E-nos (elektroniczny nos)

• Autorzy: Krzyżewska I. , Kozarska A.
• Języki publikacji: PL

Słowa kluczowe

PL

sensor gazu; identyfikacja lotnych związków chemicznych; zanieczyszczenie powietrza; e-nos; nos elektroniczny

EN

gas sensor; identification of volatile chemical compounds; air pollution; e-nose; electronic nose

• Wydawca: Roble Sp. z o.o.
• Czasopismo: LAB Laboratoria, Aparatura, Badania
• Rocznik: 2016
• Tom: R. 21, nr 3
• Strony: 20--28
• Opis fizyczny: Bibliogr. 24 poz.

Twórcy

autor

Krzyżewska I.

autor

Kozarska A.

Bibliografia

• [1] Wei Z., Wang J., Zhang W. Detecting internal quality of peanuts during storage using electronic nose responses combined with physicochemical methods. Food Chemistry 177 (2015) 89–96.
• [2] Loutfi A., Coradeschi S., Mani G.K., Shankar P., Rayappan J.S.B. Electronic noses for food quality: A review. Journal of Food Engineering 144 (2015) 103–111.
• [3] http://zasoby1.open.agh. edu.pl/dydaktyka/automatyka/ c_sensory_gazu/pdf/r6.pdf (dostępny na dzień 10.05.2016r.).
• [4] Chen Q., Liu A., Zhao J., Ouyang Q. Classification of tea category using a portable electronic nose based on an odor imaging sensor array. Journal of Pharmaceutical and Biomedical Analysis 84 (2013) 77– 83.
• [5] Nozza E., Capelli L., Eusebio L., Derudi M., Nano G., Del Rosso R., Sironi S. The role of bioethanol flueless fireplaces on indoor air quality: Focus on odour emissions. Building and Environment 98 (2016) 98-106.
• [6] Zhuang L., Guo T., Cao D., Ling L., Su K., Hu N., Wang P. Detection and classification of natural odors with an in vivo bioelectronic nose. Biosensors and Bioelectronics 67 (2015) 694–699.
• [7] Deshmukh S., Jana A., Bhattacharyya N., Bandyopadhyay R., Pandey R.A. Quantitative determination of pulp and paper industry emissions and associated odor intensity in methyl mercaptan equivalent using electronic nose. Atmospheric Environment 82 (2014) 401-409.
• [8] Chan H.P., Lewis C., Thomas P.S. Exhaled breath analysis: Novel approach for early detection of lung cancer. Lung Cancer 63 (2009) 164–168.
• [9] Deshmukh S., Bandyopadhyay R., Bhattacharyya N., Pandey R.A., Jana A. Application of electronic nose for industrial odors and gaseous emissions measurement and monitoring – An overview. Talanta, 144 (2015) 329-340.
• [10] Gebicki J. Application of electrochemical sensors and sensor matrixes for measurement of odorous chemical compounds. Trens in Analytical Chemistry 77 (2016) 1-13.
• [11] Deshmukh S., Jana A., Bhattacharyya N., Bandyopadhyay R., Pandey R.A. Quantitative determination of pulp and paper industry emissions and associated odor intensity in methyl mercaptan equivalent using electronic nose. Atmospheric Environment 82 (2014) 401-409.
• [12] Sohn J.H., Smith R., Yoong E., Leis J., Galvin G. Quantification of odours from piggery effluent ponds using electronic nose and an artificial neural network. Biosystems Engineering 86 (4) (2003) 399-410.
• [13] Sobański T., Szczurek A., Nitsch K., Licznerski B.W., Radwan W. Electronic nose applied to automotive fuel qualification. Sensors and Actuators B 116(2006) 207-212.
• [14] Sarkar S.T., Bhondekar A.P., Macas M., Kumar R., Kaur R., Sharma A., Gulati A., Kumar A. Towards biological plausibility of electronic noses: A spiking neural network based approach for tea odour classification. Neural Networks 71 (2015) 142–149.
• [15] Lopez de Lerma N., Bellincontro A., Mencarelli F., Moreno J., Peinado R.A. Use of electronic nose, validated by GC–MS, to establish the optimum off- -vine dehydration time of wine grapes. Food Chemistry 130 (2012) 447–452.
• [16] Dewettinck T., Hege VAN K., Verstraete W. The electronic nose as a rapid sensor for volatile compounds in treated domestic wastewater. Wat. Res. 35 (100) (2001) 2475-2483.
• [17] Lamagna A., Reich S., Rodríguez D., Boselli A., Cicerone D. The use of an electronic nose to characterize emissions from a highly polluted river. Sensors and Actuators B 131 (2008) 121-124. 18] López R., Cabeza I.O., Giráldez I., Díaz M.J.Biofiltration of composting gases using different municipal solid waste- pruning residue composts: Monitoring by using an electronic nose. Bioresource Technology 102 (2011) 7984- 7993.
• [19] Canhoto O., Magan N. Electronic nose technology for the detection of microbial and chemical contamination of potable water. Sensors and Actuators B 106 (2005) 3-6.
• [20] Dragonieri S., Annema J.T., Schot R., Van der Schee M.P.C., Spanevello A., Carratú P., Resta O., Rabe K.F., Sterk P.J. An electronic nose in the discrimination of patients with non-small cell lung cancer and COPD. Lung Cancer 64 (2009) 166–170.
• [21] Cho S.M., Kim Y.J., Heo G.S., Shin S-M. Two-step preconcentration for analysis of exhaled gas of human breath with electronic nose. Sensors and Actuators B 117 (2006) 50–57.
• [22] Adiguzel Y., Kulah H. Breath sensors for lung cancer diagnosis. Biosensors and Bioelectronics 65 (2015) 121–138.
• [23] Buszewski B., Rudnicka J., Ligor T., Walczak M., Jezierski T., Amann A. Analytical and unconventional methods of cancer detection using odor. Trends in Analytical Chemistry, Vol. 38, 2012.
• [24] Schnabel A.M., Boumans M.L.L., Smolinska A., Stobberingh E.E., Kaufmann R., Roekaerts P.M.H.J., Bergmans D.C.J.J. Electronic nose analysis of exhaled breath to diagnose ventilator-associated pneumonia. Respiratory Medicine 109 (2015) 1454-1459.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.