| [1] | Hiroshi F. Environmental odor management in Japan [J]. VDI Berichte, 2004, 1850:71-76 |
| [2] | David F. UK air pollution legislationA global comparison[J]. Chemical Engineer, 2004, 760:42-43 |
| [3] | 曾向东,申开莲.炼油厂恶臭污染调查的原则和方法[J].炼油设计,1998,29(1):49-52 |
| [4] | 恶臭污染物排放标准 GB 14554—93 [S].国家环境保护局科技标准司,1993, 中国,北京 |
| [5] | EN13725:Air quality-Determination of odour concentration by dynamic olfactometry [S].2003:1-15 |
| [6] | 赵东风,罗叶新,张庆冬,等.嗅觉仪测定恶臭污染有效性研究[J].实验室研究与探索,2007,26(11):26-29 |
| [7] | Wheeler E F, Topper P A, Graves R E, et al. Odor-reduction performance of constructed wetland treating diluted swine manure [J]. App Eng Agri, 2007, 23(5): 621-630 |
| [8] | Suffet I H, The anatomy of odor wheels for odors of drinking water, wastewater, compost and the urban environment [J]. Water Sci Technol, 2007, 55(5):335-338 |
| [9] | Gabriel S A, Vilalai S, Peot C, et al. Statistical modeling to forecast odor levels of biosolids applied to reuse sites [J]. J Environ Eng-Asce, 2006, 132(5):479-488 |
| [10] | Mahlke I T, Thiesen P H, Niemeyer B. Chemical indices and methods of multivariate statistics as a tool for odor classification [J]. Environ Sci Technol,2007,41(7):2414-2421 |
| [11] | Izumi R, Abe H, Hayashi K, et al. Odor quantification of aromatic alcohols using artificial olfactory epithelium [J]. Sensor Mater, 2007, 19(5):299-307 |
| [12] | Benzo M, Gilardoni G, Gandini C, et al. Determination of the threshold odor concentration of main odorants in essential oils using gas chromatography-olfactometry incremental dilution technique[J]. J Chromatogr A, 2007, 1150(1/2):131-135 |
| [13] | 加藤龙夫,时田智彦,重田芳广原著,庄万发译.异味的机器测定[M].台北:复汉出版社,1985 |
| [14] | 陈静滨译.新订公害防止的技术与法规(大气篇)[M].台北:徐氏基金会出版,1991 |
| [15] | |
| [16] | Lambert S D, Beaman A L, Winter P. Olfactometric characterisation of sludge odours[J]. Water Sci Technol, 2000, 41(6):49-55 |
| [17] | Kaye R, Jiang K. Development of odour impact criteria for sewage treatment plants using odour complaint history[J]. Water Sci Technol, 2000, 41(6):57-64 |
| [18] | Bockreis A, Steinberg I. Measurement of odour with focus on sampling techniques[J]. Waste Manag, 2005, 25(9):859-863 |
| [19] | Capelli L, Sironi S, Del Rosso R, et al. A comparative and critical evaluation of odour assessment methods on a landfill site[J]. Atmos Environ, 2008, 42(30):7050-7058 |
| [20] | Carpentieri M, Giambini P, Corti A. Modelling tracer dispersion from landfills[J]. Environ Model Assess, 2008, 13(3):415-429 |
| [21] | Sironi S, Capelli L, Centola P, et al. Odour impact assessment by means of dynamic olfactometry, dispersion modelling and social participation[J]. Atmos Environ, 2010, 44(3):354-360 |
| [22] | Olsson M J. An interaction model for order quality and intensity[J]. Percept Psychophys, 1994,55(4): 363-372 |
| [23] | 王晶.异味化合物的阈值与结构关系研究.北京科技大学硕士学位论文,2009 |
| [24] | Burlingame G A, Suffet I H,Khiari D.Development of an odor wheel classification scheme for wastewater [J], Water Sci Technol, 2004, 49(9):201-209 |
| [25] | ASBC Technical Committee and Editorial Committee. Methods of analysis of the American society of brewing chemists, (7thedition)[S]. ASBC St Paul Michigan USA, 1976 |
| [26] | Leonardos G. Beyond Detectability [J]. J Air Waste Manage Assoc, 1999, 44:582-587 |
| [27] | Hellman T M, Small F H. Characterization of the odor properties of 101 petrochemicals using sensory methods[J]. J Air Pollut Control Assoc, 1974, 24(10):979-982 |
| [28] | Dravnieks A. Measurement methods odors form stationary and mobile sources[M]. Washington DC:National Academy of Sciences,1979a:82-168 |
| [29] | Chen Y, Bundy D S, Hoff S J. Using olfactometry to measure intensity and threshold dilution ratio for evaluating swine odor[J]. J Air Waste Manag Assoc,1999,49(7):847-853 |
| [30] | Mahin T D. "Using Dispersion Modeling of Dilution Threshold(D/T) Odor Levels to Meet Regulatory Requirements Composting Facilities". Presented at the 90th Annual Air Management Association Meeting, Toronto Ontario Canada, 1997 |
| [31] | Engle P L."Utilizing ISCST to Model Composting Facility Odors". Presented at the 90th Annual Air & Waste Management Association Meeting,Toronto,Ontario,Canada,1997 |
| [32] | De Roos K. Selecting the right flavourings for a food product[M]. England:Woodhead Publishing Limited, 2007:243-273 |
| [33] | Olivares A. Navarro J L, Flores M. Establishment of the contribution of volatile compounds to the aroma of fermented sausages at different stages of processing and storageb [J].Food Chemistry, 2009, 115(4):1464-1472 |
| [34] | Yang C, Luo L P,Zhang H J, et al. Common aroma-active components of propolis from 23 regions of China [J]. J Sci Food Agr, 2010, 90(7):1268-1282. |
| [35] | Du X F, Finn C E, Qian M C. Volatile composition and odour-activity value of thornless 'Black Diamond’ and 'Marion’ blackberries[J]. Food Chem, 2010, 119(3):1127-1134 |
| [36] | Bockreis A, Steinberg I. Measurement of odour with focus on sampling techniques[J]. Waste Manag, 2005, 9(25):859-863 |
| [37] | 王立,汪正范,牟世芬,等.色谱分析样本处理[M].北京:化学工业出版社,2001 |
| [38] | AWMA EE-6 Subcommittee on the Standardization of Odor Measurement, Guidelines for Odor Sampling and Measurement by Dynamic Dilution Olfactometry[S]. August 23, 2002 |
| [39] | Kaiyun J, Terry J, Schulz, et al. The Development of sampling system for the determination of odor emission rates from areal surfaces of aeradymamic performance[J]. J Air Waste Manag Assoc, 1995, 45:917-922 |
| [40] | Ross C A, Jarvis S C. Measurement of emission and deposition patterns of ammonia from urine in grass swards[J]. Atmos Environ, 2001, 35:867-875 |
| [41] | Loubet B, Cellier P, Flura D, et al. An Evaluation of the wind tunnel technique for estimating ammonia volatilization from land:Part 1[J]. J Agric Engng Res, 1999, 72:71-81 |
| [42] | Wang X, Jiang J, Kaye R. Improvement of a wind-tunnel sampling system for odour and VOCs[J]. Water Sci Technol, 2001, 44(9):71-77 |
| [43] | Li Q L, Yuan D X, Lin Q M. Evaluation of multi-walled carbon nanotubes as an adsorbent for trapping volatile organic compounds from environmental samples[J]. J Chromatogr A, 2004, 1026:283-288 |
| [44] | Liu J M, Li L, Zhao P, et al. Evaluation of single-walled carbon nanotubes as novel adsorbents for volatile organic compounds[J]. Chin J Anal Chem, 2007, 35(6):830-834 |
| [45] | 刘杰民,李琳,赵鹏,等.新型碳纳米晶体材料吸附性能研究[J].人工晶体学报,2007,36(3): 621-626 |
| [46] | Zhao P, Liu J M, Wang L, et al. Research and evaluation of modified single-walled carbon nanotubes[J]. Chin J Anal Chem, 2009, 37(9):1297-1302 |
| [47] | Guillot J M, Fernandez B, Cloirec P L.Advantages and limits of adsorption sampling for physico-chemical measurements of odorous compounds [J]. Analusis, 2000, 28:180-187 |
| [48] | Ribes A, Carrera G, Gallego E, et al. Development and validation of a method for air-quality and nuisance odors monitoring of volatile organic compounds using multi-sorbent adsorption and gas chromatography/mass spectrometry thermal desorption system[J]. J Chromatogr A, 2007, 1140(1/2):44-55 |
| [49] | Wu C H, Feng C T, Lo Y S, et al. Determination of volatile organic compounds in workplace air by multisorbent adsorption/thermal desorption-GC/MS[J]. Chemo, 2004, 56(1):71-80 |
| [50] | Liu J M, Li L, Zhao P, et al. Novel multi-layer cartridges filled with multi-walled carbon nanotubes for the determination of volatile organic compounds in the indoor air[J], Anal Sci, 2008, 24(4):515-519 |
| [51] | Musteata F M, Pawliszyn J. Bioanalytical applications of solid-phase microextraction[J]. Trac-Trend Anal Chem, 2007, 26(1):36-45 |
| [52] | Malik A K. A reviewon solid phase microextraction-high performance liquid chromatography as a novel tool for the analysis of toxic metalions[J]. Talanta, 2006(68):842-849. |
| [53] | Domeno C, Martinez-Garcia F, Camop L, et al. Sampling and analysis of volatile organic pollutants emitted by an industrial stack[J].Anal Chim Acta, 2004, 524(1/2):51-62 |
| [54] | Namiesnik J, Jastrzebska A, Zygmunt B. Determination of volatile aliphatic amines in air by solid-phase microextraction coupled with gas chromatography with flame ionization detection[J]. J Chromatogr A, 2003, 1016(1):1-9 |
| [55] | Pacolay B D, Ham J E, Wells J R. Use of solid-phase microextraction to detect and quantify gas-phase dicarbonyls in indoor environments[J]. J Chromatogr A, 2006, 1131(1/2):275-280 |
| [56] | Li K, Santilli A, Goldthorp M, et al. Solvent vapour monitoring in work space by solid phase micro extraction[J]. J Hazard Mater,2001, 83(1/2):83-91 |
| [57] | 空气质量:硫化氢、甲硫醇、甲硫醚和二甲二硫的测定-气相色谱法GB/T 14678—93 [S].国家环境保护局科技标准司,1993 年 9 月,中国,北京 |
| [58] | Nimmermark S. Use of electronic noses for detection of odor from animal production facilities:A review. In Jiang, proceeding of 1st IWA international conference on odor and VOCs:measurement, regulation and control techniques conference program[M]. Sydney:UNSW, 2001:51-59. |
| [59] | Rabaud N E, Ebeler S E, Ashbaugh L L, et al. The application of thermal desorption GC/MS with simultaneous olfactory evaluation for the characterization and quantification of odor compounds from a dairy[J]. J Agric Food Chem, 2002, 50(18):5139-5145 |
| [60] | Cheng X H, Peterkin E, Gary A, et al. A study on volatile organic sulfide causes ofodors at Philadelphia's Northeast Water pollution control plant. Water Res, 2005, 39:3781-3790 |
| [61] | Tsai C J, Chen M L, Chang K F, et al. The pollution characteristics of odor, volatile organochlorinated compounds and polycyclic aromatic hydrocarbons emitted from plastic waste recycling plants[J]. Chemo, 2009, 74(8):1104-1110 |
| [62] | Ferrari G, Lablanquie O, Cantagrel R, et al. Determination of key odorant compounds in freshly distilled cognac using GC-O, GC-MS,and sensory evaluation[J]. J Agric Food Chem, 2004, 52(18):5670-5676 |
| [63] | Kishimoto T, Wanikawa A, Kono K, et al. Comparison of the odor-active compounds in unhopped beer and beers hopped with different hop varieties[J]. J Agric Food Chem, 2006, 54(23):8855-8861 |
| [64] | Mariaca R, Bosset J O, Instrumental analysis of volatile(flavor)compounds in milk and dairy products[J]. Lait, 1997, 77:13-40 |
| [65] | Guyot-Declerck C, Collin S. Influence of pH and ageing on beer organoleptic properties. A sensory analysis based on AEDA data[J]. Food Qual Prefer, 2005, 16:157-162 |
| [66] | Petka J, Ferreira V, Cacho J. Posterior evaluation of odor intensity in gas chromatography-olfactometry:Comparison of methods for calculation of panel intensity and their consequences[J]. Flavour Frag J, 2005,20:278-287 |
| [67] | Deibler K D, Llesca F M, Lavin E H, et al. Calibration of gas chromatography inlet splitting for gas chromatography olfactometry dilution analysis[J]. Flavour Frag J, 2004, 19(6):518-521 |
| [68] | Bernet C, Dirninger N, Claudel P, et al. Application of finger span cross modality matching method (FSCM) by naive assessors for olfactometric discrimination of gewürztraminer wines[J]. Lebensmittel-Wissenschaft und-Technologie, 2002, 35(3):244-253 |
| [69] | Le Guen S, Prost C, Demaimay M. Evaluation of the representativeness of the odor of cooked mussel extracts and the relationship between sensory descriptors and potent odorants[J]. J Agric Food Chem, 2001, 49(3):1321-1327 |
| [70] | Ling J M. Charaterization of aroma impact compounds in cold pressed grape fruit oil using time-intensity GC-olfactometry and GC-MS [J]. Flavor Fragr J, 2001, 16:457-463 |
| [71] | Lornage R, Fine L, Chiraiac R, et al. Investigation on municipal solid waste gases composition and the olfactory nuisances generated[J]. Vdi Bericht, 2004, 1850:101-112, 579 |
| [72] | Wiener H. Structural determination of paraffin boiling points[J]. J Am Chem Soc, 1947, 69(1):17-20 |
| [73] | Jezussek M, Juliano B O, Schieberle P. Comparison of key aroma compounds in cooked brown rice varieties based on aroma extract dilution analyses[J]. J Agric Food Chem, 2002, 50(5):1101-1105 |
| [74] | Sarrazin E, Dubourdieu D, Darriet P. Characterization of key-aroma compounds of botrytized wines, influence of grape botrytization[J]. Food Chemistry, 2007, 103(2):536-545 |
| [75] | Carrapiso A I, Ventanas J, Garcia C. Characterization of the most odor-active compounds of Iberian ham headspace[J]. J Agric Food Chem, 2002, 50(7):1996-2000 |
| [76] | Persaud K, Dodd G. Analysis of discrimination mechanisms in the mammalian olfactory system using a model nose[J]. Nature, 1982, 299(5881):352-355 |
| [77] | Stuetz R. Electronic nose:A new tool in odor management [J]. Water Quality Index, 1998(7/8):112-116 |
| [78] | Gardner J W, Bartlet P N, A brief history of electronic nose [J]. Sensors and Actuators B, 1994, (18/19):211-220 |
| [79] | Polikar R, Shinar R, Honavar V, et al. Detection and identification of odorants using an electronic nose[J]. Int Conf Acoust Spee, 2001:3137-3140, 4053 |
| [80] | Bourgeois W, Hogben P, Pike A, et al. Development of a sensor array based measurement system for continuous monitoring of water and wastewater[J]. Sensor Actuat B-Chem, 2003, 88(3):312-319 |
| [81] | Omotoso M M, Qu G L, El-Din M G, et al. Development of an integrated electronic nose to reliably measure odors[J]. Livestock Environment Ⅶ, Proceedings, 2005:341-349,729 |
| [82] | Haddad R, Medhanie A, Roth Y, et al. Predicting odor pleasantness with an electronic nose[J]. Plos Comput Biol,2010, 6(4):254-259 |
| [83] | Botre B, Gharpure D, Shaligram A, et al. Semiconductor sensor array based electronic nose for milk, rancid milk and yoghurt odors identification[J]. Aip Conf Proc, 2009, 1137:587-590,596 |
| [84] | Sala G, Masoero G, Battaglini L M, et al. Electronic nose and use of bags to collect odorous air samples in meat quality analysis[J]. Aip Conf Proc, 2009, 1137:337-340,596 |
| [85] | Wang B, Xu S Y, Sun D W. Application of the electronic nose to the identification of different milk flavorings[J]. Food Res Int, 2010,43(1):255-262 |
| [86] | Kim G, Lee K, Son J Y, et al. Analysis of salmonella contaminated beef odor using an electronic nose[J]. Korean J Food Sci An, 2010, 30(2):185-189 |
| [87] | Pan L L, Yang S X. An electronic nose network system for online monitoring of livestock farm odors[J]. Ieee-Asme T Mech, 2009, 14(3):371-376 |
| [88] | Furlong C, Stewart J R. Using a portable electronic nose for identification of odorous industrial chemicals[J]. Electronic Noses and Olfaction 2000, 2000:285-290,310 |
| [89] | Saeed S H, Abbas Z, Gopal B. Experimental use of electronic nose for analysis of volatile organic compound (VOC). 2009 International Conference on Multimedia, Signal Processing and Communication Technologies, 2009:113-115,323 |
| [90] | Dravnieks A. "Structure and Function of the Olfactory System". Odors form Stationary and Mobile Sources[M]. National Academy of Sciences, Washington DC, 1979b, Chap.2 |
| [91] | 国家环境保护总局.GB/T 14675—93 空气质量异味测定三点比较式臭袋法[S].北京:中国标准出版社,1994 |
| [92] | 王玫.三点比较式臭袋法测定环境中臭气浓度[J].环境监测管理与技术,2007,19:54-55 |
| [93] | 邹克华,李昌健,刘咏,等.恶臭测定动态稀释方法研究进展[J].仪器仪表学报,2008,29(4):9-12 |
| [94] | ChenY C, Bundy D S, Hoff S J. Development of the relationship between odor intensity and threshold dilution ratio for swine units[J]. J Air Waste Manage, 1999, 49(9):1082-1088 |
| [95] | Jones F N, Woskow M H. On the intensity of odor mixtures[J]. Ann N Y Acad Sci, 1964, 116:484-494 |
| [96] | Rosen A A, Peter J B, Middleton F M. Odor thresholds of mixed organic chemicals[J]. Water Pollu Control Federation, 1962, 34(1):7-14 |
| [97] | Berglund B, Berglund U, Lindvall T, et al. A quantitative principle of perceived intensity summation in odor mixtures[J]. J Experimental Psychology, 1973, 100(1):29-38 |
| [98] | Frijters J E. Psychophysical models for mixtures of tastants and mixtures of odorants[J]. Ann N Y Acad Sci, 1987, 510:67-78 |
| [99] | Laffort P. Models for describing intensity interactions in odor mixtures:a reappraisal. perception of complex smells and tastes[M]. Marrickville:Academic Press, 1989:205-223 |
| [100] | Laffort P. Several models of suprathreshold quantitative olfactory interaction in humans applied to binary.ternary and quaterny mixtures[J].Chem Senses, 1982, (7):153-174 |
| [101] | Patte F, Laffort P. An alternative model of olfactory quantitative interaction in binary mixtures[J]. Chem Sens Flav, 1979, (4):267-274 |
| [102] | Thomas-Danguin T, Chastrette M. Odor intensity of binary mixtures of odorous compounds[J]. C R Biol, 2002, 325(7):767-772 |
| [103] | Laing D G, Panhuber H, Willcox M E, et al. Quality and intensity of binary odor mixtures[J]. Physiol Behav, 1984, 33(2):309-319 |
| [104] | Fischer U, Noble A C. The Effect of Ethanol, Catechin Concentration, and pH on Sourness and Bitterness of Wine[J]. Am J Enol Vitic, 1994, 45(1):6-10 |
| [105] | Pet'ka J, Cacho J, Ferreira V. Comparison of flavour perception routes (orthonasal, buccal, retronasal and aftertaste) in a synthetic wine model and with GC-olfactometric data[J]. Arcachon:Lavoisier, 2003, 79:567-573 |
| [106] | Atanasova B, Thomas-Danguin T, Langlois D, et al. Perception of wine fruity and woody notes:influence of peri-threshold odorants[J]. Food Qual Prefer, 2005, 16(6):504-510 |
| [107] | Le Berre E, Atanasova B, Langlois D, et al. Impact of ethanol on the perception of wine odorant mixtures[J]. Food Qual Prefer, 2007, 18(6):901-908 |
| [108] | Buonicore J. Adsorption. Air pollution engineering manual[M]. New York:Van Nostrand Reinhold, 1992: 31-52 |
| [109] | Knig W A, Werner F. Cyclodextrins as selective adsorbents[J]. Waste Manag, 2005, 25:9-16 |
| [110] | Cartellieri A, Thiesen P H, Niemeyer B. Development of a basic procedure to design sorption processes[J]. Waste Manag, 2005, 25(9):985-993 |
| [111] | Rashmawi K, Oskouie A K, Noll K E. Development and evaluation of a copolymer for removal of taste and odor causing compounds from lake Michigan water[J]. J Environ Eng-Asce, 2008, 134(7):531-535 |
| [112] | Choi Y, Oh H, Lee S, et al. Removal of taste and odor model compounds (2-MIB and geosmin) with the NF membrane[J]. Desalin Water Treat, 2010, 15(1/3):141-148 |
| [113] | Tung Y C, Hu S C, Tsai T Y. Influence of bathroom ventilation rates and toilet location on odor removal[J]. Build Environ, 2009, 44(9):1810-1817 |
| [114] | Fischer K. Non-biological processes for odour elimination in German[M]. Verlag Abfall Aktuell, Stuttgart, Germany:Hamburger Berichte, 2001:193-204 |
| [115] | Fischer K. Methods of odour Reduction in German[M]. Germany:Darmstadter Seminar Abfalltechnik, 2004:65-76 |
| [116] | Yet-Pole I, Liu Y C, Han K Y, et al. Construction of a low-pressure microwave plasma reactor and its application in the treatment of volatile organic compounds[J]. Environ Sci Technol, 2004, 38(13):3785-3791 |
| [117] | Hahne J, Vorlop K D. Treatment of waste gas from piggeries with nitrogen recovery[J]. Landbauforschung Volkenrode, 2001, 51 (3):121-130. |
| [118] | Dammann, B, Heining K, Koellner S, et al. Removal of odours from the waste gas of a plant processing hard rubber in German[M]. Verlag Abfall Aktuell, Stuttgart, Germany:Abluft 2001 Hamburger Berichte17, 2001:205-216 |
| [119] | Cheng X H, Wodarczyk M, Lendzinski R, et al. Control of DMSO in wastewater to prevent DMS nuisance odors[J]. Water Res, 2009, 43(12):2989-2998 |
| [120] | Liu T X, Li X Z, Li F B. Development of a photocatalytic wet scrubbing process for gaseous odor treatment[J]. Ind Eng Chem Res, 2010, 49(8):3617-3622 |
| [121] | Li X Z, Hou M F, Li F B, et al. Photocatalytic oxidation of methyl mercaptan in foul gas for odor control[J]. Ind Eng Chem Res, 2006, 45(2):487-494 |
| [122] | Smet E, Van Langenhove H. Abatement of volatile organic sulfur compounds in odorous emissions from the bio-industry[J]. Biodegradation, 1998, 9(3/4): 273-284 |
| [123] | Sheridan B A, Curran T P, Dodd V A. Biofiltration of n-butyric acid for the control of odour[J]. Bioresour Technol, 2003, 89(2):199-205 |
| [124] | Xie B, Liang S B, Tang Y, et al. Petrochemical wastewater odor treatment by biofiltration[J]. Bioresource Technol, 2009, 100(7):2204-2209 |
| [125] | Lau A, Cheng K. Removal of odor using biofilter from duck confinement buildings[J]. J Environ Sci Heal A, 2007, 42(7):955-959 |
| [126] | Alonso C, Zhu Y, Suidan M T, et al. Mathematical model for the biodegradation of VOCs in trickle bed biofilters[J]. Water Sci Technol, 1999, 39(7):139-146 |
| [127] | Gabriel D, Deshusses M A. Performance of a full-scale biotrickling filter treating H2S at a gas contact time of 1.6 to 2.2 seconds[J]. Environ Prog, 2003, 22(2):111-118 |
| [128] | 洪蔚. 新型生物滴滤池处理含挥发性有机化合物废气[J]. 化工环保, 2000, 20(4):63-67 |
| [129] | Chung Y C. Evaluation of gas removal and bacterial community diversity in a biofilter developed to treat composting exhaust gases[J]. J Hazardous Materials, 2007, 144(1/2):377-385 |
| [130] | Ho K L, Chung Y C, Tseng C P. Continuous deodorization and bacterial community analysis of a biofilter treating nitrogen-containing gases from swine waste storage pits[J]. Bioresource Technol, 2008, 99(8):2757-2765 |
| [131] | Kim K H. Emissions of reduced sulfur compounds (RSC) as a landfill gas (LFG):A comparative study of young and old landfill facilities[J]. Atmos Environ, 2006, 40(34):6567-6578 |
| [132] | Hurst C, Longhurst P, Pollard S, et al. Assessment of municipal waste compost as a daily cover material for odour control at landfill sites[J]. Environ Pollu, 2005, 135(1):171-177 |
| [133] | Plaza C, Xu Q, Townsend T, et al. Evaluation of alternative landfill cover soils for attenuating hydrogen sulfide from construction and demolition (C&D) debris landfills[J]. J Environl Manage, 2007, 84(3):314-322 |
| [134] | Solan P J, Dodd V A, Curran T P. Evaluation of the odour reduction potential of alternative cover materials at a commercial landfill[J]. Bioresource Technol, 2010, 101(4):1115-1119 |
| [135] | Ye F X, Zhu R F, Li Y. Deodorization of swine manure slurry using horseradish peroxidase and peroxides[J]. J Hazardous Mater, 2009, 167(1/3):148-153 |
| [136] | Negishi O, Negishi Y, Aoyagi Y, et al. Mercaptan-Capturing Properties of Mushrooms[J]. J Agr Food Chem, 2001, 49(11):5509-5514 |
| [137] | Negishi O, Negishi Y, Yamaguchi F, et al. Deodorization with Ku-ding-cha containing a large amount of caffeoyl quinic acid derivatives[J]. J Agr Food Chem, 2004, 52(17):5513-5518 |
| [138] | Nakasaki K, Kwon S H, Tanaka H, et al. Suppression of malodor from garbage during storage periods by yeast producing fragrances[J]. Process Biochem, 2006, 41(9):1932-1939 |
| [139] | 叶芬霞. 复合微生物吸附除臭剂的制备及其除臭应用[J]. 农业工程学报, 2008, 24(8):254-257 |