1. Inadequate operational management. During operation, the temperature of the desulfurization solution is too high, and it is generally recommended to control it at 38-42 ℃. Above 45 ℃, bubbles are fragile, elemental sulfur flotation is poor, and more secondary salts are generated. Generally, the sum of the three secondary salts (Na2S2O3Na2SO4NaCNS) should be less than 250 g/L. With the increase of side reactions, it is easy to precipitate crystals and form salt blockage. After salt blockage, not only does the tower resistance increase, but also the equipment suffers from severe corrosion. After salt blockage, even a good catalyst is powerless; The sulfur bubbles floating out of the oxidation regeneration tank cannot overflow in a timely manner and remain on the liquid level for a long time. After the sulfur bubbles break, they fall and form suspended sulfur in the solution, which is brought into the tower by the desulfurization pump and deposited on the packing. Over time, sulfur plugs form. The circulation volume of the solution cannot be kept stable and adjusted too frequently. When it decreases, some adjustments can be made from the composition of the solution. After operation, the blowing strength can be stabilized at a good level, and it is generally not advisable to make too large adjustments, otherwise it will affect the flotation of elemental sulfur and lead to poor regeneration results.
2. Improper selection of catalysts. Although low-quality catalysts are cheap, during the application of biogas desulfurization equipment, the elemental sulfur released from the tower cannot be removed with the solution in a timely manner, which can cause long-term blockage of the tower and seriously affect production.
3. The quality of gas entering the tower is poor, and the impurities such as coal ash and coal tar carried by the gas accumulate on the filler for a long time, which increases the tower resistance and blocks the desulfurization equipment.
4.80% of desulfurization absorption and sulfur precipitation reactions are carried out in desulfurization equipment. The sulfur precipitated inside the tower cannot be brought out of the tower in a timely manner with the desulfurization liquid, which is more likely to stick to the surface of the filler, leading to gas deviation and tower blockage over time.
5. The solution circulation is small, and the spray density decreases. The general requirement is for a spray density of 35-50 m3/㎡/h, which can easily cause the filling material in the tower to form a dry area. Poor gas-liquid contact can reduce desulfurization efficiency. Over time, local blockage may occur, resulting in gas-liquid deviation, increased tower resistance, and blockage of desulfurization equipment.
6. There is a problem with the desulfurization system equipment. One is the improper selection of equipment fillers, as well as the unreasonable structure or installation deviation of the gas-liquid distributor, redistributor, and mist eliminator of the desulfurization equipment. During the maintenance of desulfurization equipment, only the packing inside the tower was pulled out for cleaning, while the accumulated crushed packing and sulfur between the mist eliminator and the hump plate were not cleaned in a timely manner, resulting in unobstructed downcomer holes of the mist eliminator and hump plate, resulting in gas deviation and tower resistance rising after startup. Secondly, there are problems with solution regeneration, such as poor sulfur flotation efficiency, an increase in suspended sulfur, and a decrease in desulfurization efficiency. The main manifestation is that the regeneration biogas desulfurization equipment is not matched, and there are defects in the design of the oxidation regeneration tank.
Thank you for reading. The source of this article is biogas desulfurization. For more information and questions, please click on: http://www.aycqc.cn We will continue to work hard to provide you with services. Thank you for your support!
企業(yè)二維碼
2023-06-06
魯公網(wǎng)安備37011202000764號號