1Liangyin Chu, Jianjun Qin, Wenmei Chen, et al. Energy Consumption and Its Reduction in the Hydrocyclone Separation Process. Ⅱ. Time - Averaged and Fluctuating Characteristics of the Turbulent Pressure in a Hydrocyclone [J]. Sep. Sci. Technol, 2000, 35 (15) : 2543-2560. 被引量:1
2Ingham D B, Ma L. Predicting the performance of air cyclones[J]. Int J Energy Res, 2002, 26: 633-652. 被引量:1
3Narasimha M, Brennan M, Holtham P N. Large-eddy simulation of hydrocyclone-prediction of air-core diameter and shape [ J ]. Int J Miner Process, 2006, 80 (1) :1-14. 被引量:1
4Liangyin Chu, Wei Yu, Guangjin Wang. Enhancement of hydrocyclone separation performance by eliminating the air core[J]. Chem. Eng. Sci. , 2002,57: 207-212. 被引量:1
5Svarovaky, L. Hydrocyc!one[ M ]. London: Holt, Rinchart and Winston ltd, 1984. 被引量:1
6Zhibin Wang. Research on nonlinear stochastic characteristics of separation processes [ J ]. Sichuan University, 2006. 被引量:1
7Gibson M M, Launder B E. Ground effects on pressure fluctuations in the atmospheric boundary layer [ J ]. Fluid Mesh, 1978, 68 : 491-511. 被引量:1
8Launder B E. Second-Moment closure: present and future[J]. Int J Heat Fluid Flow, 1989, 10(4) : 280- 300. 被引量:1
9Launder B E, Reece G J, Rodi W. Progress in the development of Reynolds stress turbulence closure [ J ]. Fluid Mesh, 1975, 68(3): 537-566. 被引量:1
10Lien F S, Leschziner M A. Assessment of turbulent transport models inchuding non-liner RNG eddy-viscosity formulation and second momnet closure [ J ]. Comput. fluids, 1994, 23(8) : 983-1004. 被引量:1
