Flush-enabled controlled flow drain

US 8,596,292 B2
Filed: 08/22/2011
Issued: 12/03/2013
Est. Priority Date: 09/09/2010
Status: Active Grant

First Claim

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1. A controlled flow drain, comprising:

an upper flange coupled to a lower flange, the upper flange defining an inlet fluidly coupled to an upper drain pipe, and the lower flange defining an exit fluidly coupled to a lower drain pipe;

a director orifice fluidly coupled to the inlet of the upper flange and in fluid communication with an inlet cavity defined within the upper flange;

a swirl nozzle plate disposed within the upper flange and configured to receive a drain flow via the inlet and director orifice and accommodate accumulation of debris thereon;

a debris fence coupled to the swirl nozzle plate within the upper flange;

a swirl nozzle defined within the swirl nozzle plate and at least partially surrounded by the debris fence, the swirl nozzle providing fluid communication between the inlet cavity and a swirl chamber;

an annular groove fluidly communicable with the swirl chamber and defined within the lower flange, the annular groove having a series of flushing liquid injection ports symmetrically-arrayed thereabout; and

an exit control passage defined within a drain restrictor and in fluid communication with the exit and the lower drain pipe.

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Abstract

A controlled flow drain having an upper flange coupled to a lower flange. The upper flange defines an inlet cavity and the lower flange defines a swirl chamber. The inlet cavity and swirl chamber are in fluid communication via a swirl nozzle defined within a swirl nozzle plate that separates the inlet cavity from the swirl chamber. After separating debris within the drain fluid, the drain fluid is accelerated through the swirl nozzle and discharged into the swirl chamber, and more debris is thereby separated and eventually settles into an annular groove. The drain fluid may then exit the lower flange via an exit control passage. The swirl chamber may be flushed with a series of flushing liquid injection ports symmetrically-arrayed about the annular groove. Flushing the swirl chamber removes fluidized debris and also remove any built up fouling present on the swirl nozzle and exit control passage.

385 Citations

16 Claims

1. A controlled flow drain, comprising:
- an upper flange coupled to a lower flange, the upper flange defining an inlet fluidly coupled to an upper drain pipe, and the lower flange defining an exit fluidly coupled to a lower drain pipe;
  
  a director orifice fluidly coupled to the inlet of the upper flange and in fluid communication with an inlet cavity defined within the upper flange;
  
  a swirl nozzle plate disposed within the upper flange and configured to receive a drain flow via the inlet and director orifice and accommodate accumulation of debris thereon;
  
  a debris fence coupled to the swirl nozzle plate within the upper flange;
  
  a swirl nozzle defined within the swirl nozzle plate and at least partially surrounded by the debris fence, the swirl nozzle providing fluid communication between the inlet cavity and a swirl chamber;
  
  an annular groove fluidly communicable with the swirl chamber and defined within the lower flange, the annular groove having a series of flushing liquid injection ports symmetrically-arrayed thereabout; and
  
  an exit control passage defined within a drain restrictor and in fluid communication with the exit and the lower drain pipe.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The controlled flow drain of claim 1, wherein the debris fence segregates the swirl nozzle from the debris accumulating on the swirl nozzle plate.
  - 3. The controlled flow drain of claim 1, wherein the swirl nozzle has a central axis extending from a nozzle inlet to a nozzle outlet.
  - 4. The controlled flow drain of claim 3, wherein the central axis is arranged at an angle α
    - with respect to horizontal, thereby imparting a downward pitch to the swirl nozzle.
  - 5. The controlled flow drain of claim 4, wherein the angle α
    - may be about 20°
      
      or less.
  - 6. The controlled flow drain of claim 1, wherein the swirl chamber is defined in the lower flange by a lower surface of the swirl nozzle plate and the drain restrictor.
  - 7. The controlled flow drain of claim 6, wherein the lower surface of the swirl nozzle plate and the drain restrictor are opposing parallel surfaces that are respectively frustoconical.
  - 8. The controlled flow drain of claim 1, wherein the exit control passage includes sharp edges adapted to permit liquid drainage therethrough but concurrently restrict gas carry-under.

9. A method of controlling a drain flow, comprising:
- receiving the drain flow into an upper flange coupled to a lower flange, the upper flange defining an inlet and the lower flange defining an exit;
  
  centralizing the drain flow into an inlet cavity defined within the upper flange;
  
  segregating debris within the drain flow from a swirl nozzle defined within a swirl nozzle plate, the swirl nozzle providing fluid communication between the inlet cavity and a swirl chamber defined in the lower flange;
  
  accelerating the drain flow through the swirl nozzle to generate a vortical fluid flow that forces dense debris within the drain flow to a radially outer extent of the swirl chamber;
  
  accumulating the dense debris within an annular groove fluidly coupled to the swirl chamber and defined within the lower flange; and
  
  draining the drain flow from the lower flange via an exit control passage.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The method of claim 9, further comprising flushing the swirl chamber with a flushing fluid ejected from a series of flushing liquid injection ports symmetrically-arrayed about the annular groove.
  - 11. The method of claim 10, further comprising pressurizing the swirl chamber with the flushing fluid to force the drain fluid through the exit control passage.
  - 12. The method of claim 11, further comprising fluidizing at least a portion of the dense debris such that the dense debris can be drained through the exit control passage.
  - 13. The method of claim 11, further comprising removing built up fouling from the swirl nozzle and exit control passage with the flushing fluid.

14. A controlled flow drain, comprising:
- an upper flange coupled to a lower flange, the upper flange defining an inlet fluidly coupled to an upper drain pipe, and the lower flange defining an exit fluidly coupled to a lower drain pipe;
  
  an inlet cavity fluidly coupled to the inlet;
  
  a swirl chamber fluidly coupled to the exit;
  
  a swirl nozzle plate disposed between the inlet cavity and the swirl chamber and having a debris fence coupled thereto, the debris fence being disposed within the inlet cavity;
  
  a swirl nozzle defined within the swirl nozzle plate and providing fluid communication between the inlet cavity and the swirl chamber;
  
  an annular groove defined within the lower flange and in fluid communication with the swirl chamber, the annular groove having a curved radius defined about its upper periphery where the annular groove meets the swirl chamber; and
  
  an exit control passage defined within the lower flange and in fluid communication with the exit and the lower drain pipe.
- View Dependent Claims (15, 16)
- - 15. The controlled flow drain of claim 14, further comprising a series of flushing liquid injection ports symmetrically-arrayed about the annular groove.
  - 16. The controlled flow drain of claim 15, wherein the swirl nozzle has a central axis arranged at an angle α
    - with respect to horizontal, thereby imparting a downward pitch to the swirl nozzle.

Specification

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Current Assignee
Dresser-Rand Group Incorporated (Siemens AG)
Original Assignee
Dresser-Rand Group Incorporated (Siemens AG)
Inventors
Maier, William C.
Primary Examiner(s)
Schneider, Craig
Assistant Examiner(s)
CHAUDRY, ATIF H

Application Number

US13/522,208
Publication Number

US 20130160876A1
Time in Patent Office

834 Days
Field of Search

137/204, 137/13, 137/561.R, 137/544, 137/545, 137/546, 554/592, 554/594, 210/512.1, 210/787, 962/15, 952/71
US Class Current

137/204
CPC Class Codes

F04B 39/16   Filtration; Moisture separa...

F04B 53/20   Filtering

Y10T 137/3105   Self-emptying

Y10T 137/794   With means for separating s...

Y10T 137/8013   Sediment chamber

Y10T 137/8593   Systems

Flush-enabled controlled flow drain

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

385 Citations

16 Claims

Specification

Solutions

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Flush-enabled controlled flow drain

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

385 Citations

16 Claims

Specification

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Solutions

Use Cases

Quick Links