Title of Invention

AN IMPROVED SEALING SYSTEM FOR ROTARY REGENERATIVE AIR PREHEATER TO REDUCE LEAKAGE OF HIGH PRESSURE AIR STREAM TO LOW PRESSURE GAS STREAM

Abstract

Accordingly thee is provided an improved airpreheater sealing system which reduces the leakage of high pressure air stream to low pressure gas stream. In the present invention, the diaphragm plate is split into a top diaphragm plate and a bottom diaphragm plate and a first component of the improved sealing system is mounted in between the top and bottom diaphragm plates radial to the rotor post in addition to the existing radial seal fixed above the diaphragm plate. Similarly, a second component of the improved sealing system is mounted between the top diaphragm and bottom diaphragm plates axial to the rotor post in addition to the existing axial seal fixed on the diaphragm plate. During operation of the Airpreheater, the rotor gets turn down causing an increase in the gap between the top diaphragm and the bottom diaphragm plates. Because of the provision of the web seals, according to the invention, no passage is available for leakage of the high pressure air stream to the low pressure gas stream and thus the leakage is reduced. The inventive concept resides in configurating the diaphragm plates as "the splitting diaphragm plates" for example, the top and bottom diaphragm plates and mounting the web seals between the top and bottom diaphragm plates. Accordingly, the web seals function as a sealing means for the gap between the top and bottom diaphragm plates during operation of the Airpreheater and thereby leakage of high pressure air stream to low pressure gas stream is reduced considerably.

Full Text

-2- FIELD OF INVENTION: The present invention generally relates to Rotary Regenerative heat exchangers normally used as Airpreheaters and more particularly to an improved airpreheater sealing system which reduces the leakage of high pressure air stream to low pressure gas stream during operation of the Airpreheaters. BACKGROUND OF INVENTION: Airpreheaters are used in Thermal power stations / Industrial applications to transfer the heat from the flue gas leaving boiler / furnace to the entering combustion air through regenerative heat transfer surface in a rotor which turns continuously through the air and gas streams. A Rotary Regenerative Airpreheater transfers heat from the flue gas leaving a boiler to the entering combustion air through regenerative heat transfer surface in a rotor which turns continuously through the gas and air streams. The rotor is divided into compartments by a number of radially extending plates referred to as diaphragms. These compartments are adapted to hold modular heat exchange baskets which contain a mass of heat absorbent material commonly formed of stacked plate-like elements. In a typical Rotary Regenerative heat exchanger, the hot flue gas and the combustion air enter the rotor shell from opposite ends and pass in opposite directions over the heat exchange material housed within the rotor. Consequently, the cold air inlet and the cooled gas outlet are at one end of the heat exchanger, referred to as the cold end, and the hot gas inlet and the heated air outlet are at the opposite end of the heat exchanger, referred to as the hot end. -3- The Airpreheater is divided into a flue gas side or sector and one or more combustion air sides or sectors by the sector plates. Flexible radial seals on the rotor, usually mounted on the top and bottom edges of the diaphragms, which are in close proximity to these sector plates and minimize leakage of gas and air between the sectors to separate the air and flue gas steams from each other. Likewise, a rotor shell is mounted to the outboard ends of the diaphragms, forming the periphery of the rotor, to prevent the air and gas steams from flowing through the peripheral ends of the sectors and bypassing the heat transfer surface. Circumferential seals seal the gap between the rotor and the rotor housing to prevent bypass flow through the annulus formed between the rotor and the rotor housing. The Rotary Regenerative Airpreheater comprises a Rotor assembly, a rotor drive, a support bearing assembly, a guide bearing assembly, a plurality of connecting plates and a rotor housing. The housing surrounding the rotor is provided with duct connections at both ends and is adequately sealed by radial and axial sealing members. The radial seals are fixed in the diaphragm plate radial to the rotor post along with a first seal holding bar and is touching the sector plate. Similarly, the axial seals are fixed in the diaphragm plate axial to the rotor post along with a second seal holding bar and is touching the axial seal plate which is mounted on the main pedestal. The Regenerative Airpreheater is rotated by the drive system. During operation of the Airpreheater, the rotor gets turn down which increases the gap between the sector plate radial seals. Through this gap the high pressure air stream leaks to the low pressure gas side. In order to reduce the leakage of high pressure air to the low pressure gas, it is necessary to introduce a web seals in the Airpreheater. -4- OBJECTS OF INVENTION: It is therefore an object of the present invention to propose an improved airpreheater sealing system which can be mounted between the top diaphragm and bottom diaphragm plates axial to the rotor post. Another object of the present invention is to propose an improved airpreheater sealing system which is cost-effective. A further object of the invention is to propose an improved airpreheater sealing system which reduces the leakage of high pressure air stream to low pressure gas stream. A still further object of the invention is to propose an improved airpreheater sealing system which reduces the leakage of high pressure air stream to low pressure gas stream in the Airpreheater thereby increasing the life of heating elements of the airpreheater. SUMMARY OF THE INVENTION: Accordingly thee is provided an improved airpreheater sealing system which reduces the leakage of high pressure air stream to low pressure gas stream. In the present invention, the diaphragm plate is split into a top diaphragm plate and a bottom diaphragm plate and a first component of the improved sealing system is mounted in between the top and bottom diaphragm plates radial to the rotor post in addition to the existing radial seal fixed above the diaphragm plate. Similarly, a second component of the improved sealing system is mounted between the top diaphragm and bottom diaphragm plates axial to the rotor post in addition to -5- the existing axial seal fixed on the diaphragm plate. During operation of the Airpreheater, the rotor gets turn down causing an increase in the gap between the top diaphragm and the bottom diaphragm plates. Because of the provision of the web seals, according to the invention, no passage is available for leakage of the high pressure air stream to the low pressure gas stream and thus the leakage is reduced. The inventive concept resides in configurating the diaphragm plates as 'the splitting diaphragm plates' for example, the top and bottom diaphragm plates and mounting the web seals between the top and bottom diaphragm plates. Accordingly, the web seals function as a sealing means for the gap between the top and bottom diaphragm plates during operation of the Airpreheater and thereby leakage of high pressure air stream to low pressure gas stream is reduced considerably. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS Figure l(a)- shows an elevational view of an improved sealing system according to the invention. Figure l(b)- shows a side view of an improved sealing system according to the invention. Figure 2(a)- shows a first component of the improved sealing system of the invention disposed at the hot end of the airpreheater. Figure 2(b)- shows a second component of the improved sealing system of the invention disposed at a cold end of the airpreheater. -6- DETAILED DESCRIPTION OF THE INVENTION: According to the present invention, the web seal is mounted between the top diaphragm and bottom diaphragm plates radial to the rotor post in addition to the radial seal fixed above the top diaphragm plates which minimizes the gap due to turn down of the rotor and thus the leakage of the high pressure air to low pressure gas stream is reduced. Figures l(a) & l(b), show an improved sealing system comprising a top diaphragam plate (01), a bottom diaphragm plate (02) and a web seal assembly (03). As shown in figure -2(a), the improved sealing system comprises a diaphragm plate split into a top diaphragm plate (01) and a bottom diaphragm plate (02) and a first component of the sealing system (03) is mounted in between the top and bottom diaphragm plates (02,03) radial to the rotor post (04). The web seal (03) is mounted on the diaphragams (02,03) in addition to a radial seal (05) fixed above the top diaphragm plate (01) and touching the bottom surface of the sector plate (06). Similarly, as shown in figure 2(b), a second component of the sealing system (03) is mounted between the top diaphragm plate (01) and bottom diaphragm plate (02) axial to the rotor post (04) in addition to an axial seal (07) fixed on the top diaphragm and bottom diaphragm plates (01,02). During operation of the Airpreheater, the rotor gets turned down, due to this, the gap between the top diaphragm (01) and the bottom diaphragm plate (02) gets increased. Because of the provision of the web seals (03), no passage is available for leakage of the high pressure air stream to the low pressure gas stream and thus the leakage is reduced. -7- We Claim: 1. An improved sealing system for rotary regenerative airpreheaters to reduce leakage of high pressure airstream to low pressure gas stream comprising: - a first splitted diaphragm plate constituting a first tope diaphragm plate (01) disposed at the hot end of the airpreheater; - a second splitted diaphragm plate constituting a first bottom diaphragm plate (02) disposed at the hot end of the airpreheater; - a first web seal (03) constituting a first component of the sealing system mounted between the first top and bottom diaphragm plates (01,02), and being at a radial position in respect of a rotor post (04) at the hot end, the first web seal (03) being accommodated in addition to a radial seal (05) fixed above the first top diaphragm plate (01); - a third splitted diaphragm plate constituting a second top diaphragm plate (01) disposed at the cold end of the airpreheater; - a fourth splitted diaphragm plate constituting a second bottom diaphragm plate (02) disposed at the cold end; and - a second web seal (03) constituting a second component of the sealing system mounted between the second top and bottom diaphragm plates (01, 02), and being at a radial position in respect of a rotor post (04) at the cold end, the second web seal (03) being accommodated in addition to an axial seal (07) fixed on the second top and bottom diaphragm plates (01,02). -8- 2. An improved sealing system for rotary regenerative airpreheaters to reduce leakage of high pressure airstream to low pressure gas stream as substantially described and illustrated herein with reference to the accompanying drawings. Dated this 21st day of SEPTEMBER 2007 Accordingly thee is provided an improved airpreheater sealing system which reduces the leakage of high pressure air stream to low pressure gas stream. In the present invention, the diaphragm plate is split into a top diaphragm plate and a bottom diaphragm plate and a first component of the improved sealing system is mounted in between the top and bottom diaphragm plates radial to the rotor post in addition to the existing radial seal fixed above the diaphragm plate. Similarly, a second component of the improved sealing system is mounted between the top diaphragm and bottom diaphragm plates axial to the rotor post in addition to the existing axial seal fixed on the diaphragm plate. During operation of the Airpreheater, the rotor gets turn down causing an increase in the gap between the top diaphragm and the bottom diaphragm plates. Because of the provision of the web seals, according to the invention, no passage is available for leakage of the high pressure air stream to the low pressure gas stream and thus the leakage is reduced. The inventive concept resides in configurating the diaphragm plates as 'the splitting diaphragm plates' for example, the top and bottom diaphragm plates and mounting the web seals between the top and bottom diaphragm plates. Accordingly, the web seals function as a sealing means for the gap between the top and bottom diaphragm plates during operation of the Airpreheater and thereby leakage of high pressure air stream to low pressure gas stream is reduced considerably.

Documents:

01316-kol-2007-abstract.pdf

01316-kol-2007-claims.pdf

01316-kol-2007-correspondence others 1.1.pdf

01316-kol-2007-correspondence others.pdf

01316-kol-2007-description complete.pdf

01316-kol-2007-drawings.pdf

01316-kol-2007-form 1.pdf

01316-kol-2007-form 18.pdf

01316-kol-2007-form 2.pdf

01316-kol-2007-form 3.pdf

01316-kol-2007-gpa.pdf

1316-KOL-2007-(02-11-2012)-CORRESPONDENCE.pdf

1316-KOL-2007-(12-01-2012)-OTHER PATENT DOCUMENT.pdf

1316-KOL-2007-(19-09-2012)-ABSTRACT.pdf

1316-KOL-2007-(19-09-2012)-AMANDED CLAIMS.pdf

1316-KOL-2007-(19-09-2012)-DESCRIPTION (COMPLETE).pdf

1316-KOL-2007-(19-09-2012)-DRAWINGS.pdf

1316-KOL-2007-(19-09-2012)-EXAMINATION REPORT REPLY RECEIVED.pdf

1316-KOL-2007-(19-09-2012)-FORM-1.pdf

1316-KOL-2007-(19-09-2012)-FORM-2.pdf

1316-KOL-2007-(19-09-2012)-OTHERS.pdf

1316-KOL-2007-CORRESPONDENCE 1.1.pdf

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