石宝友,博士,研究员,中国科学院大学教授,博士生导师。主要研究领域为水处理技术原理与饮用水安全。以环境微界面水质学理论为基础,深入研究水处理工艺及管网输配的水质转化过程机制,建立水厂工艺和管网输配相协同的龙头水保障原理和技术体系;研发高效混凝过滤、吸附催化、生物处理、智慧运维等水与废水处理的新技术、材料和设备。先后承担国家自然科学基金、国家863计划、国家重点研发计划、国家科技重大专项等科研项目20余项。在Water Res.和Environ. Sci. Technol.等国内外学术期刊发表论文240余篇,授权发明专利20余项,主编或参编标准/指南/导则等5项、专著4部。获中国科学院杰出科技成就奖、中国城镇供水排水协会科学技术奖特等奖。
主要学习经历
1990. 9 – 1994. 7 哈尔滨工业大学,环境工程,工学学士
1994. 9 – 1996. 7 哈尔滨工业大学,环境化工,工学硕士
1996. 9 – 1999. 7 中国科学院生态环境研究中心,环境科学,理学博士
主要工作经历
1999.07-2000.09 中国预防医学科学院环境卫生监测所,助理研究员
2001.01-2004.07 美国中佛罗里达大学(佛州奥兰多市),博士后/访问学者
2004. 08-今:中国科学院生态环境研究中心,助理研究员,副研究员,研究员
[1]Xin Huang, Kaiyun Wang, Yitian He, Baoyou Shi*. Transformation of Al Species on Carbon Surfaces: Effects of Al Species and Carbon Surface Oxygen Groups, Environmental Science & Technology, 2024, 58, 1763−1770.
[2]Guiwei Li, Qi Chen, Haibo Wang, Yuliang Su, Bin Wu, Jianwei Yu, Min Yang, Baoyou Shi*. Corroded iron pipe inhibits microbial-mediated Mn(II) oxidation and MnOx accumulation compared to PVC pipe, Water Research, 2024, 251, 121142.
[3]Yuan Zhuang, Yujia Gao, Baoyou Shi*. Iron Particles Lower than 10 μm in Drinking Water Dominate Particle Catalysis Effect on Disinfection Byproduct Formation. Water Research, 2023, 245, 120634.
[4]Yuan Zhuang, Penglu Li, Baoyou Shi*. NO3- Promotes Nitrogen-Containing Disinfection Byproduct Formation in Corroded Iron Drinking Water Pipes. Environmental Science & Technology, 2023, 57, 11251−11258.
[5]Yuan Zhuang, Donghan Li, Baoyou Shi*. Perfluorooctanoic Acid (PFOA) Incorporated in Iron Particles Prompted Formation of Disinfection Byproducts under Drinking Water Conditions. Environmental Science & Technology, 2023, 57, 4863-4869.
[6]Guiwei Li, Yuliang Su, Bin Wu, Qi Chen, Jianwei Yu, Min Yang, Baoyou Shi*. Chloramine Prevents Manganese Accumulation in Drinking Water Pipes Compared to Free Chlorine by Simultaneously Inhibiting Abiotic and Biotic Mn(II) Oxidation. Environmental Science & Technology, 2022, 56, 112278-12287.
[7]Guiwei Li, Yuanyuan Zhao, Guangyu An, and Baoyou Shi*. Mn(II) Oxidation by Free Chlorine Catalyzed by the Hydrolytic Products of Ferric and Aluminum Species under Drinking Water Conditions. Environmental Science & Technology, 2022, 56, 10775−10784.
[8]Guiwei Li, Yuliang Su, Bin Wu, Guohang Han, Jianwei Yu, Min Yang, Baoyou Shi*. Initial Formation and Accumulation of Manganese Deposits in Drinking Water Pipes: Investigating the Role of Microbial-Mediated Processes, Environmental Science & Technology, 2022, 56, 5497-5507.
[9]Xin Huang, Ying Yu, Huan Chen, Huikai Liang, Mengze Geng, Baoyou Shi*. Disinfection by-product formation and toxicity evaluation for chlorination with powered activated carbon, Water Research, 2021, 205,117660.
[10]Ying Yu, Guiwei Li, Ruya Chen, Baoyou Shi*. Trihalomethanes formation enhanced by manganese chlorination and deposition in plastic drinking water pipes, Water Research, 2021, 204, 117582.
[11]Ruya Chen, Guiwei Li, Yitian He, Linlin Pan, Ying Yu, Baoyou Shi*. Field study on the transportation characteristics of PFASs from water source to tap water. Water Research, 2021, 198, 117162.
[12]Yuan Zhuang, Congcong Shen, Yifan Gu, Ruya Chen, Baoyou Shi*. Effect of trichloroacetic acid on iron oxidation: Implications on the control of DBPs and deposits in drinking water. Water Research, 2021, 189, 116632.
[13]Yuan Zhuang, Bingjun Han, Ruya Chen, Baoyou Shi*. Structural transformation and potential toxicity of iron-based deposits in drinking water distribution systems. Water Research, 2019, 165, 114999.
[14]Guiwei Li, Xu Ma, Ruya Chen, Ying Yu, Hui Tao, Baoyou Shi*. Field Studies of Manganese Deposition and Release in Drinking Water Distribution Systems: Insight into Deposit Control. Water Research, 2019,163, 114897.
[15]Guiwei Li, Haotian Hao, Yuan Zhuang, Ziqiao Wang, Baoyou Shi*. Powdered activated carbon enhanced Manganese(II) removal by chlorine oxidation, Water Research, 2019, 156, 287-296.
[16]Xin Huang, Baoyou Shi*, Haotian Hao, Yuliang Su, Bin Wu, Zeyu Jia, Chunmiao Wang, Qi Wang, Min Yang, Jianwei Yu. Identifying the function of activated carbon surface chemical properties in the removability of two common odor compounds. Water Research, 2020, 178,115797.
[17]Huifang Sun, Baoyou Shi*, Fan Yang, Dongsheng Wang. Effects of sulfate on heavy metal release from iron corrosion scales in drinking water distribution system. Water Research, 2017, 114: 69-77.
[18]Fan Yang, Baoyou Shi*, Yaohui Bai, Huifang Sun, Darren A. Lytle, Dongsheng Wang. Effect of sulfate on the transformation of corrosion scale composition and bacterial community in cast iron water distribution pipes. Water Research, 2014, 59, 46-57.
[19]Fan Yang, Baoyou Shi*, Junnong Gu, Dongsheng Wang, Min Yang. Morphological and physicochemical characteristics of iron corrosion scales formed under different water source histories in a drinking water distribution system. Water Research, 2012, 46(16): 5423-5433.
[20]Ke Gai, Baoyou Shi*, Xiaomin Yan, and Dongsheng Wang. Effect of Dispersion on Adsorption of Atrazine by Aqueous Suspensions of Fullerenes. Environmental Science & Technology, 2011, 45 (14): 5959–5965.