Dynamics of Air Temperature, Velocity and Ammonia Emissions in Enclosed and Conventional Pig Housing Systems
J. I. Song, K.-H. Park, J. H. Jeon, H. L. Choi, A. J. Barroga
Asian-Australas J Anim Sci. 2013;26(3):433-442.   Published online 2013 Mar 1     DOI: https://doi.org/10.5713/ajas.2011.11515
Citations to this article as recorded by Crossref logo
A prediction model of NH3 concentration for swine house in cold region based on Empirical Mode Decomposition and Elman neural network
Weizheng Shen, Xiao Fu, Runtao Wang, Yanling Yin, Yan Zhang, Udaybeer Singh, Bilegtsaikhan Lkhagva, Jian Sun
Information Processing in Agriculture.2019; 6(2): 297.     CrossRef
Comparison of two housing systems on behaviour and performance of fattening pigs
Shengjuan Wei, Yuguang Guo, Peishi Yan
Journal of Applied Animal Research.2019; 47(1): 41.     CrossRef
Computational fluid dynamics evaluation of pig house ventilation systems for improving the internal rearing environment
Uk-Hyeon Yeo, In-Bok Lee, Rack-Woo Kim, Sang-Yeon Lee, Jun-Gyu Kim
Biosystems Engineering.2019; 186: 259.     CrossRef
Evaluation of thermal performance through development of an unglazed transpired collector control system in experimental pig barns
Byeong Eun Moon, Min Ho Lee, Hee Tae Kim, Tae Hyun Choi, Young Bok Kim, Young Sun Ryou, Hyeon Tae Kim
Solar Energy.2017; 157: 201.     CrossRef