SU947615A1 - Method of cleaning regenerating rotating air heaters - Google Patents

Description

(54 METHODS FOR CLEANING REGENERATIVE ROTATING AIR HEATERS

The invention relates to methods for cleaning ash deposits from the heating surfaces of regenerative combustible air preheaters and can be applied in boiler technology.

1, methods are known for cleaning regenerative rotary air heaters of RAH) by heating the flue gas of the boiler with heat exchange packing to a temperature exceeding the sulfuric acid dew point.

The surface is cleaned by heating the gasket plates contaminated with sediments by the flue gases of the boiler. - For its implementation, air is bypassed in addition to the air preheater being cleaned 1.

The air preheater is cleaned sequentially in concentric zones, reducing the air flow through the packing gasket to be cleaned and increasing its flow rate through the rest of the 2D packing.

The heating of the deposits on the pipes is carried out by reducing the amount of air flowing through the part of the air preheater being cleaned and by increasing the air flow through the rest of the air preheater accordingly.

However, with the methods described, the velocity of the flue gases through the heat exchange packing remains practically operational, which does not ensure complete removal of deposits and does not eliminate the need for periodic water washings. In addition, due to the shutdown of all or part of the packing of the cleaned RVP, the temperature of the air supplied to the burners of the boiler decreases, and the temperature of the flue gases increases, which reduces the efficiency of the boiler during the cleaning period. The cycle of raising the temperature of the RVP gasket is 45-60 minutes. In this case, the shaft and RVP shell are heated, thermal displacements of the entire rotating part of the air heater increase, causing the need to increase the gaps between the sealing plates and the radial sealing plates. Clearances must also be increased in peripheral sealing devices. The increase in the size of the gaps leads to a significant increase in the flow of air into the gas path of the boiler, which

It causes excessive fuel consumption not only during the cleaning, but also during this operation, since the overloading of the seal assemblies is a demanding, lengthy process and cannot be carried out with each cleaning.

The purpose of the invention is to improve the quality and intensify the process of cleaning the heat exchange packing of RVP without changing the operating parameters of the boiler unit.

The goal is achieved by the method, which includes the operation of blowing and drying of deposits in the gasket by introducing a thermal gas stream from the outlet side of the heat exchanging gasket, the gas stream is continuously fed, and the speed of the thermal gas stream is chosen equal to 300-400 m / s and its heating temperature is 400-450С.

The drawing shows the air heater, section.

The external source 1 of the high-potential gas flow is connected to 25 pipeline 2, at the end of which 3 is located, directed from the cold layer to the gasket 4, RVP operates according to the usual scheme .30

The heated air and heating flue gases from the boiler pass through the packing of 4 RAH without any changes in the flows and parameters. The gas flow from an external source 1, 5 flowing at a speed of 300-400 m / s at 400-450 ° C, intensively dries the deviations on the gasket located at the considered moment of time in the zone located under the nozzle. So, as the residence time of each sheet of gasket under the influence of the gas flow is on average 2-2.5 s and during this period about 40-50 m of gas with a temperature of 400-450 ° C flow through the nozzle, the deposits have time to dry, and the acid evaporated.

Full cleaning of the packing takes place at four blow cycles of each sheet, i.e. the entire blowing cycle at a rotational speed of RVP of 2 rpm is 50 minutes of 2 minutes.

The use of the proposed RVP cleaning method in comparison with the existing ones does not require air redistribution over its zones, which does not cause a decrease in air temperature and an increase in flue gas temperature and, as a result, the efficiency of the boiler operation during cleaning does not decrease, and also does not require a reduction boiler for the period of cleaning; due to the effectiveness of cleaning, it reduces the operational resistance of RAH and, as a result, the consumption of electricity for own needs; due to effective cleaning, the temperature of the flue gases decreases, water rinsing is not required and, as a result, the life of the heat exchanger packing, as well as metallic gas, is increased; moves, which reduces the amount of air suction, in the gas path of the boiler; does not require wiring sealing plates, and as a result, reduced air flow through the sealing device of the air heater.

All of these benefits increase the efficiency of the boiler unit.

Claims (3)

1. USSR author's certificate No. 28.7738, cl. G 28 F 19/00, 1969. 2. USSR author's certificate No. 320676, cl. R 28 L 15/02, 1970. 3. USSR author's certificate No. 320677, cl. R 28 L 15/04, 1970.