Prof. J.J Lew, P.E. Principal Investigator – Purdue Univ. James H. Anspach, P.G .
James R. Connell P.E. - October 13, 2011
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Transcript of James R. Connell P.E. - October 13, 2011
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Electric Generation
TechnologiesOctober 13, 2011
James R. Connell P.E.
Sr. VP, National Director Power Facilities
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Pesky Laws of Thermodynamics
First Law -Conservation of Energy: Energy can neither be created nor destroyed. It can only be converted from one form to another.
Second Law – There is no such thing as 100% efficiency. There are always losses.
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Conventional Steam
Power Plants
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Steam Power Plants
Sources of Thermal Energy:
Coal
Natural Gas
Oil
Biomass
NuclearNuclear
Solar Thermal
Rankine Cycle
Roughly 90% of all electrical power generated in the world is via a
Rankine Cycle.
Typical large power station efficiency 30-40%
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Solid Fuel Boiler Types
• Stoker / Grate
Fuel is combusted primarily on top of a grate
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Solid Fuel Boiler Types
Pulverized Coal (PC)
PC Boilers are more efficient than stokers
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Solid Fuel Boiler TypesFluidized Bed Combustion
Bubbling
Fluidized
Bed
Boiler
Fluidized bed boilers – fuel flexibility & lower NOx/SOx formation.
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Conventional Steam Plant Overview
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In Real Life …
Nebraska City Station
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CFB Boiler Characteristics
• Fuel flexibility - ability to utilize a wide range of fuels, better able to incorporate renewable & opportunity fuels
• SOx removal as part of combustion process with limestone addition >95%limestone addition >95%
• Lower combustion temperatures result in substantially lower NOx, ~ 50%
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CFB Boilers
Pros:• Good fuel flexibility, lower fuel costs &
incorporation of renewables• Potentially lower fuel cost risk• Reliable baseload electric capacity• Opportunity to provide thermal output (CHP)• Opportunity to provide thermal output (CHP)Cons:• Capital intensive• Lower efficiency than some natural gas plants• Higher emissions than other options (i.e., gas,
wind, solar)
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Combustion Turbine
Power PlantsPower Plants
Optional Message Placement
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Combustion Turbine Generators … AKA Gas Turbines
Brayton Cycle
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Simple Cycle CTG Efficiency - 35-45%
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Derived from GE CF-6 Jet Engine – First used on DC-10: 25-30MW, 38%
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45-50MW, 41%
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In Real Life …
2 – LMS 100, 200MW
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Combined Cycle
Power PlantsPower Plants
Optional Message Placement
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Brayton + Rankine Cycle = Combined Cycle
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Combined Cycle Efficiencies 50-60%
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2x1 501F Combined Cycle in Florida, 500MW
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Characteristics
Simple Cycle
– Operate to meet Peak Demand
– Designed for Quick Start-up
– Not as Efficient, but Reliable Peaking Power
– Little to no water consumption– Little to no water consumption
Combined Cycle
– Reliable - Operate for Intermediate or Base Load
– Highest Fossil Fuel Efficiency
– Can be designed to operate in Simple Cycle Mode
Increased Efficiency, but utilize premium fuels
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Combined Cycle
RepoweringRepowering
Optional Message Placement
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Combined Cycle Repowering
Using a combustion turbine generator & HRSG to replace an existing boiler. The existing steam turbine generator and auxiliaries are re-used.
Significant increase in electrical output & plant efficiency.efficiency.
When replacing a coal fired boiler with a natural gas fired combustion turbine, significant reductions in emissions are realized.
Less capital cost than a new combined cycle plant due to the re-use of existing equipment and systems.
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Cogeneration /
Combined Heat &
Power (CHP)Power (CHP)
Optional Message Placement
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Cogeneration – Sequential generation of electricity & useful heat
• By utilizing otherwise rejected or wasted heat from the electricity generation process (losses) to produce a useful form of thermal energy (hot water, steam, etc.), the overall efficiency can be dramatically increased.
• Increased energy efficiency can save money!
• Increased energy efficiency can reduce environmental effects.
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Overall Cogeneration Efficiencies can reach 70-80%
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Combined Cycle Cogeneration
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Wind Power
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Wind Turbine Types
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Wind Farm Components
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Michigan Wind Power Resources
Typical “rule of thumb” is
that an average annual wind
speed of 15-16mph at the speed of 15-16mph at the
turbine hub height is
desirable.
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Wind Power Characteristics
•Renewable energy resource – wind is free!
•No toxic air emissions – Sox, Nox, Hg, PM,
CO2, etc.
•Proven technology
•Intermittent resource – Low capacity factor, •Intermittent resource – Low capacity factor,
typ. 25-35%
•Very large land area required – 20-80
acres/MW
•Potential environmental impacts – noise,
bird/bat mortality, aesthetics, shadow
flicker
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Solar Power
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Solar Power
• Photovoltaic – PV
• Crystalline Silicon, 17-20%
• Crystalline Silicon (ribbon), 12%
• Thin Film, 8-12%
• Tracking – fixed, single axis and
double axisdouble axis
• Concentrated Solar Power – CSP
• Linear fresnel – 400-500F
• Parabolic trough – 750F
• Power tower – 1000F
• Stirling Engine
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