煤化学和灰化学：

• 煤大分子结构模型及重构研究
• 煤及含碳原料气化的基础研究
• 气化灰渣热物性及硅酸盐结构
• 灰渣改性及制备无机材料

招收硕士研究生2名，博士研究生2名

主要从事煤化学、气化过程灰化学和固体废弃物利用的应用基础研究

招收化工、冶金、无机非金属材料等方向和研究背景的学生
 

081702-化学工艺
085700-资源与环境
081701-化学工程

能源化学与化工

（1） 工程热化学奖成就奖, 其他, 2022
（2） 侯德榜化工科学技术青年奖, 其他, 2018
（3） 大型高效水煤浆气化过程关键技术创新及应用, 二等奖, 国家级, 2016
（4） 中科院青促会优秀会员, 院级, 2015
（5） 大型气流床煤气化炉内湍流多相流动、传递与反应过程基础研究与工程应用, 一等奖, 省级, 2015
（6） 山西省青年岗位能手, , 省级, 2013

（ 1 ） 煤气化熔渣中铁的价态分布对其流动性的影响及机理, 负责人, 国家任务, 2015-01--2018-12
（ 2 ） 精细化智能配煤系统开发与工程示范, 参与, 地方任务, 2015-01--2018-12
（ 3 ） 煤直接液化残渣与低变质烟煤制备气化用水煤浆的基础研究, 参与, 国家任务, 2013-01--2016-12
（ 4 ） 山西省优秀青年基金项目, 负责人, 地方任务, 2016-06--2018-12
（ 5 ） 中科院青年创新促进会优秀会员, 负责人, 中国科学院计划, 2016-01--2018-12
（ 6 ） 高温气化条件下熔渣速度场和黏度的在线测量仪, 负责人, 中国科学院计划, 2017-01--2019-12
（ 7 ） 液态排渣气化炉中灰渣黏度的若干关键问题, 负责人, 国家任务, 2018-01--2020-12
（ 8 ） 气流床煤气化条件下部分结晶熔渣黏温特性的预测及动态调控机制, 负责人, 国家任务, 2021-01--2024-12
（ 9 ） 污泥—低阶煤协同热解与秸杆水解 耦合技术及装备, 负责人, 国家任务, 2022-11--2026-10
（ 10 ） 含碳废弃物与煤耦合气化的灰化学基础, 负责人, 国家任务, 2024-01--2027-12

已指导学生

黄吉庆  博士研究生  081702-化学工艺  

王志刚  博士研究生  081702-化学工艺  

孔令学  博士研究生  081702-化学工艺  

温海涛  硕士研究生  081701-化学工程  

马志斌  博士研究生  081702-化学工艺  

张慧荣  博士研究生  081702-化学工艺  

代鑫  博士研究生  081702-化学工艺  

颜婷珪  博士研究生  081702-化学工艺  

陈晓东  博士研究生  081702-化学工艺  

贺冲  博士研究生  081702-化学工艺  

葛泽峰  博士研究生  081702-化学工艺  

曹希  博士研究生  081702-化学工艺  

石文举  博士研究生  081701-化学工程  

刘梦杰  博士研究生  081702-化学工艺  

王冀  博士研究生  081702-化学工艺  

张显显  博士研究生  081702-化学工艺  

现指导学生

冯炜  博士研究生  081702-化学工艺  

高龙飞  博士研究生  081700-化学工程与技术  

鲁浩  博士研究生  081700-化学工程与技术  

高培龙  硕士研究生  081700-化学工程与技术  

袁宗帅  博士研究生  081700-化学工程与技术  

冯志馨  硕士研究生  081700-化学工程与技术  

豆浩雨  博士研究生  081700-化学工程与技术  

武创  博士研究生  081700-化学工程与技术  

王坤洋  博士研究生  081700-化学工程与技术  

更新至20240108

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[2]      Wenju Shi, Xuemei Wu, Jin Bai*, Jingpei Cao*, Wen Li. Investigation of sintering and fusibility of iron-rich coal ashes derived from varied coal mines under air condition. Fuel, 2023, 344: 127974.

[3]      Zongshuai Yuan, Guangkai Cai, Longfei Gao, Min Wu, Lingxue Kong*, Jin Bai*, et al. The physical encapsulation and chemical fixation of Zn during thermal treatment process of municipal solid waste incineration (MSWI) fly ash. Waste Management, 2023, 166: 203-210.

[4]      Wei Feng, Mo Zheng*, Lijun Jin, Jin Bai*, Lingxue Kong, Huaizhu Li, Zongqing Bai, Wen Li. Co-pyrolysis behaviors of coal and polyethylene by combining in-situ Py-TOF-MS and reactive molecular dynamics. Fuel, 2023, 331: 125802.

[5]      Wei Feng, Mo Zheng*, Jin Bai*, Xianxian Zhang, Chuang Wu, et al. Dynamic structure transformation of char precursors during co-pyrolysis of coal and HDPE by using ReaxFF MD simulation and experiments. Chemical Engineering Journal, 2023, 472: 145100.

[6]      Haoyu Dou, Jin Bai*, Hao Lu, Tingting Zhang, Lingxue Kong, Zongqing Bai, Wen Li. Effect of TiO₂ on preparation condition, mechanical properties and alkali resistance of continuous basalt fibers. Cement and Concrete Composites, 2023, 136: 104861.

[7]      张显显,白进*,孔令学,李怀柱,郭振兴,白宗庆,李文. 高钠煤气化过程中的灰化学研究进展.洁净煤技术, 2023, 29(7): 110-124.

[8]      Wenju Shi, Xuemei Wu, Jin Bai*, Lingxue Kong, Xiaoming Li, Jingpei Cao, Wen Li. Determination of running temperature in entrained flow gasifier in regard to coal ash melting thermal kinetic effects. Fuel, 2023, 339: 127458.

[9]      Ji Wang, Zongshuai Yuan, Lingxue Kong*, Huaizhu Li, Jin Bai, Zhiqing Wang, Zongqing Bai, Ping Li, WenLi. The critical condition and kinetics of interaction between residual char and slag in the coal slagging gasifier. Fuel, 2023, 341: 127644.

[10]   Chuang Wu, Hao Lu, Jin Bai*, Lingxue Kong, Ji Wang, et al. Reduction behavior and growth kinetics of metallic iron in slag bath of BGL coal gasifier. Fuel, 2023 342: 127795.

[11]   Xianxian Zhang, Lei Huang, Lingxue Kong*, Jin Bai*, et al. Effect of phosphorus-based additives on sodium release during Zhundong coal gasification in flat flame-assisted entrained flow reactor. Conmbustuion and Flame, 2023, 249: 112608.

[12]   Xianxian Zhang,Haoyu Dou, Jin Bai, Lingxue Kong*, et al. Effect of phosphorus on viscosity-temperature behavior of high-sodium coal ash slag. Fuel, 2023, 343: 127930.

[13]   Hao Lu, Jin Bai*, Lingxue Kong, Huaizhu Li, Zongqing Bai, Wen Li, The crystallization kinetics analysis and the new prediction index of melilite-bearing slag under solid fuel gasification condition, Chemical Engineering Journal, 2023, 477: 147089.

[14]   贺冲,郭晶*,秦育红,孔令学,白进,李文. Shell煤气化炉气氛下熔渣中金属铁析出及对其黏度影响的模拟研究, 煤炭学报, 2023, 48(8)： 3218−3228.

[15]   Mengjie Liu, Cheng Zhang, Jin Bai*, Xuetao Wang, et al. Comparative study on the effects of heating rate on char gasification behaviors by thermogravimetric analyzer and high-temperature stage microscope under non-isothermal condition. Fuel, 2023, 343: 127972.

[16]   Xiaoming Li, Jingxia He, Jing Guo*, Xianxian Zhang, Chong He, Jin Bai*, Wen Li. Crystallization-controlled fusion mechanism of the amorphous fly ash from the Shell coal gasifier by particle sieving. Fuel Processing Technology, 2023, 247:107811.

[17]   Xiaoming Li*, Caifeng Yang, Chong He*, Lifei Zhi, Jin Bai, et al. The sintering behavior of Fe-based oxygen carrier with straw ash and sawdust ash by thermodynamic and thermomechanical analysis. Fuel, 2022: 235: 107346.

[18]   Xianxian Zhang, Jin Bai*, Stanislav V. Vassilev, Lingxue Kong, et al. Effect of phosphorus-based additives on ash fusion characteristics of high-sodium coal under gasification condition. Fuel, 2022, 317: 123472.

[19]   Mengjie Liu, Xiaoming Li, Xuetao Wang, Jin Bai*, Lingxue Kong, Zongqing Bai,et al. Insights into the effect of particle size on coal char particle gasification by thermogravimetric analyzer and high temperature stage microscope. Fuel, 2022, 313: 123010.

[20]   Wenju Shi, Jin Bai*, Lingxue Kong, Xiaoming Li, Jingpei Cao, Zongqing Bai, Wen Li. The investigation and regulation of fusion characteristics of coal ash with high sulfur and basic oxides level for the slagging gasifier. Fuel, 2022, 311: 122574.

[21]   Chong He, Jin Bai*, Lingxue Kong, Xiaoming Li, et al. Effect of iron valence distribution on ash fusion behavior under Ar atmosphere by a metallic iron addition in the synthetic coal ash. Fuel, 2022, 310: 122340.

[22]   Rui Diao, Hao Lu, Yaojun, Yang Jin Bai, Xifeng Zhu*. Strategic valorization of bio-oil distillation sludge via gasification: A comparative study for reactivities, kinetics, prediction and ash deposition. Chemical Engineering Journal, 2022, 443: 134334.

[23]   Markus Reinmöller*, Lingxue Kong, Marcel Laabs, Zefeng Ge, Caroline Hommel, Massoud Massoudi Farid, Wenju Shi, Marcus Schreiner, Xi Cao, Stefan Guhl, Jin Bai, et al. Methods for the determination of composition, mineral phases, and process-relevant behavior of ashes and its modeling: A case study for an alkali-rich ash. Journal of the Energy Institute, 2022, 100: 137-147.

[24]   Hao Lu, Jin Bai*, Stanislav V. Vassilev, Lingxue Kong et al. The crystallization behavior of anorthite in coal ash slag under gasification condition. Chemical Engineering Journal, 2022, 445: 136683.

[25]   Marcel Laabs*, Daniel Harry Schwitalla, Zefeng Ge, Lingxue Kong, Jin Bai, et al. Comparison of setups for measuring the viscosity of coal ash slags for entrained-flow gasification. Fuel, 2022, 307: 121777.

[26]   Mo Zheng*, Xiaoxia, Li*, Jin Bai, Li Guo. Chemical structure effects on coal pyrolyzates and reactions by using large-scale reactive molecular dynamics. Fuel, 2022, 327: 1250089

[27]   石文举*,白进*,孔令学,曹景沛,李文. 不同气氛下 Ca-Fe 二元助剂改变高硅铝煤灰熔融温度的规律和机制. 化工学报, 2022, 73(10): 4638-4647.

[28]   贺冲*,白进,郭晶,孔令学,鲁浩,李怀柱,秦育红,李文. 气氛和化学组成对高铁煤灰熔融特性的影响机理. 化工学报, 2022, 73(10): 4648-4658.

[29]   Lei Huang, Xianxian Zhang, Lingxue Kong, Jin Bai*, et al. Formation of fine particles (PM10) from Zhundong high‑sodium coal at entrained flow gasification condition in a flat-flame burner reactor. Fuel Processing Technology, 2022, 231: 107225.

[30]   Xi Cao, Lingxue Kong, Jin Bai*, Zefeng Ge, Wen Li, Guangsuo Yu. Measurement and simulation of viscosity characteristics of coal ash slag under water vapor condition in coal gasification. Fuel, 2022, 308: 212882.

[31]   Xi Cao, Lingxue Kong, Jin Bai*, Zefeng Ge, et al. Influence of water vapor on continuous cooling crystallization characteristics of coal ash slag. Fuel, 2021, 303: 121241.

[32]   Zongshuai Yuan, Ji Wang, Lingxue Kong, Jin Bai*, et al. Comparison study of fusibility between coal ash and synthetic ash. Fuel Processing Technology, 2021, 211: 106593.

[33]   Ji Wang, Lingxue Kong, Jin Bai, Kang Xue*, et al. Characterization of slag from anthracite gasification in moving bed slagging gasifier. Fuel, 2021, 292: 120390.

[34]   Wenju Shi, Marcel Laabs, Markus Reinmöller, Jin Bai*, et al. In-situ analysis of the effect of CaO/Fe₂O₃ addition on ash melting and sintering behavior for slagging-type applications. Fuel, 2021, 285: 119090.

[35]   Wenju Shi, Jin Bai*, Lingxue Kong, Huaizhu Li, Zongqing Bai, Stanislav V. Vassilev, et al. An overview of the coal ash transition process from solid to slag. Fuel, 2021, 287: 119537.

[36]   Wenju Shi, Marcel Laabs, Markus Reinmöller, Jin Bai*, et al. The fusion mechanism of complex minerals mixture and prediction model for flow temperature of coal ash for gasification. Fuel, 2021, 305: 121448.

[37]   Daniel Harry Schwitalla, Stefan Guhl, Marcel Laabs, Markus Reinmöller, Jin Bai, Bernd Meyer. Thermochemical and analytical approach to describe secondary slag phase formation and local process conditions in a full-scale BGL gasifier. Fuel Processing Technology, 2021, 217: 106833.

[38]   Hao Lu, Baozi Peng, Zefeng Ge, Jin Bai*, Lingxue Kong, et al. The viscosity and crystallization behavior of slag from co-gasification of coal and extraction residue from direct coal liquefaction residue at high temperatures. Fuel, 2021, 285: 119119.

[39]   Mengjie Liu, Qili He, Jin Bai*, Jianglong Yu, Lingxue Kong, et al. Char reactivity and kinetics based on the dynamic char structure during gasification by CO₂. Fuel Processing Technology, 2021, 211: 106583.

[40]   Huaizhu Li, Lingxue Kong*, Jin Bai*, Zongqing Bai, et al. Modification of ash flow properties of coal rich in calcium and iron by coal gangue addition. Chinese Journal of Chemical Engineering, 2021, 35: 239-246.

[41]   Lingxue Kong, Jin Bai*, Wen Li. Viscosity-temperature property of coal ash slag at the condition of entrained flow gasification: A review. Fuel Processing Technology, 2021, 215: 106751.

[42]   Chong He, Alexander Ilyushechkin, Jin Bai*, et al. Viscosity and crystallisation behaviour of coal ash slag from the primary phase of anorthite. Fuel Processing Technology, 2021, 213: 106680.

[43]   Longfei Gao, Xingchen Liu, Jin Bai*, Lingxue Kong, Zongqing Bai, Wen Li. Structure and flow properties of coal ash slag using ring statistics and molecular dynamics simulation: Role of CaO/Na₂O in SiO₂–Al₂O₃–CaO–Na₂O. Chemical Engineering Science, 2021, 231: 116285.

[44]   王冀,孔令学*,白进,李怀柱,郭振兴,白宗庆, 李文. 煤气化灰渣中残炭对灰渣流动性影响的研究进展.洁净煤技术2021, 27( 1): 181－192.

[45]   Daniel Harry Schwitalla, Stefan Guhl*, Justyna Körner, Marcel Laabs, Jin Bai, Bernd Meyer. Meta-study on the effect of P₂O₅ on single phase slag viscosity and the effect of P₂O₅ induced liquid phase immiscibility on dispersion viscosity. Fuel, 2021, 305: 121501.

[46]   Roh Pin Lee, Seidl Ludwig Georg, Qiuliang Huang, Meyer Bernd. An analysis of waste gasification and its contribution to China's transition towards carbon neutrality and zero waste cities. Journal of Fuel Chemistry and Technology, 2021, 49(8): 1057-1076.

[47]   Zhigang Wang, Lingxue Kong, Jin Bai*, Zefeng Ge, et al. Dissolution of Cr₂O₃ into Coal Slag and Its Impact on Slag Flow Properties. Energy & Fuels, 2020, 34(10): 11987-11997.

[48]   Ji Wang, Lingxue Kong*, Jin Bai, Huiling Zhao, et al. The role of residual char on ash flow behavior, Part 3: Effect of Fe₂O₃ content on ash fusibility and carbothermal reaction. Fuel, 2020, 280: 118705.

[49]   Wenju Shi, Jin Bai*, Lingxue Kong et al. Effect of CaO/Fe₂O₃ ratio on fusibility of coal ashes with high silica and alumina levels and prediction. Fuel, 2020, 260: 116369.

[50]   Mengjie Liu, Jin Bai*, Jianglong Yu, Lingxue Kong, et al. Correlation between Char Gasification Characteristics at Different Stages and Microstructure of Char by Combining X-ray Diffraction and Raman Spectroscopy. Energy & Fuels, 2020, 34(4): 4162-4172.

[51]   Mengjie Liu, Jin Bai*, Lingxue Kong, Zongqing Bai, Chong He, Wen Li. The correlation between coal char structure and reactivity at rapid heating condition in TGA and heating stage microscope. Fuel, 2020, 260: 116318.

[52]   Chong He, Alexander Ilyushechkin*, San Shwe Hla. In situ measurements of solid-phase kinetic growth during slag isothermal crystallisation. Journal of Crystal Growth, 2020, 534: 125509

[53]   Chen Yixin, Lee Soonho, Tahmasebi Arash, Bai Jin, Vongsvivut Jitraporn, Yu Jianglong*. Chemical structure transformation during the later stage of plastic layers during coking using Synchrotron infrared microspectroscopy technique. Fuel, 2020, 273: 117764

[54]   Chen Yixin, Lee Soonho, Tahmasebi Arash, Bai Jin, Mahoney Merrick, Yu Jianglong*. A review of the state-of-the-art research on carbon structure evolution during the coking process: From plastic layer chemistry to 3D carbon structure establishment. Fuel, 2020, 271: 117657

[55]   Xiaoming Li, Hong Zhang, Mengjie Liu, Lifei Zhi, Jin Bai*, Zongqing Bai, Wen Li. Investigation of coal-biomass interaction during co-pyrolysis by char separation and its effect on coal char structure and gasification reactivity with CO₂. Journal of Fuel Chemistry and Technology, 2020, 48(8): 897-907.

[56]   Xiaoming Li, Lifei Zhi, Wenju Shib, Lingxue Kong, Jin Bai*, et al. Effect of K₂O/Na₂O on fusion behavior of coal ash with high silicon and aluminum level. Fuel, 2020, 265: 116964.

[57]   Xiaoming Li, Xiaodong Chen, Congbin Jiang, Jianping Ding, Jinjun Guo, Lingxue Kong, Jin Bai*, et al. Influence of the Slag–Crucible Interaction on Coal Ash Fusion Behavior at High Temperatures. Energy & Fuels, 2020, 34(3): 3087-3099.

[58]   Alexander Ilyushechkin*, Alex Kondratiev, Chong He, Jin Bai, et al. Viscosity of Spinel Primary Phase Field Slags from Australian Brown Coals. Energy & Fuels, 2020, 34(3): 3041-3056.

[59]   Zefeng Ge, Lingxue Kong, Jin Bai*, Xi Cao, Huiling Zhao, et al. Crystallization kinetics and T_CV prediction of coal ash slag under slag tapping conditions in an entrained flow gasifier. Fuel, 2020, 272: 117723.

[60]   Xin Dai, Jin Bai*, Ping Yuan,Shiyu Du, et al. The application of molecular simulation in ash chemistry of coal. Chinese Journal of Chemical Engineering, 2020, 28(11): 2723-2732.

[61]   Xi Cao, Baozi Peng, Lingxue Kong, Jin Bai*, Zefeng Ge, et al. Flow properties of ash and slag under co-gasification of coal and extract residue of direct coal liquefaction residue. Fuel, 2020, 264: 116850.

[62]   Xi Cao, Lingxue Kong, Jin Bai*, Zefeng Ge, et al. Effect of water vapor on viscosity behavior of coal slags with high silicon-aluminum level under gasification condition. Fuel, 2020, 260: 116351.

[63]   颜婷珪,白进,孔令学,代鑫,李怀柱,郭振兴,白宗庆,李文. 煤灰流动性研究方法进展. 洁净煤技术. 2020, 26(1): 90-98.

[64]   Zefeng Ge, Jin Bai*, et al. Effect of CaO/Fe₂O₃ ratio on slag viscosity behavior under entrained flow gasification conditions. Fuel, 2019, 258: 1-10.

[65]   Ji Wang, Lingxue Kong, Jin Bai*, Huiling Zhao, Stefan Guhl, Huaizhu Li, Zongqing Bai, Bernd Meyer, Wen Li. The role of residual char on ash flow behavior, Part 2: Effect of SiO₂/Al₂O₃ on ash fusibility and carbothermal reaction. Fuel, 2019, 225:1-8.

[66]   Chong He, Jin Bai*, Alexander Ilyushechkin*, et al. Effect of chemical composition on the fusion behaviour of synthetic high-iron coal ash. Fuel, 2019, 253: 1465-1472

[67]   Chong He, Jin Bai*, et al. Effects of atmosphere on the oxidation state of iron and viscosity behavior of coal ash slag. Fuel, 2019: 243: 41-51.

[68]   Xiaoming Li, Lifei Zhi, Chong He, Stefan Guhl, Bernd Meyer, Lingxue Kong, Jin Bai*, Wen Li. The factors on metallic iron crystallization from slag of direct coal liquefaction residue SiO₂-Al₂O₃-Fe₂O₃-CaO-MgO-TiO₂-Na₂O-K₂O system in the entrained flow gasification condition. Fuel, 2019: 246: 417-424.

[69]   Xin Dai, Jin Bai*, Qing Huang, Zhen Liu, et al. Viscosity temperature properties from molecular dynamics simulation: the role of calcium oxide, sodium oxide and ferrous oxide. Fuel, 2019: 237: 163-169.

[70]   Xi Cao. Lingxue Kong, Jin Bai*. Zefeng Ge. Chong He. Huaizhu Li. Zongqing Bai, Wen Li. Effect of water vapor on coal ash slag viscosity under gasification condition. Fuel, 2019, 237: 18-27.

[71]   Chong He. Jin Bai*. Weicheng Li. Lingxue Kong. Jiang Xu. Stefan Guhl. Xiaoming Li. Zongqing Bai. Wen Li. Iron transformation behavior in coal ash slag in the entrained flow gasifier and the application for Yanzhou coal. Fuel, 2019, 237: 851-859.

[72]   Tinggui Yan, Jin Bai*, et al. Improved prediction of critical-viscosity temperature by fusion behavior of coal ash. Fuel, 2019, 253: 1521-1530.

[73]   Zhigang Wang*. Lingxue Kong, Jin Bai*, Huaizhu Li, Chong He, Tinggui Yan, Wen Li. Effect of vanadium and nickel on iron-rich ash fusion characteristics. Fuel, 2019, 246: 491-499.

[74]   Huirong Zhang, Jin Bai*, Wen Li, Fangqin Cheng. Carbothermal reactions of tobelite with coal char at high temperatures under N₂ atmosphere. Journal of Analytical and Applied Energy, 2019, 137: 220-226.

[75]   Huirong Zhang, Jin Bai*, Wen Li, Fangqin Cheng. Comprehensive evaluation of inherent mineral composition and carbon structure parameters on CO₂ reactivity of metallurgical coke. Fuel, 2019, 235: 647-657.

[76]   Zefeng Ge, Lingxue Kong. Jin Bai*, et al. Effect of CaO/Na₂O on slag viscosity behavior under entrained flow gasification conditions. Fuel Processing Technology, 2018, 181: 352-360.

[77]   Wenju Shi, Lingxue Kong, Jin Bai*, Jiang Xu, Weicheng Li, Zongqing Bai, Wen Li. Effect of CaO/Fe₂O₃ on fusion behaviors of coal ash at high temperatures. Fuel Processing Technology, 2018, 181: 18-24.

[78]   Ji Wang, Lingxue Kong, Jin Bai*, et al. The role of residual char on ash flow behavior, Part 1: The effect of graphitization degree of residual char on ash fusibility. Fuel, 2018, 234: 1173-1180.

[79]   Daniel Schwitalla, Markus Reinmöller, Clemens Forman, Christian Wolfersdorfa, Matthias Gootza, Jin Bai, Stefan Guhl*, Markus Neuroth, Bernd Meyer. Ash and slag properties for co-gasification of sewage sludge and coal: An experimentally validated modeling approach. Fuel Processing Technology, 2018, 175: 1-9.

[80]   Lingxue Kong, Jin Bai*, Huaizhu Li, Xiaodong Chen, Zongqing Bai, Wen Li. The mineral evolution during coal washing and its effect on ash fusion characteristics of Shanxi high ash coals. Fuel, 2018, 212: 268-273.

[81]   Wenju Shi, Xin Dai, Jin Bai*, Lingxue Kong, Jiang Xu, Xiaoming Li, Zongqing Bai, Wen Li. A new method of estimating the liquidus temperature of coal ash slag using ash composition. Chemical Engineering Science, 2018, 175: 278-285.

[82]   Xin Dai, Jin Bai*, et al. Coal ash fusion properties from molecular dynamics simulation: the role of calcium oxide. Fuel, 2018, 216: 760-767.

[83]   Xiaodong Chen, Lingxue Kong*, Jin Bai*, Xin Dai, Huaizhu Li, Zongqing Bai, Wen Li. The key for sodium-rich coal utilization in entrained flow gasifier: The role of sodium on slag viscosity-temperature behavior at high temperatures. Applied Energy, 2017, 206: 1241-1249.

[84]   Xiaodong Chen, Lingxue Kong, Jin Bai*, Zongqing Bai, Wen Li. Study on fusibility of coal ash rich in sodium and sulfur by synthetic ash under different atmospheres. Fuel, 2017, 202: 175-183.

[85]   Chong He, Jin Bai*, LingXue Kong, Stefan Guhl, Daniel Harry Schwitalla, Jiang Xu, Zongqing Bai, Wen Li. The precipitation of metallic iron from coal ash slag in the entrained flow coal gasifier: By thermodynamic calculation. Fuel Processing Technology, 2017, 162: 98-104.

[86]   Tinggui Yan, Jin Bai*, Lingxue Kong, Zongqing Bai, Wen Li, Jiang Xu. Effect of SiO₂/Al₂O₃ on fusion behavior of coal ash at high temperature. Fuel, 2017, 193: 275-283.

[87]   Yan Tinggui, Kong Lingxue, Jin Bai*, Bai Zongqing, Li Wen. Thermomechanical analysis of coal ash fusion behavior. Chemical Engineering Science, 2016, 147: 74-82.

[88]   Huirong Zhang, Jin Bai*, Lingxue Kong, et al. Thermal transformation of tobelite from coal at high temperatures and the kinetics and mechanism of dehydroxylation and deamination process. Fuel Processing Technology, 2016, 144: 203-211.

[89]   Lingxue Kong, Jin Bai*, Zongqing Bai, Zhenxing Guo, Wen Li. The Internal and External Factor on Coal Ash Slag Viscosity at High Temperatures, Part 3: Effect of calcium on the viscosity-temperature curve. Fuel, 2016, 179: 10-16.

[90]   Xin Dai, Jian He, Jin Bai*, Qing Huang, Xiaodong Wen, et al. Ash Fusion Properties from Molecular Dynamics Simulation: Role of the Ratio of Silicon and Aluminum. Energy Fuels, 2016, 30: 2407-2413.

[91]   Lingxue Kong, Jin Bai*, Zongqing Bai, Zhenxing Guo, Wen Li. The Internal and External Factor on Coal Ash Slag Viscosity at High Temperatures, Part 1: Effect of cooling rate on slag viscosity, measured continuously. Fuel, 2015, 158: 968-975.

[92]   Lingxue Kong, Jin Bai*, Zongqing Bai, Zhenxing Guo, Wen Li. The Internal and External Factor on Coal Ash Slag Viscosity at High Temperatures, Part 2: Effect of residual carbon. Fuel, 2015, 158: 976-982.

[93]   Huirong Zhang, Jin Bai*, Lingxue Kong, et al Behavior of Minerals in Typical Shanxi Coking Coal during Pyrolysis. Energy & Fuels, 2015, 29 (11): 6912-6919.

[94]   Zhu Liu, Dabo Guan, Wei Wei, Steven J. Davis, Philippe Ciais, Jin Bai, et al. Reduced carbon emission estimates from fossil fuel combustion and cement production in China. Nature, 2015, 524: 335-338.

[95]   Zhibin Ma, Jin Bai*, Wen Li, Zongqing Bai, Lingxue Kong. Mineral Transformation in Char and Its Effect on Coal Char Gasification Reactivity at High Temperatures, Part 2: Char Gasification. Energy & Fuels, 2014, 28(3): 1846-1853.

[96]   Zhibin Ma, Jin Bai*, Wen Li, Zongqing Bai, Lingxue Kong. Mineral Transformation in Char and Its Effect on Coal Char Gasification Reactivity at High Temperatures, Part 3: Carbon Thermal Reaction. Energy & Fuels, 2014, 28 (5): 3066-3073.

[97]   Zhigang Wang, Jin Bai*, Lingxue Kong, Xiaodong Wen, Xiaoming Li, Zongqing Bai, Wen Li, Yue Shi. Viscosity of coal ash slag containing vanadium and nickel. Fuel Processing Technology, 2014, 136: 25-33.

[98]   Lingxue Kong, Jin Bai*, Zongqing Bai, Zhenxing Guo, Wen Li. Improvement of Ash Flow Properties of Low-rank Coal for Entrained Flow Gasifier. Fuel, 2014, 120(11-12): 122-129.

[99]   Lingxue Kong, Jin Bai*, Wen Li, Zongqing Bai. Effect of CaCO₃ on slag flow properties at high temperatures. Fuel, 2013, 109(1-2):76-85.

[100]             Zhigang Wang, Jin Bai *, Lingxue Kong, Wen Li, Zongqing Bai. Effect of V and Ni on Ash Fusion Temperatures. Energy & Fuels, 2013, 27(12): 7303-7313.

[101]             Zhibin Ma, Jin Bai *, Wen Li, Zongqing Bai, Lingxue Kong Mineral Transformation in Char and Its Effect on Coal Char Gasification Reactivity at High Temperatures, Part 1: Mineral Transformation in Char. Energy & Fuels, 2013, 27(8) : 4545–4554.

[102]             Jin Bai, Wen Li, Baoqing Li. Characterization of low-temperature coal ash behaviors at high temperatures under reducing atmosphere. Fuel, 2008, 87(4-5): 583–591.

[103]             Jin Bai, Wen Li, Chunzhu Li, Baoqing Li. Influences of minerals transformation on the reactivity of high temperature char gasification. Fuel Processing Technology, 2010, 91(4): 404-409.

[104]             Jin Bai, Wen Li, Zongqing Bai. Effects of Mineral Matter and Coal Blending on Gasification. Energy & Fuels, 2011, 25(3): 1127-1131.

[105]             Jin Bai, Wen Li, Chunzhu Li, Baoqing Li. Influences of mineral matter on high temperature char gasification. Journal of Fuel Chemistry and Technology, 2009, 37(2): 134-139.

[106]             Jin Bai, Wen Li, Chunzhu Li, Baoqing Li. Influence of coal blending on mineral transformation at high temperatures. Mining Science and Technology (China), 2009, 19(3): 300-305

[107]             Lingxue Kong, Jin Bai*, Wen Li, Zongqing Bai. Effect of lime on slag fluidity of coal ash. Journal of Fuel Chemistry and Technology, 2011, 39(6): 407-412.