SU857003A1 - Heat-mass-exchange apparatus - Google Patents

Description

(54J HEAT AND MASS EXCHANGE EQUIPMENT

The invention relates to heat and energy, especially to heat and mass transfer apparatus, such as a thermal deaerator, and can be applied in the power industry and other industries for heating and deaerating water. . A heat and mass transfer apparatus is known, comprising a housing inside which a water distributor is installed, a bubble plate with irrigated and deaerating areas and a vertical partition between the latter, forming a gap with the plane of the bubble plate. However, the insufficiently intensive heat and mass transfer process leads to a decrease in the efficiency of the power plant as a whole. This is due to the fact that with increasing hydraulic loads, the height of the liquid layer in the deaerating section of the bubble plate increases, its hydraulic resistance increases, and thus the throughput of the deaerating section with respect to steam decreases for a given tolerance pressure drop jia. A further increase in the hydraulic load leads to hydraulic shocks that destroy the deaerating elements, leading to a sharp deterioration in the quality of water deaeration and an increase in its underheating to saturation temperature. The purpose of the invention is the intensification of heat and mass transfer. This goal is achieved by the fact that a perforated sheet adjacent to the vertical flax partition is installed above the deaerating section of the bubble plate. The perforated sheet can be set at an angle of 10-45 ° C to the plane of the deaerating section of the bubble plate. The drawing shows schematically a heat and mass transfer apparatus, a vertical section.

In case 1, a water distributor 2 is installed in the form of a jet plate and a bubbling plate with irrigation area of 1 m 3 and deaerating 4 sections and an overflow device 5. Above the bubbling plate, between irrigated 3 and deaerating 4 areas, a vertical area 6 is installed, its upper part adjoins the water distributor 2 and forming a gap with the th plane of the bubble plate. Above the deaerating section 4, an angled perforated sheet 7 is placed at an angle to its plane, adjacent to a vertical re-decoration 6. 15 Sheet 7 is set at an angle of 10-45 to the plane of the deaerating section 4 of a bubbling plate.

Pipe 8 is designed to supply deaerated water, pipe 9 is jo for steam supply, and pipe 10 is used to discharge the vapor.

Heat and mass transfer apparatus pji6oTaet as follows.

Water through the pipe 8 for supplying water 25 is supplied to the upper part of the housing 1 to the water distributor 2, from where it jets out onto the irrigated area 3 of the bubble plate, flows through the gap formed by the vertical perforated partition 6 with the plane of the bubbling plate, to the deaerating section 4, runs along it and through the overflow device 5 is discharged into the accumulator-jj capacity in the lower part of the apparatus (not shown). The working steam through pipe 9 is fed under a bubbling plate, passes through the perforation of the deaerating section 4, providing an intense bubbling layer in contact with water, in which heat and mass transfer is carried out. The mixture of vapor and released gases passes through the perforation of the vertical septum 45 6, as a result of which part of the water droplets captured by the stream separates and enters the water distributor 2, where the vapor component of the mixture condenses into the water dispenser 2 JQ from the water distributor 2, ensuring its heating and coarse de-aeration . Noncondensable and corrosive gases are discharged into the line of the pipe through the pipe 10.55

Placing the deaerating section 4 at an angle to its plane of the guide perforated sheet 7 permits the use of an ejector

effect of steam flow: use part of its kinetic energy to accelerate the movement of water along the deaerating area, increase the permissible speed of water bubbling with steam, achieve a more intensive crushing of water in the bubbling layer, i.e. jet-dropping mode of bubbling, and thereby increasing the duration and contact surface of the water and steam flows, and, therefore, to intensify the heat exchange processes in the bubbling layer.

In addition, the guide sheet 7 contributes to the separation of water droplets trapped by the steam flow, which has undergone the perforation of the deaerating section 4, and at considerable loads serves as an additional deaerating section where the water layer on it is bubbling.

The perforation of the guide sheet 7 additionally contributes to lowering the maximum throughput of the bubbling plate by reducing the overall flow resistance for the passage of steam.

Perforation of the vertical septum 6 makes it possible to carry out the transverse mixing of water jets with steam flow, increase the permissible flow rate of the gas-vapor mixture and thereby increase the intensity of heat and mass transfer processes in the jets.

Claims (2)

1. A heat exchange apparatus, comprising a housing, inside which a water distributor is installed, a bubbling plate with an irrigated and deaerating section and a vertical partition between the latter, forming a gap with the plane of the bubbling plate, characterized in that, in order to intensify heat and mass transfer, over the deaerating section of a balloon, the balloon has a balloon, and in order to intensify heat and mass transfer, above the deaerating section of a balloon, the balloon has a balloon, and in order to intensify heat and mass transfer, above the deaerating section of a balloon, the balloon has a balloon, and in order to intensify heat and mass transfer, above the deaerating section of a balloon, the balloon has a balloon, and in order to intensify heat and mass transfer, above the deaerating section of a balloon, the balloon has a balloon, and in order to intensify heat and mass transfer, above the deaerating section of a balloon, the balloon has a balloon, and the barotex. the plate is at an angle to its plane, a perforated sheet adjacent to the vertical partition is installed. 2. The apparatus according to claim 1, wherein the perforated jmcT is set at an angle of 10-45 ° to the plane of the deaerating section of the bubble plate. Sources of information taken into account in the examination. I. USSR Copyright Certificate No. 547390, cl. C 02 B 1/10, 1975. eight