DYNAMIC ANALYSIS OF NATURAL GAS ROLE ON CAPACITY EXPANSION IN POWER MARKET

Ali Movahednasab, Masoud Rashidinejad, and Amir Abdollahi

References

  1. [1] “Projected Costs of Generating Electricity , International Energy Agency, 2010 Edition.
  2. [2] S. Macmillan, A. Antonyuk, and H. Schwind, Gas to CoalCompetition in the U.S. Power Sector, International EnergyAgency, May, 2013.
  3. [3] S.F. Tierney, T. Schatzki, and R. Mukerji, Uniform-Pricingversus Pay-as-Bid in Wholesale Electricity Markets: Does itMake a Difference?, Analysis Group & New York ISO, March2008.
  4. [4] R. Tidball, J. Bluestein, N. Rodriguez, and S. Knoke, Cost andPerformance Assumptions for Modeling Electricity GenerationTechnologies, ICF International Fairfax, Virginia, November2010, 96–102.
  5. [5] Life Data Analysis Reference, Worldwide Headquarters, AZ,USA, May 22, 2015.
  6. [6] A. Sieminski, Annual Energy Outlook 2015, U.S. EnergyInformation Administration, May, 2015.
  7. [7] Indepndent Statics and Data Analysis, US Natural Gas Citygate Price, U.S. Energy Information Administration, May,2016.
  8. [8] Guide to Seasonal Adjustment with X-12-ARIMA, TSAB,March, 2007.
  9. [9] A.S. Cui, M. Zhao, and T. Ravichandran, Market uncertaintyand dynamic new product launch strategies: A system dynam-ics model, IEEE Transactions on Engineering Management,58(3), 2011, 530–550.
  10. [10] A. Ford, System dynamics and the electric power industry,System Dynamics Review, 13(1), 1997, 57–85.
  11. [11] F. Olsina, F. Garce, and H.J. Haubrich, Modeling long-termdynamics of electricity markets, Energy Policy, 34(12), 2006,1411–1433.
  12. [12] A. Movahednasab, M. Rashidinejad, and A. Abdollahi, A system dynamics analysis of the long run investment in market-based electric generation expansion with renewable resources,International Transactions on Electrical Energy Systems, 2017.DOI: 10.1002/etep.2338.
  13. [13] D. Eager, B.F. Hobbs, and J.W. Bialek, Dynamic modelingof thermal generation capacity investment: Application tomarkets with high wind penetration, IEEE Transactions onPower Systems, 27(4), 2002, 2127–2137.
  14. [14] M. Hasani-Marzooni and S.H. Hosseini, Short-term marketpower assessment in a long-term dynamic modeling of capacityinvestment, IEEE Transactions on Power Systems, 28(2),2013, 626–638.
  15. [15] M. Assili, M. Hossein Javidi, and D.B. Reza Ghazi, Animproved mechanism for capacity payment based on systemdynamics modeling for investment planning in competitiveelectricity environment, Energy Policy, 36, 2008, 3703–3713.
  16. [16] M. Hasani-Marzooni and S.H. Hosseini, Dynamic analysis ofvarious investment incentives and regional capacity assignmentin Iranian electricity market, Energy Policy, 56, 2013, 271–284.31
  17. [17] J.-Y. Park, N.-S. Ahn, Y.-B. Yoon, K.-H. Koh, and D.W.Bunn, Investment incentives in the Korean electricity market,Energy Policy, 35(11), 2007, 5819–5828.
  18. [18] P. Ochoa, Policy changes in the Swiss electricity market:Analysis of likely market responses, Socio-Economic PlanningSciences, 41(4), 2007, 336–349.
  19. [19] N. Hary, V. Rious, and M. Saguan, The electricity generationadequacy problem: Assessing dynamic effects of capacityremuneration mechanisms, Energy Policy, (91), 2016, 113–127.DOI: 10.1016/j.enpol.2015.12.037.
  20. [20] E. Hartvigsson, F. Riva, and J. Ehnberg, Using System Dy-namics for Power Systems Development in sub-Saharan Africa,Elkraft 2017, At Chalmers University of Technology, G¨oteborg,Sweden, May 2017.
  21. [21] M. Hasani-Marzooni and S.H. Hosseini, Trading strategies forwind capacity investment in a dynamic model of combinedtradable Green Certificate and electricity markets, IET Gen-eration, Transmission & Distribution, 6(4), 2012, 320–330.
  22. [22] M. Hasani-Marzooni and S.H. Hosseini, Dynamic interactionsof TGC and electricity markets to promote wind capacityinvestment, IEEE Systems Journal, 6(1), 2012, 46–57.
  23. [23] A. Forda, K. Vogstadb, and H. Flynn, Simulating price patternsfor tradable green certificates to promote electricity generationfrom wind, Energy Policy, 35(1), 2007, 91–111.
  24. [24] O. Tang and J. Rehme, An investigation of renewable certifi-cates policy in Swedish electricity industry using an integratedsystem dynamics model, International Journal of ProductionEconomics, 2017. DOI: 10.1016/j.ijpe.2017.03.012.
  25. [25] D. Blumberga, A. Blumberga, A. Barisa and D. Lauka, Mod-elling the Latvian power market to evaluate its environ-mental long-term performance, Applied Energy, 2015. DOI:10.1016/j.apenergy.2015.06.016.
  26. [26] D. Chattopadhyay, Modeling greenhouse gas reduction fromthe Australian Electricity Sector, IEEE Transactions on PowerSystems, 25(2), 2010, 729–740.
  27. [27] A. Ford, Waiting for the boom: A simulation study of powerplant construction in California, Energy Policy, (29), 2001,847–869.
  28. [28] A. Ford, Boom and bust in power plant construction: Lessonsfrom the California Electricity Crisis, Journal of Industry,Competition and Trade,2(1/2), 2002, 59–74.
  29. [29] A. Ford, Cycles in competitive electricity markets: A simulationstudy of the western United States, Energy Policy, (27), 1999,637–658.
  30. [30] J.D.M. Bastidas, C.J. Franco, and F. Angulo, Delays inelectricity market models, Energy Strategy Reviews, (16), 2017,24–32. DOI: 10.1016/j.esr.2017.02.004.
  31. [31] Y. Liu, Y.X. Ni, and F.F. Wu, A novel framework for thestudy of strategic bidding impacts on power market stabilityand equilibrium, International Journal of Power and EnergySystems, 2007. DOI: 10.2316/Journal.203.2007.3.203-3640.
  32. [32] Q. Jiang, Y. Wang, and H. Lin, Analysis on relation-ship between electricity wholesale market and retail marketbased on system dynamics method, 2016. DOI: 10.7500/AEPS20160627004.
  33. [33] A. Gholizad, L. Ahmadi, E. HassanNayebi, and M. Shak-ibayifar, A system dynamics model for the analysis of thederegulation in electricity market, 2017, DOI: 10.4018/IJSDA.2017040101.
  34. [34] X. Zhang, Y. Liang, and W. Liu, Pricing model for the chargingof electric vehicles based on system dynamics in Beijing, Energy,(119), 2017, 218–234. DOI: 10.1016/j.energy.2016.12.057.
  35. [35] T.J. Hammons, L.A. Barroso, and H. Rudnick, Integratednatural gas-electricity resources adequacy planning in LatinAmerica, International Journal of Power and Energy Systems,2010. DOI: 10.2316/Journal.203.2010.1.203-3894.
  36. [36] J. Zambujal-Oliveira, Investments in combined cycle naturalgas-fired systems: A real options analysis, Electrical Powerand Energy Systems, 49, 2013, 1–7.
  37. [37] J. Gil, ¨A. Caballero, and A.J. Conejo, CCGTs: The criticallink between the electricity and natural gas markets, IEEEPower & Energy Magazine, 12(6), 2014, 40–48.
  38. [38] J.E. Bistline, Natural gas, uncertainty and climate policy inthe US electric power sector, Energy Policy, 74, 2014, 433–442.
  39. [39] C.A. Saldarriaga, R.A. Hincapi´e, and H. Salazar, A holisticapproach for planning natural gas and electricity distributionnetworks, IEEE Transactions on Power Systems, 28(4), 2013,4052–4063.
  40. [40] S. Spiecker, Modeling market power by natural gas producersand its impact on the power system, IEEE Transactions onPower Systems, 28(4), 2013, 3737–3746.
  41. [41] T. Li, M. Eremia, and M. Shahidehpour, Interdependencyof natural gas network and power system security, IEEETransactions on Power Systems,23(4), 2008, 1817–1824.
  42. [42] M. Shahedipour, Y. Fu, and T. Wiedman, Impact of naturalgas infrastructure on electric power systems, Proceedings ofthe IEEE, 93(5), 2005, 1042–1056.
  43. [43] D. Wang, J. Qiu, K. Meng, and Z. Dong, Coordinated expansionco-planning of integrated gas and power systems, 2017. DOI:10.1007/s40565-017-0286-z.
  44. [44] M. Pantos, Market-based congestion management in electricpower systems with increased share of natural gas dependentpower plants, Energy, 36(7), 2011, 4244–4255.
  45. [45] S. Stoft, Power system economics designing markets for elec-tricity, (United States of America, NewYork: IEEE Press &Wiley-Interscience, Copyright 2002), ISBN: 0-471-15040-1.
  46. [46] J.D. Sterman, Business dynamics: System thinking and mod-eling complex world, (Boston: MCGraw-HILL, 2000), ISBN007238915X.
  47. [47] H.-J. Wagner and J. Mathur, Introduction to wind energysystems: Basics, technology and operation (Springer). ISBN978-3-642-32975-3.
  48. [48] M. Shahidehpour, H. Yamin, and Z. Li, Market operation inelectric power systems forecasting, scheduling, and risk man-agement (The Institute of Electrical and Electronics Engineers,Inc& A John Wiley & Sons Inc.). ISBN 0-471-44337-9.
  49. [49] F. Olsina, Long term dynamics of liberalized elecicity markets,Ph.D. Thesis, National University of San Juan, 2005.

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