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Concentrating solar power: Still small but learning fast

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  • Robert Pitz-Paal

    (Institute of Solar Research, German Aerospace Center)

Abstract

Concentrating solar power had a difficult market start compared to other renewable technologies, leading to a total global capacity of only 5 GW today after more than a decade of deployment. A comprehensive global empirical study identifies distinct deployment phases, with high learning rates exceeding 25% over the past 5 years.

Suggested Citation

  • Robert Pitz-Paal, 2017. "Concentrating solar power: Still small but learning fast," Nature Energy, Nature, vol. 2(7), pages 1-2, July.
    • Handle: RePEc:nat:natene:v:2:y:2017:i:7:d:10.1038_nenergy.2017.95
    DOI: 10.1038/nenergy.2017.95
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    Citations

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    Cited by:

    1. Kareem Noureldin & Tobias Hirsch & Bijan Nouri & Zeyad Yasser & Robert Pitz-Paal, 2021. "Evaluating the Potential Benefit of Using Nowcasting Systems to Improve the Yield of Parabolic Trough Power Plants with Single-Phase HTF," Energies, MDPI, vol. 14(3), pages 1-21, February.
    2. Biswas, D.B. & Bose, S. & Dalvi, V.H. & Deshmukh, S.P. & Shenoy, N.V. & Panse, S.V. & Joshi, J.B., 2020. "A techno-economic comparison between piston steam engines as dispatchable power generation systems for renewable energy with concentrated solar harvesting and thermal storage against solar photovoltai," Energy, Elsevier, vol. 213(C).
    3. Wang, Wen-Qi & He, Ya-Ling & Jiang, Rui, 2022. "A multi-scale solar receiver with peak receiver efficiency over 90% at 720 °C for the next-generation solar power tower," Renewable Energy, Elsevier, vol. 200(C), pages 714-723.
    4. Mirnezami, Seyed Abolfazl & Zahedi, Alireza & Shayan Nejad, Ardeshir, 2020. "Thermal optimization of a novel solar/hydro/biomass hybrid renewable system for production of low-cost, high-yield, and environmental-friendly biodiesel," Energy, Elsevier, vol. 202(C).
    5. Wang, Wen-Qi & Li, Ming-Jia & Cheng, Ze-Dong & Li, Dong & Liu, Zhan-Bin, 2021. "Coupled optical-thermal-stress characteristics of a multi-tube external molten salt receiver for the next generation concentrating solar power," Energy, Elsevier, vol. 233(C).
    6. Wang, Qiliang & Yao, Yao & Shen, Zhicheng & Yang, Hongxing, 2023. "A hybrid parabolic trough solar collector system integrated with photovoltaics," Applied Energy, Elsevier, vol. 329(C).
    7. Wang, Qiliang & Li, Guiqiang & Cao, Jingyu & Hu, Mingke & Pei, Gang & Yang, Hongxing, 2022. "An analytical study on optimal spectral characters of solar absorbing coating and thermal performance potential of solar power tower," Renewable Energy, Elsevier, vol. 200(C), pages 1300-1315.
    8. Brodrick, Philip G. & Brandt, Adam R. & Durlofsky, Louis J., 2018. "Optimal design and operation of integrated solar combined cycles under emissions intensity constraints," Applied Energy, Elsevier, vol. 226(C), pages 979-990.
    9. Wang, Qiliang & Shen, Boxu & Huang, Junchao & Yang, Honglun & Pei, Gang & Yang, Hongxing, 2021. "A spectral self-regulating parabolic trough solar receiver integrated with vanadium dioxide-based thermochromic coating," Applied Energy, Elsevier, vol. 285(C).
    10. Alberto Boretti & Stefania Castelletto, 2021. "Techno-economic performances of future concentrating solar power plants in Australia," Palgrave Communications, Palgrave Macmillan, vol. 8(1), pages 1-10, December.
    11. Bonk, Alexander & Braun, Markus & Sötz, Veronika A. & Bauer, Thomas, 2020. "Solar Salt – Pushing an old material for energy storage to a new limit," Applied Energy, Elsevier, vol. 262(C).

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