2003
DOI: 10.1007/s00216-003-1810-8
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Development and characterization of a mobile photoacoustic sensor for on-line soot emission monitoring in diesel exhaust gas

Abstract: Upcoming regulations for vehicle exhaust emission demand substantial reduction of particle emission in diesel exhaust. To achieve these emission levels, the car manufacturing industry is developing new combustion concepts and exhaust after-treatment techniques such as the use of catalysts and particle filters. Many of the state-of-the-art analytical instruments do not meet the required detection limits, in combination with a high temporal resolution necessary for engine optimization. This paper reports a new d… Show more

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Cited by 71 publications
(56 citation statements)
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“…To achieve a stable local microenvironment, the microelectrode array was integrated with an environmental chamber which allows temperature and flow control [44]. Briefly, the microarray sensing platform was encapsulated by a silicone chamber (1 mm61 mm61.5 mm) with a microfluidic channel (50 mm wide), to pump in the testing agent and pump out the test buffer once the sensing process has been completed.…”
Section: Environmental Control/measurement Systemmentioning
confidence: 99%
“…To achieve a stable local microenvironment, the microelectrode array was integrated with an environmental chamber which allows temperature and flow control [44]. Briefly, the microarray sensing platform was encapsulated by a silicone chamber (1 mm61 mm61.5 mm) with a microfluidic channel (50 mm wide), to pump in the testing agent and pump out the test buffer once the sensing process has been completed.…”
Section: Environmental Control/measurement Systemmentioning
confidence: 99%
“…(a) the resonance frequency change can be calculated from the measured temperature [8], (b) inside the cell, there is a speaker [9][10][11] which is used to determine the frequency response of the cell. The PA resonance frequency can be either directly measured or calculated from another mode since the ratio between modes is constant for the same cell [12], (c) the resonance frequency can be determined by estimating maximum amplitude based on the amplitude response obtained by:…”
Section: Introductionmentioning
confidence: 99%
“…The development of accurate measurement techniques for the study over purely optical systems, in that it is immune from any interference from background radiation, since the photoacoustic signal gives a direct measurement of the proportion of light absorbed [15]. Photoacoustic detection using acoustically resonant cells has been applied to quantify low concentrations of particulate matter in ambient air [16] and in vehicle exhaust emissions [17], but there have been few applications of photoacoustic detection to flames or combustion processes.…”
Section: Introductionmentioning
confidence: 99%