1、Mechanistic study of the conversion from dmdfc to dohe in the levulinic acid formation process by theoretical approaches. Ze Wang. Weigang Lin. and Wenli Song. Bioresources6(2).1858-1867.2、Theoretical study of the conversion from 5-hydroxymethylfuran-2-carbaldehyde to 2-hydroxy-5-methylene-2.5-dihydro-furan-2-carbaldehyde in the levulinic acid formation process. Ze Wang. Weigang Lin. and Wenli Song. Bioresources6(4).4045-4054 Journal of china coal society.
3、甲烷及二氧化碳在不同煤阶煤内部的吸附扩散行为. 张登峰,崔永君,李松庚,宋文立,林伟刚.煤炭学报. 第36卷第10期. 2011年10月p:1693-1698.
4、Component fractionation of wood-tar by column chromatography with the packing material of silica gel.
WANG Ze. LIN WeiGang. SONG WenLi. DU Lin. LI ZhengJie. YAO JianZhong. Chinese Science Bulletin. May 2011 Vol56 No.14:1434-1441.
5、Thermogravimetric analysis on gasification reactivity of Hailar lignite. Ao Hou. Ze Wang. Wenli Song. Weigang Lin. Journal of Thermal Analysis and Calorimetry.
6、Process Simulation Development of Coal Combustion in a Circulating Fluidized Bed Combustor Based on Aspen Plus. Bing Liu. Xuemin Yang. Wenli Song. and Weigang Lin. energy fuels 2011,25,1721-1730
7、吉林桦甸油页岩及热解产物的红外光谱分析. 谢芳芳,王泽,林伟刚,宋文立. 光谱学及光谱分析 第31卷,第1期 2011年1月.
8、Supercritical Pure Methane and CO2 Adsorption on Various Rank Coals of China:Experiments and Modeling. Deng-Feng Zhang. Yong-Jun Cui. Bing Liu. Song-Geng Li. Wen-Li Song. and Wei-Gang Lin. energy fuels. 2011,25,1891-1899.
9、Displacement Behavior of Methane Adsorbed on Coal by CO2 Injection. Dengfeng Zhang. Songgeng Li. Yongjun Cui. Wenli Song. and Weigang Lin. Industrial Engineering Chemistry Research. 2011,50, 8742-8749.
10、Experimental Study of HCL Capture Using CaO Sorbents: Activation, Deactivation, Reactivation, and lonic Transfer Mechanism. Zhenchao Sun. Fu-Chen Yu Fanxing.Li. Songgeng. Li. and Liang-Shih Fan. Industrial & Engineering Chemistry Research. 2011,50,6034-6043.
11、铁基化学链法调节合成气氢碳比及联产氢气的实验研究. 苏玉琰,李松庚,宋文立,林伟刚. 过程工程学报. 2011年4月,第11卷第2期 p:269-275.
12、Process Simulation of Emission and Control for NO and N2O during Coal Combustion in a Circulating Fluidized Bed Combustor Based on Aspen Plus. Xuemin Yang. Bing Liu. Wenli Song. andWeigang Lin. Energy & Fuels. 2011,25,3718-3730.
13、Process simulation of formation and emission of NO and N2O during coal decoupling combustion in a circulating fluidized bed combustor using Aspen Plus. Bing Liu. Xue-min Yang. Wen-li Song. Wei-gang Lin. Chem, Eng. Sci. (2011).
14、A universal thermodynamic model of calculating mass action concentrations for structural units or ion couples in aqueous solutions and its applications in binary and ternary aqueous solutions. YANG-Xue-min. ZHAO Wei-jie. CHAI Guo-ming. GUO Han-jie. ZHANG Qiang. Transactions of Nonferrous Metals Society of China, 21(2011) 626-641.
15、A Thermodynamic Model of Phosphate Capacity for CaO-SiO2-MgO-FeO-Fe2O3-MnO-Al2O3-P2O5 Slags Equilibrated with Molten Steel during a Top-Bottom Combined Blown Converter Steelmaking Process Based on the lon and Molecule Coexistence Theory. XUE-MIN YANG. CHENG-BIN SHI. MENG ZHANG. HAN-PING DUAN. and JIAN ZHANG. METALLURGICAL AND MATERIALS TRANSACTION B VOLUME 42B OCTOBER 2011 P:951-977.
16、A Thermodynamic Model of Phosphorus Distribution Ratio between CaO-SiO2-MgO-FeO-Fe2O3-MnO-Al2O3-P2O5 Slags and Molten Steel during a Top-Bottom Combined Blown Converter Steelmaking Process Based on the lon and Molecule Coexistence Theory. XUE-MIN YANG. JIAN-PING DUAN. CHENG-BIN SHI. MENG ZHANG. YONG-LIANG ZHANG. And JIAN-CHANG WANG. METALLURGICAL AND MATERIALS TRANSACTION B VOLUME 42B. AUGUST 2011 p:738-770.
17、A Sulfide Capacity Prediction Model of CaO-SiO2-MgO-FeO-MnO-Al2O3 Slags during the LF Refining Process Based on the lon and Molecule Coexistence Theory XUE-MIN YANG. MENG ZHANG. CHENG-BIN SHI. GUO-MING CHAI. and JIAN ZHANG. METALLURGICAL AND MATERIALS TRANSACTION B 14-12-2011 pages:26.
18、A Thermodynamic Model of Sulfur Distribution Ratio between CaO-SiO2-MgO-FeO-MnO-Al2O3 Slags and Molten Steel during LF Refining Process Based on the lon and Molecule Coexistence Theory XUE-MIN YANG. CHENG-BIN SHI. MENG ZHANG. GUO-MING CHAI and FEI WANG. METALLURGICAL AND MATERIALS TRANSACTION B volume 42B,december 2011 p:1150-1180.
19、煤炭解耦燃烧过程N迁移与转化Ⅰ:热解阶段N分配规律(学术会议论文). 谢建军,杨学民,朱文魁,丁同利,宋文立,林伟刚. 中国工程热物理学会.
20、煤炭解耦燃烧过程N迁移与转化Ⅱ:单组分气相化学反应实验(学术会议论文). 谢建军,杨学民,陈安合,丁同利,宋文立,林伟刚. 中国工程热物理学会.
21、煤炭解耦燃烧过程N迁移与转化Ⅲ:多组分气相化学反应实验 (学术会议论文). 谢建军,杨学民 陈安合,丁同利,宋文立,林伟刚, 中国工程热物理学会.
22、煤炭解耦燃烧过程N迁移与转化Ⅳ:气相化学反应动力学模拟 (学术会议论文). 谢建军,杨学民,丁同利,宋文立,林伟刚,吴少华. 中国工程热物理学会.
23、煤炭解耦燃烧过程N迁移与转化Ⅴ:解耦循环流化床流动与温度分布特性(学术会议论文)谢建军,杨学民,丁同利,陈安合,姚建中,宋文立,林伟刚. 中国工程热物理学会.
24、煤炭解耦燃烧过程N迁移与转化Ⅵ:循环流化床煤炭解耦燃烧氮氧化物排放 (学术会议论文)谢建军,杨学民,丁同利,陈安合,姚建中,宋文立,林伟刚. 中国工程热物理学会.
25、煤拔头烟煤焦的物质组成及碳结构. 申春梅,吴少华,林伟刚,宋文立. 热能动力工程 第26卷第2期 2011年1月.
26、煤-富钾生物质共转化催化煤焦气化反应的研究. 朱文魁,宋文立,林伟刚. 中国矿业大学学报, 第40卷第4期 2011年7月.
