- · 《设备监理 》栏目设置[06/29]
- · 《设备监理 》投稿方式[06/29]
- · 《设备监理 》征稿要求[06/29]
- · 《设备监理 》刊物宗旨[06/29]
中国规模化养鸡环境控制关键技术与设施设备研(7)
作者:网站采编关键词:
摘要:[14] 谢明文,李广才,孙洪飞, 等. 沈阳地区集约化猪场和鸡场环境现状调查[J]. 沈阳农业大学学报,1996,27(4): Mingwen, Li Guangcai, Sun Hongfei, et al. Investiga
[14] 谢明文,李广才,孙洪飞, 等. 沈阳地区集约化猪场和鸡场环境现状调查[J]. 沈阳农业大学学报,1996,27(4): Mingwen, Li Guangcai, Sun Hongfei, et al. Investigation on the environmental condition of intensive pig and chicken farms in Shenyang[J]. Journal of Shenyang Agricultural University, 1996, 27(4): 317-322. (in Chinese with English abstract)
[15] Wang Y, Li B M, Liang C, et al. Dynamic simulation of thermal load and energy efficiency in poultry buildings in the cold zone of China[J]. Computer and Electronics in Agriculture, 2020, 168: .
[16] Wang Y, Zheng W C, Shi H P, et al. Optimising the design of confined laying hen house insulation requirements in cold climates without using supplementary heat[J]. Biosystems Engineering, 2018(174): 282-294.
[17] Wang C Y, Cao W, Li B M, et al. A fuzzy mathematical method to evaluate the sustainability of an evaporative cooling pad system for poultry houses in China[J].Biosystems Engineering, 2008, 101(3): 370-375.
[18] 李保明. 湿垫蒸发降温对上海地区气候条件的适应性[J].北京农业工程大学学报,1990,10(2):66-70.Li Baoming. Adaptability of an evaporative pad cooling system to climate condition in Shanghai[J]. Journal of Beijing Agricultural Engineering University, 1990, 10(2):66-70. (in Chinese with English abstract)
[19] Li Z, Wang H, Zheng W, et al. A tracing method of airborne bacteria transmission across built environments[J]. Building and Environment, 2019(164): .
[20] 李保明. 鸡舍纵向通风系统设计与应用中的几个问题[J].农业工程学报,1993,9(增刊1):82-85.Li Baoming. Discussion on design and application of the tunnel ventilation system for poultry housing[J]. Transactions of the Chinese Society of Agricultural Engineering(Transactions of the CSAE), 1993, 9(Suppl.): 82-85. (in Chinese with English abstract)
[21] 韩宽襟,冯云田. 密闭式鸡舍负压通风系统的气流分布[J].北京农业工程大学学报,1992,12(3): Kuanjin, Feng Yuntian. Airflow distribution in a confinement poultry house with negative-pressure ventilation system[J]. Journal of Beijing Agricultural Engineering University, 1992, 12(3): 46-55 (in Chinese with English abstract)
[22] 李保明,周允将,崔引安. 鸡舍纵向通风的气流组织[J]. 北京农业工程大学学报,1991,11(2):61-66.Li Baoming, Zhou Yunjiang, Cui Yin’an. Improving the airflow organization of tunnel ventilation for a chicken house[J]. Journal of Beijing Agricultural Engineering University, 1991, 11(2): 61-66 (in Chinese with English abstract)
[23] Kocaman B, Esenbuga N, Yildiz A, et al. Effect of environmental conditions in poultry houses on the performance of laying hens[J]. International Journal of Poultry Science, 2006, 5(1): 26-30.
[24] Hui X, Zhu Q, Ni J Q, et al. Effect of cooling pad installation on indoor airflow distribution in a tunnel-ventilated laying-hen house[J]. International Journal of Agricultural and Biological Engineering, 2016, 9(4): 169-177.
[25] Hui X, Li B, Xin H, et al. New control strategy against temperature sudden-drop in the initial stage of pad cooling process in poultry houses[J]. International Journal of Agricultural and Biological Engineering, 2018, 11(1): 66-73.
[26] 王阳,郑炜超,李绚阳,等. 西北地区纵墙湿帘山墙排风系统改善蛋鸡舍内热环境[J]. 农业工程学报,2018,34(21): Yang, Zheng Weichao, Li Xuanyang, et al. Vertical walls-wetted pad and gable-exhaust-air-ventilation system improving poultry house thermal environment in Northwest region of China[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2018,34(21): 202-207. (in Chinese with English abstract)
[27] Mutaf S, Kahraman N S, F?rat M Z. Surface wetting and its effect on body and surface temperatures of domestic laying hens at different thermal conditions[J]. Poultry Science, 2008,87(12): 2441-2450.
[28] Chepete H J, Xin H. Cooling laying hens by intermittent partial surface sprinkling[J]. Transactions of the American Society of Agricultural Engineers, 2000, 43(4): 965-971.
[29] Timmons M B, Baughman G R. Experimental evaluation of poultry mist-fog systems[J]. Transactions of the American Society of Agricultural Engineers, 1983, 26(1): 207-210.
[30] Ikeguchi A. Field evaluation of a sprinkling system for cooling commercial laying hens in Iowa[J]. Applied Engineering in Agriculture, 2001, 17(2): 217-224.
[31] Wang Y, Zheng W, Li B. A new ventilation system to reduce temperature fluctuations in laying hen housing in continental climate[J]. Biosystems Engineering, 2019(181): 52-62.
[32] Xuan J, Liu G, Du K. Dust emission inventory in Northern China[J]. Atmospheric Environment, 2000, 34(26),4565-4570.
[33] Zhenghu D, Honglang X, Zhibao D, et al. Morphological,physical and chemical properties of aeolian sandy soils in northern China[J]. Journal of Arid Environments, 2007, 68(1):66-76.
[34] Zhao Q, Zeng D H, Lee D K, et al. Effects of pinus sylvestris var. mongolica afforestation on soil phosphorus status of the Keerqin sandy lands in China[J]. Journal of Arid Environments, 2007, 69(4): 569-582.
文章来源:《设备监理》 网址: http://www.sbjlzz.cn/qikandaodu/2021/0506/993.html
上一篇:智能化水肥管理设备研究进展
下一篇:金属丝材快速成型增材制造设备