市场调查报告书
商品编码
1270699
太阳热能的全球市场 - 市场规模,占有率,成长分析:各集热器类型,各系统,各用途 - 产业预测(2022年~2028年)Global Solar Thermal Market Size, Share, Growth Analysis, By Collector Type, By System, By Application - Industry Forecast 2022-2028 |
全球太阳热能的市场规模预测将从2022年的209亿4,000万美元到2030年达到302亿4,000万美元,在预测期间(2023年~2030年)时预计将以年复合成长率4.7%的速度成长。削减碳足迹的采用无污染燃料和环境意识的提高,推动了该市场的成长。
本报告提供全球太阳热能市场相关调查分析,提供市场动态及预测,市场区隔分析,企业简介等资讯。
Global Solar Thermal Market size was valued at USD 19.96 billion in 2021 and is poised to grow from USD 20.94 billion in 2022 to USD 30.24 billion by 2030, growing at a CAGR of 4.7% in the forecast period (2023-2030).
Solar thermal energy is created by gathering solar heat for human use. Unlike photovoltaic (PV) energy, which converts some of the electromagnetic radiation from the sun into electrons and electricity directly, it is not photovoltaic (PV) energy. Solar thermal technology provides a wider range of uses than solar photovoltaic technology since the sun's heat may be trapped and conveyed through a medium. This energy can be utilised to create power, heat water, cook food, and both heat and cool a home.
Solar thermal has seen a surge in use in recent years. For instance, the European market began to expand again in 2021 after COVID-19. Initial projections indicate an installation level of up to 2,146,901 m2, which would represent an 8.0% increase over 2020 (1,987,345 m2). The thermal capacity of the newly built surface for the year is approximately 1,502.8 MWth (up from 1,391.1 MWth in 2020).
The construction of solar thermal power plants will increase globally as solar energy becomes known as the most environmentally friendly renewable energy source. Systems for solar thermal power or electric generating can gather and focus sunlight to produce the high-temperature heat needed to make electricity. The solar district heating system combined with seasonal storage is the market's fastest-growing trend in solar thermal technology. The solar district heating system that Savosolar Oyj just installed in Cadaujac, France, in December 2021 is the most well-known example.
The government's incentives can have the biggest impact on market growth. For instance, the Danish gas transmission system operator Evida decided in March 2021 to waive the grid disconnection fees for homes who choose to heat with renewable energy rather than gas from the grid. Thin copper tubes filled with liquid, such as water, are used in evacuated tube collectors. These copper tubes are contained inside larger, vacuum-sealed tubes made of clear glass or plastic.
Top-down and bottom-up approaches were used to estimate and validate the size of global Solar Thermal Market and to estimate the size of various other dependent submarkets. The research methodology used to estimate the market size includes the following details: The key players in the market were identified through secondary research, and their market shares in the respective regions were determined through primary and secondary research. This entire procedure includes the study of the annual and financial reports of the top market players and extensive interviews for key insights from industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares split, and breakdowns were determined by using secondary sources and verified through Primary sources. All possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analysed to get the final quantitative and qualitative data.
Segments covered in this report
The Global Solar Thermal Market is segmented on the basis of Collector Type, System, Application, and Region. Based on Collector Type the market is segmented into Evacuated Tube Collector, Flat Plate Collector, Unglazed Water Collector, and Air Collector. Based on System the market is segmented into Thermosiphon Solar Heating Systems and Pumped Solar Heating systems. Based on Application the market is segmented into Residential, Commercial, and Industrial. Based on the region, the global Solar thermal market is segmented into North America, Europe, Asia-Pacific, South America, and MEA.
Driver
Growing Use of Green Energy Will Support the Development of the Solar Thermal Market
The market is expanding as a result of the adoption of clean fuels and rising environmental consciousness, both of which aim to reduce carbon footprints. While lowering reliance on fossil fuels as well as economic benefits for both consumers and service providers are the reasons propelling the market's expansion. Government attempts to increase the use of renewable energy sources in energy production are also likely to spur industry expansion. The installation of solar thermal plants in many nations like China is projected to demonstrate considerable market growth in the near future, thus the government is offering incentives based on targets for the generation of electricity from conventional sources.
Governments and international organisations have established a number of objectives to be completed by the years 2030, 2040, and 2050. Raising the percentage of renewable energy sources in energy production is given top priority under these aims. Along with the government incentives provided to achieve the same goal, this is likely to encourage investments in the solar business. The market has become more fragmented and susceptible to new competitors as a result. These elements are anticipated to combine to boost the solar thermal market overall throughout the forecast period.
For instance, in just ten years, renewable energy has increased from 10% of US electricity generation in 2010 to 20% of US electrical generation now. In the last ten years, the use of solar and wind energy has increased at rates of 84% and 15%, respectively. Despite these tremendous developments, if the United States is to meet its renewable energy goals, the pace will need to increase up significantly. At the end of 2020, the country had more than 100 GW of solar capacity and 122.5 GW of wind capacity. However, to decarbonize the electricity sector between 2035 and 2050, up to 70-100 GW of solar and wind capacity each year will need to be added. As a result, there will certainly be ample room for market expansion in the years to come.
Restraint
Solar system installation costs have increased.
The global solar thermal market is being constrained by factors such as high installation and maintenance costs for solar thermal power plants, the need for large, unstable plots of land for plant setup, and the difficulty in locating land with greater solar radiation.
For instance, a rooftop solar PV system with installation fees costs about $2500 per kWp (kilowatt peak). An typical family uses about 3kW of power from a solar panel. Solar panels range in price from $4000 to $6000 and can cover a roof area of nearly 21 square metres. The cost of initial installation will rise along with the amount of electricity a solar system can produce. The global market's expansion is constrained by the high installation costs. The one-time installation cost of solar systems is, however, now declining as a result of government initiatives and support for a move towards the adoption of renewable and green energy.
Market Trends
A growing number of enterprises implementing solar thermal is probably going to have a beneficial impact on the market. Pharmaceuticals, automotive parts, textiles and chemicals, and dairy food processing and beverages are a few of the industries that are increasingly using the industrial heat produced by solar thermal projects. In process heating, renewable solutions can cut back on carbon dioxide (CO2) emissions and the use of fossil fuels. There is a lot of space for improvement in the business because process heating supplies make up over two thirds of the entire final energy demand from a manufacturing site. The world's largest pharmaceutical companies have set lofty targets for their energy usage in the future, and it is anticipated that this sector will use solar process heating more frequently.
Promoting industrial catalysis requires a significant quantity of artificial energy, such as electricity and energy obtained from fossil fuels, which require artificial input and conversion before being used. Therefore, creating catalysis without the use of artificial energy is essential for human sustainability. Catalysis powered by solar energy has the potential to consume no artificial energy. The concept of using heterostructures of black photothermal materials (such Bi2Te3) and infrared insulating materials (Cu) to raise solar heating temperatures is the current market trend. However, it is constrained by the low ambient solar heating temperatures of photothermal materials such as these.