(MENAFN- EIN Presswire) Simulator Market
Solar Simulator Market Expected to Reach $364.6 Million by 2031
PORTLAND, OREGON, UNITED STATES, March 8, 2023 /einpresswire.com / -- The solar simulator market size was valued at $203.6 million in 2021 and is estimated to reach $364.6 million by 2031, growing at a CAGR of 5.8% from 2022 to 2031. A solar simulator also known as a sun simulator is a device capable of providing illumination nearly equal to natural sunlight. There are two different types of solar simulators such as steady-state and pulsed solar simulators. The pulsed solar simulator may be a single-pulse or multi-pulse solar simulator. Steady-state solar simulators have 1,000 hours of continuous operation. While pulsed solar simulators have 40,000 to 1 million flashes. Solar simulators are used in the testing of solar cells, modules, solar materials & products, automotive testing, textile, biomass study, and other indoor testing facilities for R&D purposes.
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Significant development of the end-use industries such as textile, automotive, paint & coatings, solar, pharmaceutical, chemicals, and healthcare has fueled the demand for solar simulators to check performance parameters of the products or materials from the above-mentioned industries, which in turn drives the growth of the solar simulator market during the forecast period. In addition, an increase in demand for solar products from developing economies such as India, China, and Japan fuels the growth of the market, globally. However, the high cost associated with solar simulators and disadvantages such as high-power consumption, high electronic drive costs, and short life cycles is the key factors that are expected to hamper the global solar simulator market growth in the upcoming years.
Depending on the type, the pulsed solar simulator segment held the highest market share of about 56.7% in 2021 and is expected to maintain its dominance during the solar simulator market forecast period. This is attributed to the rising in demand for pulsed solar simulators from PV module testing and other applications. In addition, an increase in demand for rapid & accurate measurement of electrical power output, characteristics of PV cells, modules, and solar panels for manufacturing of standard products is further expected to fuel the growth of the market in the coming years.
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On the basis of the light source, the xenon arc lamp segment holds the largest share, in terms of revenue, and is expected to maintain its dominance during the forecast period. This growth is attributed to a rise in demand for xenon arc lamp-based solar simulators owing to their ability to produce stable spectral equal to the sunlight without filtering from various applications including testing of PV cells or module applications. In addition, the increase in the use of xenon arc lamp-based solar simulators owing to advantages associated with it such as good match to sunlight spectrum, stable spectrum, ability to produce high-intensity beams and others fuel the growth of the xenon arc lamp-based solar simulator market in the coming years.
On the basis of application, the PV cell/module and material testing segment holds the largest share, in terms of revenue, and is expected to grow at a CAGR of 5.9%. This is due to rapid growth in the solar energy industry over the last decade is projected to continue in the upcoming years and owing to increased investments in renewable energy across the globe. In addition, the rise in demand for solar panels to energize home appliances such as lights and pumps rises the demand for solar-based products, which in turn is expected to drive the growth of the solar simulator for the testing of modules and PV materials during the forecast period.
The global solar simulator market analysis covers in-depth information on the major solar simulator industry participants. The key players operating and profiled in the report include ABB, Ltd., ABET Technologies, Inc., Asahi Spectra Co., Ltd., Endeas, Gsolar Power Co., Ltd., Iwasaki Electric Co., Ltd., Sciencetech, Inc., Schneider Electric, Solar Light Company, LLC, and Spectrolab. Other players operating in the value chain of the global solar simulator market are OAI, Wacom Electric Co. Ltd., Nisshinbo Mechatronics, Inc., Spire Solar, and others.
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KEY FINDINGS OF THE STUDY
- In 2021, the pulsed solar simulator type segment accounted for about 56.7% of the share in the global solar simulator market and is expected to maintain its dominance till the end of the forecast period.
- In 2021, the xenon arc lamp light source segment accounted for 31.4% solar simulator market share in the year 2021 and is anticipated to grow at a rate of 5.7% in terms of revenue, increasing its share in the global solar simulator market.
- the LED lamp is the fastest-growing light source segment in the global solar simulator market and is expected to grow at a CAGR of 6.1% during 2022–2031.
- Automotive testing application segment is expected to grow at the fastest rate, registering a CAGR of 6.2%, throughout the forecast period.- In 2021, the Asia-Pacific region dominated the global solar simulator market with more than 42.7% of the share, in terms of revenue.
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