1 introduction, 1 general description and use, Introduction – Heath Consultants Hi Flow Sampler User Manual

Introduction

Hi Flow



Sampler

Instruction 0055-9017

5

1 Introduction

1.1

General Description and Use

WARNING:

The High Flow



Sampler is not to be used in any application that is beyond

its intended purpose or beyond the scope of its specifications. Failure to follow this

warning can result in personal injury or damage to the equipment. For details on

appropriate use, refer to the general description, application, and operation discussions

in this manual.

The Hi Flow



Sampler is a portable, intrinsically safe, battery-powered instrument

designed to determine the rate of gas leakage around various pipe fittings, valve

packings, and compressor seals found in natural gas transmission, storage, processing,

gas gathering, production, offshore, and distribution facilities.

A component’s leak rate is measured by sampling at a high flow rate so as to capture all

the gas leaking from the component along with a certain amount of surrounding air. By

accurately measuring the flow rate of the sampling stream and the natural gas

concentration within that stream, the gas leak rate can be calculated using Equation 1.

The instrument automatically compensates for the different specific gravity values of air

and natural gas, thus assuring accurate flow rate calculations.

Leak = Flow x (Gas

sample

– Gas

background

) x 10

–2

Eq. 1

where:

Leak = rate of gas leakage from source (cfm)

Flow = sample flow rate (cfm)

Gas

sample

= concentration of gas from leak source (%)

Gas

background

= background gas concentration (%)

To ensure that the instrument is capturing all the gas that is escaping from the

component, two measurements are performed at two different flow rates. The first

measurement is taken at the highest possible flow rate, followed by a second

measurement at a flow rate that is approximately 70–80% of the first. If the two

calculated leak rates are within 10% of each other, then it can be assumed that all gas

has been captured during the test.

For those mathematicians who are wondering how both calculations can be the same

with different flow rates, note that the measured CH

4

level at the lower flow rate will be

higher due to less air being drawn in with the sample, thus balancing out the lower flow

rate.

The instrument is packaged inside a backpack, thus leaving the operator’s hands free for

climbing ladders or descending into a confined space.

The instrument is controlled by a handheld Control Unit consisting of an LCD and a 4-key

touch pad, which is attached to the main unit via a 6 foot coiled cord. The Control Unit

comes with two magnets which can be easily attached to a steel pipe, regulator box or

compressor for easy viewing. Alternately, the Control Unit can be used in conjunction

with the neck strap accessory.

The gas sample is drawn into the unit through a flexible 1.5 inch I.D. hose. Various

attachments connected to the end of the sampling hose provide the means of capturing

all the gas that is leaking from the component under test.