2005-2008上海交通大學 熱能工程專業(yè)博士
2002-2005東北電力大學 熱能工程專業(yè)碩士
1989-1993西安交通大學 熱能工程專業(yè)學士

1993-2002 通遼市鍋爐廠 /工程師
2009-2013 上海交通大學 /工程師
2013-現(xiàn)在 上海交通大學 /高級工程師

危險固體廢棄物流化床焚燒處理及資源化利用；生物質(zhì)氣化及焦油脫除理論及技術(shù)；
煤、油頁巖、水煤漿、IGCC發(fā)電等能源方面的基礎(chǔ)理論和利清潔用技術(shù)的研究工作。

2012.03-2023.12 生物質(zhì)流化床氣化-燃氣、蒸汽聯(lián)合發(fā)電系統(tǒng)（BIGCC）關(guān)鍵技術(shù)研發(fā)，企、事業(yè)單位委托項目 250.00萬元 ，負責人
2012.04-2022.04 內(nèi)蒙古海拉爾污水處理廠污泥處置工程污水污泥循環(huán)流化床焚燒技術(shù)，企、事業(yè)單位委托項目 60.00 萬元 ，第三負責人
2011.03-2021.03  DHF75-1.6/130/70-SM 水煤漿流化-懸浮高效潔凈燃燒鍋爐，企、事業(yè)單位委托項目 120.00 萬元 ，第二負責人
2009.03-2019.03 DHF75-3.82/450-SM 水煤漿流化懸浮高效潔凈燃燒鍋爐開發(fā)設計，企、事業(yè)單位委托項目 100.00 萬元 ，第二負責人

2009.03-2012.03 油泥沙循環(huán)流化床快裝焚燒鍋爐的合作開發(fā)，企、事業(yè)單位委托項目，15.00 萬元，負責人
 
2009.01-2011.12 煤粉顆粒的表面化學與微觀結(jié)構(gòu)對燃燒過程影響的機理研究(50876060)國家自然科學基金，10.00 萬元，參加人
2010.09-2011.09 海科35/h水煤漿鍋爐伴燒干氣裝置改造設計，企、事業(yè)單位委托項目，14.00 萬元 ，第二負責人

2007.12-2010.11整體煤氣化聯(lián)合循環(huán)(IGCC)合成氣回熱設備的傳熱研究與校核計算(2007AA05Z2472)，國家計委、科技部 6.00 萬元， 參加人
2007.12-2010.11油頁巖高效潔凈綜合利用系統(tǒng)關(guān)鍵技術(shù)的研究(2007AA05Z333)，國家計委、科技部，60.00 萬元 ，參加人
2009.09-2010.09 DHF60-3.82/450-J2 水煤漿流化懸浮高效潔凈燃燒鍋爐，企、事業(yè)單位委托項目，90.00萬元， 負責人

[1].J. Liu, X. Yang, J. Liu, X. Jiang，Microscopic pyrolysis mechanisms of superfine pulverized coal based on TG-FTIR-MS and ReaxFF MD study，Energy, 289 (2024), Article 130031；

[2].J. Liu , Z. Zhou, G.g Chen , X. Yang, X. Zhong  J. Liu, X. Jiang ，The multi-scale pore structure of superfine pulverized coal. Part 2. Mesopore and closed pore morphology，F(xiàn)uel，Volume 362, 15 April 2024, 130868；

[3].Z. Gao, X. Han, G. Wang, J. Liu, X. Cui, C. Zhang, J. Wang，Preparation of activated carbon adsorption materials derived from coal gasification fine slag via low-temperature air activation，Gas. Sci. Eng., 117 (2023)；

[4].J. Liu, C. Ma, G. Chen, X. Yang, X. Zhong, J. Liu, X. Jiang，Solvent extraction of superfine pulverized Coal. Part 4. Carbon skeleton characteristics，F(xiàn)uel, 351 (2023), Article 128909；

[5].J. Zhai, X. Han, Q. An, J. Liu, X. Jiang，Renewable nitrogen-containing products by Maillard reaction of sewage sludge and glucose. Part II. Fixed-bed co-pyrolysis of sewage sludge and glucose，F(xiàn)uel, 334 (2023), Article 126797；

[6].X. Han, zh. Gao, H. Mao, J. Liu, X. Jiang，Investigation on self-sustained combustion and its ash properties of coal slime in different scale fluidized beds—part II: 12t/h fluidized bed boiler of coal slime，Journal of Thermal Analysis and Calorimetry ， 2023，178:3783-3792；

[7]..P. Zhai, X.X. Han, Q. An,  J. Liu, X. Jiang，Renewable nitrogen-containing products by Maillard reaction of sewage sludge and glucose. Part Ⅱ. Fixed-bed co-pyrolysis of sewage sludge and glucose，F(xiàn)uel, 334 (2023), Article 126797；

[8].Z. Gao, X. Han, H. Mao, J. Liu, X. Jiang，Investigation on self-sustained combustion, NOx emissions, and ash characteristics of coal slime in a lab-scale fluidized bed，Journal of Environmental Chemical Engineering 10 (2022) 108653；

[9].Hai Zhang, Huang Qin, Xiaolin Wang, Jiaxun Liu, Jianguo Liu, Xiumin Jiang, Mechanisms of the N2O formation and decomposition over coal char surface, Combustion and Flame,Volume 238, 2022,

[10].H.M. Yang， Jianguo Liu*，H. Zhang， Xiangxin Han， Xin-Min Jiang，Experimental research for biomass steam gasification in a fluidized bed， Energy Sources， Part A： Recovery Utilization and Environmental Effects ，2019, 41,（16）：1993–2006；

[11].Yulong You, Xiangxin Han, Jianguo Liu ，Xiumin Jiang， Structural characteristics and pyrolysis behaviors of huadian oil shale   kerogens using solid-state C-13 NMR, Py-GCMS and TG，Journal of Thermal Analysis and Calorimetry，2018，131（2）：1845-1855；

[12].Hai Zhang，Jiaxun Liu，Jianguo Liu，Lei Luo，Xiumin Jiang，DFT study on the alternative NH3 formation path and its functional group   effect，F(xiàn)UEL，2018，214,（02）：108-114；

[13].J. Liu, X. Jiang, L. Zhou, X. Han, Z. Cui. Pyrolysis treatment of oil sludge and model-free kinetics analysis. J. Hazard. Mater., 2009, 161(2-3): 1208-1215.

[14].J. Liu, X. Jiang, X. Han, H. Wang. Thermal stress-induced fragmentation of quartzite particles in a hot fluidized bed. Chemical Engineering & Processing, 2009, 48: 507-514. 

[15].J. Liu, X. Han, X. Jiang, H. Wang, Z. Cui. Thermal expansion characteristics of quartzite particles up to 1600oC. Chemical Engineering & Processing, 2009, 48: 885–891.

[16].J. Liu , X. Jiang,L. Zhou,H. Wang, X. Han.Co-firing of oil sludge with coal water slurry in an industrial internal circulating fluidized bed boiler. J. Hazard. Mater., 2009, 167: 817–823.

[17].J. Liu, J.Yan, X. Han, X.Jiang. Study on the Anisotropy of Mass Transfer for Oxygen in the Ash Layer of Shale Char Particles .Energy & Fuels, 2010, 24, 3488–3497.

[18].J. Liu, X. Jiang, X. Han. Devolatilization of oil sludge in a lab-scale bubbling fluidized bed. J. Hazard. Mater., 2011，185 : 1205–1213

[19].Hanmin Yang，Jianguo Liu*，Hai Zhang，Xiangxin Han，Xinmin Jiang. Experimental research for biomass steam gasification in a fluidized bed，Energy Sources Part A Recovery Utilization and Environmental Effects，DOI: 10.1080/15567036.2018.1549128

[20].Hai Zhang, Jiaxun Liu, Jianguo Liu, Lei Luo, Xiumin Jiang*. DFT study on the alternative NH3 formation path and its functional group effect. Fuel 2018; 214: 108-114.

[21].X. Jiang, J. Liu, X. Han. Thermal treatment of oil sludges classified as a hazardous waste. Global Journal Environment Science and Technology, 2012, 2:4

[22].L. Zhou, X. Jiang, J. Liu.Characteristics of oily sludge combustion in circulating fluidized beds, J. Hazard. Mater., 2009, 170:175-179.

[23].L. Zhou, X. Jiang, J. Liu. A population model of quartzite particles in a lab-scale fluidized bed due to the thermal fragmentation. Powder Technology, Powder Technol., 2009 ,188: 277–282.

[24].L. Zhou, X. Jiang, J. Liu. A model on attrition of quartzite particles as a bed material in fluidized beds, Powder Technol., 2009, 195: 44–49.

[25].Wang Hui, Jiang Xiumin, Liu Jianguo, Lin Weigang. Experiment and grey relational analysis of CWS spheres combustion in a fluidized bed. Energy & Fuels, 2007,21(4):1924-1930.

[26].Xiangxin Han, xiumin Jiang, Jianguo Liu, Hui Wang. Grey relational analysis of N2O emission from oil shale-fired circulating fluidized bed. OIL SHALE, 2006, 23(2): 99-109.

[27].Z. Cui, X. Jiang, X. Han, J. Liu. Experiment and neural networks model of the primary fragmentation of oil shale in a fluidized bed. Oil Shale, 2009,26, (2): 114–124

[28].Xiangxin Han, Zhigang Cui, Xiumin Jiang, Jianguo Liu. Regulating characteristics of loop seal in a 65 t/h oil shale-fired circulating fluidized bed boiler. Powder Technology, 178 (2007) 114–118. 

[29].Xiangxin Han, Xiumin Jiang, Zhigang Cui, Jianguo Liu, Jumwei Yan. Effects of retorting factors on combustion properties of shale char. 3. Distribution of residual organic matters. Journal of Hazardous Materials, 2010, 175(1-3): 445-451.

[30].Xiangxin Han, Xiumin Jiang, Zhigang Cui, Jianguo Liu. Effects of retorting factors on combustion properties of shale char. 2. Pore structure. Energy & Fuel, 2011, 25(1): 97–102. 

[31].X.X. Han, X.M. Jiang, Z.G. Cui, J.G.Liu. Effects of retorting factors on combustion properties of shale char.4. Combustion characteristics. Journal of Thermal Analysis and Calorimetry, 2011, 104(2): 771–102. 

[32].劉建國 梁吉偉 張海 劉加勛 韓向新 姜秀民，一臺60t/h煤粉工業(yè)鍋爐的設計和試運行，工業(yè)鍋爐，2022，5：1-6；

[33].黃勱,劉建國,韓向新,等. 棉稈經(jīng)微波預處理改性后的熱解特性研究[J]. 太陽能學報,2022,43(2):27-32.

[34].楊秀超,馬俊方,王彥文,秦煌,劉建國,姜秀民,劉加勛.煤粉工業(yè)鍋爐NO_x生成特性數(shù)值模擬研究——燃燒器內(nèi)二次風開度影響[J].電力科技與環(huán)保, 2021,37(06):1-7. 

[35].劉建國,梁瀚釗,楊漢敏, 等.氣化合成氣焦油收集實驗方法[J].實驗室研究與探索,2018,37(6):30-33.

[36].姬鵬,任與非,黃振祥, 等.燃用煤泥的20t/h循環(huán)流化床鍋爐系統(tǒng)設計與運行[J].熱能動力工程,2018,33(1):75-80. 

[37].侯志鵬,肖凱華,俞志鵬, 等.煤泥循環(huán)流化床鍋爐NOx排放特性研究[J].熱能動力工程,2017,32(11):68-72. 

[38].毛宏雷,韓向新,嚴君偉, 等.中藥藥渣拌水煤漿混燒工藝研究[J].太陽能學報,2016,37(4):979-984. 

[39].楊魯斌,劉建國,呂博, 等.生物質(zhì)雙流化床氣化系統(tǒng)數(shù)學模型的建立與優(yōu)化[J].太陽能學報,2015,36(7):1743-1748. 

[40].姬鵬,黃振祥,李悅, 等.洗煤泥循環(huán)流化床鍋爐自動化實現(xiàn)分析[J].上海節(jié)能,2016,(12):683-685. 

[41].嚴君偉,姜秀民,韓向新, 等.油頁巖半焦循環(huán)流化床燃燒的工業(yè)實驗研究[J].動力工程學報,2014,34(7):518-523.

[42].沈亮,劉建國,呂博, 等.棉稈的流化床水蒸氣氣化實驗研究[J].再生資源與循環(huán)經(jīng)濟,2016,9(3):38-40. 

[43].呂博,劉建國,楊魯斌, 等.棉稈催化熱解的TG-MS分析[J].安徽農(nóng)業(yè)科學,2013,(26):10785-10787. 

[44].周陵生,姜秀民,劉建國.密相區(qū)表面固體顆粒夾帶率數(shù)學模型[J].鍋爐技術(shù),2011,42(4):15-17.

[45].趙連勤,劉建國.145 t/d油污泥循環(huán)流化床鍋爐及其運行[J].工業(yè)鍋爐,2010,(2):45-48. 

[46].周陵生,姜秀民,劉建國, 等.勝利油田含油污泥的燃燒特性分析[J].上海交通大學學報,2010,44(1):80-84.

[47].崔志剛,韓向新,劉建國, 等.油頁巖循環(huán)流化床N2O排放量的灰色關(guān)聯(lián)[J].煤炭轉(zhuǎn)化,2008,31(3):19-22. 

[48].周陵生,姜秀民,劉建國, 等.石英砂流化床床料磨損的數(shù)學模型[J].化工學報,2007,58(11):2776-2781. 

[49].張超群,姜秀民,黃庠永, 等.煤焦吸附NO特性與紅外光譜分析[J].化工學報,2007,58(3):581-586. DOI:10.3321/j.issn:0438-1157.2007.03.008.

[50].王輝,姜秀民,劉建國.水煤漿和原煤粉居里點裂解儀對比實驗研究[J].化學工程,2007,35(3):19-22. 

[51].劉建國,姜秀民,王輝, 等.流化床內(nèi)石英砂的熱破碎及其灰色預測模型[J].化工學報,2008,59(2):328-334. 

[52].王輝,姜秀民,馬玉峰, 等.水煤漿流化-懸浮燃燒技術(shù)及14 MW鍋爐的應用[J].煤炭學報,2008,33(3):334-338. 

[53].鄧家英,周錦華,劉建國, 等.油泥砂流化焚燒處理系統(tǒng)與運行分析[J].潔凈煤技術(shù),2009,15(4):104-107. 

[54].王輝,姜秀民,劉建國, 等.石英砂流化床床料的磨損實驗與灰色關(guān)聯(lián)分析[J].化工學報,2006,57(5):1133-1137. DOI:10.3321/j.issn:0438-1157.2006.05.017.

[55].王輝,姜秀民,劉建國, 等.不同升溫速率下水煤漿的燃燒特性分析[J].化學工程,2006,34(2):25-28. DOI:10.3969/j.issn.1005-9954.2006.02.007.

[56].劉建國,姜秀民,王輝, 等.石英砂熱形態(tài)和表面微觀結(jié)構(gòu)[J].化工學報,2007,58(3):765-770. 

[57].王輝,姜秀民,劉建國, 等.不同升溫速率下水煤漿的熱解特性分析[J].動力工程,2007,27(2):263-266. 

[58].馬玉峰,王輝,姜秀民, 等.水煤漿球在流化床內(nèi)的燃燒試驗及灰色關(guān)聯(lián)分析[J].中國電機工程學報,2007,27(5):61-66. 

[59].劉建國,姜秀民,馬玉峰, 等.油污泥的循環(huán)流化床焚燒和資源化利用[J].動力工程,2007,27(1):50-53,98. 

油污泥的異密度循環(huán)流化床燃燒處理方法,200410089304.6
油頁巖的氣熱電三聯(lián)供應用系統(tǒng),200510025253.5
氣固兩相熱交換器,200510023293.6  
油頁巖綜合優(yōu)化利用的方法,200510024417.2  
海藻生物質(zhì)綜合利用的方法,200910045965.1
油頁巖流化床干餾系統(tǒng),200810204396.6
海藻生物質(zhì)的異密度循環(huán)流化床燃燒處理方法,200710172603.X
以濕油頁巖半焦為燃料的循環(huán)流化床焚燒系統(tǒng),200710047696.3
油頁巖干餾、半焦焚燒一體化系統(tǒng),201010179437.8  
 一種工業(yè)煤粉鍋爐煙氣再循環(huán)低氮燃燒方法和系統(tǒng)  CN201610614713.6
水煤漿潔凈燃燒的有機工質(zhì)鍋爐 ZL201310377131.7
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市政污泥-水煤漿混燒的有機工質(zhì)鍋爐 ZL201310479366.7
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油頁巖干餾、半焦焚燒一體化系統(tǒng)，ZL 2012.11，中國，201010179437.8

一種工業(yè)煤粉鍋爐煙氣再循環(huán)低氮燃燒方法和系統(tǒng)  ZL201610614713.6