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- Separate Production Reference Allocation
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Classroom Contents
Review of Various Forms of Exergy and Allocation of Consumptions in Cogeneration - Lecture 10
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- 1 - Introduction
- 2 - Exergies and Efficiencies in Energy Conversion
- 3 - Exergy of Bulk Flow Interactions
- 4 - Exergy in Heating and Cooling Bulk Flows
- 5 - Exergy of an Hydraulic Jump
- 6 - Log-Mean Temperature in Heating/Cooling a Flow
- 7 - Minimum Exergy for Low Temperature Heating
- 8 - Exergy Associated with a Fossil Fuel
- 9 - Lower Heating Values of Some Fuels
- 10 - The Learning Curve of Fuel-to-Power Conversion
- 11 - Beyond Flame-Based Fuel-to-Power Conversion
- 12 - Avoiding the Inherent Irreversibility of Flames
- 13 - Allocation Issues in Combined Heat and Power CHP
- 14 - How Much Fuel Is Consumed to Produce Heat in CHP?
- 15 - Allocation Fractions and Primary Energy Savings
- 16 - Incremental Electricity-Centered Allocation in CHP
- 17 - Separate Production Reference Allocation in CHP
- 18 - Choice of Reference Efficiencies
- 19 - “Fair” Reference Values in a Given Local Area
- 20 - Allocation Example in CHP: Methods Compared
- 21 - Allocation Problem in Hybrid Facilities
- 22 - Allocation Fractions and Primary Energy Savings
- 23 - Incremental Fossil-Centered Allocation
- 24 - Separate Production Reference Allocation
- 25 - Choice of Reference Efficiencies