姓名:巫寅虎
所在单位:环境生物教研所
职称:副研究员
办公电话:(86)-10-62797265
电子邮件:wuyinhu@mail.tsinghua.edu.cn
办公地点:北京市海淀区清华大学环境节能楼524,100084

 

教育背景

2005.9-2009.7    华东理工大学环境科学与工程系  工学学士

2009.9-2014.7    清华大学环境学院  工学博士

 

工作履历

2014.7-2015.10   清华大学环境学院  博士后

2015.11-2018.1   牛津大学工程科学系  博士后

2018.3-          清华大学环境学院  副研究员

 

学术兼职

Water Research,Bioresource Technology等期刊审稿人

研究领域

再生水的生物风险产生机制与控制技术,主要包括(病原)微生物污染及其控制理论、再生水安全消毒技术、再生水处理和输配储存及利用系统中的微生物风险(微生物生长与堵塞、微生物污染、微生物腐蚀)及其控制、城市景观水体和再生水景观利用过程中的水华风险及其控制等。

研究概况

1. 全国博士后国际交流计划派出项目(20150017),全国博士后管理办基金(全国每年仅100名),2015.11-2017.12,30万,主持。

2. 再生水的生物风险产生机制与调控原理(51738005),国家自然科学基金委重点项目,2018.1-2022.12,300万,主要参与。

3. 紫外线/氯高级氧化处理城市污水再生系统反渗透浓水的研究(51578308),国家自然科学基金委面上项目,2016.1-2019.12,75万,主要参与。

4. 再生水生态储存的水质变化机制与调控原理(51138006),国家自然科学基金委重点项目,2012.1-2016.12,290万,主要参与。

5. 人类活动对湖泊生态与水质安全的影响及新型控制技术(2010DFA92090),教育部国际合作项目,2010.1-2012.12,40万,主要参与。

奖励与荣誉

2014年,清华大学“学术新秀”

2014年,清华大学优秀博士毕业生

2014年,清华大学优秀博士毕业论文一等奖

2012年,博士生国家奖学金

 

学术成果

学术专著:

1. 能源微藻利用内源磷的生长及油脂积累特性. 清华大学优秀博士学位论文丛书. 北京: 清华大学出版社, 2017. 唯一作者

2. 藻类生物质能源—理论基础、关键技术及发展路线图. 北京: 科学出版社, 2011. 前言及摘要第一完成人, 第9章第一完成人, 第5章第二完成人.

3. 水质研究方法. 北京: 科学出版社, 2015. 第6章第一完成人, 第25章第一完成人, 21章第二完成人.

 

部分论文:

1. WU Yin-Hu, HU Hong-Ying, YU Yin, ZHANG Tian-yuan, ZHU Shu-Feng, ZHUANG Lin-Lan, ZHANG Xue, LU Yun. Microalgal species for sustainable biomass/lipid production using wastewater as resource: A review. Renewable and Sustainable Energy Reviews, 33, 675-688, 2014.

2. WU Yin-Hu, YU Yin, LI Xin, HU Hong-Ying, SU Zhen-Feng. Biomass production of a Scenedesmus sp. under phosphorous-starvation cultivation condition. Bioresource Technology, 112, 193-198, 2012.

3. WU Yin-Hu, LI Xin, YU Yin, HU Hong-Ying, ZHANG Tian-Yuan, LI Feng-Min. An integrated microalgal growth model and its application to optimize the biomass production of Scenedesmus sp. LX1 in open pond under the nutrient level of domestic secondary effluent. Bioresource Technology, 144, 445-451, 2013.

4. WU Yin-Hu, YU Yin, HU Hong-Ying. Potential biomass yield per phosphorus and lipid accumulation property of seven microalgal species. Bioresource Technology, 130, 599-602, 2013.

5. WU Yin-Hu, YU Yin, HU Hong-Ying. Microalgal growth with intracellular phosphorus for achieving high biomass growth rate and high lipid/triacylglycerol content simultaneously. Bioresource Technology, 192, 374-381, 2015.

6. WU Yin-Hu, ZHU Shu-Feng,YU Yin, SHI Xiao-Jie, WU Guang-Xue, HU Hong-Ying. Mixed cultivation as an effective approach to enhance microalgal biomass and triacylglycerol production in domestic secondary effluent. Chemical Engineering Journal, 328, 665-672, 2017.

7. WU Yin-Hu, YANG Jia, HU Hong-Ying, YU Yin. Lipid-rich microalgal biomass production and nutrient removal by Haematococcus pluvialis in domestic secondary effluent. Ecological Engineering, 60, 155-159, 2013.

8. WU Yin-Hu, YU Yin, HU Hong-Ying, ZHUANG Lin-Lan. Effects of cultivation conditions on the production of soluble algal products (SAPs) of Scenedesmus sp. LX1. Algal Research, 16, 376-382, 2016.

9. WU Yin-Hu, YU Yin, HU Hong-Ying. Effects of initial phosphorus concentration and light intensity on biomass yield per phosphorus and lipid accumulation of Scenedesmus sp. LX1. Bioenergy Research, 7, 927-934, 2014.

10. ZHUANG Lin-Lan, WU Yin-Hu, Victor Manuel Deantes Espinosa, ZHANG Tian-Yuan, DAO Guo-Hua, HU Hong-Ying. Soluble Algal Products (SAPs) in large scale cultivation of microalgae for biomass/bioenergy production: A review. Renewable and Sustainable Energy Reviews, 59, 141-148, 2016.

11. Wang Xiao-Xiong, WU Yin-Hu, ZHANG Tian-yuan, XU Xue-Qiao, DAO Guo-Hua, HU Hong-Ying. Simultaneous nitrogen, phosphorous, and hardness removal from reverse osmosis concentrate by microalgae cultivation. Water Research, 94, 215-224, 2016.

12. ZHANG Tian-Yuan, WU Yin-Hu, ZHU Shu-feng, HU Hong-Ying. Isolation and heterotrophic cultivation of mixotrophic microalgae strains for domestic wastewater treatment and biofuel production under totally dark condition. Bioresource Technology, 149, 586-589, 2013.

13. YU Yin, WU Yin-Hu, ZHU Shu-Feng, HU Hong-Ying. The bioavailability of the soluble algal products of different microalgal strains and its influence on microalgal growth in unsterilized domestic secondary effluent. Bioresource Technology, 180, 352-355, 2015.

14. ZHANG Tian-Yuan, WU Yin-Hu, ZHUANG Lin-Lan, WANG Xiao-Xiong, HU Hong-Ying. Screening heterotrophic microalgal strains by using Biolog method for biofuel production from organic wastewater. Algal Research, 6, 175-179, 2014.

15. ZHANG Tian-Yuan, WU Yin-Hu, HU Hong-Ying. Domestic wastewater treatment and biofuel production by using microalga Scenedesmus sp. ZTY1. Water Science and Technology, 69, 2492-2496, 2014.

16. ZHUANG Lin-Lan, WU Yin-Hu, SHI Xiao-Jie, HU Hong-Ying. Using ozonation to eliminate the inhibition of soluble algal products (SAP) of Scenedesmus sp. LX1 on its growth in microalgal cultivation for biomass/bioenergy production. Water Science and Technology: Water Supply, 15, 1034-1039, 2015.

17. HUANG Jing-Jing, HU Hong-Ying, WU Yin-Hu, Wei Bin, LU Yun. Effect of chlorination and ultraviolet disinfection on tetA-mediated tetracycline resistance of Escherichia coli. Chemosphere, 90, 2247-2253, 2013.

18. ZHANG Tian-Yuan, YU Yin, WU Yin-Hu, HU Hong-Ying. Inhibitory effects of soluble algae products (SAP) released by Scenedesmus sp. LX1 on its growth and lipid production. Bioresource Technology, 146, 643-648, 2013.

19. ZHUANG Lin-Lan, HU Hong-Ying, WU Yin-Hu, WANG Ting, ZHANG Tian-Yuan. A novel suspended-solid phase photobioreactor to improve biomass production and separation of microalgae. Bioresource Technology, 153, 399-402, 2014.

20. ZHANG Tian-Yuan, HU Hong-Ying, WU Yin-Hu, ZHUANG Lin-lan, XU Xue-Qiao, WANG Xiao-Xiong, DAO Guo-Hua. Promising solutions to solve the bottlenecks in the large-scale cultivation of microalgae for biomass/bioenergy production. Renewable and Sustainable Energy Reviews, 60, 1602-1614, 2016.

21. ZHANG Tian-Yuan, WANG Xiao-Xiong, WU Yin-Hu, WANG Jing-Han, Victor Manuel Deantes Espinosa, Zhuang Lin-Lan, HU Hong-Ying, WU Guang-Xue. Using straw hydrolysate to cultivate Chlorella pyrenoidosa for high-value biomass production and the nitrogen regulation for biomass composition. Bioresource Technology, 244, 1254-1260, 2017.

22. SU Zhen-Feng, LI Xin, HU Hong-Ying, WU Yin-Hu, Noguchi Tsutomu. Culture of Scenedesmus sp. LX1 in the modified effluent of a wastewater treatment plant of an electric factory by photo-membrane bioreactor. Bioresource Technology, 102, 7627-7632, 2011.

23. YU Yin, HU Hong-Ying, LI Xin, WU Yin-Hu, ZHANG Xue, JIA Sheng-Lan. Accumulation characteristics of soluble algal products (SAP) by a freshwater microalga Scenedesmus sp. LX1 during batch cultivation for biofuel production. Bioresource Technology, 110, 184-189, 2012

24. LI Xin, HU Hong-Ying, YANG Jia, WU Yin-Hu. Enhancement effect of ethyl-2-methyl acetoacetate on triacylglycerols production by a freshwater microalga, Scenedesmus sp. LX1. Bioresource Technology, 101, 9819-9821, 2010.

25. Zhuang Lin-Lan, Azimi Yaldah, Yu Dawei, Wang Wen-Long, WU Yin-Hu, Dao Guo-Hua, HU Hong-Ying. Enhanced attached growth of microalgae Scenedesmus. LX1 through ambient bacterial pre-coating of cotton fiber carriers. Bioresource Technology, 218, 643-649, 2016.

 

专利:

基于聚合物-表面活性剂二元微纳米结构的藻类高效浓缩收获方法,申请号2017103684995,第一完成人

基于毛细动力供水供营养的微藻固相附着生长培养方法,CN105420113A(公告号),第四完成人