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The Effects of Greenhouse Gas Limits on Electric Power System Dispatch and Operations

This research explores the impact of greenhouse gas (GHG) limits on the dispatch and operations of electric power systems. It analyzes factors such as CO2 emissions, unit thermal efficiency, regional generation mix, electricity demand, and transmission constraints. The study also includes a cost analysis of fossil-fired generation units due to CO2 emissions. The findings provide insights into the relationship between GHG limits and power system operations.

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The Effects of Greenhouse Gas Limits on Electric Power System Dispatch and Operations

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  1. 1 The Effects of Greenhouse Gas Limits on Electric Power System Dispatch and Operations Miaolei Shao (mxshao@wichita.edu) Ward Jewell (ward.jewell@wichita.edu) Department of Electrical and Computer Engineering Wichita State University PSERC Tele-Seminar September 2nd, 2008

  2. 2 Greenhouse Gas (GHG) Emissions & Electric Power Industry • United States is the source of 1/4 of the world’s GHG emissions. • Electric power industry accounts for 38 percent of the nation’s overall carbon dioxide (CO2) emissions and one-third of the overall U.S. GHG emissions. • 39 states have or are developing State Action Plans specially targeting GHG emission reductions. -- Regional Greenhouse Gas Initiative (RGGI) -- California Assembly Bill 32 (AB 32)

  3. 3 Electric Power System Features That Impact CO2 Emissions • CO2 emission factors by type of fuel • Unit thermal efficiency • Regional generation mix • Electricity demand • Transmission constraints

  4. 4 CO2 Emission Factors (EF) by Type of Fuel (lb CO2/MBtu) Source: S. Goodman, M. Walker, “Benchmarking air emissions of the 100 largest electric power producers in the united states – 2004”, Apr. 2006

  5. 5 CO2 Emission Factors (EF) by Type of Fuel (Cont.) Bus 1 Bus 2 P1 = 400 MW 800 MW Load G1 (400 MW coal-fired generation unit) 400 MW P2 = 400 MW Two-bus, two-generator power system G2 (400 MW gas-fired generation unit) CO2 emission factor is 215 lbs/Mbtu for coal and 117 lbs/Mbtu for gas. Heat rate data of 400 MW fossil fired generation units came from “A. J. Wood, B. F. Wollenberg, Power Generation, Operation, and Control, John Wiley & Sons, 1996.”

  6. 6 Unit thermal Efficiency and CO2 Emissions One kilowatt hour (kWh) has a thermal equivalent of approximately 3412 Btu.

  7. 7 Regional Generation Mix & CO2 Emissions Bus 1 Bus 2 P1 = 400 MW 600 MW Load G1 (400 MW coal-fired generation unit) 400 MW P2 = 200 MW Two-bus, two-generator power system G2 (400 MW gas-fired generation unit) Bus 1 Bus 2 P1 = 400 MW 600 MW Load G1 (400 MW coal-fired generation unit) 600 MW P2 = 0 MW P3 = 200 MW Two-bus, three-generatorpower system G2 (400 MW gas-fired generation unit) G3 (400 MW coal-fired generation unit)

  8. 8 Regional Generation Mix & CO2 Emissions (Cont.) 527 450 (G3) (G2) (G1) (G1)

  9. 9 Electricity Demand & CO2 Emissions Load L (MW) 800 Load-duration curve 600 400 Hours load equals or exceeds L MW Bus 2 400 MW Load 600 MW Load Bus 1 P1 = 400 MW 800 MW Load G1 (400 MW coal-fired generation unit) 400 MW P2 = 0 MW P2 = 200 MW P2 = 400 MW Two-bus, two-generator power system G2 (400 MW gas-fired generation unit)

  10. 10 Electricity Demand & CO2 Emissions (Cont.) CO2 emission amounts (tons/h) CO2 emission rates (tons/MWh)

  11. 11 Transmission Constraints& CO2 Emissions Bus 1 Bus 2 P1 = 400 MW 600 MW Load G1 (400 MW coal-fired generation unit) 400 MW P2 = 200 MW 400 MW maximum transmission capability between bus 1 and bus 2 G2 (400 MW gas-fired generation unit) Bus 1 Bus 2 P1 = 300 MW 600 MW Load G1 (400 MW coal-fired generation unit) 300 MW P2 = 300 MW 300 MW maximum transmission capability between bus 1 and bus 2 G2 (400 MW gas-fired generation unit)

  12. 12 Transmission Constraints & CO2 Emissions (Cont.) Transmission congestion help reduce system CO2 emissions? 450 412 (G2) (G2) (G1) (G1)

  13. 13 CO2 Emission-incorporated Cost Model Input-output function Fuel cost function CO2 emission cost function Fuel-emission cost function

  14. 14 Fossil-fired Generation Units’ Cost Variation Due to CO2 Emissions • Coal price is 1.90 $/MBtu • CO2 emission factor of coal is 215 lb/MBtu • Gas price is 3.80 $/MBtu • CO2 emission factor of gas is 117 lb/MBtu • CO2 price is 30 $/ton Fuel costs CO2 emission costs Fuel-emission costs G2 (400 MW gas-fired generation unit) G1 (400 MW coal-fired generation unit)

  15. 15 Breakeven Price of CO2 Coal price is 1.90 $/MBtu Coal CO2 emission factor is 215 lb/MBtu Gas CO2 emission factor is 117 lb/MBtu • Gas price is 3.8 $/MBtu • Breakeven price of CO2 is around 50 $/ton • Gas price is 5.7 $/MBtu • Breakeven price of CO2 is around 100 $/ton

  16. 16 CO2 Emission-constrained ac Optimal Power Flow (OPF) Objective function Equality constraints Inequality constraints Linear Programming Software used in this research: PowerWorld Simulator

  17. IEEE Reliability Test System (RTS) 17 • 24 buses • 38 transmission lines and transformers. • a total load of 2850 MW • a total generation capacity of 3405 MW

  18. 18 Simulation Cases and Description

  19. Simulation Results of Case 1 19 70 $/ton 180 $/ton 280 $/ton • At CO2 price of 70 $/ton, coal and gas power generation start to shift. • At CO2 price of 180 $/ton, gas power generation almost equals coal power generation. • At CO2 price of 280 $/ton, major shifting process is finished. • CO2 emissions decrease from 928 tons/h at CO2 price of 0 $/ton to 514 tons/h at CO2 price of 280 $/ton, a 44.6% reduction. • The system fuel costs increase from 18595 $/h at CO2 price of 0 $/ton to 79255 $/h at CO2 price of 280 $/ton, a 326% increase.

  20. Simulation Results of Case # 1 (Cont.) 20 70 $/ton 180 $/ton 280 $/ton

  21. Simulation Results 21 70 $/ton 180 $/ton 280 $/ton 130 $/ton 270 $/ton 410 $/ton Case # 2 Case # 1

  22. Simulation Results (Cont.) 22 80 $/ton 180 $/ton 130 $/ton 260 $/ton Case # 4 Case # 3

  23. Conclusions 23 • CO2 emissions from electricpower industry are impacted by several power system features; ignoring any of them will incur errors in analysis. • CO2 emission-constrained ac OPFis a powerful tool that considers all the features that impact CO2 emissions from electricpower generation. • CO2 emission-constrained ac OPF, which can be realized in commercial and educational power system software or developed as stand-alone software, has potential to be utilized for investigating and assessing the effects, including costs and reliability, of GHG limits on electric power industry. • Simulation results indicate that the effects of GHG limits on electric power system dispatch and operations are sensitive to several factors such as system load levels, fuel prices etc. • In current high gas price situation, it is quite expensive to reduce CO2 emissions by switching from coal power generation to gas power generation.

  24. 24 Future Research PSERC Project M21: “Technical and Economic Implications of Greenhouse Gas Regulation in a Transmission Constrained Restructured Electricity Market” Academic Team Members: Ward Jewell (lead), Wichita Shmuel Oren, UC Berkeley Chen-Ching Liu, University College Dublin Yishu Chen, UC Merced Industry Team Members: Jim Price, CAISO Mariann Quinn, Duke Energy Floyd Galvan, Entergy Mark Sanford, GE Jay Giri, AREVA Tongxin Zheng, ISO-NE Ralph Boroughs, TVA Robert Wilson, WAPA Avnaesh Jayantilal, AREVA Jerry Pell, DOE Sundar Venkataraman, GE Energy

  25. 25 Thank You

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