Shen Wangjun (沈望俊), Liu Jianzhong (刘建忠), Yu Yujie (虞育杰), Zhu Jiefeng (朱洁丰), Zhou Junhu (周俊虎), Cen Kefa (岑可法). Experimental study on drying and reabsorption of the lignite of Ximeng [J]. Proceeding of the CSEE (中国电机工程学报), 2013, 33 (17): 64-70.
[2]
Xiong Chengcheng (熊程程), Xiang Fei (向飞), Lü Qinggang (吕清刚). Effects of temperature and relative humidity on drying kinetics of lignite [J]. CIESC Journal (化工学报), 2011, 62 (10): 2898-2904.
[3]
Xiong Chengcheng (熊程程), Xiang Fei (向飞), Lü Qinggang (吕清刚). Experimental study on drying characteristics of lignite [J]. Chemical Engineering (China) (化学工程), 2011, 39 (8): 74-78.
[4]
Zhao Weidong (赵卫东), Liu Jianzhong (刘建忠), Zhou Junhu (周俊虎), Cen Kefa (岑可法). Investigation on the isothermal dewatering of brown coal by thermobalance [J]. Proceeding of the CSEE (中国电机工程学报), 2009, 29 (14): 74-79.
[5]
Tahmasebi A, Yu Jianglong, Li Xianchun, Meesri C. Experimental study on microwave drying of Chinese and Indonesian low-rank coals [J]. Fuel Processing Technology, 2011, 92 (10): 1821-1829.
[6]
Kim Hyun-Seok, Matsushita Y, Oomori M, Harada T, Miyawaki J, Yoon Seong-Ho, Mochida I. Fluidized bed drying of Loy Yang brown coal with variation of temperature, relative humidity, fluidization velocity and formulation of its drying rate [J]. Fuel, 2013, 105: 415-424.
[7]
Yang Yunlong (杨云龙), Liu Xiao (刘晓), Jing Xiaoxia (景晓霞), Li Zhiqiang (李志强), Chang Liping (常丽萍). Effect of drying time on the change of pore structure and re-adsorption behavior of lignite [J]. Journal of Taiyuan University of Technology (太原理工大学学报), 2013, 44 (4): 417-421.
[8]
Li Xianchun, Song Hui, Wang Qi, Meesri C, Wall T, Yu Jianglong. Experimental study on drying and moisture re-adsorption kinetics of an Indonesian low rank coal [J]. Journal of Environmental Sciences, 2009, 21: S127-S130.
[9]
Vorres K S. Effect of temperature, sample size, and gas flow rate on drying on Beulah-Zap lignite and Wyodak subbituminous coal [J]. Energy & Fuels, 1994, 8 (2): 320-323.
[10]
Gianfrancesco A, Vuataz G, Mesnier X, Meunier V. New methods to assess water diffusion in amorphous matrices during storage and drying [J]. Food Chemistry, 2012, 132: 1664-1670.
[11]
Tahmasebi A, Yu Jianglong, Han Yanna, Zhao Huan, Bhattacharya S. Thermogravimetric study and modeling for the drying of a Chinese lignite [J]. Asia-Pacific Journal of Chemical Engineering, 2013, 8: 793-803.
[12]
Wang Haihui. Kinetic analysis of dehydration of a bituminous coal using the TGA technique [J]. Energy & Fuel, 2007, 21: 3070-3075.
[13]
Pakowski Z, Adamski R, Kokocinska M, Kwapisz S. Generalized desorption equilibrium equation of lignite in a wide temperature and moisture content range [J]. Fuel, 2011, 90: 3330-3335.
[14]
GB/T 211—2007. Determination of total moisture in coal (煤中全水分的测定方法) [S], 2007.
[15]
Foust A S. Priciples of Unit Operations [M]. 2nd Ed. New York: John Wiely and Sons, Inc., 1980.
[16]
Strumillo C, Kudra T. Drying: Principles, Applications and Design [M]. New York: Gordon and Breach Science Publishers, 1986: 16-17.
[17]
Abhari R, Isaacs L L. Drying kinetics of lignite, subbituminous coals, and high-volatile bituminous coals [J]. Energy and Fuels, 1990, 4 (5): 448-452.
[18]
Matsushita Y, Mitsuhara N, Matsuda S, Harada T, Kumada N. Drying of brown coal using moisture analyzer with halogen heat source and simple drying rate equation [J]. Kagaku Kogaku Ronbunshu, 2012, 38 (2): 123-128.
[19]
Arun S Mujumdar. Handbook of Industrial Drying [M]. 3rd Ed. Boca Raton: CRC Press, 2006: 13-17.
[20]
Metzger T, Irawan A, Tsotsas E. Influence of pore structure on drying kinetics: a pore network study [J]. AIChE Journal, 2007, 53 (12): 3029-3041.
[21]
Zhang Kai, You Changfu. Experimental and numerical investigation of convective drying of single coarse lignite particles [J]. Energy & Fuels, 2010, 24: 6428-6436.
[22]
Chen Minheng (陈敏恒), Cong Dezi (丛德滋), Fang Tunan (方图南), Qi Mingzhai (齐鸣斋). Unit Operation of Chemical Engineering (化工原理) [M]. 3rd ed. Beijing: Chemical Industry Press, 2006.
