Maximize the use of solar energy! We create environmentally friendly hot water using the sun! We have numerous achievements as a collector for industrial solar thermal utilization systems!
The Fuji Heat P·SOLAR FSP-2100 is a vacuum glass tube type (heat pipe type) solar collector that efficiently collects solar thermal energy. It is particularly effective for hot water use, contributing to the reduction of fossil fuel consumption in boilers and other applications, as well as lowering energy costs and CO2 emissions. The heat-collecting part that absorbs solar energy utilizes 16 vacuum double glass tubes. These glass tubes have a double-tube structure with a cylindrical outer tube and inner tube, and the space between them is a vacuum. Being cylindrical allows for efficient solar collection throughout the morning, noon, and evening. Additionally, it captures not only direct sunlight but also scattered sunlight, resulting in high heat collection efficiency, and its insulation and heat retention effects make it less susceptible to outside temperatures. The collected heat is transferred to the water supply pipe at the top of the collector through a heat pipe installed inside the glass tube, without supplying water inside the glass tube. This method prevents issues such as "thermal shock due to rapid thermal expansion and contraction" that occur in conventional vacuum solar collectors. For more details, please contact us or refer to the catalog.
Inquire About This Product
basic information
【Features】 ○ Vacuum tube collector that efficiently gathers solar thermal energy ○ Effective for hot water supply usage ○ Reduction in the amount of fossil fuels used in boilers and other applications ○ Contributes to the reduction of energy costs and CO2 emissions ○ The glass tube has a double-tube structure with a cylindrical outer tube and inner tube → The space between the outer and inner tubes is a vacuum ○ Cylindrical shape efficiently collects solar energy throughout morning, noon, and evening ○ High collection efficiency as it captures both direct and scattered sunlight ○ High insulation and heat retention, making it less affected by outside temperatures ○ Collects heat without supplying water inside the vacuum double glass tube → The collected heat is transferred to the water supply pipe at the top of the collector through a heat pipe attached inside the glass tube, without supplying water inside the glass tube, heating the supplied water ○ No issues such as heat shock due to rapid thermal expansion and contraction occur inside the glass tube ● For more details, please contact us or refer to the catalog.
Price information
Please contact us.
Delivery Time
※Please contact us.
Applications/Examples of results
The Fuji Heat P SOLAR FSP-2100 has a proven track record as a solar collector for industrial solar thermal utilization systems. By utilizing solar thermal energy as a heat source for hot water supply, this product enables a reduction in the amount of fuel used for hot water and the associated reduction in CO2 emissions. For more details, please contact us or refer to the catalog.
Line up(2)
| Model number | overview |
|---|---|
| FSP-2100 (Wide Span Type) | Special Specification Solar Collector |
| FSP-1800 (Wide Span Type) | Special Specification Solar Collector |
catalog(1)
Download All Catalogs
Company information
Fuji Energy Co., Ltd. has been engaged for 35 years since its founding in the themes of "effective use of renewable energy" and "circular society," working on the system construction of environmental-related equipment such as vacuum glass tube solar collectors, solar power generation systems, and waste oil purification and fuel conversion devices. We specialize in environmental-related equipment, including our self-developed products, the vacuum glass tube (heat pipe type) solar collector Fuji Heat P・SOLAR (solar thermal utilization system) and the waste oil purification and fuel conversion device Fuji Oil・Eco Changer (waste cooking oil purification and fuel conversion system). Based on the technology and quality we have cultivated over the years, we are continuously challenging ourselves to contribute to society.
