Dai Zhenghua, Gong Xin, Guo Xiaolei, Liu Haifeng, Wang Fuchen, Yu Zunhong. Pilot-trial and modeling of a new type of pressurized entrained-flow pulverized coal gasification technology[J]. Fuel, 2008, 87: 2304-2313
[2]
Gong xin(龚欣), Guo Xiaolei(郭晓镭), Dai Zhenghua(代正华), Yu Zunhong(于遵宏), Han Fei(韩飞), Zhao Ruitong(赵瑞同), Lv Chuanlei(吕传磊), Lu Wenxue(路文学). New-type gasification technology of pressurized entrained-flow for pulverized coal[J]. Modern Chemical Industry (现代化工), 2005, 25(3): 51-54
[3]
Huang Jiejie(黄戒介), Fang Yitian(房倚天), Wang Yang(王洋). Development and progress of modern coal gasification technology[J]. Journal of fuel chemistry and technology (燃料化学学报), 2002, 30(5): 385-39
[4]
Chen Ruchao(陈汝超), Chen Xiaoping(陈晓平), Cai Jiaying(蔡佳莹), Zhang Tienan(张铁男), Liang Cai(梁财). Research on the Discharge Stability of Granular Coal From an Aeration Silo[J]. Proceedings of the CSEE (中国电机工程学报), 2012, 32(5): 33-38
[5]
Huang Wanjie, Gong Xin, Guo Xiaolei, Dai Zhenghua, Liu Haifeng, Zheng Lijiao, Zhao Jinchao, Xiong Yanjun. Discharge characteristics of cohesive fine coal from aerated hopper[J]. Powder Technology, 2009, 194: 126-131
[6]
Lu Haifeng, Xiaolei Guo, Gong Xin, Cong Xingliang, Liu Kai, Qi Haifeng. Experimental study on aerated discharge of pulverized coal[J]. Chemical Engineering Science, 2012, 71: 438-448
[7]
Jorgen Nielsen. Pressures from flowing granular solids in silos[J]. Phil. Trans. R. Soc. Lond. A, 1998, 356: 2667-2684
[8]
Brown R.L., Richards J.C.. Profiles of flow of granules through apertures[J]. Transactions of the Institute of Chemical Engineers, 1960, 38: 243-256
[9]
Donsi G., Ferrari G.., Poletto M., Russo P.. Gas pressure measurements inside an aerated hopper[J]. Trans IchemE, Part A, Chemical Engineering Research Design, 2004, 82(A1): 72-84
[10]
Du Mingfang(杜明芳), Liu Qixia(刘起霞), Jiang Zhi'e (蒋志娥), Gao Xinnan(高新南). The PFC simulations of the density influence upon pressure in silo[J]. Journal of Zhengzhou Institute of Technology (郑州工程学院学报), 2004, 25(3): 40-43
[11]
Donsi G., Ferrari G., Poletto M.. Distribution of gas pressure inside a hopper discharging fine powders[J]. Chemical Engineering Science, 1997, 52: 4291-4302
[12]
Couto A., Ruiz A., Aguado P. J.. Experimental study of the pressures exerted by wheat stored in slender cylindrical silos, varying the flow rate of material during discharge. Comparison with Eurocode 1 part 4[J]. Powder Technology, 2013, 237: 450-467
[13]
Nedderman. R.M,Tuzun. U.,Thorpe. R.B. The effect of interstitial air pressure gradients on the discharge from bins[J]. PowderTechnoly, 1983, 35: 69-81
Papazoglou C. S., Pyle D.L.. Air-assisted flow from a bed of particles[J]. Powder Technology, 1970, 4(1): 9-18
[16]
Altiner H. K.. Flow of solids from aerated hoppers: effect of aeration methods[J]. AICHE, Symp, Ser, 1983, 222: 55-59
[17]
Ouwerkerk C.E.D., Molenaar H.J., Frank M.J.W.. Aerated bunker discharge of fine dilating powders[J]. Powder Technology, 1992, 72: 241-253
[18]
Zheng Lijia(郑利娇), Guo Xiaolei(郭晓镭), Dai Zhenghua(代正华), Guo Yunzhou(郭云舟), Xiao Weiguo(肖为国), Huang Wanjie(黄万杰), Gong Xin(龚欣). Flow characteristics of pulverized coal from aeration silo[J]. Journal of Chemical Industry and Engineering (China) (化工学报), 2007, 58(9): 2375-2381
[19]
Xie Xiaoxu(谢晓旭), Shen Xianglin(沈湘林), Tang Xuemei(汤雪美), Chen Xiaoping(陈晓平). Study on some factors impacting flowability of pulverized coal[J]. Journal of China Coal Society(煤炭学报), 2008, 31(1): 85-88
[20]
Kim Esther H.-J., Chen Xiaodong, Pearce D.. Effect of surface composition on the flowability of industrial spray-dried dairy powders[J]. Colloids and Surfaces B: Biointerfaces, 2005, 46: 182-187
[21]
Donsi G., Ferrari G.. Improvement of bulk flow properties of powders[J]. Powder Technology, 1991, 65: 469-476
[22]
Altiner. H.K. Flow of solids form aerated hopper: effect of aeration methods[J]. American Institute of Chemical Engineers Symposium Series, 1983, 222: 55-59
[23]
Lu Haifeng(陆海峰), Guo Xiaolei(郭晓镭), Tao Shunlong(陶顺龙), Gong Xin(龚欣). Application of electrical capacitance tomography in hopper discharge of pulverized coal[J]. Journal of Chemical Industry and Engineering (China) (化工学报), 2013(录用)
[24]
Graham J. Weir. A mathematical model for dilating, non-cohesive granular granular flows in steep-walled hoppers[J]. Chemical Engineering Science, 2004, 59: 149-161
