2Wolfrum E J, Meglen lk M, Peterson D, et al. Metal oxide sensor arrays for the detection, differentiation, and quantification of volatile organic compounds at sub-parts-per-million concentration levels[J]. Sensors and Actuators B: Chemical, 2006, 115(1):322-329.
5Hudson N, Ayoko G A, Dunlop M, et al. Comparison of odor emission rates measured from various sources using two sampling devices [ J ~. Bioresource Technology,2009,100 ( 1 ) : 118-124.
6Hoffmann J, Gryglewicz G, Hoffmann K, et al. Emission of the odor substances from fertilizer industry [ J ]. Polish Journal of Chemical Technology ,2009,11( 1 ) : 12-15.
7Franke W,Freehen F B,Giebel S. H2S, VOC, TOC, electronic noses and odor concentration: use and comparison of different parameters for emission measurement on air treatment systems [ J ]. Water Science and Technology ,2009,59 ( 9 ) : 1721 - 1726.
8Huyberechts G, Szec6wka P, Roggen J, et al. Simultaneousquantification of carbon monoxide and methane in humid air using a sensor array and an artificial neural network [ J 1. Sensors and Actuators, 1997,45 (2) : 123-130.
9Llobet E, Brezmes J, Vilanova X, et al. Qualitative and quantitative analysis of volatile organic compounds using transient and steady-state responses of a thick-film tin oxide gas sensor array[ J]. Sensors and Actuators, 1997,41 ( 1-3 ) : 13-21.
10Bastos A C, Magan N. Soil volatile fingerprints: use for discrimination between soil types under different environmental conditions [ J ]. Sensors and Actuators,2007,125 ( 2 ) : 556- 562.