SU1010438A1 - Regenerative heat exchanger - Google Patents

Abstract

REGENATIBLE HEAT EXCHANGER with fluidized bed of intermediate heat carrier, heat exchanger chambers separated by a wall and an overflow window in its lower part and equipped with a distribution grid; fixed on the common rotary axis installed in the said wall under the overflow window, that is, so that in order to increase the work efficiency by expanding the drape, the zone of working speeds of the gas flows is grated relative to the HANDLES / Hood wall at an angle of 90 and in the area of the rotary axis in areas equal to the height of the overflow window, made of gas-drains.

Description

The invention relates to industrial power engineering and can be used, in particular, for heat recovery of gaseous low and medium potential secondary energy resources. $ Regenerative fluidized bed heat exchangers of fine-grained solid material are known as an intermediate heat transfer medium £ 1].

The closest to the proposed technical essence is a regenerative heat exchanger with a fluidized bed of an intermediate heat carrier, containing heat exchange chambers separated by a wall with a transfer window in its lower part and equipped with gas distribution grids mounted on a common rotary axis mounted in the said wall under transfer window £ 2J. ²⁰

The disadvantage of this device is the presence of contamination of the heated combustion air in the mixing of the gas flows through a distillation apparatus and necessary, bridges maintain their velocity in a narrow range to create a stable circulation of the intermediate particulate Teppo _g carrier.

The purpose of the invention is to increase the efficiency of work by expanding the range of gas flow velocities in the heat exchanger.

This goal is achieved by the fact that in a regenerative heat exchanger with 35 fluidized bed of an intermediate heat carrier containing heat exchange chambers separated by a wall with a transfer window in its lower part and equipped with gas distribution 40 gratings mounted on a common rotary axis mounted in the said wall under the transfer window , the gratings are placed one relative to the other at an angle of 90 and in the area of the rotary axis in 45 sections equal to the height of the distillation window, made gas-tight.

The drawing shows a heat exchanger, General view.

The heat exchanger consists of two chambers _5C 1 and 2, having a common dividing wall 3 with a transfer window 4, and a gas distribution device made in the form of two gratings 5 and 6, fixed to one another relative to the other at an angle of 90 ° on the rotary axis 7. The gratings 5 and 6 have gas-tight sections 8 and 9 adjacent to the pivot ^{5 of the} rotary axis 7, the length of which is equal to the height of the transfer window 4.

The heat exchanger operates as follows.

Hot gas (for example, the product of combustion of furnaces or steam generators) heats in the chamber 1 particles of an intermediate heat carrier located in a horizontal lattice 5. At the same time, the lattice 6 occupies a vertical position and closes the window 4 with a gas tight section 9. After heating the particles in the chamber 1, the gas distribution device rotates around axis 7. Particles of the intermediate coolant are poured ² θ from the chamber 1 into the chamber 2 through the transfer window 4, thereby providing a reliable shutter from mixing gas flows. The grate 6 is rotated from a vertical position to a horizontal ²⁵ °, and the grate 5 is in a vertical position and closes the overflow window 4 with the gas tight section 8, which eliminates the mixing of gas flows passing in the α-chambers 1 and 2.

³ θ Due to the fact that the process of moving particles from one chamber to another! This method does not depend on the properties of the fluidized bed of an intermediate dispersed heat carrier; the design of this heat exchanger allows working not only at fluidization rates, but also much lower, for example, with a simple flow of gases around the particle layer.

To reduce the frequency of operation of the heat exchanger, gas distribution devices are installed sequentially along the gas flows in such a way that when the lower one is rotated and the heat carrier particles are poured into chamber 2, the upper gas distribution device rotates at the same time in the opposite direction and the particles of the intermediate heat carrier inside it are poured in measure 50.

The use of this device will ensure the exclusion of mixing gas flows and will expand the range of their operating speeds.

ВНИИПИ Order 2463/29 Circulation 670 Subscription

Branch of PPP 'Patent, Uzhhorod, ’st. Project, 4

Claims (1)

A REGENERATIVE HEAT EXCHANGER with a fluidized bed of an intermediate heat carrier containing heat exchange chambers separated by a wall and a transfer window in its lower part and equipped with gas distribution grids mounted on a common rotary axis installed in the said wall under the transfer window, about Particularly, in order to increase the efficiency of work by expanding the range of working speeds of the pelvic flow, the grilles are placed relative to each other at an angle of 90 ° and in the swivel zone the axes in sections equal to the height of the distillation window are made gas tight. fi8tr0I0r ^{, D} TiS