Development of a pore gas pressure transducer used in unsaturated soils at high water content

Pore gas pressure in soil is an important parameter in many geoscience applications such as evaluating the effects of trapped pore gas pressure on water infiltration through soil mass, optimizing the design of gas extraction wells in landfills and assessing the performance of landfill covers in redu...

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Bibliographic Details
Published in:E3S web of conferences 2019-01, Vol.92, p.2003
Main Authors: Chen, Rui, Chen, Zhongkui, Ng, Charles Wang Wai, Liu, Jian
Format: Article
Language:English
Subjects:
Compacted soils
Control systems
Design optimization
Electrons
Emission analysis
Emissions control
Gas pressure
Infiltration
Landfill
Landfill gas
Landfills
Leaching
Measuring techniques
Moisture content
Pressure
Pressure measurement
Pressure sensors
Pressure transducers
Slope stability
Soil compaction
Soil stability
Soil water
Stability analysis
Unsaturated soils
Waste disposal sites
Water content
Water infiltration
Water purification
Water wells
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Summary:Pore gas pressure in soil is an important parameter in many geoscience applications such as evaluating the effects of trapped pore gas pressure on water infiltration through soil mass, optimizing the design of gas extraction wells in landfills and assessing the performance of landfill covers in reducing landfill gas emission. In addition, it has been observed that pore gas pressure affects slope stability in unsaturated soils. However, the pore gas pressure build-up induced by water infiltration is generally ignored in most slope stability analysis by assuming gas pressure to be zero. Therefore, pore gas pressure measurement in soils is crucial to better understand the unsaturated soil behaviour. However, most of current measuring techniques of pore gas pressure are affected by water interruption during the measurement in unsaturated soils, especially at high water content. In this study, a novel gas pressure transducer was developed to measure the pore gas pressure in unsaturated soil within a wide range of water content. The newly developed pore gas pressure transducer mainly consists of an electrical pressure sensor package and an integrated membrane filter which can prevent water leaching through the membrane but allow gas to pass it freely. The performance of the gas pressure transducer was evaluated by a series of permeation tests. The results show that the developed gas pressure transducer has a good repeatability to monitor gas pressure and has a relatively fast response to the gas pressure change in compacted soils. This transducer is able to measure pore gas pressure range of 0~50 kPa of soils within a relatively high range of soil water content.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/20199202003