Methods for desulfurization, denitrification, and dust removal: There are many methods for desulfurization, denitrification, and dust removal, and commonly used methods include coating with special paint, tiling, and casting stone layers. The following is a detailed analysis of these three methods: 1. Wet desulfurization, denitrification, and dust removal systems not only deal with acid-base corrosion, but also damage factors such as erosion, wear, and burning from high-temperature dusty flue gas. No matter how strong the ability of the paint is, it will quickly be worn and eroded clean, and lose its ability. 2. The corrosion and ability of the cast stone protective lining are strong, but the ability is slightly poor. It is advisable to avoid dry burning of the dust collector without water as much as possible. Therefore, steel wet dust collectors use cast stone protective lining. 3. The method of tiling has strong protection against acid and alkali corrosion and wear, but tiles above the water surface are prone to falling off due to frequent and drastic temperature changes, so it is less commonly used. The above are the commonly used methods for desulfurization, denitrification, and dust removal, and they are all very effective. The desulfurization, denitrification and dust collector has high economic benefits: the desulfurization, denitrification and dust collector has high social and economic benefits. It has broad prospects in the field of desulfurization, denitrification, and dust removal in industrial boilers and industrial kilns. Why would the editor say that? Of course, it's not fictional. The desulfurization, denitrification and dust collector starts with improving the absorption rate, the degree of gas-liquid two-phase dynamic function, and the continuous alternation of gas and liquid phases, which is conducive to the mass transfer reaction process of exhaust gas. At the same time, it also has low airflow resistance and high exhaust gas treatment intensity. In addition, the desulfurization, denitrification and dust collector has the advantages of reasonable structure, easy operation, convenient use, and small footprint. Currently, in the treatment of industrial waste gas, the superiority of this technology ranks among various wet desulfurization and dust removal methods. Equipped with a dehydration and defogging device, the fan can dehydrate without water or dust. Various alkaline desulfurizers can be used for desulfurization, denitrification, and dust removal, which can be locally sourced. Low power consumption, does not increase the power of the fan, and can also reduce resistance, thereby achieving good economic benefits. The main factors affecting the temperature of desulfurization and dust removal equipment are: for desulfurization and dust removal equipment, its operating temperature depends on two factors: the high bearing temperature of the filter material and the gas temperature above the dew point temperature. At present, due to the extensive use of fiberglass filter media, its high operating temperature can reach 280 ℃. Cooling measures are taken for gases above this temperature, and heating measures are taken for gases below the dew point temperature. There are many PPS filter materials used now. The temperature is at 170 degrees. For desulfurization and dust collectors, the relationship between operating temperature and dust removal efficiency is not obvious, which is different from electrostatic precipitators. For electrostatic precipitators, temperature changes can affect the specific resistance of dust and other factors that affect dust removal efficiency. The above is an introduction to the factors that affect the temperature of desulfurization and dust collectors. We sincerely hope to cooperate with you and establish a long-term partnership. Interested parties please contact us.
