Combined Heating & Power - ASHRAE – St. Louis...
Transcript of Combined Heating & Power - ASHRAE – St. Louis...
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CHPCombined Heating & Power
An overview of technologies & opportunitiesby
Mark Krebs, Laclede Gasfor
ASHRAE St. Louis ChapterFebruary 2/11/2013 Meeting
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CHP Is Used at the Point of Demand
81.7 GW
3,700 CHP Projects
Saves 1.8 quads of fuel each year
CO2 reduction = removing 430 GW coal plants
558 CHP Projects
11.1 GW
CO2 reducation = removing 42 million cars
2
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Defining Combined Heat & Power (CHP)The on-site simultaneous generation of two forms of energy
(for example, heat and electricity) from a single fuel/energy source
Two (2) Forms of CHP
FuelElectricity
Heat
Conventional CHP System
Fuel
Electricity
Energy Intensive Industrial Process
HeatSteam Turbine
Heat recovery steam boiler
Waste Heat Recovery CHP(also referred to as Bottoming Cycle CHP or Indirect Fired CHP)
Conventional CHP(also referred to as Topping Cycle CHP or Direct Fired CHP)
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Attractive CHP Markets
Industrialo Chemical
manufacturingo Ethanolo Food processingo Natural gas pipelineso Petrochemicalso Pharmaceuticalso Pulp and papero Refiningo Rubber and plastics
Commercialo Data centerso Hotels and casinoso Multi-family housingo Laundrieso Apartmentso Office buildingso Refrigerated
warehouseso Restaurantso Supermarketso Green buildings
Institutionalo Hospitalso Landfillso Universities &
collegeso Wastewater
treatmento Residential
confinement
Agriculturalo Concentrated
animal feeding operations
o Dairieso Wood waste
(biomass)
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United States Rating:
Source: International Energy Agency CHP/DHC Country Scorecard: United States
CHP / DHC Scorecard
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Other terms for CHP• Total Energy Systems (TES)
• Cogeneration (cogen)
• Trigeneration (trigen)
• Combined Cooling, Heating & Power (CCHP)
• Building Combined Heating & Power (BCHP)
• Distributed Energy Resources (DER)
• Distributed Generation (DG)
Laclede Gas Building
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Today’s focus: “Topping Cycles”
Specifically:1. Review of international, national & state markets2. Leading “prime mover” (engine) technologies3. Uses of engine “waste heat”4. Emissions regulations5. Regional market potential
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8
CHP Integrated Technologies / Components
o Prime Movers– Turbines (Combustion, Steam, Micro)
– Reciprocating Engines– Fuel Cells– ORC
o Thermal Technologies– Heat Exchangers– Absorption Chillers– Desiccants
o Controls
o Fuels– Natural Gas– Biogas / Biomass– Landfill Gas– Waste Products– Exhaust Gases– Other
o Generators– Synchronous– Induction– Inverters
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Mechanical CHP example
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EPA Catalog of CHP Technologies
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Review of international, national & state markets
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International CHP Share of Total Power Production (%)
Source: CHP and District Cooling: Lessons Learned and Recommendations for India
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CHP Potential, 2015 and 2030
Source: CHP and District Cooling: Lessons Learned and Recommendations for India
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Source: ACEEE 2011 CHP Rankings
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U.S. Market share of various CHP technologies
Gas Turbine14% Combined
Cycle52%
Recip Engine2%
Boiler/Steam Turbine
33%
Other 1%
Microturbine5%
Other1%
Gas Turbine13%
Combined Cycle7%
Recip Engine47%
Boiler/Steam Turbine
24%
Fuel Cell3%
Source: International Energy Agency, US CHP Scorecard
CHP generation by MW’s CHP generation by technology
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Existing CHP Overview
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Source: International Energy Agency CHP/DHC Country Scorecard: United States
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Source: International Energy Agency CHP/DHC Country Scorecard: United States
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Midwest “Spark Spread” Improving
30 GW of Midwest Coal Fired Utility Power Plants impacted
by EPA regulations
Henry Hub Gas Prices Will Average Projected Between
$5 and $7 per MMBtu
Source: ICF International
FavorableNatural Gas Outlook
Upward Pressure on Electricity Prices
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Capital cost of electric generation alternatives
Source: http://www.seattlesteam.com/documents/CHP%20as%20part%20of%20CES.pdf
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2011 Electricity Flow(Quadrillion Btu)
Overall efficiency: (13.16/40.04) x 100 = 32.8%
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Leading “prime mover” technologies
Reciprocating enginesCombustion turbinesMiscellaneous
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23
Reciprocating Engine Energy Flows
InputEnergy100% ~ 33%~ 32%
~ 32% ~ 2%
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Micro Small Medium Large
Reciprocating Engines
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The basic four-cycle engine
1.Intake2.Compression3.Power4.Exhaust
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4 strokes of a Wankel engine
Intake Compression Power Exhaust
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Rotary engine advantages• Low Cost
– equivalent to same size electric motor• Long life
– 10,000 hours between overhaul• Good efficiency
– 10,000 Btu/hp-hr• Less emissions
– 1/2 gram/hp-hr NOx• High speed
– same as electric motors• Modular construction
– rotor sections can be stacked together• Compact & lightweight
– equivalent to same horsepower electric motor
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Diesel auto-derivative engines alsooffer economically feasible options
Detroit Diesel DELTA Navistar
Dodge Ram 24-valve
turbo diesel
CaterpillarJEEP/Chrysler Minivan
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“micro-pilot” injectorsDiesel engine conversion technology
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Combustion turbine(Brayton Cycle)
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Combustion Turbines
http://www.youtube.com/watch?v=TBdUcGYo7XA
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Small: Capstone Micro-Turbine
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Two Standard Generator Types
• Induction– Requires external
power source to operate (grid)
– When grid goes down, CHP system goes down
– Less complicated & less costly to interconnect
– Preferred by electric utilities
• Synchronous– Self excited (does not
need grid to operate)– CHP system can
continue to operate thru grid outages
– More complicated & costly to interconnect (safety)
– Preferred by CHP customers
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How fuel cells work:
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Leading types of stationaryfuel cells
• Molten Carbonate Fuel Cells (MCFC)– 1,200 degrees F
• Phosphoric Acid Fuel Cells (PAFC)– 400 degrees F
• Proton Exchange Membrane Fuel Cells (PEM)– 200 degrees F
• Solid Oxide Fuel Cells (SOFC)– 1,800 degrees F
• Alkaline Fuel Cell (AFC)