district energy

SolarSteam technology represents a clean and renewable energy source that can reduce the carbon footprint of district energy, offering notable advantages to businesses looking to meet sustainability goals or comply with regulatory requirements.

benefits

1

increase energy security

Solar thermal energy provides a secure source of energy that is not subject to price fluctuations or supply chain disruptions, which can help improve the overall resilience of district energy systems.

2

cost saving

SolarSteam's versatile technology presents a valuable opportunity to cut down energy expenses. Harnessing the sun's energy enables a significant reduction in reliance on traditional, often expensive energy sources like natural gas.

3

improved air quality

By reducing the need for fossil fuels, solar thermal energy can help improve air quality in urban areas and reduce the negative health impacts associated with air pollution.

We Are Committed to helping our partners overcome any challenge and attain spectacular results.

this is how solar steam connects to your system

SolarSteam technology has a wide range of potential applications in the district energy industry, from small-scale domestic hot water systems to large-scale district heating networks. The key is to identify the most appropriate application for a given location and to design and operate the system in a way that maximizes its efficiency and reliability.

space heating

55-65°C
SolarSteam technology can be integrated into district heating systems to provide heat for space heating in residential, commercial, and industrial buildings. The captured solar heat can be used directly or stored in thermal storage systems for later use.

domestic hot water

45-85°C
SolarSteam technology can be used to heat water for domestic purposes, such as showers, faucets, and other hot water applications in buildings within the district. Solar collectors can heat the water directly or transfer the heat to a central hot water storage system.

industral processes

70-95°C
SolarSteam technology can be employed for various industrial processes within the district, such as drying, sterilization, or specific heating requirements in industries like food processing, pharmaceuticals, or manufacturing.

cooling

60-100°C
SolarSteam technology can be used in absorption chillers or desiccant cooling systems to provide cooling for buildings within the district. The captured solar heat can drive the cooling process, reducing the reliance on conventional electric-powered cooling systems.

Combined Heat and Power (CHP)

100-300°C
SolarSteam can be integrated into combined heat and power systems, where the captured heat can be used to generate electricity through a thermal power cycle. This simultaneous generation of heat and power increases overall energy efficiency.

district energy storage

60-80°C
SolarSteam technology can be utilized in conjunction with thermal storage systems to store excess heat during sunny periods and utilize it during periods of high energy demand. This improves the flexibility and reliability of the district energy system.

space heating

55-65°C
SolarSteam technology can be integrated into district heating systems to provide heat for space heating in residential, commercial, and industrial buildings. The captured solar heat can be used directly or stored in thermal storage systems for later use.

domestic hot water

45-85°C
SolarSteam technology can be used to heat water for domestic purposes, such as showers, faucets, and other hot water applications in buildings within the district. Solar collectors can heat the water directly or transfer the heat to a central hot water storage system.

industral processes

70-95°C
SolarSteam technology can be employed for various industrial processes within the district, such as drying, sterilization, or specific heating requirements in industries like food processing, pharmaceuticals, or manufacturing.

cooling

60-100°C
SolarSteam technology can be used in absorption chillers or desiccant cooling systems to provide cooling for buildings within the district. The captured solar heat can drive the cooling process, reducing the reliance on conventional electric-powered cooling systems.

Combined Heat and Power (CHP)

100-300°C
SolarSteam can be integrated into combined heat and power systems, where the captured heat can be used to generate electricity through a thermal power cycle. This simultaneous generation of heat and power increases overall energy efficiency.

district energy storage

60-80°C
SolarSteam technology can be utilized in conjunction with thermal storage systems to store excess heat during sunny periods and utilize it during periods of high energy demand. This improves the flexibility and reliability of the district energy system.

ready to reach new heights? Let's get there, together.

At SolarSteam, our commitment extends to serving all customers seeking solar thermal energy solutions. If you believe we can be of assistance to you, we invite you to reach out and connect with us. Your unique requirements are important to us, and we’re eager to explore how we can meet your thermal energy needs.

Stay in the know

By clicking sign up you agree to our Privacy Policy