The flue gas is rapidly cooled, so that the energy can be effectively utilized, saving energy and improving efficiency.
Apply CFD numerical simulation analysis technology to optimize the heat transfer performance of Ultraten technology heat exchange tubes.
Increasing the heat exchange area by a factor of 5 can displace more heat in the flue gas, thereby improving the efficiency of heat transfer.
The use of aluminum-silicon alloy heat transfer elements with high thermal conductivity greatly prolongs the service life of the pressure components.
The unique tear groove design greatly improves the heat transfer performance of the heat exchange tube in the condensing state.
A new type of environmentally friendly combustion method, which mixes air and gas evenly, burns quickly and thoroughly, and stirs evenly to make the mixing more complete.
Flue gas recirculation is one of the technologies to suppress nitrogen oxide emissions. Part of the exhaust gas return to the air supply system to reduce the oxygen concentration in the mixture and act as a heat absorber to prevent the combustion temperature from becoming too high, thereby suppressing the formation of nitrogen oxides.
The flue gas condensation waste heat recovery device uses low-temperature water or air to cool the flue gas to reduce the flue gas temperature. .
The new Ultraten technology heat exchange element wing tube is highly efficient and energy-saving, and the highly advanced condensation technology ensures the efficient use of energy. The flue gas is rapidly cooled, so that the energy can be effectively utilized, saving energy and improving efficiency.
