Environmental issues have long been a global concern, and people have been committed to finding ways to effectively eliminate or reduce air, water, land and heat pollution. So what role does the heat exchanger play in reducing environmental pollution?
Environmental pollution refers to the introduction of foreign, potentially harmful elements into the environment. When environmental pollution damages the ecosystem and human society, the consequences are particularly serious, especially in terms of health. According to which pollutants have physical elements, it can be divided into air pollution, water pollution and land pollution.
Flue gas whitening system: Most traditional GGH devices have pollutant escapes, resulting in excessive SO2 emissions, corrosion of heat exchangers, ash accumulation and scaling, flue gas blockage, high resistance, high operating and maintenance costs, and serious failures even affect the normal operation of the system. In response to the above problems, driven by the continuous improvement of the comprehensive requirements for environmental emission control, Trip has developed a new type of heat exchanger for patented flue gas whitening equipment specifically for MGGH (full name Mitsubishi Gas-Gas Heater) technology, which reduces the concentration of pollutants landing, thereby eliminating the "white smoke" phenomenon.
Waste heat recovery system: It can not only reduce fuel consumption, but also save energy. The system can save 10%-30% of fuel. In addition, the heat exchanger can also reduce exhaust steam to meet environmental protection requirements. The exhaust steam temperature is reduced during system operation, reducing water vapor emissions.
Wastewater treatment system: The original biological toxic materials (hazardous liquid waste) are pre-treated by UNCWO, and the residual organic carbon compounds are small molecular chemical fragments formed after oxidation. The subsequent evaporation of the salts carries trace organic matter without environmental biological toxicity, which lays a good material condition for the resource utilization of inorganic salts removed from wastewater and for the subsequent biochemical degradation to achieve standard discharge.