2009
DOI: 10.3390/s90200756
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Membrane Based Measurement Technology for in situ Monitoring of Gases in Soil

Abstract: The representative measurement of gas concentration and fluxes in heterogeneous soils is one of the current challenges when analyzing the interactions of biogeochemical processes in soils and global change. Furthermore, recent research projects on CO2-sequestration have an urgent need of CO2-monitoring networks. Therefore, a measurement method based on selective permeation of gases through tubular membranes has been developed. Combining the specific permeation rates of gas components for a membrane and Dalton'… Show more

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Cited by 26 publications
(25 citation statements)
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“…The linearity between Δχxa and a1I in Equation (3) has already been experimentally demonstrated for mixing oxygen and nitrogen within a large mole fraction range of χO2a=0.011 [28] and for CO 2 mixed with air for a range χCO2a 1 [30] for laboratory conditions. Within these linearity ranges, such a membrane-based sensor can be calibrated by a gas-specific linear characteristic.…”
Section: Resultsmentioning
confidence: 92%
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“…The linearity between Δχxa and a1I in Equation (3) has already been experimentally demonstrated for mixing oxygen and nitrogen within a large mole fraction range of χO2a=0.011 [28] and for CO 2 mixed with air for a range χCO2a 1 [30] for laboratory conditions. Within these linearity ranges, such a membrane-based sensor can be calibrated by a gas-specific linear characteristic.…”
Section: Resultsmentioning
confidence: 92%
“…Within these linearity ranges, such a membrane-based sensor can be calibrated by a gas-specific linear characteristic. To that end, the responses a1I have to be compared with reference gases of known composition [27,28,31,32]. …”
Section: Resultsmentioning
confidence: 99%
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“…For short times, Equation (7) yields the following linearized term: a1(I)=dpdt|t+t0=gPsjfj,sfalse(p0jpLjfalse)where the pressure change, dp / dt , within the measurement chamber relates for the case (I) to the partial pressure differences between the faces of the membrane. This relation was successfully used to both simultaneously estimate O 2 and N 2 concentrations using two measurement chambers covered with membranes of differing selectivities [2] and analyze a single gas, such as O 2 or CO 2 , mixed in air [4] using only a single membrane-based gas sensor (one cell). The notation “ a 1 ” originates from the measurement procedure based on approximating the recorded pressure evolution using a polynomial, p = a 0 + a 1 ( t – t 0 ) + a 2 ( t – t 0 ) 2 + … Disregarding the higher-order terms for short times, t – t 0 , and differentiating yields dp / dt = a 1 .…”
Section: Transient Sensor Theorymentioning
confidence: 99%