maryland clean energy summit microgrid round table – october 15, 2013 energy reliability and...
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Maryland Clean Energy SummitMicrogrid Round Table – October 15, 2013
Energy Reliability and Security
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Are YOU Ready?
Projected Supply Shortfall Inclement Weather
Technology is Ready - Now
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What Are Your Critical Issues?
Hurricanes
Educational Offerings
Retaining Top Students and Faculty
Protect Research
Economic Development
Mission Critical Activities
Earthquakes
Energy Reliability
Energy Security
Ice Storms
Snow Storms
$$ Economics
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The Case For Micro-Grids
Heavily burdened, aging electrical grid
The toll of power disruptions
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How a Microgrid Works
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White Oak MicrogridDefinition White Oak FDA Microgrid
Local Power Generation • 26MW power supply (currently being expanded to 55MW to handle the installation’s peak load)
• Leverage waste heat (Trigen) to condition buildings
• Puts more power on the grid than it takes off
Co-exist With The Utility • Works in parallel with Pepco under a three-party Interconnect Agreement.
• Participate in demand response events
• Utilize spinning reserve to maintain energy surety
Can Operate Totally Independent of Utility Grid (Islanding Capability)
• Operate mission critical functions independent of Pepco, enabling FDA to continue operations regardless of what happens outside the campus
Ability to Manage and Control Your Local Load
• Match load to supply
• Ability to make power purchase decisions
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FDA White Oak Challenge
Mission: • Campus integrates FDA’s functions to increase scientific
synergy and collaboration. • Protect consumers from unsafe products, address threats
before they arise, and help deliver safer foods and safer, more effective medical therapies.
Requires an islanded microgrid to meet GSA/FDA
requirements
Needs:• Energy Security • Energy Surety• Energy Efficiency & Renewable Energy Mandates• Ability to Expand as Campus Expands
Challenges:• Budget Constraints (New Construction ESPC)• Ability to Balance Sometimes Conflicting Needs• Aging Utility Infrastructure
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Optimization – Key to Success
Additional Value:• Expanded Auto Load Shed Scheme• Additional Dual-fuel Generation Assets• Combined Heat and Power – Maximizing BTUs• Interconnect Agreements With the Utility
Honeywell, GSA and FDA Work Together to Operate the Facility in the Best Interest of the Government.
Initial Strategy
Near continuous operation of engine-generator
Current Operations
Real-time “make or buy” decision based upon cost of natural gas, electric tariff, campus loads vs. engine & cogeneration efficiencies
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Innovative ECMs
Instituted capability to participate in Pepco Gold Days putting power back on the grid when requested.Eliminated peak load charges as well.
Automated Demand Response
(Auto DR)
Quantified above standard efficiency in new buildings, purchased equipment and provided funding.
Combined Heat & Power (Trigen)
Waste heat utilized to heat/cool buildings. More BTUs for every KW.
BiofuelsAdding capability to use biofuels for fuel flexibility for energy
security and increasing options if natural gas prices increase.
Lowered Total Energy Consumption Through Both Innovative and Traditional ECMs Throughout The Entire
Campus.
Chilled Water Thermal Energy
Storage
Water supply was single point of failure – needed to keep cooling towers operational. Chilled Water Storage connected to towers
mitigating risk.
New Construction
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• Utility Service Enhancements– Physical and Functional Separation of Utility Generation Systems– Electrical Bus Ties between Central Utility Plants (CUP) 1 and 2– Dual Distribution Loop For Redundancy
• Two Additional Black Start Generators• CUP and Building Level Load Shed• Thermal Energy Storage
– Electrical Load Shed of Chillers– Backup Water Supply
2004 2005 2006 2007 2008 2009 2010 2011 20120.0
10,000.0
20,000.0
30,000.0
40,000.0
50,000.0
60,000.0
70,000.0
80,000.0
90,000.0
PV To-tal
CUP
21.9 29.4 30.4 34.3 36.0 33.7 36.8 24.7 26.7
5,940
19,39513,886 12,847
31,523
67,597
75,179 76,55981,081
Reliability Enhancements
Electricity Produced Turquoise -CUP GeneratorsBlue - Photovoltaic Arrays
MW
hrs
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Reliability Features
• Fast, Dependable Separation From Utility Instability – Reliable Detection of Utility Deviations– Instantaneous Separation to Island Mode– Operation With Adequate Spinning Reserve– Smooth Generator Transition To Load-Sharing Island Mode Control
• Fast Load Management for Generator Demand Control, When Required– Accurate Real-Time Generator Capacity and Spinning Reserve Assessment– Fast Updated Load Measurement– Fast Load Shed of Prioritized Demands– Coordinated Load Restoration Process
• Synchronized Transfer from Island to Utility Parallel Operation• Black Start Capability to Island Mode Operation
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Reliability Metrics
Uptime Uptime over the last 12 months is > 99.999%.
RedundancyRedundancy provided for all critical systems.
Island Mode
Islanded, either automatically or manually, more than 70 times over the past 2 ½ years. Operations have not been interrupted for any weather related events.
Power Generation
On a yearly basis more power is supplied to Pepco than Pepco supplies to the White Oak Campus.
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The Benefits
• Annual Energy Savings– Current: 640,000 MMBtu– Under Construction: 275,000 MMBtu
• Pollution Prevention (annual)– Current: 50,000 metric tons CO2-equivalent
– Under Construction: 22,000 metric tons CO2-equivalent
• Co-Generation reduces GSA NCR Demand– Response during “Gold Days” (approximately 22
MW currently; nearly 33 MWpost-ESPC III Base)
• Rainwater Harvesting – Makeup water for cooling towers
30% Reduction from Baseline
Equivalent to 15,000 Cars Removed from
Road
$3M in Demand Savings and
Program Participation
Good water stewardship
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Summary of Benefits
• Reduced First-Cost to Government • Reduced Recurring Costs to Government • More Energy Efficient Campus • Fixed Accountability for Systems Performance • Flexibility to Meet Evolving Program Requirements • Adaptive Re-use of Historic Structures • Demand Response Capability ($ to GSA)• Ability to Continue Mission Independent of the Grid • Enhanced Energy Security
THE CITY OF
WilmingtonDELAWARE
Hay Road Waste Water Treatment Plant
October, 2013
Renewable Energy Biosolids Facility
Maryland Clean Energy
Reduce energy and operational costs
Reduce greenhouse gas emissions
Insulate the City from future electricity and biosolids cost escalation
Two phases: Phase I completed in September 2011. The REBF is Phase 2.
Honeywell guarantees cost savings over a 20 year period
In June 2009, Wilmington initiated a Project to
PHASE 1 completed October 2011• Solar Panels at Porter and Municipal Complex • Building Energy Savings• LED Traffic Lights• Water Pumping Peak Load Shift
PHASE 2 • 4 Megawatt Electricity Generation Using
Renewable Fuels• Dry 140 Tons Per Day of Wastewater Sludge• Estimated to Save Over $16 million
Overview of Projects
Cherry Island Landfill
Landfill Gas Plant
Landfill Gas Plant
Wilmington Microgrid – What Has Been Accomplished
• Energy Conservation Measures• Water Pumping Peak Load Shift• Led Traffic Signal Retrofit• Dry 140 Tons a Day or Wastewater Sludge
Traditional Efficiency Improvements
• Solar Panels at Porter and Municipal Complex• 4 Megawatt Electricity Generation Using Renewable Fuels
On-site Generation and Storage Capacity
• Balance System Supply and Demand• Optimization of Power System Based on Performance
Metrics
Implement Advanced Controls
• Phase Two of Project is Deploying a Microgrid That Can Support The Grid and Or Go Into Island Mode
Operate with Utility Grid or in Island Mode
REBF Project Benefits Save $16.7 Million Over 20 years
>$800,000 Reduction in Annual Costs Achieve budget certainty
Fix Electricity and Biosolids Costs Over 20 years Reduce Greenhouse Gas Emissions by 15,000 Metric Tons Per Year
Exceeds 20% Greenhouse Gas Reduction Goal Over 50% of Wilmington’s Electricity Requirements Will Be Met By Its
Own Renewable Energy Spend Locally
Avoid Exported Utility and Sludge Hauling Costs The Majority of Construction Subcontracts Go to Local Firms Over 100 Local Construction Jobs
All Labor Drawn from Wilmington Locals
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