New York City Delivers Sustainable Infrastructure Sustainable Infrastructure..pdf• Launched 2007,...
Transcript of New York City Delivers Sustainable Infrastructure Sustainable Infrastructure..pdf• Launched 2007,...
New York City DeliversSustainable Infrastructure
Using Envision to Achieve the Triple Bottom Line
April 14th, 2015
Agenda
• Introduction
o NYC Department of Environmental Protection
• DEP Implementation
o Sustainability Program
o Applicability of Envision
o Lessons Learned
• Case Studies
o Wastewater Treatment Plant
o Drinking Water Tunnel
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Water Supply
• Deliver one billion gallons of drinking water per day to nine million New Yorkers
• Manage 19 reservoirs and three controlled lakes with a storage capacity of 580 billion gallons
• Protect water quality to maintain our Filtration Avoidance Determination
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Water Distribution & Wastewater Collection
• Deliver and collect water through 7,000 miles of water mains and 7,400 miles of sewers
• Maintain more than 109,000 fire hydrants and 148,000 catch basins
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Wastewater Treatment
• Treat an average of 1.3 billion gallons of wastewater per day
• Operate 14 in-city wastewater treatment plants
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Sustainability
• Implement the NYC Green Infrastructure Plan
• Accelerate regulatory reform to incorporate sustainability principles into clean water regulations and initiatives
• Monitor and protect the water quality of New York Harbor
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Capital Construction
• Manage $16 billion of projects in construction or design
• Provide in-house engineering and design services to DEP’s water supply, distribution, and treatment divisions
• Provide information to the public through DEP’s capital projects website
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PlaNYC
• Launched 2007, Updated 2011• 25 Agencies• 132 initiatives:
• Housing & Neighborhoods• Parks and Public Spaces• Brownfields• Waterways• Water Supply• Transportation• Energy • Air Quality• Solid Waste• Climate Change
Including:• 30% GHG Reduction• 30% Energy Reduction• 75% Solid Waste Diversion
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NYC Green Codes
LOCAL LAWS
• LL 84: Benchmarking
• LL 85: NYC Energy Conservation Code
• LL 86: Minimum Sustainability Requirements for New and Existing Construction
• LL 87: Energy Audits and Retro-commissioning
• LL 88: Lighting Upgrades & Sub-metering
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One City, Built to Last
Transforming New York City for a Low-Carbon Future
• Launched September 2014
• Goal: reduce city-wide emissions by 80% by 2050
Guiding Strategies:
• Expand financing options for energy efficiency projects
• Increase energy performance standards for new construction and renovations
• Install 100 MW of onsite renewable energy at City owned facilities
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Water Infrastructure Needs - Downward Spiral
System ages and shows signs of degradation.Occasional breaks
and leaks occur. Leakage stresses
system components. Components nearing design life. Failure of pipe joints, hydrants, and valves.
With no measurable capital improvements the cycle continues.
Increase in leakage undermines pipe
bedding and decreases structural
integrity.
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Project Delivery System
What is a PDS?• A tool for all managers project
staff.
• Procedures to guide the project planning and execution.
• System to project implementation is consistent.
• The PDS includes many requirements, but is a guide. Not all projects will fit the mold.
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Project Delivery System
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PDS Organization
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PDS Organization – Practice Area
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PDS Organization – Life Cycle
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PDS Organization – Facility Planning
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SOP - Example
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O P SC O N S T R U C T I O NP L A N N I N G D E S I G N
Capital Project Delivery
Kick Off BODR
Gateway Reviews
LEED/Envision Applications
Standardized Contract Language
Sustainability “Deep Dive” Workshop
Life-Cycle Carbon Assessments
Program Objectives
Sustainability Management Plans
Energy Profile Report
LEED/Envision Workshop
Submittals
Oversight
Commissioning
Accreditation Tracking
Materials
System Monitoring
O&Ms
Knowledge Transfer
30% 60% 90%
Preliminary Sustainability
Workshop
Sustainability “Deep Dive” Workshop
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BEDC Sustainability Program
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Program Focuses:
• Reduction of Greenhouse Gas Emissions
• Reduce Energy Consumption
• Climate Change Mitigation and Adaptation
• Environmentally responsible building materials selection and resource use
• Coherence with green infrastructure program and capital program landscaping practices
Sustainability Plans
Sustainability Plans
SOP 049: Sustainability Management
Plans
SOP 049: Sustainability Management
Plans
SustainabilityWorkshops
SustainabilityWorkshops
SOP 050: Preliminary Workshop
SOP 050: Preliminary Workshop
SOP 051: “Deep Dive” 30% Workshop
SOP 051: “Deep Dive” 30% Workshop
Guidance Manual Guidance Manual
Standards, Guidance and resources for
project managers
Standards, Guidance and resources for
project managers
ChecklistsChecklists
Simple and comprehensive
review checklists for project managers
Simple and comprehensive
review checklists for project managers
Accreditation Support
Accreditation Support
LEED ApplicationLEED Application
Envision ApplicationEnvision
Application
Tools within the Project Delivery System:
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• Development:
o Harvard Graduate School of Design, Zofnass Institute
o Institute for Sustainable Infrastructure (ASCE, APWA & ACEC)
• Core: Triple Bottom Line
• Applicability:
o project’s full lifecycle
o variety of assets
Envision Infrastructure Rating System
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WHAT TYPES OF INFRASTRUCTURE CAN ENVISION™ RATE?
ENERGY
GeothermalHydroelectricNuclearCoalNatural GasOil/RefineryWindSolarBiomass
WATER
Potable water distributionCapture/StorageWater ReuseStorm Water ManagementFlood Control
WASTE
Solid wasteRecyclingHazardous WasteCollection & Transfer
TRANSPORT
AirportsRoadsHighwaysBikesPedestriansRailwaysPublic TransitPortsWaterways
LANDSCAPE
Public RealmParksEcosystem Services
INFORMATION
TelecommunicationsInternetPhonesSatellitesData CentersSensors
Envision Infrastructure Rating System
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WHAT TYPES OF DEP INFRASTRUCTURE CAN ENVISION™ RATE?
ENERGY
GeothermalHydroelectricNuclearCoalNatural GasOil/RefineryWindSolarBiomass
WATER
Potable water distributionCapture/StorageWater ReuseStorm Water ManagementFlood Control
WASTE
Solid wasteRecyclingHazardous WasteCollection & Transfer
TRANSPORT
AirportsRoadsHighwaysBikesPedestriansRailwaysPublic TransitPortsWaterways
LANDSCAPE
Public RealmParksEcosystem Services
INFORMATION
TelecommunicationsInternetPhonesSatellitesData CentersSensors
Envision Infrastructure Rating System
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Lessons Learned
• Training:
– Online Training
– In-Person Classes
– Project Specific Workshops
• Communication:
– Engineers need to convey what they are designing to the public
• Adapt:
– Understand changes in the social-political environment that impacts projects
• Infrastructure
– Justify our spending, no matter what the project is
• How does your City/Agency/Company compare Nationally? Globally?
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BEDC Sustainability Policy.Incorporates the economic, environmental, and social dimensions of sustainability into the execution of capital projects
Measures performance to ensure that we meet or exceed the goals of PlaNYC and local laws
Identifies opportunities to reduce greenhouse gas emissions and energy consumption as a result of a project’s design and construction
Identifies risks associated with climate change and provides mitigation and adaptation solutions for DEP assets
Improves long-term reliability of our facilities through cost-effective design solutions that are integrated with the community, environment and the greater network of DEP facilities
Reduces environmental impacts of our operations through resource allocation, reduction of waste streams, and environmentally responsible business practices.
Complies with relevant legislation, while striving to achieve internationally accepted best practices
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Project Goals
26th Ward WWTP Upgrade Brooklyn, NYDesign: 170MGD
Goals:• Reliable Wet Weather
Performance• Improved Flow Distribution
and Solids Handling• Durability and Energy
Efficiency• Identify Risks
• Reuse Materials• Energy Efficient and
Environmentally Preferable Materials
• Landscaping• Stakeholder Involvement
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Pump Upgrades and Sizing
Main Sewage Pumping Station
Three MSPs: 22 MGD EachHigh Efficiency Induction MotorsMotor Control Panel
Eight PSPs: 650 GPM Each
Two SWPs: 18 GPM
Credits• RA 2.1 - Reduce Energy Consumption• RA 3.3 - Monitor Water Systems• LD 3.1 - Plan for Long-Term Monitoring & Maintenance
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Dual Core Turbo Type Process Air Blowers
Air Process• Sized to Meet Current Process Air
Demand – 54,000 scfm ; 700 Hp• Quieter• 18% More Efficient than Existing
Blowers• Provision for Future
Credits• RA 2.1 - Reduce Energy
Consumption• QL 2.2 – Minimize Noise and Vibration• LD 2.2 - Improve Infrastructure
Integration
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Flow Distribution
Flow Distribution Chamber• CFD Model • Lower HGL to Reduce• Pump Energy Consumption
Credits• RA 2.1 - Reduce Energy Consumption
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PST Tanks 1-4• Approximately 5,470 CY of Material • Identified Volume of Materials
Diverted from Landfill
Ammonia Building• Approximately 23 Tons of Steel• Deconstruction List• Identify Materials to be Recycled• Identify Volume of Materials
Diverted from Landfill
Material Diverted From Landfill
Credits• RA 1.5 - Divert Waste from Landfills• RA 1.7 - Provide for Deconstruction and Recycling
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MCC No. 25 Building
Design• Moving Up and Above Floodplain• Daylighting• Solar Shading• Reduced Energy Consumption
• Unheated Stair Tower
Credits• RA 2.1 – Reduce Energy
Consumption• RA 2.2 – Use Renewable Energy
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Design• Energy Efficient
Enclosure• Day Lighting• Reuse of Existing
Building
Credits• RA 1.3 - Use Recycled
Material• RA 2.1 - Reduce Energy
Consumption• RA 2.2 - Use Renewable
Energy
Interim Degritting Wing
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Material Standards• High Recycled Content
• Aluminum• Steel• Concrete
• High SRI Roofing• Preferred Purchasing• Locally Sourced
Materials
Credits• RA 1.2 – Support Sustainable Procurement Practices• RA 1.3 – Use Recycled Material• RA 1.4 – Use Regional Materials
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24-hr NRCS Type II Storm with 2.18 Inches of Precipitation
Green Roof Green Roof Pilot• Green Roof Potential • First Green Roof at WWTP in NYC• Reduce Run-Off to Sewers by 50-90%
Credits• NW 2.1 – Manage Storm Water • QL 1.1 – Improve community quality of life
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Envision Checklist Score
EnvisionTM Checklist = 49%
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• Conveys more than 1 billion gallons of water per day
• Fed by a watershed of more than 2,000 square miles
• Includes 19 reservoirs and 3 controlled lakes
• Can hold up to 580 billion gallons of water
• Delaware Aqueduct – Built between the 1920s and 1960s
• Catskill Aqueduct – Built between 1907 and 1927
• 9 million consumers in NYC and several Upstate communities
• More than 90% of the water flows by gravity
New York City Water Supply System
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• Bypass and repair existing tunnel
• Alternate Supplies (Queens Groundwater)
• Optimization of Delaware and Croton Water Systems
• Conservation (goal of 5% reduction)
• Public Outreach & Participation (http://www.nyc.gov/html/waterforthefuture/index.shtml)
Water for the Future
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Roseton Bypass Plan & Shaft Sites
Project 1: Shaft and Tunnel ConstructionProject 2A: Water Supply System AugmentationProject 2B: Bypass Tunnel Connection and RWBT Inspection and Repair, Including Wawarsing
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Shaft 5B Site -12/29/13
Water For the Future
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QL 1.1 Improve Community Quality of Life
Improve the net quality of life of all communities affected by the project and mitigate negative impacts to communities
Maintains water quality for NYC
Improves impacted Upstate Communities
200+ Public meetings with Towns, Cities, advocacy groups and City/State regulatory agencies
Negative impacts on nearby community are reduced or eliminated
>> Restorative Rating
Water for the Future
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RA 1.6 Reduce Excavated Material Taken Off-Site
Minimize the movement of soils and other excavated materials offsite to reduce transportation and environmental impacts
Minimized site disturbance
Purchase adjacent property for tunnel muck disposal
20,000 Truck trips avoided
>> Conserving Rating
Water for the Future
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RA 1.1 Preserve Prime Habitat
Avoid placing the project … on land that has been identified as high ecological value or as having species of high value
Indiana Bat population
Tree Removal during winter/hibernation period
Selective restoration of habitat
>> Restorative Rating
Water for the Future
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Estimated Rating: Platinum (64%)
Strengths:
• Public Outreach• Whole System Design
Room for Improvement:• Use of Envision late in design process
Water for the Future
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Project Scope of Work
Esopus Creek Bridge
Route 28A Railway Bridge
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Kensico Reservoir Shoreline Stabilization
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Coney Island WWTP BNR
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Coney Island WWTP BNR
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Clearview WW Pumping Station
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Clearview WW Pumping Station
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55www.nyc.gov/dep facebook.com/nycwater twitter.com/nycwater
Ruth Douzinas, PEDirector, Project Management Office, [email protected]
Floren Poliseo, PE, ENV SP Director, Watershed Planning & Modeling, [email protected]
Daniel Solimando, PEPortfolio Manager, [email protected]
Robert D’Attile, PE, ENV SP Accountable Manager, [email protected]
Sean McAndrew, PEProgram Director, Water for the Future, [email protected]
Wendy Sperduto, PE, ENV SP Portfolio Manager, Water for the Future, [email protected]
Nishant Shah, ENV SPProject Manager, Greeley & [email protected]
John Lenti, AIA, LEED AP, ENV SP Project Manager, Greeley & [email protected]
Acknowledgements
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www.nyc.gov/dep
facebook.com/nycwater
twitter.com/nycwater
Dennis J. Stanford, PE, ENV SP, Envision VerifierSustainability Program Lead, [email protected]