It is widely used in painting waste gas, pharmaceutical waste gas, breeding waste gas, chemical waste gas, feed waste gas, lampblack waste gas, printing waste gas, sewage waste gas, medicine, universities and research institutes and other laboratories

When microwave ultraviolet water treatment equipment is used, the construction of all equipment must be understood according to the relevant drawings or manufacturing technology, even before the equipment is used, Customized UV photo oxygen microwave deodorization equipment Basically, the installation shall be carried out according to the relevant works, and the design shall be carried out according to the size of the whole casing or the relevant actual use needs, the soil of reinforced concrete and other embedded parts, UV photo oxygen microwave deodorization equipment Price It is also necessary to do a good job in relevant design, and their size and location should meet the design requirements. In the actual treatment process of microwave and ultraviolet water treatment equipment, there will be various processes of construction or acceptance. Of course, as long as the installation of some machinery or other pipeline construction is involved, the welding process will be more or less controlled, and they should refer to the relevant design regulations, Or other standards and related technologies can be used cooperatively.

RCO organic waste gas catalytic combustion purification equipment can effectively purify the environment, pollution, improve labor operating conditions, ensure the health of workers, and the heat emitted can be recycled to reduce production costs. RCO organic waste gas catalytic combustion equipment has perfect system design, complete auxiliary equipment, high purification efficiency and high automation. RCO organic waste gas catalytic combustion equipment RCO organic waste gas catalytic combustion purification device is designed based on two basic principles of adsorption and catalytic combustion, namely adsorption concentration catalytic combustion method. The dedusting equipment adopts the working mode of single bed adsorption purification of organic waste gas and catalytic combustion device regeneration and activation of activated carbon. Firstly, the organic waste gas with low concentration is adsorbed by activated carbon, and the adsorption operation is stopped when it is almost saturated, then the organic matter is desorbed from the activated carbon by hot gas flow to regenerate the activated carbon; The desorbed organic matter has been concentrated (the concentration is dozens of times higher than the original) and sent to the catalytic combustion chamber for catalytic conversion into CO2 and H2O for emission; When the concentration of organic waste gas reaches above 2000ppm, the organic waste gas can maintain spontaneous combustion in the catalytic bed without external heating. Some of the burned tail gas is discharged into the atmosphere, and most of it is sent to the adsorption bed for desorption and regeneration of activated carbon. In this way, the heat energy required for combustion and desorption can be met to save energy. The regenerated activated carbon can be used for the next adsorption.? RCO organic waste gas catalytic combustion equipment uses catalytic combustion method to convert toxic and harmful organic gas into non-toxic gas.? The main structure of RCO organic waste gas catalytic combustion equipment is composed of three major parts: purification device host, induced draft fan and control system. The catalytic combustion purification device includes: dedusting flame arrester, heat exchanger, preheater and catalytic combustion chamber. The organic waste gas enters the preprocessor from the air inlet at the upper part of the equipment, passes through the coarse filter element composed of multi-layer stainless steel wire mesh to remove dust and other particles in the waste gas, and enters the combined adsorption bed from the main channel at the lower part of the device (two rows in parallel with six grids). Each adsorption bed is equipped with a set of pneumatic switch valve, which can change the adsorption bed into adsorption/desorption state. The longitudinal section of the adsorption bed from bottom to top is respectively the inlet manifold, adsorption chamber, air purification chamber and outlet manifold. The adsorption chamber and the air purification chamber are separated by a flower plate, under which a number of adsorption cylinders are hoisted. The waste gas entering the adsorption chamber passes through the adsorption layer through the outer wall of the adsorption cylinder, VOCs are adsorbed by a large number of microporous surfaces of the adsorbent, and the waste gas is purified and then enters the air purification chamber upward through the flower plate holes, Then it enters the main outlet pipe through the switching valve and is discharged by the fan. One of the six adsorption chambers must be in the desorption state, and the other five must be in the adsorption state. Generally, the desorption time is 12 minutes, that is, the adsorption bed responsible for the adsorption work can be desorbed and regenerated once every hour. This work process of the device coincides with the name of the invention zhuanli - a kind of compartment offline desorption bag type adsorption equipment. Its process principle is the same as that of the pulse reverse blow compartment offline bag type dust collector, except that the purification process of the device is "physical adsorption", The bag filter purification process is "physical filtration". The desorption working medium of the adsorption bed is hot air, which is provided by the catalytic combustion device. Generally, the temperature of the hot air is ≤ 150 ℃, which is determined by the boiling point of different VOCs and the saturated vapor partial pressure at the desorption temperature.

I. Efficient deodorization II. No substances need to be added III. Strong adaptability IV. Low operation cost V. No treatment VI. Small area of equipment VII. Manufacturing of high-quality imported materials