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EVALUATION OF THE STRUCTURE AND ENERGY GENERATION OF A INTEGRATED SOLAR COMBINED CYCLE POWER PLANT

Year 2022, , 136 - 147, 30.06.2022
https://doi.org/10.34186/klujes.1139265

Abstract

Population growth, technological advancements, and growing living standards have all contributed to a rise in energy demand. Due to the fact that fossil fuels are not sustainable, renewable energy sources have emerged as a viable alternative. The need for development is growing all the time. In this study, a combined cycle power plant in which solar energy is integrated is discussed. For this purpose, in the designed model calculations; for solar energy data, the values of Emirgazi district of Konya province were used. The solar-field warms a thermal oil (Therminol VP-1) that is then circulated through a sequence of shell and tube heat exchangers that preheat feedwater, create steam, and superheat steam. The solar generator gets warmed feedwater from the HRSG and returns superheated steam, which is combined with HP steam when it exits the first superheater.As a result of model calculations; The net electricity efficiency (LHV) of the power plant was 56% and the heat recovery steam generator 89%.

References

  • [1] Turkish Academy of Sciences, TUBA-Solar Energy Technologies Report, Ankara, 2018.
  • [2] World Energy Council, Turkey 2021 Renewable Energy and Employment Annual Evaluation Report, 2021.
  • [3] Ministry of Energy and Natural Resources, 2019-2023 Strategic Plan, Ankara, 2019.
  • [4] The International Renewable Energy Agency (IRENA), The Energy Progress Report , 2022
  • [5] B. Kelly, U. Herrmann, M.J. Hale, Optimization studies for integrated solar combined cycle systems, in: Proceedings of Solar Forum 2001 Solar Energy: The Power to Choose, April 21e25, 2001. Washington, DC.
  • [6] A. Rovira, M.J. Montes, F. Varela, M. Gil, Comparison of heat transfer fluid and direct steam generation technologies for integrated solar combined cycles, Appl. Therm. Eng. 52 (2013).
  • [7] Zhai, R., Zhu, Y., Yang, Y., Tan, K. ve Hu, E., (2013). “Exergetic and Parametric Study of a Solar Aided Coal-Fired Power Plant”, Entropy, 15 (3): 1014-1034.
  • [8] Feng, L., Chen, H., Zhou, Y., Zhang, S., Yang, T. ve An, L., (2016). “The Development of a Thermo-Economic Evaluation Method for Solar Aided Power Generation”, Energy Conversion and Management, 116: 112-119.
  • [9] Yang, Y., Cuı, Y., Hou, H., Guo, X., Yang, Z. ve Wang, N., (2008). “Research on Solar Aided Coal-Fired Power Generation System and Performance Analysis”, Science in China Series E-Technological Sciences, 51 (8): 1211-1221.
  • [10] Hou, H., Mao, J., Yang, Y. ve Luo, N., (2012). “Solar-Coal Hybrid Thermal Power Generation-an Efficient Way to Use Solar Energy in China”, International Journal of Energy Engineering, 2 (4): 137-142.
  • [11] Suresh, M.V.J.J., Reddy, K.S. ve Kolar, A.K., (2010). “4-E (Energy, Exergy, Environment, and Economic) Analysis of Solar Thermal Aided Coal-Fired Power Plants”, Energy for Sustainable Development, 14 (4): 267-279.
  • [12] Philip G. Brodrick, Adam R. Brandt, Louis J. Durlofsky, Operational Optimization of an integrated solar combined cycle under practical time-dependent constraints, Energy 15 (2017) 1569-1584.
  • [13] A. Baghernejad, M. Yaghoubi, Exergoeconomic analysis and optimization of an Integrated Solar Combined Cycle System (ISCC) using genetic algorithm, Energy Conversion and Management 52 (2011) 2193-2203.
  • [14] Mechthild Horn, Heiner Führing, Jürgen Rheinländer, Economic analysis of integrated solar combined cycle power plants. A sample case: The economic feasibility of an ISCCS power plant in Egypt, Energy 29 (2004) 935-945.
  • [15] V.Quaschning, "Technical and economical system comparison of photovoltaic and concentrating solar thermal power systems depending on annual global irradiation," Solar Energy, vol. 77, pp. 171-178, 2004.
  • [16] P.Woditsch, "Kostenreduktionspotenziale bei der Herstellung von PV-Modulen," Proceedings of FVS Themen, pp. 72–86, 2000.

ENTEGRE GÜNEŞ KOMBİNE ÇEVRİM SANTRALİNİN YAPISI VE ENERJİ ÜRETİMİNİN DEĞERLENDİRİLMESİ

Year 2022, , 136 - 147, 30.06.2022
https://doi.org/10.34186/klujes.1139265

Abstract

Günümüzde nüfus artışı, teknolojik gelişmeler ve artan yaşam standartları, enerji talebindeki artışa katkıda bulunmaktadır. Fosil yakıtların sürdürülebilir bir kaynak olmaması nedeniyle yenilenebilir enerji kaynakları uygulanabilir bir alternatif olarak ortaya çıkmaktadır. Bu çalışmada güneş enerjisinin entegre edildiği bir kombine çevrim santrali ele alınmıştır. Bu amaçla tasarlanan model hesaplamalarında; güneş enerjisi verileri için Konya ili Emirgazi ilçesinin değerleri kullanılmıştır. Model santralde, parabolik oluklu güneş alanı, besleme suyunu önceden ısıtan, buhar üreten bir dizi ve borulu ısı eşanjörlerinden pompalanan bir termal yağı (Therminol VP1) ısıtmaktadır. Model hesaplamaları sonucunda; santralin net elektrik verimi (LHV) % 56 ve ısı geri kazanımlı buhar jeneratörünün verimi de % 89 bulunmuştur.

References

  • [1] Turkish Academy of Sciences, TUBA-Solar Energy Technologies Report, Ankara, 2018.
  • [2] World Energy Council, Turkey 2021 Renewable Energy and Employment Annual Evaluation Report, 2021.
  • [3] Ministry of Energy and Natural Resources, 2019-2023 Strategic Plan, Ankara, 2019.
  • [4] The International Renewable Energy Agency (IRENA), The Energy Progress Report , 2022
  • [5] B. Kelly, U. Herrmann, M.J. Hale, Optimization studies for integrated solar combined cycle systems, in: Proceedings of Solar Forum 2001 Solar Energy: The Power to Choose, April 21e25, 2001. Washington, DC.
  • [6] A. Rovira, M.J. Montes, F. Varela, M. Gil, Comparison of heat transfer fluid and direct steam generation technologies for integrated solar combined cycles, Appl. Therm. Eng. 52 (2013).
  • [7] Zhai, R., Zhu, Y., Yang, Y., Tan, K. ve Hu, E., (2013). “Exergetic and Parametric Study of a Solar Aided Coal-Fired Power Plant”, Entropy, 15 (3): 1014-1034.
  • [8] Feng, L., Chen, H., Zhou, Y., Zhang, S., Yang, T. ve An, L., (2016). “The Development of a Thermo-Economic Evaluation Method for Solar Aided Power Generation”, Energy Conversion and Management, 116: 112-119.
  • [9] Yang, Y., Cuı, Y., Hou, H., Guo, X., Yang, Z. ve Wang, N., (2008). “Research on Solar Aided Coal-Fired Power Generation System and Performance Analysis”, Science in China Series E-Technological Sciences, 51 (8): 1211-1221.
  • [10] Hou, H., Mao, J., Yang, Y. ve Luo, N., (2012). “Solar-Coal Hybrid Thermal Power Generation-an Efficient Way to Use Solar Energy in China”, International Journal of Energy Engineering, 2 (4): 137-142.
  • [11] Suresh, M.V.J.J., Reddy, K.S. ve Kolar, A.K., (2010). “4-E (Energy, Exergy, Environment, and Economic) Analysis of Solar Thermal Aided Coal-Fired Power Plants”, Energy for Sustainable Development, 14 (4): 267-279.
  • [12] Philip G. Brodrick, Adam R. Brandt, Louis J. Durlofsky, Operational Optimization of an integrated solar combined cycle under practical time-dependent constraints, Energy 15 (2017) 1569-1584.
  • [13] A. Baghernejad, M. Yaghoubi, Exergoeconomic analysis and optimization of an Integrated Solar Combined Cycle System (ISCC) using genetic algorithm, Energy Conversion and Management 52 (2011) 2193-2203.
  • [14] Mechthild Horn, Heiner Führing, Jürgen Rheinländer, Economic analysis of integrated solar combined cycle power plants. A sample case: The economic feasibility of an ISCCS power plant in Egypt, Energy 29 (2004) 935-945.
  • [15] V.Quaschning, "Technical and economical system comparison of photovoltaic and concentrating solar thermal power systems depending on annual global irradiation," Solar Energy, vol. 77, pp. 171-178, 2004.
  • [16] P.Woditsch, "Kostenreduktionspotenziale bei der Herstellung von PV-Modulen," Proceedings of FVS Themen, pp. 72–86, 2000.
There are 16 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Issue
Authors

Oğuzhan Erbaş 0000-0001-9424-4273

Publication Date June 30, 2022
Published in Issue Year 2022

Cite

APA Erbaş, O. (2022). EVALUATION OF THE STRUCTURE AND ENERGY GENERATION OF A INTEGRATED SOLAR COMBINED CYCLE POWER PLANT. Kirklareli University Journal of Engineering and Science, 8(1), 136-147. https://doi.org/10.34186/klujes.1139265