Paramtents
Materials Titanium alloy, stainless steel, high-temperature
Applicable media supercritical CO₂, natural gas, water, high-temper
Packging & Delivery
Briefing
Cool the high-temperature carbon dioxide to a lower temperature for reuse in the cycle.
Detailed
Perform heat exchange between high-temperature and low-temperature fluids, allowing the low-temperature fluid to gain heat while reducing the temperature of the high-temperature fluid. This can be used for heating plant areas, providing domestic heat, or generating electricity, thereby enhancing the overall efficiency of nuclear power plants.
1、High Efficiency: Utilizes microchannel structures for efficient heat exchange, reducing energy consumption and improving energy utilization efficiency.
2、High Compactness: Small in size and footprint, saving space.
3、High Reliability: Exhibits excellent corrosion resistance and can withstand extreme temperatures (0-900°C) and high pressures (up to 100 MPa), ensuring stable operation in various harsh environments.
Pass the high-temperature, high-pressure SCO₂ through a heat source such as a nuclear reactor, where it absorbs heat and cools down, transforming into a liquid state. Then, transfer the cooling effect to other systems or the environment.
Nuclear Energy
Utilizes supercritical carbon dioxide cycle systems for nuclear reactors to enhance nuclear power generation efficiency and reduce carbon dioxide emissions.
Solar Energy
In solar power generation systems, it can be used in heat collection systems to convert solar energy into thermal energy, driving the supercritical carbon dioxide cycle for electricity generation.
Geothermal Energy
Suitable for geothermal power generation systems, it heats the supercritical carbon dioxide working fluid using geothermal resources to drive generators and produce electricity.
Waste Heat Recovery
Used in industrial production to recover waste heat for energy reutilization, improving energy utilization efficiency in industrial processes and reducing energy waste.