RU96418U1 - SECTION AIR COOLING UNIT TYPE ABC GI WITH GAS COOLER - Google Patents

Abstract

 Sectional air cooler type ABC GI with a gas cooler, consisting of steam and condensate manifolds and several rows, vertical or inclined, a heat exchanger of pipes whose ends are sealed in steam and condensate manifolds, characterized in that a partition is installed in the steam manifold separating it into steam and gas volumes, the inlet ends of the heat exchange tubes are connected to the vapor volume, and the outlet ends of the heat exchange tubes forming a gas cooler with oncoming motion are connected to the gas volume Niemi steam and condensate.

Description

The utility model relates to the field of energy and can be used in the chemical, metallurgical and gas industries, as well as energy.

A sectional type air cooling apparatus (air blowing cooler) is known, consisting of heat exchangers with several rows of horizontal finned tubes and blowing fans located above or below them, providing cooling air flow through the heat exchange surface (see the list of chemical engineering plants in Borisoglebsk , BM apparatus according to technical specifications TU 3612-009-00218880-2005).

The main disadvantage of these devices during condensation of steam inside the pipes is the unsatisfactory condensate drainage and the risk of defrosting the pipes.

Known sectional air-cooled heat exchangers with steam condensation inside vertical or inclined pipes of an air-condensing installation (air blowing cooler gas-vapor internal ABC GI see O.O. Milman, V.A. Fedorov, Air-condensing installation, MEI publishing house, 2002).

The main disadvantage of these installations is the uneven distribution of steam flows over the rows of pipes of the heat exchange surface, as a result of which the steam does not condense in the lower part of the heat exchange surface of the first pipes along the air, but the condensate is supercooled, while incomplete vapor condensation takes place in the pipes last along the air. As a result, the surface of the first pipes is not used efficiently enough, and there is a danger of freezing of condensate and destruction of pipes at low outside temperatures.

These disadvantages can be overcome if a part of the heating surface is isolated in the apparatus for operation in the gas cooler mode with the oncoming movement of the gas-vapor mixture and condensate.

A diagram of the air-cooled sectional-type apparatus АВС GI with a gas cooler is shown in Figure 1. The apparatus consists of a steam manifold 1 divided by a partition 4 into a steam volume 6 and a gas volume 7. The upper ends 2 are connected to the steam volume 6, and the upper ends are connected to the gas volume vertical or inclined heat transfer tubes 5; the lower ends of all pipes are connected to the condensate collector 3.

The device operates as follows. The steam enters the steam volume 6 of the steam manifold 1, enters the vertical or inclined heat exchange tubes 2 and partially condenses in them, transferring heat to the cooling medium; condensate is collected in the condensate collector 3 and discharged from it. Non-condensable gas from the condensate collector 3 enters the lower ends of the vertical or inclined pipes 5, almost completely condenses in them, moving up. The resulting condensate flows down into the condensate collector 3 and is diverted from it. Non-condensable gases in a mixture with vapor residues enter the gas volume 7 and are removed from the apparatus. The partition 4 separates the steam volume 6 from the gas volume 7, preventing the flow of steam bypassing the vertical or inclined heat exchanger tubes 2 and 5. Due to the fact that in the vertical or inclined heat exchanger tubes 2 there is incomplete condensation of steam, all pipes work efficiently along the entire length and vertical or inclined pipes 5 form a gas cooler with a minimum vapor content in the vapor-gas mixture at the outlet. Thus, the efficiency of using the heat exchange surface increases, and the risk of condensate freezing is eliminated.

This solution fundamentally improves the design of the air-cooled apparatus by increasing the efficiency of use of the surface and eliminating freezing of condensate and destruction of pipes.

Claims (1)

Sectional air cooler type ABC GI with a gas cooler, consisting of steam and condensate manifolds and several rows, vertical or inclined, a heat exchanger of pipes whose ends are sealed in steam and condensate manifolds, characterized in that a partition is installed in the steam manifold separating it into steam and gas volumes, the inlet ends of the heat exchange tubes are connected to the vapor volume, and the outlet ends of the heat exchange tubes forming a gas cooler with oncoming motion are connected to the gas volume Niemi steam and condensate.