Tracer-gas leak testing: Difference between revisions
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{{short description|Nondestructive testing method for detecting gas leaks}} |
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{{Cleanup|date=November 2007}} |
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A '''tracer-gas leak testing''' method is a [[nondestructive testing]] method that detects [[gas leaks]]. A variety of methods with different sensitivities exist. Tracer-gas leak testing is used in the [[petrochemical industry]], the [[automotive industry]], the [[construction industry]]<ref>{{cite web | access-date=12 November 2023 | url=https://www.wizardleakdetection.com.au/wp-content/uploads/2023/11/Tracer-Gas-as-a-Method-for-Water-Leak-Detection-_-Damian-Batajtis-1.pdf | title=Tracer Gas as a Method for Water Leak Detection | last=Batajtis | first=Damian | url-status=live | website=Wizard Leak Detection | archive-url=https://web.archive.org/web/20231112095021/https://www.wizardleakdetection.com.au/wp-content/uploads/2023/11/Tracer-Gas-as-a-Method-for-Water-Leak-Detection-_-Damian-Batajtis-1.pdf | archive-date=12 November 2023}}</ref> and in the manufacture of [[semiconductors]], among other uses. |
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'''Tracer-gas leak testing method''' is a [[nondestructive testing]] method. |
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==Types== |
==Types== |
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* Refrigerant gas leak detection, for refrigeration applications |
* Refrigerant gas leak detection, for refrigeration applications |
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== |
== Method selection == |
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The nature of the product or the process and the process gases will set the leak rate requirement: |
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=== Typical leakage rates === |
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The nature of the product or the process and the process gases will set the leak rate requirement: |
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{| class="wikitable" |
{| class="wikitable" |
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!System |
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|+Typical leak rates |
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! |
!Allowed leak rate ([[mbar]] [[Litre|L]]/s) |
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|- |
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|-align="center" |
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|Chemical process equipment |
|Chemical process equipment |
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|10<sup>−1</sup>–1 |
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|-align="center" |
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|- |
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|Beverage can|| low 10<sup>−5</sup> to 10<sup>−6</sup> mbar l/s || Retention of CO<sub>2</sub> |
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|Beverage can |
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|-align="center" |
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| |
|10<sup>−5</sup> –10<sup>−6</sup> |
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|- |
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|-align="center" |
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|Vacuum pumped system |
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|IC-package|| 10<sup>−7</sup> to 10<sup>−8</sup> mbar l/s || Lifetime control |
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|10<sup>−5</sup>–10<sup>−7</sup> |
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|-align="center" |
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|- |
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|Airbag cartridge||10<sup>−8</sup> mbar l/s ||Lifetime control |
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|IC-package |
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|-align="center" |
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|10<sup>−7</sup>–10<sup>−8</sup> |
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|- |
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|-align="center" |
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|Airbag cartridge |
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|Closed vacuum system||10<sup>−9</sup> mbar l/s|| [[X-ray tube]] |
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|10<sup>−8</sup> |
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|-align="center" |
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|- |
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|Pacemaker |
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|10<sup>−9</sup> |
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|- |
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|Closed vacuum system |
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|10<sup>−9</sup> |
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|} |
|} |
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=== Sensitivity of methods === |
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Based on the target leak rate, the table below will help to choose the most suitable method. |
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Based on the target leak rate, the table below will help to choose the most suitable method.<ref>{{Cite news|url=http://www.vicleakdetection.com/global-engineers-of-airvacuumtracer-gas-leak-detection-systems/leak-detection-sensitivity-guide/|title=Leak Detection Sensitivity Guide - VIC Leak Detection|work=VIC Leak Detection|access-date=2017-06-15|language=en-US}}</ref> |
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{| class="wikitable" |
{| class="wikitable" |
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!Method |
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|+Leak test performances |
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!Sensitivity (leak rate in mbar l/s) |
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|- |
|- |
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|[[Gas detector#Ultrasonic|Ultrasonics]] |
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|mbar l/s||10<sup>2</sup>||10<sup>1</sup>||10<sup>0</sup>||10<sup>−1</sup>||10<sup>−2</sup>||10<sup>−3</sup>||10<sup>−4</sup>||10<sup>−5</sup>||10<sup>−6</sup>||10<sup>−7</sup>||10<sup>−8</sup>||10<sup>−9</sup>||10<sup>−10</sup>||10<sup>−11</sup>||10<sup>−12</sup> |
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|10<sup>−1</sup>|10<sup>−1</sup> |
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|-align="center" |
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|- |
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|Bubble test in water||----||----||----||----||> |
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|[[Leak#Testing|Bubble test]] in water |
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|-align="center" |
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|10<sup>−2</sup> |
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|Bubble test soapy water||----||----||----||----||----||----||> |
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|- |
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|-align="center" |
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|Pressure decay |
|Pressure decay |
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|10<sup>−2</sup> |
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|-align="center" |
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|- |
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|Acoustic (US)||----||----||----||----||----||> |
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|Vacuum decay |
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|-align="center" |
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|10<sup>−2</sup> |
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|Vacuum decay||----||----||----||----||----||> |
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|- |
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|-align="center" |
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|[[Leak detection#Acoustic emission detectors|Acoustic emission detectors]] |
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|Corona tester||----||----||----||----||----||> |
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|10<sup>−3</sup> |
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|-align="center" |
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|- |
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|Thermal conductivity||----||----||----||----||----||----||----||> |
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|Bubble test in soapy water |
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|-align="center" |
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|10<sup>−4</sup> |
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|Halogen sniffer*||----||----||----||----||----||----||----||> |
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|- |
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|-align="center" |
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|Gas-specific [[thermal conductivity]] detector |
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|Hydrogen sniffer||----||----||----||----||----||----||----||----||-> |
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|10<sup>−5</sup> |
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|-align="center" |
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|- |
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|Helium sniffer||----||----||----||----||----||----||----||----||-> |
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|Halogen detector |
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|-align="center" |
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|10<sup>−5</sup> |
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|Halogen detector*||----||----||----||----||----||----||----||----||> |
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|- |
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|-align="center" |
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|[[Photoacoustic spectroscopy]] |
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|Dye penetrant||----||----||----||----||----||----||----||----||----||----||>> |
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|10<sup>−6</sup> |
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|-align="center" |
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|- |
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|Radio-isotope||----||----||----||----||----||----||----||----||----||----||----||----||>>>> |
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|Hydrogen sniffer |
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|-align="center" |
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|10<sup>−6</sup> |
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|Mass spectrometer||----||----||----||----||----||----||----||----||----||----||----||----||----||----|>>>>>> |
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|- |
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|-align="center" |
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|[[Residual gas analyser]] |
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|10<sup>−7</sup> |
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|- |
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|[[Dye penetrant inspection|Dye penetrant]] |
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|10<sup>−8</sup> |
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|- |
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|[[Radioactive tracer]] |
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|10<sup>−10</sup> |
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|- |
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|Helium [[mass spectrometry]] vacuum testing |
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|10<sup>−11</sup> |
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|} |
|} |
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== Applications == |
== Applications == |
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Typical applications of tracer |
Typical applications of tracer-gas leak testing include: |
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* In [[Petrochemical plant|petrochemical plants]], [[Cracking (chemistry)|hydrocracking]], vapocracking, [[catalytic reforming]], and [[steam reforming]] are all [[hydrogen]]-based processes, in which were hydrogen leak testing is required. |
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* Chemical plant <ref>[http://www.environmental-expert.com/resultEachArticle.aspx?cid=7698&codi=1185&level=1&idproducttype=6] Federal Equipment Leak Regulations for the Chemical Manufacturing Industry</ref> |
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* When manufacturing [[Semiconductor|semiconductors]], all processes taking place in a process chamber at atmospheric pressure or under vacuum – diffusion, oxidation, [[LPCVD]], [[PECVD]], [[Physical vapor deposition|PVD]] and [[ion implantation]] – require helium or hydrogen leak testing. |
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* Petrochemical plant: [[hydrocracker]],<ref>[http://shippai.jst.go.jp/en/Detail?fn=0&id=CC1300006&kw=Education] Case of a Cracker accident in Japan</ref> vapocracker, [[catalytic reforming]], [[steam reforming]] are all [[Hydrogen]] based processes were Hydrogen leak testing will be very appropriate, |
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* In vehicles, [[airbag|airbags]] have to be tested for leaks so they remain functional for a long time. As well as airbags, the [[Automobile air conditioning|air conditioning]] system, fuel system, and exhaust system require testing for leaks. |
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* Semiconductor industry; all processes taking place in a process chamber at atmospheric pressure or under vacuum; Diffusion, Oxidation, [[LPCVD]],<ref>[http://www.patentstorm.us/patents/5498578-description.html] See paragraph "Description of the drawings"</ref> [[PECVD]], [[Physical vapor deposition|PVD]], Etch, [[Ion implantation|Ion Implant]], typically the later that implies vacuum will require Helium leak testing, while the other will make good use of Hydrogen leak testing, |
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* [[Pacemakers]] and [[Catheter|catheters]] have to be tested for efficacy and longevity. |
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* Automotive: with [[airbag]] <ref>[http://www.freepatentsonline.com/20040159144.html] Helium Leak Testing</ref> being the most demanding leak testing application (small gas tank, very high pressure, long shelf life) and air conditioning system (for best efficiency), fuel system (for low emission), exhaust system (for lowest pollution), engine and transmission (for no oil dripage), rims to keep tyre safe, |
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* On planes, tracer-gas leak testing is used to quickly and safely locate fuel leaks,<ref>{{Cite news|url=https://www.theguardian.com/afghanistan/story/0,,2209288,00.html|title=MoD accused over spy plane deaths|last=Townsend|first=Mark|date=2007-11-11|work=The Guardian|access-date=2017-06-15|last2=correspondent|first2=defence|language=en-GB|issn=0261-3077}}</ref> as well as to check [[Emergency oxygen system|oxygen distribution]] devices and [[cabin pressurization]] systems. |
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* Medical: to ensure safe and long life implant ([[pacemaker]]) <ref>[http://www.devicelink.com/mddi/archive/05/10/008.html] Leak testing for medical equipment |
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* Refrigeration and air conditioning must have the lowest possible rate of loss of [[refrigerant]] gases (contributing to [[ozone depletion]]). |
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</ref> or a safe [[catheter]] |
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* Sewage and drinking water networks, to reduce loss of water and make sure drinking water is not contaminated by sewage. |
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* Airplane: to quickly and safely locate fuel leaks,<ref>[https://www.theguardian.com/afghanistan/story/0,,2209288,00.html] Leaky spy plane crash</ref> to check oxygen distribution devices and [[cabin pressurization]] systems |
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* Refrigeration and air conditioning systems-residential, commercial or industrial- in order to deliver best efficiency at the lowest loss rate of [[refrigerant]] gases ([[ozone depletion]])<ref>[http://www.epa.gov/ozone/title6/608/leak.html] Leak Repair</ref> |
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* Power distribution for [[Circuit breaker#High-voltage_circuit_breakers|high voltage circuit breaker]] using SF<sub>6</sub> as a dielectric <ref>[http://www.epa.gov/highgwp/electricpower-sf6/pdf/dec04/Thesen2.pdf] New SF<sub>6</sub> Breaker Leak Study</ref> |
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* Drinking water distribution grid <ref>[http://www.umasssoils.com/abstracts2005/Thursday/analysis.htm#Field%20Validation%20of%20Helium%20as%20a%20Tracer%20Gas%20During%20Soil%20Vapor%20Sample%20Collection] Helium as a tracer gas</ref> as today average leakage rate or [[Water supply and sanitation in the United Kingdom#Efficiency_.28Water_losses.29|efficiency]] is above 25%, wasting precious resources, water and power. |
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* Sewage water collecting network as leaks can contaminate drinking water collection process; |
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Another element of consideration is the dimension of the part to be tested as well as to take into consideration the law of physics, specially the rules that govern the flow of gas at different pressure. |
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<<stub>> |
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==Standards== |
==Standards== |
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{{See also|Leak detection#Rules and regulations}} |
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Several standards apply to leak testing and more specifically to tracer-gas leak testing methods, for example |
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Several standards apply to leak testing and more specifically to tracer-gas leak testing methods, for example: |
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* BS EN 1779:1999; leak tightness by indication or measurement of gas leakage, |
* BS EN 1779:1999; leak tightness by indication or measurement of gas leakage, |
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* BS EN 13185:2001 Non-destructive testing. Leak testing. Tracer gas method, |
* BS EN 13185:2001 Non-destructive testing. Leak testing. Tracer gas method, |
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==References== |
==References== |
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{{Citation style|date=September 2009}} |
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{{Reflist}} |
{{Reflist}} |
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Latest revision as of 09:51, 12 November 2023
A tracer-gas leak testing method is a nondestructive testing method that detects gas leaks. A variety of methods with different sensitivities exist. Tracer-gas leak testing is used in the petrochemical industry, the automotive industry, the construction industry[1] and in the manufacture of semiconductors, among other uses.
Types
[edit]Several tracer-gas leak testing methods exist, including:
- Detection of leaks using helium mass spectrometer, which provides high sensitivity
- Hydrogen leak testing, which provides the best mobility
- Refrigerant gas leak detection, for refrigeration applications
Method selection
[edit]Typical leakage rates
[edit]The nature of the product or the process and the process gases will set the leak rate requirement:
| System | Allowed leak rate (mbar L/s) |
|---|---|
| Chemical process equipment | 10−1–1 |
| Beverage can | 10−5 –10−6 |
| Vacuum pumped system | 10−5–10−7 |
| IC-package | 10−7–10−8 |
| Airbag cartridge | 10−8 |
| Pacemaker | 10−9 |
| Closed vacuum system | 10−9 |
Sensitivity of methods
[edit]Based on the target leak rate, the table below will help to choose the most suitable method.[2]
| Method | Sensitivity (leak rate in mbar l/s) |
|---|---|
| Ultrasonics | 10−1 |
| Bubble test in water | 10−2 |
| Pressure decay | 10−2 |
| Vacuum decay | 10−2 |
| Acoustic emission detectors | 10−3 |
| Bubble test in soapy water | 10−4 |
| Gas-specific thermal conductivity detector | 10−5 |
| Halogen detector | 10−5 |
| Photoacoustic spectroscopy | 10−6 |
| Hydrogen sniffer | 10−6 |
| Residual gas analyser | 10−7 |
| Dye penetrant | 10−8 |
| Radioactive tracer | 10−10 |
| Helium mass spectrometry vacuum testing | 10−11 |
Applications
[edit]Typical applications of tracer-gas leak testing include:
- In petrochemical plants, hydrocracking, vapocracking, catalytic reforming, and steam reforming are all hydrogen-based processes, in which were hydrogen leak testing is required.
- When manufacturing semiconductors, all processes taking place in a process chamber at atmospheric pressure or under vacuum – diffusion, oxidation, LPCVD, PECVD, PVD and ion implantation – require helium or hydrogen leak testing.
- In vehicles, airbags have to be tested for leaks so they remain functional for a long time. As well as airbags, the air conditioning system, fuel system, and exhaust system require testing for leaks.
- Pacemakers and catheters have to be tested for efficacy and longevity.
- On planes, tracer-gas leak testing is used to quickly and safely locate fuel leaks,[3] as well as to check oxygen distribution devices and cabin pressurization systems.
- Refrigeration and air conditioning must have the lowest possible rate of loss of refrigerant gases (contributing to ozone depletion).
- Sewage and drinking water networks, to reduce loss of water and make sure drinking water is not contaminated by sewage.
Standards
[edit]Several standards apply to leak testing and more specifically to tracer-gas leak testing methods, for example:
- BS EN 1779:1999; leak tightness by indication or measurement of gas leakage,
- BS EN 13185:2001 Non-destructive testing. Leak testing. Tracer gas method,
- BS EN 13192:2002 Non-destructive testing. Leak testing. Calibration of reference leaks for gases.
References
[edit]- ^ Batajtis, Damian. "Tracer Gas as a Method for Water Leak Detection" (PDF). Wizard Leak Detection. Archived (PDF) from the original on 12 November 2023. Retrieved 12 November 2023.
- ^ "Leak Detection Sensitivity Guide - VIC Leak Detection". VIC Leak Detection. Retrieved 2017-06-15.
- ^ Townsend, Mark; correspondent, defence (2007-11-11). "MoD accused over spy plane deaths". The Guardian. ISSN 0261-3077. Retrieved 2017-06-15.
{{cite news}}:|last2=has generic name (help)