High flow rate sampler for measuring emissions at process components

RE37,403

09/169,111

October 08, 1998

A new high flow rate sampling device and methods for measuring fugitive gas emissions are provided. The high flow rate sampler comprises an air mover connected to a flexible hose for drawing in air near a process component, such as a pump, compressor seal, flange, or pipe thread connection. A second sample hose draws air from the opposing side of the process component at a flow rate low enough not to affect capture of the leak by the first sample hose. Air measured from the first sample hose will contain fugitive emissions from the process component being measured, as well as from other process components. Air measured from the second sample hose will contain only fugitive emissions from surrounding process components and can then be subtracted from the measurement from the first sample hose to obtain the leak rate from the process component in question.

Howard, Harry M. (Moscow, ID)

Gas Research Institute (Chicago, IL)

I claim

1. An apparatus for measuring gas leaking from a process component, the apparatus comprising

a first sample hose having a first end and a second end, the first end of the first sample hose being .Iadd.exposed to ambient air and .Iaddend.disposed adjacent to the process component, the second end of the first sample hose being connected to an air mover

the air mover for drawing air and leaking gas through the first sample hose by way of a vacuum, .Iadd.wherein the air mover is adjustable to effect a flow rate through the first sample hose in the range 50 to 2,000 liters of air per minute, .Iaddend.

a second sample hose having a first end and second end, the first end of the second sample hose being disposed adjacent to the process component but opposite the process component from the first end of the first sample hose, the second sample hose providing a conduit for background air

a gas analyzer connected to the second end of the first sample hose and the second end of the second sample hose, the gas analyzer for measuring the leaking gas being drawn through the first sample hose and the background air passing through the second sample hose.

2. The apparatus of claim 1

further comprising a means for providing a flow rate in the second sample hose which is lower than that in the first sample hose.

3. The apparatus of claim 2

further comprising an air flow measurement device connected in line with the air mover.

4. The apparatus of claim 2

wherein the air mover is pneumatic.

5. The apparatus of claim 2

wherein the first and second sample hoses contain an internal wire ribbing which can be grounded to prevent spark build-up. .[.

6. The apparatus of claim 2

wherein the air mover is adjustable to effect a flow rate through the first sample hose in the range 50 to 2,000 liters of air per minute..].

7. The apparatus of claim 2

wherein the means for providing a flow rate in the second sample hose allows for a flow rate through the second sample hose of less than 100 liters of air per minute.

8. The apparatus of claim 2

further comprising a three way valve which allows for alternating measurements of air flowing through the first sample hose and the second sample hose.

9. The apparatus of claim 8

further comprising a data acquisition system to allow for computer control, calculation and recording of leak rate data base on the leaking gas measured in the flow through the first sample hose and the background air measured in the flow through the second sample hose.

10. A process for measuring fugitive gas emissions from components, the process comprising the steps of

(a) creating a vacuum for drawing air into a first sample hose and a second sample hose;

(b) drawing air, from .Iadd.ambient air .Iaddend.near a component to be tested for fugitive emissions, into the first sample hose at a flow rate greater than 50 liters of air per minute; and

(c) drawing air, from near the component, into the second sample hose at a flow rate which is low enough not to affect capture of the emissions by the first sample hose.

11. The process of claim 10

further comprising the following step: (d) measuring the concentration of fugitive gas emissions in the air drawn into the first and second sample hoses.

12. The process of claim 11

wherein the step (b) of drawing air into the first sample hose is at a flow rate greater than 150 liters of air per minute.

13. The process of claim 11

wherein the step of measuring the concentration of fugitive gas emissions is performed using a volatile organic compound analyzer.

14. The process of claim 13

further comprising the following step: (e) controlling one or more of the steps by a computer, wherein the computer has software for recording and calculating the concentration of the emissions. .[.

15. An apparatus for measuring gas leaking from a process component, the apparatus comprising

a first sample line including a first end and a second end, the first end of the first sample line being disposed adjacent to the process component, the second end of the first sample line being connected to an air mover

the air mover for drawing air and leaking gas through the first sample line by way of a pressure drop

a second sample line having a first end and second end, the first end of the second sample line being disposed adjacent to the process component but opposite the process component from the first end of the first sample line, the second sample line providing a conduit for background air

an analyzer connected to the second end of the first sample line and the second end of the second sample line, the analyzer for measuring the leaking gas being drawn through the first sample line and the background air passing through the second sample line..]. .[.

16. A process for measuring fugitive gas emissions from components, the process comprising the steps of

(a) creating a pressure drop for drawing air into a first sample line and a second sample line;

(b) drawing air, from near a component to be tested for fugitive emissions, into the first sample line at a flow rate greater than 50 liters of air per minute; and

(c) drawing air, from near the component, into the second sample line at a flow rate which is low enough not to affect capture of the emissions by the first sample line..].

73/46

G01M 318

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