SU1430694A1 - Method of operation of heat exchanger - Google Patents

Description

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The invention relates to heat engineering and can be used in low-power boiler rooms for (water heating and air in public utilities and in livestock farms.

The aim of the invention is to improve the economy by more fully utilizing the heat-transfer agent heat.

To this end, the heat exchanging surface of the heat exchanger, on which the heat carrier moves, is partially flooded with liquid, and in the zone of the non-thinned heat exchanger area, air is heated with a given flow rate fi; The fluid level was a liquid and air performance.

An example of a specific implementation of the demolition is the heating of water and air in a boiler air-water economizer.

Heating of water and air is provided not less than 40 ° C with exhaust gases of the boiler with a temperature of 500-600 ° C at the inlet to the economizer and 70-90 ° C at the outlet, the nominal flow rate of gases is 1200. Heat exchanger surfaces of the eco-separator They are formed by pipes with a diameter of 40 mm and 4 m, the total surface of the heat / water exchange is water and the air is about 35 m. economizer The air and water on the bottom of the economizer are formed between its pipes and the casing.

Depending on the working conditions (season, time of day, type of livestock farm), productivity is chosen in water, the range of changes for which the economizer is from 0 to 3 (3000 kg / h) and air from 0 to 10,000. The air exchange and water exchange surfaces of the economizer are separated by a mirror of water, the level of which is stabilized by a height at which the corresponding heat exchange surfaces on water and air through the air flow line. For better versatility and, with respect to water productivity, respectively, their level is raised or maintained, at least STOM, the temperature of water and air at the outlet of the economizer remains almost unchanged and stabilizes at a level of 40.

So, with maximum water capacity, its level is raised to the top of the economizer, and heat exchange between gases and water occurs but the entire surface of the economizer, while stopping air flow, and the economizer ensures only one water heating. With maximum air throughput, water is drained from the economizer, and it provides for heating the air by about 40 ° C with simultaneous cooling of the waste of their gases to 70–90 ° C, depending on the time of year. With an average productivity but with water and air, its level is raised approximately to the midpoint of the height of the economizer tubes, at the same time, air and water are heated simultaneously.

Air saturation with water vapor does not exceed the permissible moisture levels due to the slight surface of an open water mirror compared with the heat exchange surface of the economizer.

Due to the cooling of the waste gases below the dew point, their partial condensation occurs, which, on the one hand, depletes the economizer efficiency, but, on the other hand, can lead to corrosion of the lower sections. To ensure the corrosion-free operation of the pipe, the eco-maizer is made of corrosion-resistant material.

Claims (1)

Thus, the method of operation of the heat exchanger provides effective regulation of the performance of the fluid and air with. Maximally using its tenloobmennogo surface. Invention Formula The pa6 method (jTbi of a heat exchanger with a heat transfer surface, but a | -rudded R liquid, consisting in changing the amount of teile, is transferable from teii; ion (; cii body to fluid and air by adjusting the level of the fluid, different because, for the sake of, I am economizing by means of boilers, therefore, use a warm weather monitor, the air is supplied at a given rate, the flow rate above the level m and 1 in area i; eu: Chip exchange, x is equal .. Fluid horn is measured by a change in its flow rate, the amount of water corresponding to the warmth of the heat. rhpostey below and vypyu x n ro- liquids nroporniona.tioe nroi1V () D1-- those 1posti but liquid and voz.plh.