SiC–FET based SO2 sensor for power plant emission applications

Darmastuti, Zhafira; Bur, Christian; Möller, Peter; Rahlin, R.; Lindqvist, N.; Andersson, Mike; Schütze, Andreas; Spetz, Anita Lloyd

doi:10.1016/j.snb.2013.11.089

Cited by 20 publications

(12 citation statements)

References 27 publications

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“…Coal contains a significant level of sulfur species, and with the increased burning of this fossil fuel for energy by developing countries, the release of sulfur species into the atmosphere is expected to increase dramatically over the next decade [2,3] Coal-fired power plants are the main emitter of sulfur in the form of SO 2 (and hydrogen sulfide, H 2 S) [4,5] Modern desulphurization methods can eliminate 98% of the SO 2 from the emission gases by applying multiple levels of filtering, where the prime is through passing the exhaust gas through lime. However, SO 2 emission control has become a significant challenge for scientists and engineers [6] With this in mind, it is very important to develop and deploy sulfur sensor systems to monitor and quantify the level of SO 2 /H 2 S from these energy and industrial systems. The key factor is to develop sensors that are capable of withstanding harsh environmental conditions that exist in coal processing, which would enable the sensors to be placed at any location within the exhaust stream.…”

Section: Introductionmentioning

confidence: 99%

Molybdenum and tungsten oxide based gas sensors for high temperature detection of environmentally hazardous sulfur species

Çiftyürek

Sabolsky

2016

Sensors and Actuators B: Chemical

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a b s t r a c tThere is an increasing desire to control and monitor gas emissions from coal-fired power plants and other industrial systems. With this desire, there is a growing need for distributed gas sensors to monitor these emissions at high temperature ( > 600 • C), especially for pollutants such as SO 2 and H 2 S. The objective of this work was to investigate molybdenum and tungsten binary and ternary oxide thick films on a chemiresistive sensor platform for monitoring of gas sulfur species. The work evaluated the SO 2 sensitivity of WO 3 , MoO 3 , SrMoO 4 , NiMoO 4 , Sr 2 MgMoO 6-␦ (SMM), Sr 2 MgWO 6-␦ (SMW), NiWO 4 , and SrWO 4 compositions at 600-1000 • C. The SrMoO 4 composition at both the micro-and nano-particulate scale showed the most promise in sensitivity, stability and selectivity to SO 2 up to 1000 • C. Hydrothermallysynthesized nano-SrMoO 4 showed the highest sensor response with the R max values of −17.2, −50.2 and −40.5 upon exposure to a 20 min pulse of 2000 ppm of SO 2 at 600 • C, 800 • C and 1000 • C, respectively. Similar sensitivity trends were distinguished down to 1-5 min SO 2 pulses. The nano-SrMoO 4 showed low cross-selectivity to H 2 and CO. Finally, the nano-SrMoO 4 sensor was also tested with H 2 and coal syngas containing 5-100 ppm H 2 S, where high sensitivities were realized for both, but the sensing mechanism was altered in the latter (n-type to p-type semiconducting behavior). In order to better understand the sensing mechanism, extensive microstructural, electronic and chemical property characterizations were completed in this work.

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Section: Introductionmentioning

confidence: 99%

Molybdenum and tungsten oxide based gas sensors for high temperature detection of environmentally hazardous sulfur species

Çiftyürek

Sabolsky

2016

Sensors and Actuators B: Chemical

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“…To prevent ammonia slip in this application, selective detection in the harsh environment of the exhaust stream is necessary for a closed-loop control, which can be achieved with SiC-FETs [31], [88]. They have also been used in power plants to measure the amount of sulfur dioxide (SO 2 ) [89]. Emission control is closely related to air quality (section 1.…”

Section: Process Controlmentioning

confidence: 99%

Improving the Performance of Gas Sensor Systems with Advanced Data Evaluation, Operation, and Calibration Methods

Bastuck

2019

Linköping Studies in Science and Technology. Dissertations

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In order to facilitate the widespread use of gas sensors, some challenges must still be overcome. Many of those are related to the reliable quantification of ultra-low concentrations of specific compounds in a background of other gases. This thesis focuses on three important items in the measurement chain: sensor material and operating modes, evaluation of the resulting data, and test gas generation for efficient sensor calibration. New operating modes and materials for gas-sensitive field-effect transistors have been investigated. Tungsten trioxide as gate oxide can improve the selectivity to hazardous volatile organic compounds like naphthalene even in a strong and variable ethanol background. The influence of gate bias and ultraviolet light has been studied with respect to the transport of oxygen anions on the sensor surface and was used to improve classification and quantification of different gases. DAV 3 E, an internationally recognized MATLAB-based toolbox for the evaluation of cyclic sensor data, has been developed and published as opensource. It provides a user-friendly graphical interface and specially tailored algorithms from multivariate statistics. The laboratory tests conducted during this project have been extended with an interlaboratory study and a field test, both yielding valuable insights for future, more complex sensor calibration. A novel, efficient calibration approach has been proposed and evaluated with ten different gas sensor systems. i styrning och data-utvärdering som tagits fram har både en jämförande undersökning av modellernas/metodernas prestanda av två oberoende laboratorier och fält-mätningar i en av de tilltänkta tillämpningarna genomförts. Bl.a. baserat på resultaten och insikterna från dessa övningar har ett helt nytt angreppssätt avseende robust och effektiv kalibrering och kvalitets-utvärdering av sensor-system utvecklats och utvärderats för tio olika sensor-system. v Preface This dissertation is the result of my binational doctorate supervised by Prof.

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“…16 Recently, SiC-FET sensors have been investigated for the detection of sulfur dioxide in desulfurization systems. 17,18 To mechanistically clarify how sulfur dioxide poisons and promotes catalytic functions or impacts the response of a sensor device by interactions with the surface of the sensor, vibrational spectroscopic measurement of SO 2 adsorption under reaction conditions is one of the stronger methods available. Although widely used for in situ studies of a variety a) Present address: Johnson Matthey Technology Centre, Blount's Court, Sonning Common, Reading RG4 9NH, UK.…”

Section: Introductionmentioning

confidence: 99%

SO2 adsorption on silica supported iridium

Bounechada

Anderson

Skoglundh

et al. 2017

The Journal of Chemical Physics

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The interaction of SO with Ir/SiO was studied by simultaneous in situ diffuse reflectance infrared Fourier transform spectroscopy and mass spectrometry, exposing the sample to different SO concentrations ranging from 10 to 50 ppm in the temperature interval 200-400 °C. Evidences of adsorption of sulfur species in both absence and presence of oxygen are found. For a pre-reduced sample in the absence of oxygen, SO disproportionates such that the iridium surface is rapidly saturated with adsorbed S while minor amounts of formed SO may adsorb on SiO. Adding oxygen to the feed leads to the oxidation of sulfide species that either (i) desorb as SO and/or SO, (ii) remain at metal sites in the form of adsorbed SO, or (iii) spillover to the oxide support and form sulfates (SO). Notably, significant formation of sulfates on silica is possible only in the presence of both SO and O, suggesting that SO oxidation to SO is a necessary first step in the mechanism of formation of sulfates on silica. During the formation of sulfates, a concomitant removal/rearrangement of surface silanol groups is observed. Finally, the interaction of SO with Ir/SiO depends primarily on the temperature and type of gas components but only to a minor extent on the inlet SO concentration.

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SiC–FET based SO2 sensor for power plant emission applications

Cited by 20 publications

References 27 publications

Molybdenum and tungsten oxide based gas sensors for high temperature detection of environmentally hazardous sulfur species

Molybdenum and tungsten oxide based gas sensors for high temperature detection of environmentally hazardous sulfur species

Improving the Performance of Gas Sensor Systems with Advanced Data Evaluation, Operation, and Calibration Methods

SO2 adsorption on silica supported iridium

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