECIFIED

PROFILE MAY VARY

WOOD WINDOW STOOL

W/ CASING TRIM

WEATHER-RESISTANT

WOOD SILL


BATT INSULATION R=

WOOD SIDING ON 1/2" EXTERIOR

PLYWOOD SHEATHING

2x DOUBLE SILL PLATESHIM AS REQ'D

FIXED ALUMINUM WINDOW UNIT

AS SPECIFIED

ALUMINUM SILL FLASHING

ALUMINUM TRIM


BATT INSULATION R=

WOOD SIDING ON

5/8" EXTERIOR PLYWOOD SHEATHING

2X DOUBLE SILL PLATE

SHIM AS REQ'D

CONT. SEALANT

FIXED SILL @ WLF W/ SIDING

FIBER CEMENT SIDING

SLIDING SILL @ CFMF W/ METAL PANEL

ALUMINUM HORIZONTAL SLIDING WINDOW

AS SPECIFIED

METAL PANEL SILL & ASSOC. FRAMING

LAP FLASHING AND WRB @ PANEL JOINTS

ALUMINUM SILL

BATT OR

BLOWN IN INSULATION

AS SPECIFIED

INVERTED C-CHANNEL SILL PLATE



W/ BATT INSULATION

ALUMINUM SILL

ALUMINUM HORIZONTAL SLIDING WINDOW

AS SPECIFIED

METAL PANEL SILL & ASSOC. FRAMING

LAP FLASHING AND WRB @ PANEL JOINTS

SHEET METAL SUB-SILL FLASHING

BATT OR

BLOWN IN INSULATION

AS SPECIFIED

INVERTED C-CHANNEL SILL PLATE



W/ BATT INSULATION

METAL PANEL SILL

SLIDING HEAD @ CFMF W/ METAL

PANEL

SLIDING ALUMINUM WINDOWAS SPECIFIED

CFMF BOX HEADER


3 5/8" CFMF STUD WALLW/ BATT INSULATION

METAL PANEL & ASSOC. FRAMINGAS SPECIFIED


BATT ORBLOWN IN INSULATION

AS SPECIFIED

CONSTRUCTION DOCUMENTS & DETAILS12

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A10.01

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201.46 SF

MICROSCOPEROOM101a

443.93 SF

CELL CULTURELAB0101

2583.76 SF

GENERAL LAB0100

Q-Exactive HF

B1 B2

COMPUTERSYSTEMS N2 GENERATOR

CRYOSTAT

-86 freezer120V 16A

NEMA 5-20 PStand by power

VWR32086A VWR40086A VWR32086A

-86 freezer120V 16A


-86 freezer208V 12A


B4B5

B7

B6

co2Incubators

B8

B9

B9

B9

SCIEX 5500 Q TRAP

B3

AC UNITON WALL

(future)

B8

(3) L

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LOW

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See enlarged planfor renovation notes

add lab sink

add lab sink

add lab sink

will not purchase SCIEX 5500right away

A.4.011

NEED POWER/ HVAC REQUIREMENTSFOR N2 GENERATOR

(+1) EMERGENCY 208 CIRCUITS ALONG THIS WALL FOR FREEZERS(+2) EMERGENCY 120 CIRCUITS FOR FREEZERS

(+2) EMERGENCY 208 CIRCUITS ALONG THIS WALL FOR FREEZERS(+2) EMERGENCY 120 CIRCUITS FOR FREEZERS

LASER SCANNING MICROSCOPE

INVERTEDMICROSCOPE

BENCH

CO2 CYLINDERSSECURED TO WALL

BEN

CH

ES

BinghamtonUniversity

It is a violation of law for any person, unlessacting under direction of licensed architectengineer to alter this drawing in any way.

Alterations must have the seal affixed along withdescription of the alteration, signature, and date.

Physical Facilities607-777-2224

Drawn By:

Drawn By:

Date: Revised:

KEY PLAN

Project:

Sheet Name:

Sheet Number:

Revisions:

WO956454

COE PHARMACYLABS

8/27

/201

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A1.00

07/08/16

Author

Checker

Lab Equipment Plan

No. Description Date

1/4" = 1'-0"A1.001 LAB EQUIPMENT PLAN

EVENT BRANDING ROLLER DERBY BOUT: APRIL 6, 2012, 2000+ ATTENDEES14Original full-color illustrations, typography & layout. Black and white logos provided by event partnersClockwise from above: 11x17 Event Poster Press Pass VIP Tickets Event Program & Schedule 1/4 sheet fliers

ROLLER DERBY BOUT: APRIL 6, 2012, 2000+ ATTENDEES

Storm + Greywater re-useStorm-water runoff can be captured and treated on-site for use in non-potable applications such as building cooling and flushing toilets. Grey water created on-site, such as that used to wash hands, can be processed on site through a constructed wetland, preventing the overburdening of municipal sewer system.

Screw- Pile FoundationsThese self- excavating foundations require no concrete and can be completely removed with very little permanent impact to the land.

Double-Skin FacadeThe intermediate space between the exterior and interior facades is heated by solar gain. This warm air naturally travels upward via convection, moving air along the internal facade of the building and pulling warm air from the interior to the outside.

Low-E GlazingLow-Energy coatings on windows allow the transmission of visible light, while preventing large amounts of solar heat gain.

Brise SoleilThe perforated shading screen allows views in and out, but prevents the all-glass facade from over-collecting solar gain, as well as preventing the harsh glare common in daylit spaces.

Photovoltaic ArraySolar panels, or photovoltaics, generate and store electricity from the sun’s rays, which can be used to offset the fossil-fuels commonly used in any capacity in the building.

Extensive Green RoofA lightly seeded green roof helps to mitigate solar heat gain, filters stormwater, and reduces excess stormwater runoff. The thicker roof profile also increases the insulation value, while cooler temperatures on the surface of green roofs increase the efficiency of solar panels.

ARCHITECTURAL GRAPHICS HAND SKETCHES & COMPUTER GRAPHICS161- SITE + ENERGY STRATEGIES FOR ACHIEVING NET-ZERO BUILDINGS 2- PLAN FOR SIDNEY HIGH SCHOOL AUDITORIUM RENOVATIONS RFQ- EMPHASIZING AREAS TO BE IMPROVED 3- GREEN ROOF GRAPHIC FOR LEED DOCUMENTATION

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SUSTAINABLE SITE STRATEGIES

HAND SKETCHES & COMPUTER GRAPHICS

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1- NOTRE DAME, PARIS FRANCE 2- MAGDALEN COLLEGE TOWER, OXFORD UK 3- BACHELOR’S WALK- RIVER LIFFEY, DUBLIN 4- GRAPHIC SITE PLAN 4- PASSIVE COOLING DIAGRAM

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SOLAR HEAT GAIN AT THE ROOFHELPS PULL MORE AIR THROUGH THE BUILDINGBY HEATING THE UPPER LEVELS OF THE ROOM MORE QUICKLY

WARM AIR ESCAPES THROUGH THE RIDGE VENTTHE RESULTING PRESSURE DIFFERENTIAL PULLS IN MORE COOL AIR BELOW

COOL AIR FLOWS IN OFF OF THE NEARBY LAKE

CROSS BREEZE

WARM AIR RISES THROUGH CONVECTION AND COLLECTS AT THE ROOF PEAK

100 YR FLOOD PLAIN

[email protected] WWW.LNGCDESIGN.COM

208.521.8442

THANK YOU.

2016 digital

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