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Techno-economic assessment of substituting natural gas based heater with thermal energy storage system in parabolic trough concentrated solar power plant

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  • Poghosyan, V.
  • Hassan, Mohamed I.

Abstract

Parabolic-trough (PT) concentrated solar power (CSP) plants are very vulnerable to daily fluctuations in solar radiation. This dependence can be mitigated through a hybridization of solar energy with natural gas based heaters that supply thermal energy during the night or whenever solar irradiance level is dimmed. However, there is more sustainable way for CSP plants to avoid power-generation-outages caused by transient weather conditions, i.e. installation of thermal energy storage (TES). Such a system stores surplus thermal energy provided by solar field during sunny hours and discharges it when the sun is not available. Shams-1 PT plant in Madinat-Zayed, United-Arab-Emirates (UAE) has two natural gas based components, i.e. steam-booster heater and heat transfer fluid (HTF) heater. In the current study, model of Shams-1 was developed and analyzed in the System Advisor Model (SAM) software. It has been attempted to replace the HTF heater with TES. A parametric study has been conducted to determine the size of the TES as well as the solar field such that the specified power target demand would be satisfied. The results of the parametric analysis showed that TES can't completely replace the HTF heater, within reasonable sizes. Nevertheless, consequent simulations depicts that TES increases the capacity factor on one hand and decreases fuel consumption on the other hand.

Suggested Citation

  • Poghosyan, V. & Hassan, Mohamed I., 2015. "Techno-economic assessment of substituting natural gas based heater with thermal energy storage system in parabolic trough concentrated solar power plant," Renewable Energy, Elsevier, vol. 75(C), pages 152-164.
    • Handle: RePEc:eee:renene:v:75:y:2015:i:c:p:152-164
    DOI: 10.1016/j.renene.2014.09.025
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    Citations

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    Cited by:

    1. McPherson, Madeleine & Mehos, Mark & Denholm, Paul, 2020. "Leveraging concentrating solar power plant dispatchability: A review of the impacts of global market structures and policy," Energy Policy, Elsevier, vol. 139(C).
    2. Rômulo de Oliveira Azevêdo & Paulo Rotela Junior & Luiz Célio Souza Rocha & Gianfranco Chicco & Giancarlo Aquila & Rogério Santana Peruchi, 2020. "Identification and Analysis of Impact Factors on the Economic Feasibility of Photovoltaic Energy Investments," Sustainability, MDPI, vol. 12(17), pages 1-40, September.
    3. Mahmoudimehr, Javad & Sebghati, Parvin, 2019. "A novel multi-objective Dynamic Programming optimization method: Performance management of a solar thermal power plant as a case study," Energy, Elsevier, vol. 168(C), pages 796-814.
    4. Eveloy, Valerie & Gebreegziabher, Tesfaldet, 2019. "Excess electricity and power-to-gas storage potential in the future renewable-based power generation sector in the United Arab Emirates," Energy, Elsevier, vol. 166(C), pages 426-450.
    5. Meybodi, Mehdi Aghaei & Ramirez Santigosa, Lourdes & Beath, Andrew C., 2017. "A study on the impact of time resolution in solar data on the performance modelling of CSP plants," Renewable Energy, Elsevier, vol. 109(C), pages 551-563.
    6. Mirzania, Pegah & Balta-Ozkan, Nazmiye & Ford, Andy, 2020. "An innovative viable model for community-owned solar PV projects without FIT: Comprehensive techno-economic assessment," Energy Policy, Elsevier, vol. 146(C).
    7. Cavalcanti, Eduardo J.C. & Lima, Matheus S.R. & de Souza, Gabriel F., 2020. "Comparison of carbon capture system and concentrated solar power in natural gas combined cycle: Exergetic and exergoenvironmental analyses," Renewable Energy, Elsevier, vol. 156(C), pages 1336-1347.
    8. Jannesari, Hamid & Babaei, Banafsheh, 2018. "Optimization of solar assisted heating system for electro-winning process in the copper complex," Energy, Elsevier, vol. 158(C), pages 957-966.
    9. Xiaolei Li & Zhifeng Wang & Ershu Xu & Linrui Ma & Li Xu & Dongming Zhao, 2019. "Dynamically Coupled Operation of Two-Tank Indirect TES and Steam Generation System," Energies, MDPI, vol. 12(9), pages 1-42, May.
    10. Alberto Giaconia & Irena Balog & Giampaolo Caputo, 2021. "Hybridization of CSP Plants: Characterization of a Molten Salt Heater for Binary and Ternary Nitrate Salt Mixtures Fueled with Gas/Biogas Heaters," Energies, MDPI, vol. 14(22), pages 1-18, November.
    11. Boukelia, T.E. & Arslan, O. & Mecibah, M.S., 2017. "Potential assessment of a parabolic trough solar thermal power plant considering hourly analysis: ANN-based approach," Renewable Energy, Elsevier, vol. 105(C), pages 324-333.
    12. Gutiérrez, R.E. & Haro, P. & Gómez-Barea, A., 2021. "Techno-economic and operational assessment of concentrated solar power plants with a dual supporting system," Applied Energy, Elsevier, vol. 302(C).
    13. Gutiérrez-Alvarez, R. & Guerra, K. & Haro, P., 2023. "Market profitability of CSP-biomass hybrid power plants: Towards a firm supply of renewable energy," Applied Energy, Elsevier, vol. 335(C).
    14. Ogunmodimu, Olumide & Okoroigwe, Edmund C., 2018. "Concentrating solar power technologies for solar thermal grid electricity in Nigeria: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 90(C), pages 104-119.
    15. Jamal-Abad, Milad Tajik & Saedodin, Seyfollah & Aminy, Mohammad, 2017. "Experimental investigation on a solar parabolic trough collector for absorber tube filled with porous media," Renewable Energy, Elsevier, vol. 107(C), pages 156-163.
    16. Hoz, Jordi de la & Martín, Helena & Montalà, Montserrat & Matas, José & Guzman, Ramon, 2018. "Assessing the 2014 retroactive regulatory framework applied to the concentrating solar power systems in Spain," Applied Energy, Elsevier, vol. 212(C), pages 1377-1399.

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