Summary Paper: An Initial Heliostat Supply Chain Analysis

Authors

DOI:

https://doi.org/10.52825/solarpaces.v1i.770

Keywords:

Concentrating Solar Power, CSP, Heliostat, Supply Chain, HelioCon

Abstract

This paper summarizes the prior analysis, key findings, and recommendations from the published report titled “Initial Heliostat Supply Chain Analysis” [1]. Globally, the growing demand for concentrating solar power (CSP) technologies, primarily for electricity generation plants has been met with supply chains primarily composed of plentiful commodity materials such as steel, aluminum, and glass. Often the commodity materials can be sourced in the domestic market where power plant will be constructed. Although specialty components are required for CSP solar fields —including mirror panels used for heliostat applications—these specialty components constitute about 30-50% of total system installed costs [2]. Only a few companies and countries, including the United States, have developed the capacity to supply such specialty components. The U.S. heliostat supply chain at present is comprised of few companies (e.g., CSP developers), component suppliers, and is its infancy.

By 2035, with current and aggressive solar photovoltaic (PV) capacity expansions, there is the potential for 500,000–1,500,000 direct and indirect jobs in the areas of manufacturing, installation and development, and operations and maintenance (O&M) [3]. Utilizing the CSP capacity estimations the recent NREL report [4], the construction of 39 gigawatts (GW) of CSP (assuming mainly power tower) in the U.S. could lead to approximately 195,000 manufacturing, construction, and O&M jobs. This does not include the longer-term jobs and economic impact (e.g., taxes from plant operations staff) from operating the plants once constructed. It is recommended that further CSP component and system supply chain analysis and modelling be undertaken.

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References

P. Kurup, S. Akar, C. Augustine, D. Feldman, Initial Heliostat Supply Chain Analysis, National Renewable Energy Laboratory, 2022. https://www.nrel.gov/docs/fy22osti/83569.pdf (accessed September 15, 2022).

NREL, Heliostat Consortium, NREL. (2021). https://www.nrel.gov/csp/heliocon.html (accessed February 18, 2022).

K. Ardani, P. Denholm, T. Mai, R. Margolis, E. O’Shaughnessy, T. Silverman, J. Zuboy, Solar Futures Study, National Renewable Energy Laboratory, 2021. https://www.energy.gov/sites/default/files/2021-09/Solar%20Futures%20Study.pdf (accessed December 20, 2021).

C. Augustine, C. Turchi, M. Mehos, The Role of Concentrating Solar-Thermal Technologies in a Decarbonized U.S. Grid, National Renewable Energy Laboratory, Golden, CO, 2022. https://doi.org/10.2172/1820100. (accessed September 15, 2022).

World Bank, Middle East and North Africa Region Assessment of the Local Manufacturing Potential for Concentrated Solar Power (CSP) Projects, World Bank, Washington D.C., 2011. https://www.isi.fraunhofer.de/content/dam/isi/dokumente/ccx/2011/CSP_MENA__report_17_Jan2011.pdf (accessed February 9, 2022).

D. Chung, K. Horowitz, P. Kurup, On the Path to SunShot. Emerging Opportunities and Challenges in US Solar Manufacturing, National Renewable Energy Lab.(NREL), Golden, CO (United States), 2016. https://www.nrel.gov/docs/fy16osti/65788.pdf. (accessed September 15, 2022).

Stone & Associates, Overview of the Solar Energy Industry and Supply Chain, (2011). https://www.bgafoundation.org/wp-content/uploads/2016/08/Solar-Overview-for-BGA-Final-Jan-2011.pdf (accessed February 9, 2022).

L. Carey, The U.S. Solar Industry Strategy, CSIS. (2021). https://www.csis.org/analysis/us-solar-industry-strategy (accessed February 12, 2022).

Pacific Green Technologies Group, 4 keys to winning in Spain’s world-leading push for CSP, Pacific Green Technologies. (2021). https://www.pacificgreen-group.com/articles/4-keys-winning-spains-world-leading-push-csp (accessed February 18, 2022).

World Bank, Concentrating Solar Power: Clean Power on Demand 24/7, World Bank, Washington D.C., 2021. https://pubdocs.worldbank.org/en/849341611761898393/WorldBank-CSP-Report-Concentrating-Solar-Power-Clean-Power-on-Demand-24-7-FINAL.pdf (accessed February 9, 2022).

SolarPACES and NREL, Ashalim Plot B/Megalim, (2021). https://solarpaces.nrel.gov/project/ashalim-plot-b-megalim (accessed February 25, 2022).

AGC Glass Europe, Energy Generating Products, AGC Glass Europe. (2022). https://www.agc-glass.eu/en/sustainability/environment-friendly-products/energy-generating-products (accessed February 25, 2022).

T. Thor, Status Of Latest Operating CSP Plants In Key CSP Countries: Israel, (2020). https://atainsights.com/wp-content/uploads/2020/02/CSP-Projects-in-Key-Countries-ISRAEL_T.-Thor-Parsons.pdf (accessed March 3, 2022).

CosinSolar, SUPCON Solar Delingha 50MW Molten Salt Tower CSP Plant, (2018). http://www.supconsolar.com/en/cases/detail/id/11.html (accessed February 25, 2022).

SolarPACES and NREL, SUPCON Delingha 50 MW Tower, (2021). https://solarpaces.nrel.gov/project/supcon-delingha-50-mw-tower (accessed May 26, 2022).

CosinSolar, POWERCHINA Gonghe 50MW Molten Salt Tower CSP Plant, (2020). http://www.supconsolar.com/en/cases/detail/id/12.html (accessed February 25, 2022).

SolarPACES and NREL, Power China Qinghai Gonghe - 50MW Tower, (2021). https://solarpaces.nrel.gov/project/power-china-qinghai-gonghe-50mw-tower (ac-cessed May 26, 2022).

T. Keck, M. Balz, V. Göcke, F. von Reeken, F. Gross, W. Landman, J. Collado, J. Salas, J. Gracia, J. Iriondo, I. Eizaguirre, D. Sun, Hami – The first Stellio solar field, in: AIP Conference Proceedings, AIP Publishing, Morocco, 2019: p. 030029. https://doi.org/10.1063/1.5117541. (accessed September 15, 2022).

HelioCSP, New Concentrated Solar Power plant to be built in South Africa by 2023, HELIOSCSP. (2022). https://helioscsp.com/new-concentrated-solar-power-plant-to-be-built-in-south-africa-by-2023/ (accessed March 3, 2022).

Reve, World’s tallest Concentrated Solar Power tower completed in Dubai, (2020). https://www.evwind.es/2020/01/30/worlds-tallest-concentrated-solar-power-tower-completed-in-dubai/73309 (accessed February 25, 2022).

Rioglass Solar, Heliostat Mirror Facets, Rioglass Solar. (2021). https://www.rioglass.com/our-products/heliostat-mirror-facets.html (accessed March 3, 2022).

SolarPACES and NREL, Atacama I / Cerro Dominador 110MW CSP + 100 MW PV, (2021). https://solarpaces.nrel.gov/project/atacama-i-cerro-dominador-110mw-csp-100-mw-pv (accessed May 26, 2022).

IEA, Concentrated Solar Power (CSP), International Energy Association. (2021). https://www.iea.org/reports/concentrated-solar-power-csp (accessed February 12, 2022).

REN21, Renewables 2021 Global Status Report, Renewable Energy Network for the 21st Century, Paris, France, 2021. https://www.ren21.net/wp-content/uploads/2019/05/GSR2021_Full_Report.pdf (accessed February 18, 2022).

K. Chamberlain, Chile builds CSP plant through COVID-19 but demand risks loom, Reuters Events. (2020). https://www.reutersevents.com/renewables/csp-today/chile-builds-csp-plant-through-covid-19-demand-risks-loom (accessed March 29, 2022).

B. Menapace, Container Shipping Prices Quadruple Compared to 2020, Delays Become the Norm, Promo Marketing. (2021). https://magazine.promomarketing.com/article/shipping-prices-quadruple-compared-to-2020-as-delays-become-the-new-norm/ (accessed April 6, 2022).

R. Khasawneh, M. Xu, China-U.S. container shipping rates sail past $20,000 to record, Reuters. (2021). https://www.reuters.com/business/china-us-container-shipping-rates-sail-past-20000-record-2021-08-05/ (accessed March 29, 2022).

Container Xchange, How Much Do Shipping Containers Cost?, Container XChange. (2021). https://www.container-xchange.com/blog/shipping-container-price/ (accessed April 6, 2022).

Research and Markets, Global Concentrated Solar Power (CSP) Market Size, Seg-mentation, Competitive Landscape and Key Country Analysis (2010-2030), (2019). https://www.businesswire.com/news/home/20190520005654/en/Global-Concentrated-Solar-Power-CSP-Market-Size-Segmentation-Competitive-Landscape-and-Key-Country-Analysis-2010-2030---ResearchAndMarkets.com (accessed August 6, 2022).

C. Turchi, P. Kurup, S. Akar, F. Flores, Domestic Material Content in Molten-Salt Concentrating Solar Power Plants, National Renewable Energy Laboratory, Golden, CO, 2015. https://doi.org/10.2172/1215314. (accessed September 15, 2022).

P. Kurup, S. Akar, S. Glynn, C. Augustine, P. Davenport, Cost Update: Commercial and Advanced Heliostat Collectors, National Renewable Energy Laboratory, Golden, CO, 2022. https://www.nrel.gov/docs/fy22osti/80482.pdf (accessed February 18, 2022).

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Published

2024-04-15

How to Cite

Kurup, P., Akar, S., Augustine, C., & Feldman, D. (2024). Summary Paper: An Initial Heliostat Supply Chain Analysis. SolarPACES Conference Proceedings, 1. https://doi.org/10.52825/solarpaces.v1i.770

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