3[1]McPherson, M J. Subsurface Ventilation and Environmental Engineering[M]. London: Chapman & Hall: 1993.522-602. 被引量:1
4[2]Kertikou, V. Air temperature and humidity in dead-end headings with auxiliary ventilation[A]. Rava V. Proc. 6th Int. Mine Ventilation Congr[C]. Littleton: Society for Mining, Metallurgy, and Exploration, Inc., 1997. 269-275. 被引量:1
5[3]Ross, A J, Tuck, M A, Stokes, M R & Lowndes, I S. Computer simulation of climate conditions in rapid development drivages[A]. Rava V. Proc. 6th Int. Mine Ventilation Congr[C]. Littleton: Society for Mining, Metallurgy, and Exploration, Inc., 1997. 283-288. 被引量:1
6[4]Gao, J, Uchino, K. & Inoue, M. Simulation of the heat and moisture transfer between airway walls and mine air at a heading face with auxiliary ventilation system[A]. Stanislaw, W. Proc. 7rd Int. Mine Ventilation Congr[C].Cracow: Research & Development Center for Electrical Engineering and Automation in Mining EMAG, 2001.49-55. 被引量:1
7[5]Gao, J, Uchino, K. & Inoue, M. Simulation of thermal environmental conditions in heading face with forcing auxiliary ventilation[J]. Shigen-To-Sozai, 2002, 118 (1): 9-15. 被引量:1
8[6]Uchino, K. Study on the prediction of the airflow temperature in underground coal mines[D].Fukuoka: Kyushu University, 1974. 被引量:1
9[7]Katsuki, M. & Nakayama, A. Numerical Simulation of Heat Flow[M]. Tokyo: Morikita Shuppan:1990. 被引量:1
10[8]Patankar, S. V. Numerical Heat Transfer and Fluid Flow[M]. Washington: Hemisphere Pub. Corp. -New York: McGraw-Hill:1980. 被引量:1
