qy球友会(千亿)

顾翔宇
  • 学历/学位: 工学博士
  • 研究方向:

    有机固废热化学高值化利用、微塑料、流态化技术

  • 邮箱: xygu@ipe.ac.cn
  • 地址: 北京市海淀区中关村北二街1号
  • 邮编: 100190
  • 课题组网站:

简历介绍

顾翔宇,中国科研实验室过程工程研究所“相关人才计划”副研究员,清洁燃料团支部书记、研究部副主任。2012年本科毕业于北京化工大学首届化工卓越工程师实验班;并在2015年和2020年分别取得美国伍斯特理工学院和华盛顿州立大学化学工程硕士和博士学位。2021年底加入过程所,召开有机固废资源化利用及污染物排放控制技术研究,具体包括微塑料生成机理与迁移转化机制、煤粉快速热解制油、污泥肥料化应用、废塑料催化热解脱氯、有机废盐无害化处置、生物炭高值化利用等。主持和承担了国家重点研发计划子课题、中科院先导专项任务、中科院人才项目、全国重点实验室自主部署课题、企业横向课题、美国能源部和农业部项目等;申请发明专利4项,授权3项;在Renewable and Sustainable Energy Reviews, Environmental Science & Technology, Chemical Engineering Journal, Applied Energy等期刊发表论文30余篇;担任New ContaminantsEnergy & Environment Nexus期刊青年编委。取得华州大The Melvin M. Smith and Ruth M. Smith Scholarship,美国Environmental Innovation Challenge Award,过程所“我最喜爱的青年导师奖”等荣誉。

代表论著

1. Su T1, Gu X1, Deng S*, Wang H, Zhu W, Li Z, Li S, Wu F*. A resilient in situ Raman-based framework for identifying thermally aged microplastics: Validation in Waste-to-Energy incineration. Environmental Science & Technology. 2026;60(18):13576-87.

2. Xuan G, Gu X*, Hao R, Li S. A novel sequential incineration-melting process for phosphorus fertilizer from sewage sludge. Waste Management. 2025;204:114964.

3. Feng X, Gu X*, Xuan G, Wu H, Li S*. Efficient microplastic removal in aquatic environments using iron–nitrogen co-doped layered biocarbon materials. Chemical Engineering Journal. 2025;506:160095.

4. Xuan G, Gu X*, Qin P, Li S. Optimizing iron removal from sewage sludge ash for enhanced phosphate fertilizer bioavailability. Bioresource Technology. 2024;412:131385.

5. Hao R, Gu X*, Liu T, Li S*. One pot synthesis of novel C3N4/C nanosheet composites under environmental benign molten salts for peroxymonosulfate activation with enhanced efficiency and reusability. Journal of Environmental Chemical Engineering. 2024;12(5):113526.

6. Fan X, Hao L*, Gu X*, Li S. Low-temperature selective catalytic reduction of NO with NH3 over a biochar-supported perovskite oxide catalyst. Energy & Fuels. 2023;37(10):7339-52.

7. Gu X, Pang N, Qiu Y, Fu X, Yao Y, Chen S*. Systematic evaluation of fractionation and valorization of lignocellulose via two-stage hydrothermal liquefaction. Fuel. 2022;310:122358.

8. Gu X, Fu X, Chen S*. Hydrothermal liquefaction conversion of lignocelluloses with enhanced fungal pretreatment. Industrial Crops and Products. 2021;162:113268.

9. Gu X, Martinez-Fernandez JS, Pang N, Fu X, Chen S*. Recent development of hydrothermal liquefaction for algal biorefinery. Renewable and Sustainable Energy Reviews. 2020;121:109707.

10. Gu X, Yu L*, Pang N, Martinez-Fernandez JS, Fu X, Chen S. Comparative techno-economic analysis of algal biofuel production via hydrothermal liquefaction: One stage versus two stages. Applied Energy. 2020;259:114115.