煤化學(xué)和灰化學(xué)：
高溫?zé)徂D(zhuǎn)化過程中，煤中有機物轉(zhuǎn)化規(guī)律及影響因素；
高溫?zé)徂D(zhuǎn)化過程中，煤中無機礦物質(zhì)的變遷規(guī)律及對有機物轉(zhuǎn)化的影響，飛灰形成機理及顆粒物特性，熔渣流體性質(zhì)研究，飛灰和灰渣的高附加值利用，煤矸石中礦物質(zhì)的有效轉(zhuǎn)化；

招收碩士研究生2名，博士研究生2名

主要從事煤化學(xué)、氣化過程灰化學(xué)和固體廢棄物利用的應(yīng)用基礎(chǔ)研究

招收化工、冶金、無機非金屬材料等方向和研究背景的學(xué)生
 

1.     國家重點研發(fā)計劃項目，污泥-低階煤協(xié)同熱解與秸稈水解耦合技術(shù)及裝備，2022.11-2026.10，7331.4萬元，在研，主持

2.     NSFC面上項目，氣流床煤氣化條件下部分結(jié)晶熔渣黏溫特性的預(yù)測及動態(tài)調(diào)控機制，2021.01-2025.12，63萬，在研，主持

3.     NSFC與德國科學(xué)基金會合作研究項目，液態(tài)排渣氣化爐中灰渣黏度的若干關(guān)鍵問題，2018. 01-2020.12，180萬，結(jié)題，主持

4.     科技部重點研發(fā)項目子課題，水煤漿氣化爐中水蒸氣條件下熔渣的黏溫特性及預(yù)測模型，2017.07-2021.04，72萬，結(jié)題，主持

5.     中科院“一帶一路”合作項目，蒙古中低階煤的分級轉(zhuǎn)化特性及微量元素遷移，2018.01-2020.12，100萬，結(jié)題，主持

6.     中科院科研裝備研制項目，高溫氣化條件下熔渣速度場和黏度的在線測量儀，2017.014-2018.12，300萬，結(jié)題，主持

7.     中科院青年創(chuàng)新促進會優(yōu)秀會員，中科院人才項目，2016/01-2018/12，180萬，結(jié)題，主持

8.     鈣鐵復(fù)合助劑調(diào)控山西典型無煙煤黏溫特性的機理研究，山西省優(yōu)青，2016/07-2018/12，10萬，結(jié)題，主持

9.     國家自然科學(xué)基金面上項目，21476247，煤氣化熔渣中鐵的價態(tài)分布對其流動性的影響及機理，2015/01-2018/12，86萬元，結(jié)題，主持

10.  山西煤炭化學(xué)研究所杰出青年人才B類，201606-2019/06，150萬，結(jié)題，主持

已指導(dǎo)學(xué)生

黃吉慶  博士研究生  081702-化學(xué)工藝  

王志剛  博士研究生  081702-化學(xué)工藝  

孔令學(xué)  博士研究生  081702-化學(xué)工藝  

溫海濤  碩士研究生  081701-化學(xué)工程  

馬志斌  博士研究生  081702-化學(xué)工藝  

張慧榮  博士研究生  081702-化學(xué)工藝  

代鑫  博士研究生  081702-化學(xué)工藝  

顏婷珪  博士研究生  081702-化學(xué)工藝  

陳曉東  博士研究生  081702-化學(xué)工藝  

賀沖  博士研究生  081702-化學(xué)工藝  

葛澤峰  博士研究生  081702-化學(xué)工藝  

曹希  博士研究生  081702-化學(xué)工藝  

石文舉  博士研究生  081701-化學(xué)工程  

劉夢杰  博士研究生  081702-化學(xué)工藝  

王冀  博士研究生  081702-化學(xué)工藝  

現(xiàn)指導(dǎo)學(xué)生

馮煒  博士研究生  081702-化學(xué)工藝  

張顯顯  博士研究生  081702-化學(xué)工藝  

高龍飛  博士研究生  081700-化學(xué)工程與技術(shù)  

魯浩  博士研究生  081700-化學(xué)工程與技術(shù)  

高培龍  碩士研究生  081700-化學(xué)工程與技術(shù)  

袁宗帥  博士研究生  081700-化學(xué)工程與技術(shù)  

馮志馨  碩士研究生  081700-化學(xué)工程與技術(shù)  

豆浩雨  博士研究生  081700-化學(xué)工程與技術(shù)  

武創(chuàng)  博士研究生  081700-化學(xué)工程與技術(shù)  

[1]     Zefeng Ge, Lingxue Kong, Jin Bai*, Xi Cao, Huiling Zhao, Huaizhu Li, Zongqing Bai, Bernd Meyer, Stefan Guhl, Wen Li. Crystallization kinetics and TCV prediction of coal ash slag under slag tapping conditions in an entrained flow gasifier. Fuel, 272, 2020, 117723.

[2]     Xiaoming Li#, Lifei Zhi, Wenju Shi*, Lingxue Kong, Jin Bai*, Jianglong Yu, Markus Reinmöller, Stefan Guhl, Bernd Meyer, Wen Li. Effect of K2O/Na2O on fusion behavior of coal ash with high silicon and aluminum level. Fuel. 2020. 265: 116964 (SCI).

[3]     Xiaoming Li#, Xiaodong Chen#, Congbin Jiang, Jianping Ding Jinjun Guo, Lingxue Kong, Jin Bai*, Wen Li. Influence of the Slag–Crucible Interaction on Coal Ash Fusion Behavior at High Temperatures. Energy & Fuels. 2020, 34(3):87-3099 (SCI).

[4]     Liu, Mengjie; Bai, Jin; Yu, Jianglong; Kong, Lingxue; Bai, Zongqing; Li, Huaizhu; He, Chong; Ge, Zefeng; Cao, Xi; Li, Wen. The correlation between char gasification characteristic at different stages and microstructure of char by combing XRD and Raman. Energy & Fuels. 2020, 34, 4, 4162-4172

[5]     Xi Cao, Jin Bai*, et al. Effect of water vapor on viscosity behavior of coal slags with high silicon-aluminum level under gasification condition. Fuel. 2020. 260:116-351.

[6]     Wenju Shi, Jin Bai*, et al. Effect of CaO/Fe2O3 ratio on fusibility of coal ashes with high silica and alumina levels and prediction. Fuel. 2020. 260:116-369.

[7]     Mengjie Liu, Jin Bai*, et al. The correlation between coal char structure and reactivity at rapid heating condition in TGA and heating stage microscope. Fuel. 2020. 260C: 116-318

[8]     Zefeng Ge, Jin Bai*, et al. Effect of CaO/Fe2O3 ratio on slag viscosity behavior under entrained flow gasification conditions. Fuel. Accepted.

[9]     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

[10] 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

[11] Tinggui Yan, Jin Bai*, et al. Improved prediction of critical-viscosity temperature by fusion behavior of coal ash. Fuel. 2019.253: 1521-1530

[12] 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.

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

[14] 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.

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

[16] Xin Dai; Jin Bai*; Qing Huang; Zhen Liu; Xiaojing Bai; Ronggen Cao; Xiaodong Wen; Wen Li; Shiyu Du. Viscosity temperature properties from molecular dynamics simulation: the role of calcium oxide, sodium oxide and ferrous oxide. Fuel. 2019.237:163-169

[17] Xi Cao; Lingxue Kong, Dr.; Jin Bai*; Zefeng Ge; Chong He; Huaizhu Li; Zongqing Bai, Prof.; Wen Li. Effect of water vapor on coal ash slag viscosity under gasification condition. Fuel. 2019.237:18-27.

[18] 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

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

[20] Zefeng Ge, Lingxue Kong. Jin Bai*….. Effect of CaO/Na2O on slag viscosity behavior under entrained flow gasification conditions. Fuel Processing Technology. 2018.181:352-360

[21] Wen-Ju Shi, Ling-Xue Kong, Jin Bai, Jiang Xu, Wei-ChengLi, Zong-QingBai, WenLi, Effect of CaO/Fe2O3 on fusion behaviors of coal ash at high temperatures. Fuel Processing Technology. 2018. 181: 18-24

[22] 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

[23] 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 175 (2018) 1–9

[24] 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.

[25] 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

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

[27] 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.

[28] Xiao-Dong 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

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

[30] 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

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

[32] 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

[33] 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

[34] Xin Dai, Jian He, Jin Bai*, Qing Huang, Xiaodong Wen, Lu Xie, Kan Luo, Jian Zhang, Wen Li, and Shiyu Du. Ash Fusion Properties from Molecular Dynamics Simulation: Role of the Ratio of Silicon and Aluminum. Energy Fuels 2016, 30: 2407−2413

[35] 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.

[36] 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.

[37] 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.

[38] 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

[39] 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

[40] 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

[41] 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.

[42] 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

[43] 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

[44] 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.

[45] 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

[46] 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

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

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

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

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

[51] 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

[52] 溫海濤，孔令學(xué)，白進，白宗慶，呂冬梅，李文. 高溫氣化條件下煤直接液化殘渣中礦物質(zhì)演化行為的研究. 燃料化學(xué)學(xué)報. 2015, 43(3): 257-265.

[53] 孔令學(xué)，白進，李懷柱，郭振興，白宗慶，李文. 利用熱機械分析儀測定煤灰熔融性的研究. 煤質(zhì)技術(shù). 2015, (3): 23-27

[54] 白進，李文，孔令學(xué)， 顏婷圭，李懷柱，郭振興. 氣化過程的灰化學(xué)及其應(yīng)用. 煤炭加工與綜合利用. 2015, (2): 10-17

[55] 白進, 孔令學(xué), 李懷柱, 郭振興, 白宗慶, 尉遲唯, 李文. 山西典型無煙煤灰流動性的調(diào)控. 燃料化學(xué)學(xué)報. 2013，41 (07): 805-813 

[56] 陳曉東, 孔令學(xué), 白進, 白宗慶, & 李文. (2016). 高溫氣化條件下na2o對煤灰中礦物質(zhì)演化行為的影響. 燃料化學(xué)學(xué)報, 2016. 44(3), 263-272.

[57] 李懷柱, 孔令學(xué), 白進, 白宗慶, & 李文. (2017). 山西"兩高"煤灰分對石灰石助熔機制影響的研究. 燃料化學(xué)學(xué)報, 2017. 45(12), 1409-1416.

[58] 王志剛, 白進, 孔令學(xué), 李懷柱, 白宗慶, & 李文. (2017). Regulation of high temperature flow properties of ash containing v and ni%含v和ni灰高溫流動性的調(diào)控研究. 燃料化學(xué)學(xué)報, 045(010), 1164-1171.

[59] 代鑫, 白進, 李東濤, et al. Al2O3-SiO2-CaO-FeO四元體系煤灰結(jié)構(gòu)及流動性關(guān)系的實驗和理論研究.Experimental and theoretical investigation on relationship between structures of coal ash and its fusibility for Al2O3-SiO2-CaO-FeO system[J]. 燃料化學(xué)學(xué)報, 2019, 047(006):641-648.

[60] 顏婷珪，白進，孔令學(xué),等.煤灰流動性研究方法進展[J].潔凈煤技術(shù)，2020，26(1):90-98.