Used in industrial plants, power stations, and manufacturing where heat exchangers act as the core components to capture excess heat from exhaust gases, flue gas, steam, or process liquids. The heat exchangers efficiently transfer this recovered energy for preheating feedwater, space heating, or other energy-saving processes, significantly improving overall energy utilization and reducing operational costs. to capture excess heat from exhaust gases, flue gas, steam, or process liquids and transfer it for preheating feedwater, space heating, or other energy-saving processes. Common in steel plants, cement factories, and chemical processing.
A low-temperature power generation technology where heat exchangers are primarily used as evaporators and condensers to achieve phase change heat transfer of the organic working fluids, enabling the conversion of waste heat or renewable thermal energy into electrical power. Efficient for remote power generation and industrial energy recovery. using organic working fluids to utilize waste heat from engines, biomass plants, geothermal fields, or solar thermal systems. Efficient for remote power generation and industrial energy recovery.
Heat exchangers are critical in solar thermal collectors (to transfer heat from glycol-based fluids), geothermal heat pump systems (extracting heat from the ground), wind power nacelle cooling, and hydroelectric generator cooling.
Integrated systems producing electricity and useful heat from a single energy source, commonly in commercial buildings, hospitals, and district energy systems. Heat exchangers optimize fuel efficiency and reduce emissions.
Used for turbine inlet air cooling, generator oil cooling, steam condensing, and heat recovery in traditional and renewable power plants. Essential for managing thermal loads in gas and steam turbines.
Involved in thermal control of electrolyzers, fuel cell stacks, hydrogen compression systems, and storage facilities where precise cooling is required to maintain efficiency and safety.
Thermal management in electrical substations, transformer oil cooling, battery energy storage systems (BESS), and cooling of power electronics in grid infrastructure.
Managing thermal loads in energy storage systems such as molten salt storage in CSP plants, phase change material (PCM) systems, battery cooling for lithium-ion storage, and compressed air energy storage (CAES).
