姓名:辛善志
学历:博士
职称:副教授
职务:环境工程专业课教研室主任
研究方向:城市生活垃圾、污泥、生物质等固体废弃物的热化学资源化利用;固体废弃物利用过程中VOCs、POPs类污染物的释放与控制技术研究。
电子邮箱:szxin@jhun.edu.cn
电话号码:15802798966
教育教学经历:
2003-2007 江汉大学 化学工程与工艺
2007-2010 华东理工大学 环境工程
2010-2014 华中科技大学 热能工程
2015-2017 中国科学院生态环境研究中心 博士后
项目、文章、获奖等情况:
主持及在研项目:
[1]中药渣烘焙与催化气化耦合制备富氢燃气的机理研究,湖北省科技厅,2018.1—2019.12,已结题
[2]PVC产品在热化学过程中氯化石蜡的排放特征及转化机制研究,国家自然科学基金委,主持,2019.1—2021.12,已结题
[3]中药废渣热解与气化制备炭基材料与可燃气,广西科学院,主持,2020—2021. 已结题
[4]中药废渣烘焙与催化气化耦合制备富氢燃气及炭材料,中科院广州能源所,3万,主持,2022.1—2023.12. 在研
发表论文:
[1]Shouhang Tang, Sicheng Zhou, Ge Li, Shanzhi Xin*, Combination of torrefaction and catalytic fast pyrolysis for aromatic hydrocarbon production from herbaceous medicine waste, Energy. 2023(270):126911
[2]Sicheng Zhou, Shouhang Tang, Ge Li, Shanzhi Xin*, Catalytic fast pyrolysis of herbal medicine wastes over zeolite catalyst for aromatic hydrocarbons production, Fuel. 2023(333): 126311 (2022.10.25)
[3]Shanzhi Xin, Fang Huang, Wei Qi, Tie Mi. Pyrolysis of torrefied herbal medicine wastes: Characterization of pyrolytic products. Energy, 2020(210):118455
[4]Shanzhi Xin, Youhua Zhang, Linhai Duan. Microwave-assisted calcined olivine catalyst steam reforming of tar for hydrogen production. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2020. https://doi.org/10.1080/15567036.2020.1716112
[5]Shanzhi Xin, Liang Guo, and Qingli Xu. Hydrogen-rich gas production from soybean straw via microwave pyrolysis under CO2 atmosphere. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2019. https://doi.org/10.1080/15567036.2019.1676330
[6]Shanzhi Xin, Fang Huang, Xiaoye Liu, Tie Mi, Qingli Xu. Torrefaction of herbal medicine wastes: Characterization of the physicochemical properties and combustion behaviors. Bioresource Technology, 2019,287:121408 ISSN: 0960-8524
[7]辛善志,黄芳,刘晓烨,许庆利,米铁. 烘焙中药渣的热解与燃烧特性及其动力学分析. 化工学报, 2019,70 (8): 3142-3150
[8]Shanzhi Xin, Wei Gao, Yawei Wang, and Guibin Jiang. Identification of the released and transformed products during the thermal decomposition of a highly chlorinated paraffin. Environmental Science & Technology, 2018, 52(17), 10153-10162
[9]Shanzhi Xin, Wei Gao, Dandan Cao, Kun Lv, Yaquan Liu, Yawei Wang, and Guibin Jiang. The thermal transformation mechanism of chlorinated paraffins: An experimental and density functional theory study. Journal of Environmental Sciences, 2019, 75:378-387
[10]Shanzhi Xin, Tie Mi, Xiaoye Liu, Fang Huang. Effect of torrefaction on the pyrolysis characteristics of high moisture herbaceous residues. Energy, 2018, 152:586-593.
[11]Shanzhi Xin, Wei Gao, Yawei Wang, Guibin Jiang. Thermochemical emission and transformation of chlorinated paraffins in inert and oxidative atmospheres. Chemosphere, 2017, 185:899-906.
[12]Shanzhi Xin, Xu Qingli, Liao Lifang, Yan Yongjie. Hydrogen production by glycerol reforming in a fixed-bed reactor. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2017, 39(24): 2195-2202.