Method and apparatus for in-cell vacuuming of radiologically contaminated materials

US 4,695,299 A
Filed: 02/21/1986
Issued: 09/22/1987
Est. Priority Date: 02/21/1986
Status: Expired due to Fees

First Claim

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1. A vacuum system having a vaccum source for collecting radiologically contaminated material for disposal, comprising:

an inlet nozzle for collecting said material;

a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;

a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing obsertation of a level of material collected therein;

a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;

a second prefilter connected between said vacuum source and said first prefilter for filtering air from asid first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;

means for monitoring a pressure drop across said first prefilter; and

a third prefilter between said second prefilter and said vacuum source.

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Abstract

A vacuum air flow operated cyclone separator arrangement for collecting, handling and packaging loose contaminated material in accordance with acceptable radiological and criticality control requirements. The vacuum air flow system includes a specially designed fail-safe prefilter installed upstream of the vacuum air flow power supply. The fail-safe prefilter provides in-cell vacuum system flow visualization and automatically reduces or shuts off the vacuum air flow in the event of an upstream prefilter failure. The system is effective for collecting and handling highly contaminated radiological waste in the form of dust, dirt, fuel element fines, metal chips and similar loose material in accordance with radiological and criticality control requirements for disposal by means of shipment and burial.

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15 Claims

1. A vacuum system having a vaccum source for collecting radiologically contaminated material for disposal, comprising:
- an inlet nozzle for collecting said material;
  
  a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing obsertation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from asid first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;
  
  means for monitoring a pressure drop across said first prefilter; and
  
  a third prefilter between said second prefilter and said vacuum source.
- View Dependent Claims (2)
- - 2. The vacuum system of claim 1 wherein said first prefilter communicates with said second prefilter through a first flexible hose and said second prefilter communicates with said third prefilter through a second flexible hose.

3. A vacuum system having a vacuum source for collecting radiologically contaminated material for disposal, comprisingan inlet nozzle for collecting said material;
- a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator;
  
  a first prefilter connected to said air flow discharge and positioned downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from said first prefilter;
  
  an adjustable support frame connected to said cyclone separator and said first prefilter for adjusting the vertical position of said cyclone separator and said first prefilter above said product container; and
  
  lift means connected to said support frame for lifting said support frame, said cyclone separator, and said first prefilter as an integral unit and for facilitating remote handling.

4. A vaccum system having a vacuum source for collecting radiologically contaminated material for disposal, comprisingan inlet nozzle for collecting said material;
- a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, wherein said product container is transparent for allowing observation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter, said second prefilter further comprising a transparent shell having a filter element dividing said shell into an inlet plenum and an outlet plenum, wherein the vacuum flow through said inlet plenum can be observed and wherein said filter element is operable to trap material passing through said first prefilter and to effectively reduce or interrupt communication between said vacuum source and said cyclone separator when trapped material clogs said filter element;
  
  a third prefilter between said second prefilter and said vacuum source, wherein said first prefilter communicates with said second prefilter through a first flexible hose and said second prefilter communicates with said third prefilter through a second flexible hose;
  
  an adjustable support frame for supporting asid cyclone separator above said product container, wherein said support frame is operable to support said cyclone separator at an adjustable height and wherein said first prefilter is removably disposed downstream of said cyclone separator and is supported by said support frame;
  
  means for supporting said product container against said material discharge during operation and for facilitating removal of said product container from said material discharge for disposal of said material;
  
  means for monitoring a pressure drop across said first prefilter; and
  
  an air diffuser for reducing flow velocity from said vacuum source.

5. A vacuum system having a vacuum source for collecting radiologically contaminated material for disposal, comprising:
- an inlet nozzle for collecting said material;
  
  a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing observation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from said first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;
  
  means for monitoring a pressure drop across said first prefilter; and
  
  means for supporting said product container against said material discharge during operation and for facilitating removal of said product container from said material discharge for disposal of said material.

6. A vacuum system having a vacuum source for collecting radiologically contaiminated material for disposal, comprising:
- an inlet nozzle for collecting said material;
  
  a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing observation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from said first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;
  
  means for monitoring a pressure drop across said first prefilter; and
  
  an air diffuser for reducing flow velocity from said vacuum source.
- View Dependent Claims (7, 8)
- - 7. The vacuum system of claim 6 wherein said second prefilter means comprises a transparent shell having a filter element dividing said shell into an inlet plenum and an outlet plenum, wherein the vacuum flow through said inlet plenum can be observed.
  - 8. The vacuum system of claim 7 wherein said filter element is operable to trap material passing through said first prefilter and to effectively automatically reduce or interrupt communication between said vacuum source and said cyclone separator when trapped material clogs said filter element.

9. A vacuum system having a vacuum source for collecting radiologically contaminated material for disposal, comprising:
- an inlet nozzle for collecting said material;
  
  a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing observation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from said first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;
  
  means for monitoring a pressure drop across said first prefilter; and
  
  lift means connected to said cyclone separator and said first prefilter for facilitating remote handling.

10. A vacuum system having a vacuum soure for collecting radiologically contaminated material for disposal comprising:
- an inlet nozzle for collecting said material;
  
  a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing observation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from said first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;
  
  means for monitoring a pressure drop across said first prefilter; and
  
  an adjustable support frame for supporting said cyclone separator above said product container.
- View Dependent Claims (11, 12)
- - 11. The vacuum system of claim 10 wherein said support frame is operable to support said cyclone separator at an adjustable height.
  - 12. The vacuum system of claim 10 wherein said first prefilter is removably disposed downstream of said cyclone separator and is supported by said support frame.

13. A vacuum system having a vacuum source for collecting radiologically contaminated material for disposal, comprising:
- an inlet nozzle for collecting said material;
  
  a cyclone separator connected to said inlet nozzle to receive said material therefrom, said cyclone separator having a material discharge and an air flow discharge;
  
  a product container positioned at said material discharge for receiving material discharged from said cyclone separator, said product container is transparent for allowing observation of a level of material collected therein;
  
  a first prefilter downstream of said air flow discharge for filtering air from said air flow discharge;
  
  a second prefilter connected between said vacuum source and said first prefilter for filtering air from said first prefilter, said second prefilter having means for visually observing the air flow in said second prefilter;
  
  means for monitoring a pressure drop across said first prefilter;
  
  an adjustable support frame connected to said cyclone separator and said first prefilter for adjusting the vertical position of said cyclone separator and said first prefilter above said product container; and
  
  lift means connected to said support frame for lifting said support frame, said cyclone separator, and said first prefilter as an integral unit.
- View Dependent Claims (14, 15)
- - 14. The vacuum system of claim 13 further comprisinglifting means connected to said vacuum source and said second prefilter for lifting said vacuum source and said second prefilter as an integral unit.
  - 15. The vacuum source of claim 14 wherein said first prefilter communicates with said second prefilter through a flexible hose for permitting relative displacements between said first and second prefilters.

Specification

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Current Assignee
United States Of America As Represented By The Department Of Energy
Original Assignee
United States Department of Energy
Inventors
Speer, Elmer L., Cecconi, Arnold L., Smith, Jay E., Spadaro, Peter R.
Primary Examiner(s)
Nozick, Bernard

Application Number

US06/831,744
Time in Patent Office

578 Days
Field of Search

55/274, 55/315, 55/357, 55/356, 55/345, 55/337, 55/350, 55/342, 55/429, 55/471, 55/472, 55/21, 55/97, 55/459 R, 55/DIG. 9, 55/485
US Class Current

96/416
CPC Class Codes

B01D 46/12   in multiple arrangements

B01D 50/20   Combinations of devices cov...

G21F 9/02   Treating gases

Y10S 55/09   Radioactive filters

Method and apparatus for in-cell vacuuming of radiologically contaminated materials

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

49 Citations

15 Claims

Specification

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Method and apparatus for in-cell vacuuming of radiologically contaminated materials

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

49 Citations

15 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others