论文类（只填写SCI、EI、CSCD收录论文，通讯作者请注明，列出格式请参照学术论文引用规范）

[1]     Zhengshuai Sun; Rujiao Jiang; Wenbin Hua; Qi Wei; Qiaoxia Yuan; Baojun Yi*, Impact of Na at the low temperature Fe catalysis on high quality cellulose-based graphitic carbon, Journal of Cleaner Production, 2024, 448: 141740（SCI&EI，IF=11.100）

[2]     Zhengshuai Sun, Dingding Yao, Huang Guo, Haodong Zhu, Wenbin Hua, Qiaoxia Yuan, Liqi Zhang, Qizhou Fan, Baojun Yi*, Catalytic mechanism of N-containing biochar on volatile-biocharinteraction for the same origin pyrolysis, Journal of Environmental Management, 2023, 33,17710（SCI&EI，IF=8.910）

[3]     Baojun Yi*, Meijing Chen, Yong Gao, Chengyang Cao, Qi Wei, Zihang Zhang, Lichun Li, Investigation on the co-combustion characteristics of ultiple biomass and coal under O₂/CO₂ condition and the interaction between different biomass[J]. Journal of Environmental Management, 2023; 325, 116498 （SCI&EI，IF=8.910）

[4]    Zhengshuai Sun, Dingding Yao, Chengyang Cao**, Zihang Zhang, Liqi Zhang, Haodong Zhu, Qiaoxia Yuan, Baojun Yi*, Preparation and formation mechanism of biomass-based graphite carbon catalyzed by iron nitrate under a low-temperature condition[J]. Journal of Environmental Management, 2022; 318, 115555 （SCI&EI，IF=8.910）

[5]     Zihang Zhang, Baojun Yi *, Zhengshuai Sun, Qi Zhang, He Feng, Hongyun Hu*, Xiangguo Huang, Chunqing Zhao. Reaction process and characteristics for coal char gasification under changed CO2/H2O atmosphere in various reaction stages[J]. Energy 2021;229, 120677（SCI&EI，IF=7.147）

[6]     Haodong Zhu, Baojun Yi*, Hongyun Hu*, Qizhou Fan, Hao Wang, Hong Yao. The effects of char and potassium on the fast pyrolysis behaviors of biomass in an infrared-heating condition[J]. Energy 2021;214, 119065（SCI&EI，IF=7.147）

[7]     Yao Zhu, Baojun Yi*, Zhixi Zong, Xueqi Yang, Meijing Chen, Qiaoxia Yuan. Adsorption characteristic of organic matter by low-temperature dry cattle manure-derived anaerobic digestion[J]. Desalination and Water Treatment 2021, 225,76-85. （SCI&EI，IF= 1.254）

[8]     Meijing Chen, Wenfeng Liu, Baojun Yi*, Yunlian Wu, Xiangdong Kong, Shiwei Zhang, Zhengshuai Sun. Removal of Se(IV) from water with biochar-supported nanoscale zero-valent iron: optimization of preparation conditions and adsorption characteristics[J]. Desalination and Water Treatment, 2022, 261, 241–248. （SCI&EI，IF= 1.254）

[9]     Chenao Lei, Baojun Yi*, Weiqi Deng, Meijing Chen, Yuanyuan Wang. Effect of metal cationic on the adsorption of selenium from sewage by biochar loaded with zero-valent iron, Desalination and Water Treatment. 2022,245,202-216. （SCI&EI，IF= 1.254）

[10]  Hua Tang, Hongyun Hu, Aijun Li, Baojun Yi, Xian Li, Dingding Yao, Hong Yao, Haoran Yuan. Removal of impurities from waste tire pyrolysis char using the molten salt thermal treatment, Fuel.2021,301,121019（SCI&EI，IF=6.609）

[11]  Chengyang Cao, Yang Ren, Hao Wang, Hongyun Hu*, Baojun Yi, Xian Li, Linling Wang, Hong Yao. Insights into the role of CaO addition on the products distribution and sulfur transformation during simulated solar-powered pyrolysis of waste tires, Fuel, 2021, 122795.（SCI&EI，IF=6.609）

[12]  Zhu Y#, Yi B*, Hu H*, Zong Z, Chen M, Yuan Q. The relationship of structure and organic matter adsorption characteristics by magnetic cattle manure biochar prepared at different pyrolysis temperatures. Journal of Environmental Chemical Engineering 2020; 8(5): 104112（SCI&EI，IF=5.909）

[13]  Wei Wu#, Qizhou Fan*, Baojun Yi*, Bichen Liu and Rujiao Jiang. Catalytic characteristics of a Ni–MgO/HZSM-5 catalyst for steam reforming of toluene. RSC Advances 2020; 10, 20872–20881（SCI&EI，IF= 3.361）

[14]  Meijing Chen#, Baojun Yi*, Zhigang Li, Qiaxia Yuan. Combustion Characteristics of Biomass and Bituminous Coal Co-firing in Non-isothermal and Isothermal Conditions. Bioresources 2020; 15(4), 9490-9506. （SCI&EI，IF= 1.614）

[15]  Yuhan Yang, Hongyun Hu*, Fu Yang, Hua Tang, Huan Liu, Baojun Yi, Xian Li, Hong Yao. Thermochemical conversion of lignocellulosic bio-waste via fast pyrolysis in molten salts. Fuel, 2020, 278:118228.（SCI&EI，IF=6.609）

[16]  Yao Zhu, Baojun Yi*, Qiaoxia Yuan, Hongliang Cao, and Shuiping Yan, Combustion Characteristics of Cattle Manure and Pulverized Coal Co-firing under Oxy-Fuel Atmosphere in Non-Isothermal and Isothermal Conditions. Bioresources 2019; 13(3): 6465-79. （SCI&EI，IF=1.321）

[17]  Yi B*, Yuan Q, Cao H, Niu W, Wang M, Yao Z, et al. Effect of alkali and alkaline earth metal species on the combustion characteristics of cattle manures. RSC Advances 2018; 8: 11705 - 13. （SCI&EI，IF=3.108）

[18]  Yi B*, Yuan Q*, Cao H, Wang M, Niu W and Yan S. Combustion Characteristics of Densified Cattle Manure Briquette in an Isothermal Condition. Bioresources 2018; 13: 3571-84. （SCI&EI，IF=1.321）

[19]  Zhu Y, Yi B*, Yuan Q, Wu Y, Wang M and Yan S. Removal of methylene blue from aqueous solution by cattle manure-derived low temperature biochar[J]. RSC Advances 2018; 8: 19917-29. （SCI&EI，IF=3.108）

[20]  Yi B, Zhang L* and Yuan Q. Study of the flue gas characteristics and gasification reaction of pulverized coal combustion in O2/CO2/H2O atmosphere[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 2018; 1-8. （SCI&EI，IF=0.555）

[21]  Baojun Yi, Liqi Zhang*, Fang Huang, Zuojun Xia, Zhihui Mao, Jiwei Ding, Chuguang Zheng，Investigating the combustion characteristic temperature of 28 kinds of Chinese coal in oxy-fuel conditions. Energy Conversion and Management 103, 0 (2015): 439-447（SCI&EI，IF=4.380）

[22]  Baojun, Yi, Liqi Zhang*, Qiaoxia Yuan, Shuiping Yan, Chuguang Zheng，The evolution of coal char structure under the oxy-fuel combustion containing high H2O. Fuel Processing Technology. 2016, 152: 294-302. ( SCI&EI，IF=3.847)

[23]  Baojun, Yi, Liqi Zhang*, Fang Huang, Zhihui Mao and Chuguang Zheng. Effect of H2O on the Combustion Characteristics of Pulverized Coal in O2/CO2 Atmosphere. Applied Energy 132, 0 (2014): 349-357. (SCI&EI， IF=5.613)

[24]  Baojun, Yi, Liqi Zhang*, Zhihui Mao, Fang Huang and Chuguang Zheng. Effect of the Particle Size on Combustion Characteristics of Pulverized Coal in an O2/CO2 Atmosphere. Fuel Processing Technology 128, 0 (2014): 17-27. (SCI&EI，IF=3.352)

[25]  Huang, Fang, Liqi Zhang*, Baojun Yi, Zuojun Xia and Chuguang Zheng. Effect of H2O on Pyrite Transformation Behavior During Oxy-Fuel Combustion. Fuel Processing Technology 131, 0 (2015): 458–465.  (SCI&EI，IF=3.352)

[26]  Huang, Fang, Li-Qi Zhang*, Bao-Jun Yi, Zuo-Jun Xia and Chu-Guang Zheng. Transformation Pathway of Excluded Mineral Pyrite Decomposition in CO2 Atmosphere. Fuel Processing Technology, (2015).  (SCI&EI，IF=3.352)

[27]  Baojun Yi, Liqi Zhang*, Zhihui Mao, Fang Huang, Chuguang Zheng, Pore structures change of different particle size of pulverized coal combustion in an O2/CO2 atmosphere, in:30th Annual International Pittsburgh Coal Conference 2013, PCC 2013, September 15, 2013 - September 18, 2013, International Pittsburgh Coal Conference, Beijing, China, 2013, pp. 3186-3209.（EI）

[28]  易宝军, 张立麒*, 黄芳, 罗哲林，郑楚光. 不同粒径煤粉在O2/CO2气氛下的燃烧特性. 燃烧科学与技术, 03 (2013): 248-253.(核心期刊)

[29]  易宝军, 张立麒*，朱海跃，郑楚光，煤粉富氧燃烧锅炉改造的热力性能研究，华中科技大学学报, 12 (2014): 10-16.（EI）

[30]  黄芳, 张立麒*, 易宝军, 郑楚光. 煤中主要外在矿物质在 O2/CO2气氛中的迁徙转化. 中国电机工程学报 34, 23 (2014): 0258-8013. （EI）

[31]  黄芳, 张立麒*, 易宝军, 郑楚光. O2/CO2气氛下高温煤灰热行为及其矿物相转化规律. 煤炭学报 40, 11 (2015), 2714-2719. （EI）

著作类

Chuguang Zheng, Zhaohui Liu; OXY-FUEL COMBUSTION Fundamentals, Theory and Practice; ACADEMIC PRESS;(2017) 参与第四章的编写

专利、软件类

[1]     易宝军，曾嘉雯，姚丁丁，王心雨，李子木，郭丽敏，张子杭，丁子杰，孙正帅.生物质半气化强化自热式炭化装置及控制方法与应用. 授权发明专利号：2021110486887

[2]     易宝军，张子杭，姚丁丁，陈梅，郭煌，孙正帅，曾嘉雯，袁巧霞. 一种面向多功能干燥需求的智能滚筒干燥机及方法. 授权发明专利号：202111142152.1

[3]     易宝军，张子杭，袁巧霞，张旗，樊啟洲，孙正帅. 一种梯级温度空气氧化定向调控生物炭的系统及方法.授权发明专利号：ZL 202010329470.8;

[4]     易宝军，张旗，张子杭，樊啟洲，袁巧霞，孙正帅. 气固分级热解差速分级的连续式生物质炭化装置及方法. 授权发明专利号：ZL 202010274341.3;

[5]     易宝军，张子杭，张旗，樊啟洲，刘弼臣，孙正帅，邓伟其，邱雯奕，王铖鑫. 重力流动生物质气固分级的自热式炭化炉及方法，授权发明专利号：ZL 202010232540.8;

[6]     易宝军，方子威，张子航，刘弼臣，张旗，袁巧霞. 一种处理农业废弃物及生活垃圾的热解炭化设备及方法. 授权发明专利号：ZL 202010728418.X;

[7]     易宝军，张旗，张子杭，胡红云，吴家豪，陈思懿，王铖鑫，邓伟其，袁巧霞. 屠宰污泥制备蚓粪肥料的装置及方法. 授权发明专利号：ZL202010789768.7;

[8]     易宝军，雷陈澳，吴允连，刘欣，朱瑶，袁巧霞. 一种生物炭负载纳米零价铁材料及其应用. 授权发明专利号：ZL 201910993049.4;

[9]     易宝军，袁巧霞，曹红亮，牛文娟，晏水平，王明，梅道锋，刘志刚，张建国. 农业废弃物低能耗的循环流化床炭化装置和方法. 授权发明专利号：ZL 201710489746.7；

[10]  易宝军，郑志成，袁巧霞，林贵英，宋娜，樊啟洲，罗中必，姜儒娇.高灰分生物质颗粒燃料燃烧炉及方法. 授权发明专利号：ZL 2019102181748；

[11]  易宝军，邓佳琪，韦江成，黄招杰，吴国顺，姚丁丁，涂鸣，一种养殖场供暖方法和系统. 发明专利受理申请号：202410028937.3

[12]  易宝军，邓佳琪，韦江成，黄招杰，吴国顺，姚丁丁，涂鸣，一种应用于养殖场的多能耦合供能方法和系统. 发明专利受理申请号：202410026506.3

[13]  易宝军,孙正帅,韦琪,华文彬,王开,袁巧霞.一种石墨烯的制备方法及系统. 发明专利受理申请号：2023101280884

[14]  易宝军；曾嘉雯；华文彬；张子杭；蔡家一. 一种水蒸气循环区段分级热解制备生物炭的方法及装置. 发明专利受理申请号：2023100611837

[15]  易宝军，华文彬，王开，官子豪，杨珈奕，孙正帅，韦琪.一种药肥一体化生物炭修复控释肥及其制备方法. 发明专利受理申请号： 202310336776X

[16]  易宝军，华文彬，官子豪，王开，杨珈奕，孙正帅，韦琪.一种基于信号传递的紫外线防护生物控释农药及其制备方法. 发明专利受理申请号： 2023103367863

[17]  易宝军，朱瑶，袁巧霞，孙正帅，宗志喜，杨雪琦. 一种基于牛粪生物炭的磁性复合材料及其应用. 发明专利受理申请号：201910814213.0；

[18]  袁巧霞，罗帅，曹红亮，易宝军，牛文娟，李巍峰，徐超，一种散体物料休止角的测定装置与测定方法. 发明专利授权号：201711335830.X;

[19]  曹红亮，袁巧霞，易宝军，刘志刚，刘虎，辛娅，尹成龙。一种集约型生物质热解气化燃气净化装置. 实用新型授权号：201620677193.9;

[20]  樊啟洲，吴蔚，易宝军，刘弼臣，祝浩东，杨文涛，姜儒娇，马一丹. 一种用于生物质热解焦油蒸汽重整催化剂的制备方法。发明专利受理申请号：201910901485.4;

[21]  樊啟洲，汪烈，易宝军，邓在京，刘弼臣，吴蔚. 一种可移动两箱式烟气间接加热固定炭化炉. 实用新型授权号：201821306205.2;

[22]  樊啟洲，王梦龙，邓在京，易宝军，艾平，吴蔚，刘弼臣. 一种多桶式生物质炭化设备. 实用新型授权号：201821413127.6;

[23]  樊啟洲，汪烈，张群，艾平，易宝军，邓在京，刘弼臣，吴蔚. 一种两步加热直立圆筒形固定床炭化室. 实用新型授权号：201821310769.3;

[24]  樊啟洲，黄宇，范先红，易宝军，邓在京，汪烈，刘弼臣，吴蔚. 直立式移动床生物质炭化炉. 实用新型授权号：201821089092.5;

[25]  刘志刚，袁巧霞，林嘉聪，曹红亮，易宝军，徐勤超，蚯蚓、蚓茧和蚓粪分离设备及其方法. 授权发明专利号：ZL 201610542065.8;

[26]  刘志刚，袁巧霞，曹红亮，易宝军，徐勤超. 蚓床畜禽粪添加设备.授权发明专利号：ZL 201720751187.8

[27]  张立麒，易宝军，罗哲林，陈珂，郑楚光. 一种富氧燃烧烟气净化装置. 授权发明专利号：ZL.201310215434.9；

[28]  张立麒，易宝军，朱海跃，胡鹏，郑楚光. 一种用于煤粉锅炉的水蒸汽循环调节式富氧燃烧方法. 授权发明专利号：ZL.201210549692.6；

[29]  张立麒，毛志慧，易宝军，柳朝晖，朱海跃，潘聪，郑楚光.一种煤粉富氧无焰燃烧方法及其系统. 授权发明专利号：ZL.201310624080.3；

[30] 张立麒，丁继伟，朱海跃，易宝军，柳朝晖，毛志慧，郑楚光.一种富氧燃烧锅炉热力性能获取方法. 授权发明专利号：ZL.201410215661.6；