US2812923A - Preheater washing device - Google Patents

Preheater washing device Download PDF

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Publication number
US2812923A
US2812923A US415614A US41561454A US2812923A US 2812923 A US2812923 A US 2812923A US 415614 A US415614 A US 415614A US 41561454 A US41561454 A US 41561454A US 2812923 A US2812923 A US 2812923A
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Prior art keywords
rotor
sector plate
air
ports
plates
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Expired - Lifetime
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US415614A
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Schoenherr Karl Ernest
George E Rosenberg
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Alstom Power Inc
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Air Preheater Co Inc
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Priority to US415614A priority Critical patent/US2812923A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28GCLEANING OF INTERNAL OR EXTERNAL SURFACES OF HEAT-EXCHANGE OR HEAT-TRANSFER CONDUITS, e.g. WATER TUBES OR BOILERS
    • F28G9/00Cleaning by flushing or washing, e.g. with chemical solvents
    • F28G9/005Cleaning by flushing or washing, e.g. with chemical solvents of regenerative heat exchanger
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S165/00Heat exchange
    • Y10S165/009Heat exchange having a solid heat storage mass for absorbing heat from one fluid and releasing it to another, i.e. regenerator
    • Y10S165/01Cleaning storage mass
    • Y10S165/012Spray nozzle cleaner

Definitions

  • This invention relates generally to regenerative heat exchanging apparatus and particularly to an improved device for cleaning the regenerative heat exchanger plates of such an apparatus.
  • the heat transfer surface consists of spaced metallic plates mounted in a rotor which is turned first into the path of gases to absorb heat therefrom and then into an air stream to impart heat thereto.
  • the present invention dispenses with the usual complex mechanical linkages and gear trains and provides a unique arrangement of slotted sector plates and headers to eflect an eflicient distribution of the cleaning fluid.
  • Figure 1 is a plan view of a rotor for a regenerative type air preheater showing a sector plate equipped with a water washing apparatus embodying the present invention.
  • Figure 2 is a side elevation of the rotor as seen on line 2-2 of Figure 1.
  • the apparatus comprises a rotor, designated as a unit by the numeral 20, revolving about an axis of rotation 22. Positioned axially at both ends of the rotor are upper and lower end or sector plates 26 and 28, respectively, which provide structure housing the washing apparatus of this invention.
  • the sector plate 26 located above the rotor has a series of evenly spaced ports 30 adjacent its leading edge to provide points of ingress for a cleaning fluid being supplied to the rotor.
  • the ports are radially spaced to provide an even distribution of fluid to the entire surface of the rotor and are connected to a header 34 which is connected to an outside source of cleaning fluid.
  • the lower sector plate 28 has a plurality of radially disposed slots 32 which are adapted to receive theeflluent comprising deposits which are removed from the rotor together with the washing fluid supplied through the ports 30.
  • Radial seals 37 are fixed to radial diaphragms 40 to rotate with the rotor and bridge the space between the rotor and sector plates. The seals 37 provide a pushing and scraping action which is instrumental in forcing the washing fluid and entrained deposits into the slots 32 and thence to the hopper 38 where they are collected before being carried off for disposal.
  • a cleaning fluid is supplied to the header through ?a conduit controlled by the valve 36. Fluid supplied .to the header is then distributed through the ports 30 to the rotor where it flows downwardly over the heating elements of the rotor to wash away products of combustion which have become attached to the surfaces thereof.
  • the cleaning fluid and entrained deposits reach the lower sector plate 28 they are pushed and scraped through the slots 32 by the radial seals 37 which are fixed to the diaphragm and rotate with the rotor. All cleaning fluid and deposits are then collected in a hopper 38 positioned beneath the lower sector plate and'from this hopper the fluid and deposits are drained away to be disposed of in any suitable manner.
  • a regenerative heat exchange apparatus having a cylindrical housing formed with parallel passageways for hot gases andair, a rotor concentrically aligned within said housing'carrying heat transfer elements into the gas passageway to absorb heat therefrom and thence into the air passageway to impart heat thereto; upper and lower sector;plates attached to opposite ends of the housing, said sector plates having openings laterally spacing the air andgas passageways; a series of radially spaced ports in the uppersector plate adjacent aleading edge thereof; a pltlralityof radially disposed slots arranged in the lower sector plate to receive fluid having ingress through the ports in the upper sector plate; means for supplying a cleaning fluid to the radially spaced ports in the upper sector plate; and means carried by the rotor adapted to wipe against the lower sector plate.
  • a regenerative heat exchange apparatus having a cylindrical housing formed with parallel passageways for hot gases and air, a rotor concentrically aligned within said housing carrying heat transfer elements into the gas passageway to absorb heat from the gas passing therethrough, and then into the air passageway to impart heat to the air flowing therethrough, upper and lower sector plates attached to opposite ends of the housing, said sector plates having openings interposed in the air and gas passageways; a row of radially spaced ports adjacent an edge of the upper sector plate; rows of radially disposed slots in the lower sector plate circumferentially displaced from the ports in the upper sector plate; means for supplying a washing fluid to the radially spaced ports; and means carried by the rotor adapted to wipe against the lower sector plate.
  • a regenerative heat exchange apparatus having a housing formed with passages for a heating gas and air to be heated; a rotor carrying regenerative heat transfer plates into the gas passageway to absorb heat from the gas flowing therethrough and then into the air passageway to impart heat to the air flowing therethrough; aligned sector plates at each end of the rotor having a plurality of openings for the countercurrent flow of gas and air, the upper sector plate including a series of radially disposed ports adjacent a leading edge thereof and the lower sector plate including rows of radially disposed slots circumferentially displaced from the series of ports in the upper sector plate; a heater for supplying fluid to the series of radially disposed ports; and means carried by the rotor adapted to wipe against the lower sector plate.
  • a regenerative heat exchange apparatus having a cylindrical housing formed with passages for a heating gas and air to be heated; a rotor carrying regenerative heat transfer plates into the gas passageway to absorb heat from the gas flowing therethrough and then into the air passageway to impart heat to the air flowing therethrough; aligned sector plates at opposite ends of the rotor having openings for the counter-flowing gas and air; a series of radially disposed ports adjacent a leading edge of the upper sector plate; rows of radially extending slots in the lower sector plate; radially extending sealing means carried by the rotor adapted to wipe against the lower sector plate; and a hopper means depending from the slotted portion of the lower sector plate whereby fluid admitted to the rotor through ports in the upper sector plate may flow over the heat transfer plates of the rotor and out the slots in the lower sector plate to be collected in the hopper.
  • a regenerative heat exchange apparatus having a cylindrical housing formed with passages for a heating gas and counterflowing air to be heated; a rotor within said housing carrying regenerative heat transfer plates into the gas passageway to absorb heat from gas flowing therethrough and thence into the air passageway to impart heat to the air flowing therethrough; aligned sector plates on the housing at opposite ends of the rotor, each sector plate having openings for the counterflowing gas and air; a series of radially disposed ports adjacent a leading edge of the upper sector plate; rows of radially extending slots in the lower sector plate; a manifold connecting the ports in the upper sector plate to a source of cleaning fluid; radially extending sealing and wiping means carried by the rotor adapted to force the cleaning fluid through the radially extending slots in the lower sector plate; and hopper means depending from the slotted portion of the lower sector plate whereby fluid admitted through the manifold on the upper sector plate may flow downwardly over the heat transfer plates in the rotor and thence out the slots in the slots
  • a regenerative heat exchange apparatus having a cylindrical housing formed with passages for heating gas and counterflowing air to be heated; a rotor within said housing carrying regenerative heat transfer plates into the gas passageway to absorb heat from the gas flowing therethrough and thence into the air passageway to impart heat to the air flowing therethrough; upper and lower sector plates connected to the cylindrical housing at opposite ends of the rotor, each of said sector plates having openings for the counterflowing gas and air; a series of ports arranged radially along a leading edge of the upper sector plate; rows of radially extending slots in the lower sector plate displaced from a plane normal to the series of ports in the upper sector plate; a manifold connecting the ports in the upper sector plate to a source of cleaning fluid; sealing means carried by the rotor adapted to wipe against the lower sector plate and a hopper depending from the slotted portion of the lower sector plate whereby fluid flowing over the heat transfer plates to the lower sector plate is drained through the radially extending slots into the afiixed
  • a regenerative heat exchange apparatus having a cylindrical housing formed with parallel passageways for hot gases and air, a rotor concentrically aligned within said housing carrying heat transfer elements into the gas passageway to absorb heat therefrom and thence into the air passageway to impart heat thereto; upper and lower sector plates attached to opposite ends of the housing, said sector plates having openings laterally spacing the air and gas passageways; a series of radially spaced ports in the upper sector plate adjacent a leading edge thereof; a plurality of radially disposed slots arranged in the lower sector plate to receive fluid having ingress through the ports in the upper sector plate; and means for sup plying a cleaning fluid to the radially spaced ports in the upper sector plate; and radially extending sealing members carried by the rotor at its lower end wiping against said lower sector plate.

Description

Nov. 12, 1957 K. E. SCHOENHERR ET AL 2,812,923
PREHEATER WASHING DEVICE VIIIIIIIMIIIIII/IIIIIII/IIIIII12W A Filed March 11, 1954 Mm Y m m 1: mm m 5 8 7 y a V. B
United States Patent PREHEATER WASHING DEVICE Application March 11, 1954, Serial No. 415,614
7 Claims. (Cl. 257-4) This invention relates generally to regenerative heat exchanging apparatus and particularly to an improved device for cleaning the regenerative heat exchanger plates of such an apparatus.
"In a rotary regenerative air preheater the heat transfer surface consists of spaced metallic plates mounted in a rotor which is turned first into the path of gases to absorb heat therefrom and then into an air stream to impart heat thereto.
An important drawback accompanying the operation of most modern boiler plants is the fouling of the heating element in the air preheaters by ash and other products of combustion, which under certain firing conditions rapidly clog vup theair passageways between plates until the efficiency of thepreheater is greatly lowered. Usually a build-up of deposits necessitates a shut down of the plant and removal of the heating elements for cleaning and treating with a chemically active solution which provides a deterrent to further deposits. In some preheaters a system of pipes and baffles has been utilized to effect a washing operation within the preheater housing without removingthe elements from the housing, however, such systems usually require a complex arrangement of gears and mechanical linkages which are expensive to produce and difficult to maintain.
The present invention dispenses with the usual complex mechanical linkages and gear trains and provides a unique arrangement of slotted sector plates and headers to eflect an eflicient distribution of the cleaning fluid.
The present invention may be better understood upon consideration of the following detailed description of an illustrative embodiment thereof when read in conjunction with the accompanying drawings in which:
Figure 1 is a plan view of a rotor for a regenerative type air preheater showing a sector plate equipped with a water washing apparatus embodying the present invention.
Figure 2 is a side elevation of the rotor as seen on line 2-2 of Figure 1.
The apparatus comprises a rotor, designated as a unit by the numeral 20, revolving about an axis of rotation 22. Positioned axially at both ends of the rotor are upper and lower end or sector plates 26 and 28, respectively, which provide structure housing the washing apparatus of this invention.
The sector plate 26 located above the rotor has a series of evenly spaced ports 30 adjacent its leading edge to provide points of ingress for a cleaning fluid being supplied to the rotor. The ports are radially spaced to provide an even distribution of fluid to the entire surface of the rotor and are connected to a header 34 which is connected to an outside source of cleaning fluid. The header illustrated has a constant diameter from its radially outer to its radially inner extremities, however, under certain conditions depending upon size of unit, frequency of operation or fluid used, it may be desirable to taper the header whereby the diameter decreases progressively toward its inner end. Fluid flow through the header is positively controlled -by a =valving means 36 which is operated manually or by automatic means not illustrated. V The lower sector plate 28 has a plurality of radially disposed slots 32 which are adapted to receive theeflluent comprising deposits which are removed from the rotor together with the washing fluid supplied through the ports 30. Radial seals 37 are fixed to radial diaphragms 40 to rotate with the rotor and bridge the space between the rotor and sector plates. The seals 37 provide a pushing and scraping action which is instrumental in forcing the washing fluid and entrained deposits into the slots 32 and thence to the hopper 38 where they are collected before being carried off for disposal.
In operation a cleaning fluid is supplied to the header through ?a conduit controlled by the valve 36. Fluid supplied .to the header is then distributed through the ports 30 to the rotor where it flows downwardly over the heating elements of the rotor to wash away products of combustion which have become attached to the surfaces thereof. When the cleaning fluid and entrained deposits reach the lower sector plate 28 they are pushed and scraped through the slots 32 by the radial seals 37 which are fixed to the diaphragm and rotate with the rotor. All cleaning fluid and deposits are then collected in a hopper 38 positioned beneath the lower sector plate and'from this hopper the fluid and deposits are drained away to be disposed of in any suitable manner.
Under certain operating conditions it may be desirable to chemically treat the cleaning fluid with an alkali solution prior toits introduction into the rotor. Under these conditions, the washing apparatus of this invention maybe readily'modified to allow an introduction of cleaning fluid prior to-its' admittance into the header. However, such modification constitutes no part of this invention. I
What we claim is:
1. A regenerative heat exchange apparatus having a cylindrical housing formed with parallel passageways for hot gases andair, a rotor concentrically aligned within said housing'carrying heat transfer elements into the gas passageway to absorb heat therefrom and thence into the air passageway to impart heat thereto; upper and lower sector;plates attached to opposite ends of the housing, said sector plates having openings laterally spacing the air andgas passageways; a series of radially spaced ports in the uppersector plate adjacent aleading edge thereof; a pltlralityof radially disposed slots arranged in the lower sector plate to receive fluid having ingress through the ports in the upper sector plate; means for supplying a cleaning fluid to the radially spaced ports in the upper sector plate; and means carried by the rotor adapted to wipe against the lower sector plate.
2. A regenerative heat exchange apparatus having a cylindrical housing formed with parallel passageways for hot gases and air, a rotor concentrically aligned within said housing carrying heat transfer elements into the gas passageway to absorb heat from the gas passing therethrough, and then into the air passageway to impart heat to the air flowing therethrough, upper and lower sector plates attached to opposite ends of the housing, said sector plates having openings interposed in the air and gas passageways; a row of radially spaced ports adjacent an edge of the upper sector plate; rows of radially disposed slots in the lower sector plate circumferentially displaced from the ports in the upper sector plate; means for supplying a washing fluid to the radially spaced ports; and means carried by the rotor adapted to wipe against the lower sector plate.
3. In a regenerative heat exchange apparatus having a housing formed with passages for a heating gas and air to be heated; a rotor carrying regenerative heat transfer plates into the gas passageway to absorb heat from the gas flowing therethrough and then into the air passageway to impart heat to the air flowing therethrough; aligned sector plates at each end of the rotor having a plurality of openings for the countercurrent flow of gas and air, the upper sector plate including a series of radially disposed ports adjacent a leading edge thereof and the lower sector plate including rows of radially disposed slots circumferentially displaced from the series of ports in the upper sector plate; a heater for supplying fluid to the series of radially disposed ports; and means carried by the rotor adapted to wipe against the lower sector plate.
4. In a regenerative heat exchange apparatus having a cylindrical housing formed with passages for a heating gas and air to be heated; a rotor carrying regenerative heat transfer plates into the gas passageway to absorb heat from the gas flowing therethrough and then into the air passageway to impart heat to the air flowing therethrough; aligned sector plates at opposite ends of the rotor having openings for the counter-flowing gas and air; a series of radially disposed ports adjacent a leading edge of the upper sector plate; rows of radially extending slots in the lower sector plate; radially extending sealing means carried by the rotor adapted to wipe against the lower sector plate; and a hopper means depending from the slotted portion of the lower sector plate whereby fluid admitted to the rotor through ports in the upper sector plate may flow over the heat transfer plates of the rotor and out the slots in the lower sector plate to be collected in the hopper.
5. In a regenerative heat exchange apparatus having a cylindrical housing formed with passages for a heating gas and counterflowing air to be heated; a rotor within said housing carrying regenerative heat transfer plates into the gas passageway to absorb heat from gas flowing therethrough and thence into the air passageway to impart heat to the air flowing therethrough; aligned sector plates on the housing at opposite ends of the rotor, each sector plate having openings for the counterflowing gas and air; a series of radially disposed ports adjacent a leading edge of the upper sector plate; rows of radially extending slots in the lower sector plate; a manifold connecting the ports in the upper sector plate to a source of cleaning fluid; radially extending sealing and wiping means carried by the rotor adapted to force the cleaning fluid through the radially extending slots in the lower sector plate; and hopper means depending from the slotted portion of the lower sector plate whereby fluid admitted through the manifold on the upper sector plate may flow downwardly over the heat transfer plates in the rotor and thence out the slots in the lower sector plate to be collected in the hopper fixed thereto.
6. In a regenerative heat exchange apparatus having a cylindrical housing formed with passages for heating gas and counterflowing air to be heated; a rotor within said housing carrying regenerative heat transfer plates into the gas passageway to absorb heat from the gas flowing therethrough and thence into the air passageway to impart heat to the air flowing therethrough; upper and lower sector plates connected to the cylindrical housing at opposite ends of the rotor, each of said sector plates having openings for the counterflowing gas and air; a series of ports arranged radially along a leading edge of the upper sector plate; rows of radially extending slots in the lower sector plate displaced from a plane normal to the series of ports in the upper sector plate; a manifold connecting the ports in the upper sector plate to a source of cleaning fluid; sealing means carried by the rotor adapted to wipe against the lower sector plate and a hopper depending from the slotted portion of the lower sector plate whereby fluid flowing over the heat transfer plates to the lower sector plate is drained through the radially extending slots into the afiixed hopper.
7. A regenerative heat exchange apparatus having a cylindrical housing formed with parallel passageways for hot gases and air, a rotor concentrically aligned within said housing carrying heat transfer elements into the gas passageway to absorb heat therefrom and thence into the air passageway to impart heat thereto; upper and lower sector plates attached to opposite ends of the housing, said sector plates having openings laterally spacing the air and gas passageways; a series of radially spaced ports in the upper sector plate adjacent a leading edge thereof; a plurality of radially disposed slots arranged in the lower sector plate to receive fluid having ingress through the ports in the upper sector plate; and means for sup plying a cleaning fluid to the radially spaced ports in the upper sector plate; and radially extending sealing members carried by the rotor at its lower end wiping against said lower sector plate.
References Cited in the file of this patent UNITED STATES PATENTS 1,970,127 Colbyet al. Aug. 14, 1934 2,549,583 Eckersley Apr. 17, 1951 2,683,023 Ulander July 6, 1954 FOREIGN PATENTS 545,523 Germany Mar. 2, 1932
US415614A 1954-03-11 1954-03-11 Preheater washing device Expired - Lifetime US2812923A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2751600A1 (en) * 1976-12-23 1978-06-29 Autelli Giulio DEVICE FOR CLEANING THE DRUM OF A ROTARY HEAT EXCHANGER
EP0080542A1 (en) * 1981-11-23 1983-06-08 Richard J. Monro Improved heat generator
US4444128A (en) * 1980-12-19 1984-04-24 Monro Richard J Heat generator
US4705057A (en) * 1984-06-27 1987-11-10 Balcke-Durr Aktiengesellschaft Cleaning device for regenerative heat exchangers
EP2287550A2 (en) 2009-07-08 2011-02-23 Breen Energy Solutions Method for online cleaning of air preheaters
CN108871046A (en) * 2018-05-21 2018-11-23 合力正华(北京)工程技术有限公司 Automatic purging system and automatic blow-washing method

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE545523C (en) * 1932-03-02 Intensiv Filter Gmbh Air heater with a rotatable heat exchanger divided into sector chambers
US1970127A (en) * 1930-01-02 1934-08-14 Air Preheater Heat exchange installation
US2549583A (en) * 1944-05-08 1951-04-17 Air Preheater Regenerative heat exchanging apparatus
US2683023A (en) * 1951-04-21 1954-07-06 Howden James & Co Ltd Heat exchanger

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE545523C (en) * 1932-03-02 Intensiv Filter Gmbh Air heater with a rotatable heat exchanger divided into sector chambers
US1970127A (en) * 1930-01-02 1934-08-14 Air Preheater Heat exchange installation
US2549583A (en) * 1944-05-08 1951-04-17 Air Preheater Regenerative heat exchanging apparatus
US2683023A (en) * 1951-04-21 1954-07-06 Howden James & Co Ltd Heat exchanger

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2751600A1 (en) * 1976-12-23 1978-06-29 Autelli Giulio DEVICE FOR CLEANING THE DRUM OF A ROTARY HEAT EXCHANGER
FR2375569A1 (en) * 1976-12-23 1978-07-21 Autelli Giulio MULTIPLE LANCE FOR WASHING ROTARY HEAT EXCHANGERS
US4444128A (en) * 1980-12-19 1984-04-24 Monro Richard J Heat generator
WO1985004946A1 (en) * 1980-12-19 1985-11-07 Monro Richard J Method and apparatus for improving the operation of a heat generator
EP0080542A1 (en) * 1981-11-23 1983-06-08 Richard J. Monro Improved heat generator
US4705057A (en) * 1984-06-27 1987-11-10 Balcke-Durr Aktiengesellschaft Cleaning device for regenerative heat exchangers
EP2287550A2 (en) 2009-07-08 2011-02-23 Breen Energy Solutions Method for online cleaning of air preheaters
CN108871046A (en) * 2018-05-21 2018-11-23 合力正华(北京)工程技术有限公司 Automatic purging system and automatic blow-washing method
CN108871046B (en) * 2018-05-21 2020-06-30 合力正华(北京)工程技术有限公司 Automatic purging system and automatic purging method

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