SU798420A1 - Regenerative rotary air preheater - Google Patents

Description

The invention relates to a power system, in particular to regenerative rotary air heaters, mainly for boiler blocks of thermal power plants.

Known regenerative rotating air heater containing a rotor with heat exchange packing, mechanical sealing plates and a suction pipe for overflow air [1].

The disadvantages of the known device are significant mutual flows of both coolants, low reliability due to abrasive wear of the packing and pipeline.

Also known is a regenerative rotary air heater containing a rotor installed in the housing, front main sealing plates dividing the housing into gas and air compartments, and adjacent to the main additional sealing plate located in the air compartment of the cold side of the rotor. The outlet pipe of the overflow gas is connected by a recirculation pipeline to the gas sector [2].

The disadvantage of an air heater is its low reliability due to accelerated abrasive wear of the recirculation pipe.

The purpose of this invention is to increase reliability.

This goal is achieved due to the fact that the main plate is installed with a gap relative to the end of the rotor greater than the same gap of the additional plate. The gap between the main plate and the end face 10 of the rotor is made increasing in the direction of the gas sector. The main and additional plates are interconnected by articulation.

In FIG. 1 shows a part of the side scan of the rotor in the transition zone from the gas15 compartment to the air compartment; in FIG. 2 - installation of the main sealing plate relative to the end of the rotor with increasing clearance; in FIG. 3 - swivel joint of the main and additional plates. _{20 The} regenerative rotary air heater comprises a housing 1 in which a rotor 2 and main mechanical seal plates 3 and 4 are mounted, fixed in radial jumpers 5 and 6, dividing the housing 1 into gas 7 and air 8 compartments.

The rotor 2 with radial jumpers 9 is divided into sector cameras 10 in which the rotor packing is located. An additional sealing plate 11 is directly adjacent to the main sealing plate 4 on the cold side of the rotor 2 and is located in the air compartment 8, and the gap 12 between the end of the rotor 2 and the main sealing plate 4 is larger than the gap 13 between the end of the rotor 2 and - _{10 with an} additional sealing plate 11, or increasing in the direction of the gas sector 7 (Fig. 2). The value of the variable gap can be adjusted by swiveling the main 4 and an additional 11 plates (Fig. 3). and In this case, on the additional plate 11, a bracket 14 is mounted with an axis 15 with which the bracket 16 of the main plate 4 is jointed.

The operation of the air heater is as follows.

The chambers 10 of the rotor 2 during its rotation move into the area between the main sealing plates 3 and 4 and are blocked by the sealing plate 3 on the hot side of the rotor, and on the cold side 25 through the increased gap 12 between the end face of the rotor 2 and the plate 4 are connected with the gas compartment 7. Upon further movement of the rotor 2 in the chamber 10 side open into the hot air compartment 8 and on the cold side ³⁰ begin to overlap vatsya additional plate 11. in this position chambers 10 due to the resultant pressure difference between their hot and olodnym ends in the chamber directs air from the air chamber 8, forcing the flue gases ₃₅ through the gap 12 into the gas chamber 7. The air leak into the gas chamber 7 and the flue gas transport in an air compartment 8 is limited by appropriately adjusting the gap 12.

The installation of the main sealing plate with a gap relative to the end of the rotor greater than the similar gap of the sealing plate, the execution of the specified gap with a variable size with the possibility of its regulation allows to ensure reliable removal of flowing gases from the packing, simplify the design of the air heater by eliminating the recirculation pipe and increase the reliability of the air heater, reduce the number of shutdown cycles of the heater for preventive maintenance and repair.

Claims (2)

REGENERATIVE ROTATING AIR HEATER dividing the body 1 into a gas 7 and air 8 compartments. The rotor 2 with radial ridges 9 is divided into sector chambers 10, in which the rotor packing is placed. Additional sealing plate 1 directly adjacent to the main sealing plate 4 on the cold side of the rotor 2 and placed in the air compartment 8, and the gap 12 between the end of the rotor 2 and the main sealing plate 4 is made larger than the gap 13 between the end of the rotor 2 and the additional sealing plate 11 or increasing in the direction of the gas sector 7 (Fig. 2). The magnitude of the variable gap can be adjusted by swiveling the main 4 and an additional 11 plates (Fig. 3). In this case, on an additional plate 11, a bracket 14 is installed with an axis 15, with which the bracket 16 of the main plate 4 is articulated. The operation of the air preheater is performed as follows. The chambers 10 of the rotor 2, when rotated, move into the zone between the main sealing plates 3 and 4 and on the hot side of the rotor are blocked by the sealing plate 3, and on the cold side through the increased gap 12 between the end of the rotor 2 and plate 4 remain communicated with the gas compartment 7. Upon further movement of the chamber 10, the rotor 2 on the hot side opens into the air compartment 8, and on the cold side begins to overlap with an additional plate 11. In this position, the chambers 10 due to the pressure difference between their hot and cold one end of the chamber, air is forced from the air compartment 8, the flue gases are displaced through the gap 12 into the gas compartment 7. Air leakage into the gas compartment 7 and the transfer of flue gases to the air compartment 8 is limited by appropriate adjustment of the gap 12. Installing the main sealing plate with a gap relative to the end of the rotor is larger than the similar gap of the sealing plate, the implementation of the specified gap variable in size with the possibility of its adjustment allows to ensure reliable removal of overflow gases from the packing and simplify the construction of air heaters by eliminating recycle conduit and improve the reliability of the air preheater. Reduce the number of shutdown cycles of the air preheater for maintenance and repair. Claim 1. Regenerative rotary air heater containing rotor installed in housing, mechanical main sealing plates separating the housing into gas and air compartments, and located in the cold side of the rotor air side adjacent to the primary additional sealing plate, characterized in that increase reliability, the main plate is installed with a gap relative to the end of the rotor is larger than the similar gap of the additional plate. 2. The air preheater of claim 1, wherein the gap between the main plate and the end of the rotor is made increasing in the direction of the gas sector. 3. The air preheater of claim 2, which is distinguished by the fact that the main and additional plates are interconnected by a hinge joint. Sources of information taken into account during the examination 1. German patent number 1033831, cl. 24 K 4/02, publ. 1958. 2. USSR author's certificate on the factory number 2558770, cl. F 23 L 15/02, 1977. eight 1 Fig.Z