Photocatalysis is a common waste gas disposal installation in industrial consumption. In order to obtain better results in operation, consumers stop exploring and improving from time to time, so they have the technology of separation and separation with condensation technology.
The exhaust gas generated at the inlet and outlet of the extruder will stop collecting. At this time, water vapor will enter the stage of condensation disposal. Condensate water will be produced in the process of condensation. Condensate water will stop collecting and waiting for disposal through special ways.
Entering the second stage of photocatalytic condensation treatment, that is, stop further condensation on the basis of the upper condensation to improve the effect of condensation treatment. Exhaust gases from the first two stages have been abundantly condensed and defogged, and the exhaust gases generated during the process of wind guaranteeing solids and the process of drying particles by hot air will be collected to stop centralized defogging treatment. In defogging disposal, filling oil used in rubber consumption will be produced, which can stop collecting and reusing. At this time, all the exhaust gas has been fully collected. 搜集到的废气会经过蒸汽换热器的方式停止加热,加热的作用是加大光氧催化的处置效率,在热的废气得到催化氧化后,气体需求停止一次循环以降升温后携带的热量传送给未处置的废气局部,这个过程能够有效降低能耗,节约热能本钱,在应用金属催化剂,常压状态下与空气中的氧气等氧化剂屡次的催化氧化反响处置后,废气能够到达化工企业的排放规范,也可将其送入热风枯燥系统中,应用其携带的热量停止枯燥处置,该处置方式能够有效降低消费的本钱.
The collected exhaust gas will stop heating by steam heat exchanger. The function of heating is to increase the efficiency of photo-oxygen catalytic treatment. After the hot exhaust gas is catalytically oxidized, the gas needs to stop a cycle to reduce the temperature and transfer the heat carried to the untreated exhaust gas. This process can effectively reduce energy consumption, save heat energy cost, and apply metal catalysts at atmospheric pressure. After repeated catalytic oxidation reactions with oxidants such as oxygen in the air, the exhaust gas can reach the emission standards of chemical enterprises, and it can also be sent into the hot air drying system to stop the dry disposal with the heat it carries. This disposal method can effectively reduce the cost of consumption.
Through the above explanations, we can find that the separation of photocatalysis and condensation technology improves the efficiency and purification level of waste gas disposal, and can be repeatedly applied, energy saving and emission reduction reduce costs, and bring better benefits to enterprises.