化工系
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杨昌炎,博士,教授,硕士生导师

地址:湖北省武汉市东湖新技术开发区光谷一路206号59白菜网

邮编:430205

Email:54513195@qq.com

联系电话:17771775866

教育背景

2001/09-2006/06, 中国科学院过程工程研究所,化学工艺,工学博士

1994/09-1997/07, 郑州工业大学,化学工程,工学硕士

1990/09-1994/07, 59论坛白菜专区,化学工程与工艺,工学学士

工作履历

2023/11-至今,湖北省十堰市科技挂职

2016/08-2019/08, 江苏省沭阳县科技挂职

2015/01-至今,59论坛白菜专区,教授

2010/12-2014/12, 59论坛白菜专区,教授;黄冈师范学院,黄州学者

2009/05-2010/11, 59论坛白菜专区,副教授

2007/05-2009/04, 美国明尼苏达大学双城校区,博士后,访问学者

2006/09-2007/04, 59论坛白菜专区,副教授

1997/07-2006/08, 59论坛白菜专区,讲师

学术兼职

Trends in Renewable Energy, 主编

研究领域

1)废弃资源转化利用

生物质催化热解制精细化学品(糠醛、丙二醇等)、多功能催化剂;(生物质、生活垃圾、废弃轮胎)流化床热裂解、燃烧技术;磷石膏、脱硫石膏等化学石膏高值利用;茶叶提取分离全利用(茶多酚、咖啡因等)。

2)固体表面处理及其精细化学品

金属表面缓蚀防锈(防锈油脂)、固体表面清洗剂(工业清洗、重垢炭垢油污清洗、脱脂)、润滑(机车润滑油、切削液)、防冻(机车冷却液、试机液)。

主要科研项目

(1)国家“863”项目“煤炭拔头油、煤气、热、电联产技术的开发”(编号2001AA529010),参与;

(2)国家“863”项目“秸秆多级转化燃料酒精与裂解油技术与系统”(编号2003AA514023),参与;

(3)国家“973”项目“秸秆资源生态高值化关键过程的基础研究”子课题“秸秆发酵剩余物定向转化新途径”(编号2004CB719700),参与;

(4)美国能源部(DOE)项目“To develop a microwave-assisted pyrolysis system for conversion of cellulosic biomass to bio-oils”,参与;

(5)省自科基金项目“生物燃料油分级分离制取工艺”(编号2007ABA253),主持;

(6)省教育厅项目“生物油分级解离制取化学品”(编号Q200715004),主持;

(7)企业项目:重负荷发动机冷却液与试机液实验开发(编号O11064)5万元(2015)主持;

(8)企业项目:热解木醋液试验研究(编号O10852)20万元(2016),主持;

(9)企业项目:重型机车废润滑油净化制备防绣油脂(编号H00176)30万元(2017),主持;

(10)企业项目:高端制氧机用空气泵及环保工艺(编号X011949)100万元(2021),主持;

(11)企业项目:基于脱硫石膏的系列精细产品开发(编号X012567)20万元(2022),主持;

(12)企业项目:玉米芯高压水解制备糠醛工艺试验(编号X012878)13万元(2023),主持。

代表性论文

1. Yang, C., Gong, Y., Qu, Y. et al. (2023) Formulation improvement of a concentrated enzyme detergent for high-speed rail trains through life cycle assessment methodology. Environ Dev Sustain. 

2. Song, Z., Yang, C., Yang, B., Luo, H., Zhang, B., Zhang, Y., Li, R., Qiu, Q., and Ding, Y.(2021) Effects of Cd and Sn modified MCM-41 on pyrolysis of cellulose. Journal of Renewable and Sustainable Energy, 13(1), 013101. DOI: 10.1063/5.0030180.

3. Yang, C., Li, R., Qiu, Q., Yang, H., Zhang, Y., Yang, B., Wu, J., Li, B., Wang, W., Ding, Y., and Zhang, B. (2020). Pyrolytic behaviors of Scenedesmus obliquus over potassium fluoride on alumina. Fuel, 263, 116724.

4. Yang C, Li R, Zhang, B., Qiu, Q., Wang, B., Yang, H., Ding, Y., and Wang, C. (2019). Pyrolysis of microalgae: A critical review. Fuel Processing Technology, 186:53-72.

5. Zhang, B., Wu, J., Yang, C., Qiu, Q., Yan, Q., Li, R., Wang, B., Wu, J., and Ding, Y. (2018). Recent Developments in Commercial Processes for Refining Bio-Feedstocks to Renewable Diesel. BioEnergy Research, 11(3): 689-702

6. Yang, C., Li, R., Cui, C., Wu, J., Ding, Y., Wu, Y., and Zhang, B. (2017). The pyrolysis of duckweed over a solid base catalyst: Py-GC/MS and TGA analysis. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 39(2), 177-183.

7. Yang, C., Li, R., Cui, C., Liu, S., Qiu, Q., Ding, Y., Wu, Y., and Zhang, B. (2016). Catalytic Hydroprocessing of Microalgae-Derived Biofuels: A Review. Green Chemistry, 18(13), 3684-3699.

8. Zhang, B., Changyan Yang, Johannes Moen, Zhiping Le, Kevin Hennessy, Paul Chen and Roger Ruan (2010) Catalytic conversion of microwave-assisted pyrolysis vapors, Energy sources, Part A. 32(18):1756-1762.

9. Yang, C., Zhang, B., Johannes Moen, Kevin Hennessy, Yuhuan Liu, Xiangyang Lin, Yiqin Wan, Hanwu Lei, Paul Chen, Roger Ruan. (2010) Fractionation and characterization of bio-oil from microwave-assisted pyrolysis of corn stover, International Journal of Agricultural & Biological Engineering. 3(3): 54-61.

10. Wan, Y., Paul Chen, Zhang, B., Changyang Yang, Yuhuan Liu Xiangyang Lin, and Roger Ruan. (2009) Microwave-Assisted Pyrolysis of Biomass: Catalysts to Improve Product Selectivity, Journal of Analytical and Applied Pyrolysis. 86(1): 161-167.

11. Johannes Moen, Changyan Yang, Zhang, B., Hanwu Lei, Kevin Hennessy, Yiqin Wan, Zhiping Le, Yuhuan Liu, Paul Chen, Roger Ruan. (2009) Catalytic microwave assisted pyrolysis of aspen, International Journal of Agricultural & Biological Engineering. 2(4): 70-75.

12. Gong, Y., Yang, C., Qu, Y., Li, J., Yang, B., Ding, Y., and Zhang, B. (2022). Life Cycle Assessment of a Coke Cleaning Agent. Trends in Renewable Energy, 8(1), 67-83. DOI: 10.17737/tre.2022.8.1.00142

13. Liu, P., Zhang, B., Yang, C., Gong, Y., Qu, Y., Li, J., Yang, B., and Ding, Y. (2021). Life Cycle Assessment of a Hydrocarbon-based Electrified Cleaning Agent. Trends in Renewable Energy, 7(1), 24-52.

14. Li, J., Qu, Y., Gong, Y., Yang, C., Yang, B., Liu, P., Zhang, B., Ding, Y. (2020). Process Design of Microalgae Slurry Pump. Trends in Renewable Energy, 6(3), 234-244.

15. Wu, J., Li, B., Wang, W., Yang, S., Liu, P., Zhang, B. , Yang, C., and Ding, Y. (2019). Green Refining of Waste Lubricating Oil: A China Perspective. Trends in Renewable Energy, 5(2), 165-180

16. Yang, C., Wu, J., Wang, W., Li, B., Zhang, B., and Ding, Y. (2018). Sustainable Management of Spent Hydroprocessing Catalyst. Trends in Renewable Energy, 4(1), 90-95.

17. Zhang, B., Wu, J., Deng, Z., Yang, C., Cui, C., and Ding, Y. (2017). A Comparison of Energy Consumption in Hydrothermal Liquefaction and Pyrolysis of Microalgae. Trends in Renewable Energy, 3(1), 76-85.

18. Yang, C., Zhang, B., Cui, C., Wu, J., Ding, Y., and Wu, Y. (2016). Standards and Protocols for Characterization of Algae-Based Biofuels. Trends in Renewable Energy, 2(2), 56-60

19. 吴锦胜, 杨昌炎, 王伟, 杨姝, 邱琦, 丁一刚,张波,(2020). 介孔碳负载金属催化剂对纤维素热裂解反应的影响. 59论坛白菜专区学报. 42(3), 264-271.

20. 罗海彬, 宋志杰, 吴锦胜, 张波, 杨昌炎, 丁一刚 (2019). 改性介孔分子筛Zr-MCM-41对纤维素热裂解的影响. 59论坛白菜专区学报, 41(1), 40-45.

部分专利

(1)一种焦质重垢清洗剂及制备方法,CN202111055103.4,

(2)一种废润滑油分级除杂的净化方法,CN201710839219.4

(3)一种利用重型机车废润滑油净化制备防锈油脂基础油的方法,CN201710839213.7

(4)一种用于高铁动车车厢外壳的防菌防蚀型清洗剂,CN201710828054.0

(5)以生物质催化热解制备呋喃类化学品的方法,CN200910060605.9

(6)汽爆秸秆发酵剩余物热解制备液体燃料的方法及装置,CN200510011104.3

(7)一种催化还原磷石膏制硫酸联产水泥的方法,CN201110097225.X

(8)一种用于马口铁工艺中的脱脂剂及使用方法,CN202010285235.5

获奖

(1)湖北省科技进步二等奖1项(2010);

(2)中国石油和化学工业优秀出版物(教材奖)一等奖1项(2014)。

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