[1] COOK R N, XIN H, NETTLETON D. Effects of cage stocking density on feeding behaviors of group-housed laying hens[J]. Trans ASABE, 2006, 49(1):187-192.
[2] LI B M, GENG A L, WANG Q, et al. Effects of housing conditions on health and welfare of caged laying hens[C]//2007 ASAE Annual Meeting. St. Joseph, Michigan:American Society of Agricultural and Biological Engineers, 2007:17-20.
[3] 安立龙, 效梅, 吴中红, 等. 西安地区集约化蛋鸡场的环境与生产[J]. 甘肃畜牧兽医, 1997, 27(5):1-3.
AN L L, XIAO M, WU Z H, et al. The environment and production of laying hens farms in Xi'an area[J]. Gansu Animal and Veterinary Sciences, 1997, 27(5):1-3. (in Chinese)
[4] 刘滨疆, 于运祥. 空气环境安全型畜禽舍的设计要点与实践[J]. 养猪, 2009(1):35-37.
LIU B J, YU Y X. Design key points and practice in air environmental safe livestock and poultry house[J]. Swine Production, 2009(1):35-37.(in Chinese)
[5] 张双全, 谭益民, 吴章文. 空气负离子浓度与空气温湿度的关系研究[J]. 中南林业科技大学学报, 2011, 31(4):114-118.
ZHANG S Q, TAN Y M, WU Z W. The relationship between air anion concentration and air temperature and air relative humidity[J]. Journal of Central South University of Forestry & Technology, 2011, 31(4):114-118. (in Chinese)
[6] 黄彦柳, 陈东辉, 陆丹, 等. 空气负离子与城市环境[J]. 干旱环境监测, 2004, 18(4):208-211.
HUANG Y L, CHEN D H, LU D, et al. Air negative ion and city environment[J]. Arid Environmental Monitoring, 2004, 18(4):208-211. (in Chinese)
[7] 邵海荣, 杜建军, 单宏臣, 等. 用空气负离子浓度对北京地区空气清洁度进行初步评价[J]. 北京林业大学学报, 2005, 27(4):56-59.
SHAO H R, DU J J, SHAN H C, et al. Assessment of air cleanness degree in Beijing using negative air ion concentration as an index[J]. Journal of Beijing Forestry University, 2005, 27(4):56-59. (in Chinese)
[8] KOLAR P, GAISBERGER M, MADL P, et al. Characterization of ions at Alpine waterfalls[J]. Atmos Chem Phys, 2012, 12(8):3687-3697.
[9] 李少宁, 韩淑伟, 商天余, 等. 空气负离子监测与评价的国内外研究进展[J]. 安徽农业科学, 2009, 37(8):3736-3738.
LI S N, HAN S W, SHANG T Y, et al. Research progress on aero-anion's monitoring and evaluation at home and abroad[J]. Journal of Anhui Agricultural Sciences, 2009, 37(8):3736-3738. (in Chinese)
[10] ROSENTRATER K A. Performance of an electrostatic dust collection system in swine facilities[J]. CIGR Ejournal, 2003:1-10.
[11] CHO M S, KO H J, KIM D, et al. On-site application of air cleaner emitting plasma ion to reduce airborne contaminants in pig building[J]. Atmos Environ, 2012, 63:276-281.
[12] 张开臣, 刘滨疆, 钱宏光. 鸡舍空气中粉尘与微生物的电净化技术及其应用[J]. 养禽与禽病防治, 2004(6):36-37, 29.
ZHANG K C, LIU B J, QIAN H G. The application of electropurification technology on airborne dust and microorganism in chicken house[J]. Poultry Husbandry and Disease Control, 2004(6):36-37, 29. (in Chinese)
[13] RITZ C W, MITCHELL B W, FAIRCHILD B D, et al. Improving in-house air quality in broiler production facilities using an electrostatic space charge system[J]. J Appl Poult Res, 2006, 15(2):333-340.
[14] MITCHELL B W, STONE H D. Electrostatic reduction system for reducing airborne dust and microorganisms:US, 6126722[P]. 2000-10-03.
[15] RICHARDSON L J, MITCHELL B W, WILSON J L, et al. Effect of an electrostatic space charge system on airborne dust and subsequent potential transmission of microorganisms to broiler breeder pullets by airborne dust[J]. Avian Dis, 2003, 47(1):128-133.
[16] 刘滨疆, 施詹莎. 寒冷季节封闭式畜禽舍空气的电净化技术应用[J]. 当代畜禽养殖业, 2002(12):40-42.
LIU B J, SHI Z S. Application of electric purification technology on enclosed animal house air in cold season[J]. Modern Livestock and Poultry Breeding Industry, 2002(12):40-42. (in Chinese)
[17] MITCHELL B W, RICHARDSON L J, WILSON J L, et al. Application of an electrostatic space charge system for dust, ammonia, and pathogen reduction in a broiler breeder house[J]. Appl Eng Agric, 2004, 20(1):87-93.
[18] ANDERSEN C I, VON ESSEN S G, SMITH L M, et al. Respiratory symptoms and airway obstruction in swine veterinarians:a persistent problem[J]. Am J Ind Med, 2004, 46(4):386-392.
[19] ANDERSSON A M, WEISS N, RAINEY F, et al. Dust-borne bacteria in animal sheds, schools and children's day care centres[J]. J Appl Microbiol, 1999, 86(4):622-634.
[20] TAN Z C, ZHANG Y H. A review of effects and control methods of particulate matter in animal indoor environments[J]. J Air Waste Manage Assoc, 2004, 54(7):845-854.
[21] DANIELL W, CAMP J, HORSTMAN S. Trial of a negative ion generator device in remediating problems related to indoor air quality[J]. J Occup Med, 1991, 33(6):681-687.
[22] MITCHELL B W. Effect of negative air ionization on ambient particulates in a hatching cabinet[J]. Appl Eng Agric, 1998, 14(5):551-555.
[23] DAWSON J R. Minimizing dust in livestock buildings:possible alternatives to mechanical separation[J]. J Agric Eng Res, 1990, 47:235-248.
[24] MOSTAFA E, BUESCHER W. Indoor air quality improvement from particle matters for laying hen poultry houses[J]. Biosyst Eng, 2011, 109(1):22-36.
[25] KINGDON K H. Interaction of atmospheric ions with biological material[J]. Phys Med Biol, 1960, 5(1):1-10.
[26] KRUEGER A P, REED E J, BROOK K B, et al. Air ion action on bacteria[J]. Int J Biometeorol, 1975, 19(1):65-71.
[27] ESTOLA T, MÄKELÄ P, HOVI T. The effect of air ionization on the air-borne transmission of experimental newcastle disease virus infections in chickens[J]. J Hyg, 1979, 83(1):59-67.
[28] GABBAY J, BERGERSON O, LEVI N, et al. Effect of ionization on microbial air pollution in the dental clinic[J]. Environ Res, 1990, 52(1):99-106.
[29] GAST R K, MITCHELL B W, HOLT P S. Application of negative air ionization for reducing experimental airborne transmission of Salmonella enteritidis to chicks[J]. Poult Sci, 1999, 78(1):57-61.
[30] 冯大军. 畜禽舍用臭氧消毒效果好[J]. 湖南农业, 2010(6):22.
FENG D J. Ozone disinfection have favorbale effect in animal houses[J]. Hunan Agriculture, 2010(6):22. (in Chinese)
[31] NIU J L, TUNG T C W, BURNETT J. Quantification of dust removal and ozone emission of ionizer air-cleaners by chamber testing[J]. J Electrostat, 2001, 51-52:20-24.
[32] 曹辉, 侯卫萍, 姜峰, 等. 低臭氧型负离子雾霾空气净化器设计[J]. 森林工程, 2015, 31(2):119-121.
CAO H, HOU W P, JIANG F, et al. Design of low ozone anion haze air purifier[J]. Forest Engineering, 2015, 31(2):119-121. (in Chinese) |