An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis

An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis

碩士 === 國立成功大學 === 資源工程學系 === 105 === This paper presents the results of laboratory tests using an innovative leak-detection system for a long-distance pipeline utilizing soil-gas techniques. Based on the laboratory observations, the theory of breakthrough time to determine the leaking location for...

Full description

Bibliographic Details
Main Authors: Jiun-WeiTsai, 蔡俊緯
Other Authors: Ming-Chin Kuo
Format: Others
Language:zh-TW
Published: 2017
Online Access:http://ndltd.ncl.edu.tw/handle/shjc8t
id ndltd-TW-105NCKU5397035
record_format oai_dc
spelling ndltd-TW-105NCKU53970352019-05-15T23:53:20Z http://ndltd.ncl.edu.tw/handle/shjc8t An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis 土壤氣體採樣方法改良研究應用於管線偵漏 Jiun-WeiTsai 蔡俊緯 碩士 國立成功大學 資源工程學系 105 This paper presents the results of laboratory tests using an innovative leak-detection system for a long-distance pipeline utilizing soil-gas techniques. Based on the laboratory observations, the theory of breakthrough time to determine the leaking location for toluene. Because the effective detection radius from the conventional soil-gas probes is only around 5 meters, applying the new detection system to a long-distance pipeline for leak detection minimizes the large number of soil-gas samples and analyses which are required when conventional soil-gas probes are employed. Ming-Chin Kuo 郭明錦 2017 學位論文 ; thesis 71 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立成功大學 === 資源工程學系 === 105 === This paper presents the results of laboratory tests using an innovative leak-detection system for a long-distance pipeline utilizing soil-gas techniques. Based on the laboratory observations, the theory of breakthrough time to determine the leaking location for toluene. Because the effective detection radius from the conventional soil-gas probes is only around 5 meters, applying the new detection system to a long-distance pipeline for leak detection minimizes the large number of soil-gas samples and analyses which are required when conventional soil-gas probes are employed.
author2 Ming-Chin Kuo
author_facet Ming-Chin Kuo
Jiun-WeiTsai
蔡俊緯
author Jiun-WeiTsai
蔡俊緯
spellingShingle Jiun-WeiTsai
蔡俊緯
An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis
author_sort Jiun-WeiTsai
title An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis
title_short An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis
title_full An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis
title_fullStr An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis
title_full_unstemmed An Improved Method of Soil Gas Sampling for Pipeline Leak Detection:Laboratory Test and Breakthrough Time Analysis
title_sort improved method of soil gas sampling for pipeline leak detection:laboratory test and breakthrough time analysis
publishDate 2017
url http://ndltd.ncl.edu.tw/handle/shjc8t
work_keys_str_mv AT jiunweitsai animprovedmethodofsoilgassamplingforpipelineleakdetectionlaboratorytestandbreakthroughtimeanalysis
AT càijùnwěi animprovedmethodofsoilgassamplingforpipelineleakdetectionlaboratorytestandbreakthroughtimeanalysis
AT jiunweitsai tǔrǎngqìtǐcǎiyàngfāngfǎgǎiliángyánjiūyīngyòngyúguǎnxiànzhēnlòu
AT càijùnwěi tǔrǎngqìtǐcǎiyàngfāngfǎgǎiliángyánjiūyīngyòngyúguǎnxiànzhēnlòu
AT jiunweitsai improvedmethodofsoilgassamplingforpipelineleakdetectionlaboratorytestandbreakthroughtimeanalysis
AT càijùnwěi improvedmethodofsoilgassamplingforpipelineleakdetectionlaboratorytestandbreakthroughtimeanalysis
_version_ 1719155377667309568

Similar Items