Int'l : +1-503-894-6022 | Toll Free : +1-800-792-5285 | help@alliedmarketresearch.com
A02753 | Pages: 250 | Charts: 63 | Tables: 103 |
The global concentrated solar power market size was valued at $6.1 billion in 2022, and is projected to reach $28.2 billion by 2032, growing at a CAGR of 16.6% from 2023 to 2032.
The global concentrated solar power market share has been analyzed in terms of value ($Million). The analysis in the report is provided on the basis of type, application, 4 major regions, and more than 15 countries.
The global concentrated solar power market report includes a detailed study covering underlying factors influencing the industry opportunities and trends.
The concentrated solar power market is fragmented in nature with few players such as Aalborg CSP, Acciona, ACWA Power, Atlantica Sustainable Infrastructure plc., Brightsource, FRENELL GMBH, General Electric, Rioglass Solar Inc., Sener, and Siemens Energy AG.
The report facilitates strategy planning and industry dynamics to enhance decision making for existing market players and new entrants entering the concentrated solar power industry.
Countries such as China, U.S., India, Germany, and Brazil hold a significant share in the global concentrated solar power market.
Concentrated Solar Power (CSP) refers to a renewable energy technology that harnesses sunlight to generate electricity. CSP systems use mirrors or lenses to concentrate sunlight onto a small area. This concentrated sunlight produces heat, typically used to drive a steam turbine connected to a generator, which then produces electricity. Moreover, there are several types of CSP technologies such as parabolic trough systems, power towers, dish/engine systems, and linear Fresnel reflectors. Each system employs different methods to focus sunlight onto receivers where the heat is collected and transferred to a working fluid, usually a liquid or gas, to generate steam and drive a turbine.
CSP offers the advantage of being a dispatchable form of renewable energy, as some systems store heat for later use, enabling electricity generation even when the sunlight is unable to produce electricity. It is considered an attractive option for utility-scale power generation and has the potential to contribute significantly to the global transition toward cleaner energy sources and reduced greenhouse gas emissions. In addition, CSP is used for various applications such as desalination, industrial process heat, and thermal applications in addition to power generation, offering diverse solutions for energy needs.
CSP technology allows for both large-scale utility plants and smaller, distributed systems. The modular nature of CSP facilitates scalability, enabling the construction of power plants tailored to specific energy needs. In addition, CSP plants integrate thermal energy storage systems, usually using molten salts, allowing for the storage of excess heat generated during the day. This stored energy is used to generate electricity during periods of low or no sunlight, providing a more consistent and reliable power supply compared to some other renewable sources.
Renewable energy enhances security by diversifying portfolios and cutting fossil fuel reliance. Nations such as Sweden, China, and Germany target renewables to meet climate goals that drive CSP, wind, and solar adoption. In addition, R&D boosts CSP efficiency, and advancements in materials and storage make CSP competitive. In addition, CSP technologies use dry cooling systems, significantly reducing water usage compared to conventional thermal power plants. This aspect is crucial in water-stressed regions where water conservation is a priority. All these factors positioned concentrated solar power as a crucial technology in meeting sustainable energy targets and increasing the demand during the forecast period.
However, CSP systems that include intricate technologies such as parabolic troughs or power towers, incur high initial costs due to complex construction, involving mirrors, receivers, and thermal storage. Moreover, the technological complexity of CSP systems extends beyond their physical footprint. Thermal energy storage systems, a crucial aspect of many CSP projects, contribute to the overall cost. All these factors hamper the growth of the concentrated solar market.
Hybridization and system integration in CSP enhance efficiency, reliability, and energy contributions. CSP with renewables or conventional technologies unlocks numerous benefits, broadening solar thermal energy applications. Integrated systems leverage diverse technologies, boosting efficacy and dependability. Moreover, the integration of CSP with photovoltaic or wind forms a hybrid plant that boosts efficiency and maximizes the output. This integration helps to smooth energy fluctuations and ensures consistent supply. All these factors are anticipated to offer new growth opportunities for the concentrated solar power market during the forecast period.
The concentrated solar power market is segmented on the basis of technology, end-use industry, and region. By technology, the market is classified into parabolic trough, solar power tower, Fresnel reflectors, and dish stirling. By end-use industry, the market is divided into residential, commercial, and industrial. By region, the market is analyzed across North America, Europe, Asia-Pacific, and LAMEA.
[TECHNOLOGYGRAPH]
By technology, the solar power tower segment accounted for more than half of the global concentrated solar power market revenue in 2022 and is expected to maintain its dominance during the forecast period. Solar power tower offers higher efficiency in energy conversion compared to some other CSP technologies. It has the potential to achieve higher temperatures, enabling more efficient electricity generation through steam turbines. This efficiency factor makes solar power tower attractive for utility-scale power generation. In addition, ongoing research and technological advancements in materials, receiver designs, and heliostat controls have contributed to increased efficiency and reduced costs in solar power tower systems. All these factors increase the demand for the solar power tower during the forecast period.
[ENDUSEINDUSTRYGRAPH]
By end-use industry, the industrial segment accounted for half of the concentrated solar power market revenue in 2022 and is expected to maintain its dominance during the forecast period. Industrial sectors often require uninterrupted power sources. CSP, with its ability to integrate thermal energy storage, provides a reliable and dispatchable source of energy, reducing dependence on intermittent renewables and ensuring a consistent power supply. In addition, stringent environmental regulations and corporate sustainability goals drive industries to transition towards cleaner energy sources. CSP carbon-neutral and environmentally friendly nature aligns with these objectives, making it an attractive option for reducing greenhouse gas emissions and environmental impact.
[REGIONGRAPH]
On the basis of region, Asia-Pacific has the highest market share accounting for more than half of the concentrated solar power market revenue in 2022. Rapid economic growth in countries like India and China has led to increased energy demands. CSP offers a viable solution to meet these escalating energy needs while reducing reliance on fossil fuels and diversifying the energy mix. In addition, various governments across the region have implemented supportive policies, incentives, and targets promoting renewable energy adoption. Initiatives such as feed-in tariffs, renewable energy targets, tax incentives, and favorable regulatory frameworks encourage CSP development.
Key players in the concentrated solar power market include Aalborg CSP, Acciona, ACWA Power, Atlantica Sustainable Infrastructure plc., Brightsource, FRENELL GMBH, General Electric, Rioglass Solar Inc., Sener, and Siemens Energy AG. In addition, the market drivers, restraints, and opportunities are explained in the report.
Apart from these major players, there are other key players in the concentrated solar power market growth. These include Abengoa Solar, SolarReserve, TSK Flagsol Engineering GmbH, Schott AG, Therminol, Cobra Group, Idhelio, Novatec Biosol, and Enel Green Power.
Historical trends of concentrated solar power:
In the late 19th century, the early conceptualization of solar power emerged with the harnessing of solar thermal energy for heating water and generating steam. This period marked the initial experiments and small-scale applications of solar energy for industrial and residential purposes.
During the mid-20th century, advancements in solar technologies particularly in the development of concentrating solar power (CSP) systems, began to gain traction. Improved designs of solar collectors and better heat transfer mechanisms laid the foundation for more efficient CSP systems. However, widespread adoption remained limited due to high costs and competing energy sources.
In the late 20th century, the potential of CSP gained attention as a viable renewable energy source. Technological innovations, such as parabolic troughs and power tower systems, improved efficiency and lower costs. Government incentives and renewable energy policies in some regions spurred pilot projects and initial commercial deployments of CSP plants.
The early 21st century witnessed a significant surge in the development of CSP technology. Increasing concerns about climate change and the quest for cleaner energy sources drove renewed interest in solar power. Advances in storage systems, like molten salt technology, addressed the intermittency of solar power, making CSP more reliable and attractive for grid integration.
By the mid-2010s, the global CSP market experienced substantial growth. Larger-scale CSP plants were deployed in various regions, especially in sun-rich areas, to generate electricity at utility-scale levels. Improved efficiency in solar collectors and thermal storage systems further bolstered the attractiveness of CSP as a sustainable energy solution.
In the late 2010s and early 2020s, the CSP market continued its expansion. The focus on decarbonization and the transition towards renewable energy accelerated the deployment of CSP projects worldwide. Collaborative efforts between governments, industries, and research institutions led to breakthroughs in CSP technologies, enhancing efficiency and reducing costs. Integrated storage solutions and hybrid systems increased the reliability and round-the-clock availability of solar power, further cementing CSP's role in the renewable energy landscape.
Key Market Segments
Key Market Players