巫寅虎-pg麻将胡了模拟器链接

 巫寅虎-pg麻将胡了模拟器链接

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pg麻将胡了模拟器链接-pg电子赏金女王模拟器试玩

师资队伍

巫寅虎

邮箱:wuyinhu@mail.tsinghua.edu.cn

电话:(86)-10-62797265

地点: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

国际标准化组织水回用技术委员会(iso/tc282 water reuse)城镇水回用分技术委员会专家,sci期刊《journal of water reuse and desalination》(现改名为《water reuse》)副主编(associate editor-in-chief),中国环境科学学会水处理与回用专业委员会委员等。


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

获中国循环经济协会科学技术一等奖

华夏建设科学技术奖一等奖

jswe-idea water environment international exchange award(个人奖)

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

近3年,以通讯作者/第一作者发表sci论文20余篇,获专利授权9项,主持国家自然科学基金委项目“消毒对再生水处理反渗透膜生物污堵的影响机制及控制研究”(52000114)、国家重点研发计划项目课题“适应太原市可持续发展的水资源优化配置关键技术”(2019yfc0408601)等污水再生利用领域重要科研项目;主持编制首个再生水反渗透处理国际标准iso国际标准《water reuse in urban areas — guidelines for reclaimed water treatment: design principles of a ro treatment system of municipal wastewater》(iso 23070,2020年发布),主笔起草团体标准《水回用指南 污水再生处理反渗透系统运行管理》(2020年发布)

 

代表性论著(包括论文与专著):

1. wu, yinhu; chen, zhuo*; li, xu; wang, yunhong; liu, bo; chen, genqiang*; luo, liwei; wang, haobin; tong, xin; bai, yuan; xu, yuqing; nozomu, ikuno; li, caifeng; zhang, hongyu; hu, hongying; effect of ultraviolet disinfection on the fouling of reverse osmosis membranes for municipal wastewater reclamation, water research, 2021, in press: 116995.(期刊论文)

2. wang, yunhong; wu, yinhu*; tong, xin; yu, tong; peng, lu; bai, yuan; zhao, xuehao; huo, zhengyang; ikuno, nozomu; hu, hongying*; chlorine disinfection significantly aggravated the biofouling of reverse osmosis membrane used for municipal wastewater reclamation, water research, 2019, 154: 246-257.(期刊论文)

3. wang, yunhong; wu, yinhu*; luo, liwei; wang, qi; tong, xin; bai, yuan; ni, xinye; wang, haobin; chen, genqiang; ikuno, nozomu; chen, zhuo; hu, hongying; metagenomics analysis of the key functional genes related to biofouling aggravation of reverse osmosis membranes after chlorine disinfection, journal of hazardous materials, 2021, in press: 124602.(期刊论文)

4. bai, yuan; wu, yinhu*; wang, yunhong; tong, xin; zhao, xuehao; nozomu, ikuno; hu, hongying*; membrane fouling potential of the denitrification filter effluent and the control mechanism by ozonation in the process of wastewater reclamation, water research, 2020, 173: 115591.(期刊论文)

5. tong, xin#; zhao, xuehao#; wu, yinhu*; bai, yuan; ikuno, nozomu; ishii, kazuki; hu, hongying; the molecular structures of polysaccharides affect their reverse osmosis membrane fouling behaviors, journal of membrane science, 2021, 625: 118984.(期刊论文)


已发表的其余论著(按时间倒序排序):

1. luo, liwei; wu, yinhu*; yu, tong; wang, yunhong; chen, genqiang; tong, xin; bai, yuan; xu, chuang; wang, haobin; ikuno, nozomu; hu, hongying; evaluating method and potential risks of chlorine-resistant bacteria (crb): a review, water research, 2021, 188: 116474.(期刊论文)

2. liu, hai; tian, guipeng; wang, wenyi; zhang, jianchunxiu; wu, tianshu; ni, xinye; wu, yinhu*; carbon fiber-based flow-through electrode system (fes) for cr(vi) removal at near neutral phs via cr(vi) reduction and in-situ adsorption of cr(iii) precipitates, chemical engineering journal, 2021, in press: 127622.(期刊论文)

3. ni, xinye; wu, yinhu*; liu, hai; zhang, xiaojing; xu, zibin; peng, lu; wang, wenlong; wang, haobin; chen, zhuo; hu, hongying; enhancing disinfection performance of the carbon fiber-based flow-through electrode system (fes) by alternating pulse current (apc) with low-frequency square wave, chemical engineering journal, 2021, 410: 128399.(期刊论文)

4. chen, genqiang; wu, yinhu*; wang, yunhong; chen, zhuo; tong, xin; bai, yuan; luo, liwei; xu, chuang; hu, hongying; effects of microbial inactivation approaches on quantity and properties of extracellular polymeric substances in the process of wastewater treatment and reclamation: a review , journal of hazardous materials, 2021, in press: 11111.(期刊论文)

5. 徐傲; 巫寅虎*; 陈卓; 崔琦; 白宇; 李魁晓; 时玉龙; 高强; 胡洪营; 北京市城镇污水再生利用现状与潜力分析, 环境工程, 2021, in press.(期刊论文)

6. tong, xin; wu, yinhu*; bai, yuan; zhao, xuehao; luo, liwei; mao, yu; ikuno, nozomu; hu, hongying*; simulating and predicting the flux change of reverse osmosis membranes over time during wastewater reclamation caused by organic fouling, environment international, 2020, 140: 105744.(期刊论文)

7. ni, xinye; liu, hai; wang, chun; wang, wenlong; xu, zibin; chen, zhuo; wu, yinhu*; hu, hongying*; comparison of carbonized and graphitized carbon fiber electrodes under flow-through electrode system (fes) for high-efficiency bacterial inactivation, water research, 2020, 168: 115150.(期刊论文)

8. huo, zhengyang; du, ye; chen, zhuo; wu, yinhu*; hu, hongying; evaluation and prospects of nanomaterial-enabled innovative processes and devices for water disinfection: a state-of-the-art review, water research, 2020, 173: 115581.(期刊论文)

9. liu, hai; wu, yinhu*; ni, xinye; chen, zhuo; peng, lu; huo, zhengyang; wang, qi; hu, hongying; construction and optimization mechanisms of carbon fiber-based flow-through electrode system (fes) with stackable multi-cathode units for water disinfection, journal of hazardous materials, 2020, 399: 123065.(期刊论文)

10. tong, xin; yong cui; wang, yunhong; bai, yuan; yu, tong; zhao, xuehao; ikuno, nozomu; luo, huijia; hu, hongying; wu, yinhu*; fouling properties of reverse osmosis membranes along the feed channel in an industrial-scale system for wastewater reclamation, science of the total environment, 2020, 713: 136673.(期刊论文)

11. xu, ao#; wu, yinhu#*; chen, zhuo; wu, guangxue; wu, qianyuan; ling, fangqiong; huang, weie; hu, hongying; towards the new era of wastewater treatment of china: development history, current status, and future directions, water cycle, 2020, 1: 80-87.(期刊论文)

12. 巫寅虎; 王琦; 童心; 罗立炜; 赵雪皓; 王运宏; 白苑; 张国亮; 金焱; 梁思懿; 胡洪营*; 污水再生处理反渗透系统进水膜污堵潜势评价方法及指标体系, 环境工程, 2020, 38(3): 51.(期刊论文)

13. 刘博; 王运宏; 巫寅虎*; 胡洪营*; 紫外线消毒对再生水中微生物生长分泌特性的影响, 环境工程, 2020, 38(2): 28-34.(期刊论文)

14. liu, hai; ni, xin ye; huo, zheng yang; peng, lu; li, guo qiang; wang, chun; wu, yin hu*; hu, hong ying*; carbon fiber-based flow-through electrode system (fes) for water disinfection via direct oxidation mechanism with a sequential reduction-oxidation process, environmental science & technology, 2019, 53(6): 3238-3249. (期刊论文)

15. wang, yunhong; wu, yinhu*; du, ye; li, qing; cong, yi; huo, zhengyang; chen, zhuo; yang, hongwei; liu, shuming; hu, hongying*; quantifying chlorine-reactive substances to establish a chlorine decay model of reclaimed water using chemical chlorine demands, chemical engineering journal, 2019, 356: 791-798.(期刊论文)

16. zhao, xuehao; wu, yinhu*; zhang, xue; tong, xin; yu, tong; wang, yunhong; ikuno, nozomu; ishii, kazuki; hu, hongying*; ozonation as an efficient pretreatment method to alleviate reverse osmosis membrane fouling caused by complexes of humic acid and calcium ion, frontiers of environmental science & engineering, 2019, 13(4): 89-100.(期刊论文)

17. wu, yinhu; yu, yin; hu, hongying*; the "fingerprint" of a freshwater microalga scenedesmus sp. lx1: visualizing the composition of its soluble algal products, chinese chemical letters, 2019, 30(5): 1126-1128.(期刊论文)

18. bai, yuan; huo, zhengyang; wu, yinhu*; hu, hongying*; efficient nanowire-assisted electroporation and cellular inclusion release of microalgal cells achieved by a low voltage, science of the total environment, 2019, 667: 191-196. (期刊论文)

19. wang, yunhong; wu, yinhu*; yu, tong; zhao, xuehao; tong, xin; bai, yuan; huo, zhengyang; hu, hongying*; effects of chlorine disinfection on the membrane fouling potential of bacterial strains isolated from fouled reverse osmosis membranes, science of the total environment, 2019, 693: 0-unsp 133579.(期刊论文)

20. chen, jack xiaoyu#; steel, harrison#; wu, yinhu#; wang, yun; xu, jiabao; rampley, cordelia p n; thompson, ian p; papachristodoulou, antonis; huang, wei e*; development of aspirin-inducible biosensors in escherichia coli and simcells, applied and environmental microbiology, 2019, 85(6): unsp e02959-18.(期刊论文)

21. fan, catherine#; wu, yinhu#; decker, christoph m; rohani, reza; salazar, manuela gesell; ye, hua; cui, zhanfeng; schmidt, frank; huang, wei e*; defensive function of transposable elements in bacteria, acs synthetic biology, 2019, 8(9): 2141-2151.(期刊论文)

22. 罗立炜; 罗辉甲; 崔勇; 王运宏; 童心; 巫寅虎*; 胡洪营*; 甲基异噻唑琳酮对mbr出水微生物生长分泌特性及群落结构的影响, 环境科学学报, 2019, 39(8): 2467-2474.(期刊论文)

23. yu, tong; sun, hao; chen, zhuo; wang, yunhong; huo, zhengyang; ikuno, nozomu; ishii, kazuki; jin, yan; hu, hongying; wu, yinhu*; lu, yun*; different bacterial species and their extracellular polymeric substances (epss) significantly affected reverse osmosis (ro) membrane fouling potentials in wastewater reclamation, science of the total environment, 2018, 644: 486-493.(期刊论文)

24. wu, yinhu#; shen, licheng#; hu, hongying; nick, p. hankins*; huang, wei e.*; an efficient microalgal biomass harvesting method with a high concentration ratio using the polymer-surfactant aggregates process, algal research, 2018, 30: 86-93.(期刊论文)

25. wu, yinhu; zhu, shufeng; yu, yin; shi, xiaojie; wu, guangxue*; hu, hongying*; mixed cultivation as an effective approach to enhance microalgal biomass and triacylglycerol production in domestic secondary effluent, chemical engineering journal, 2017, 328: 665-672.(期刊论文)

26. wu, yinhu; yu, yin; hu, hongying*; zhuang, linlan; effects of cultivation conditions on the production of soluble algal products (saps) of scenedesmus sp lx1, algal research, 2016, 16: 376-382.(期刊论文)

27. wu, yinhu; yu, yin; hu, hongying*; microalgal growth with intracellular phosphorus for achieving high biomass growth rate and high lipid/triacylglycerol content simultaneously, bioresource technology, 2015, 192: 374-381.(期刊论文)

28. wu, yinhu; hu, hongying*; yu, yin; zhang, tianyuan; zhu, shufeng; zhuang, linlan; zhang, xue; lu, yun; microalgal species for sustainable biomass/lipid production using wastewater as resource: a review, renewable and sustainable energy reviews, 2014, 33: 675-688.(期刊论文)

29. wu, yinhu; yu, yin; hu, hongying*; effects of initial phosphorus concentration and light intensity on biomass yield per phosphorus and lipid accumulation of scenedesmus sp lx1, bioenergy research, 2014, 7(3): 927-934.(期刊论文)

30. wu, yinhu; yu, yin; hu, hongying*; potential biomass yield per phosphorus and lipid accumulation property of seven microalgal species, bioresource technology, 2013, 130: 599-602.(期刊论文)

31. wu, yinhu; li, xin; yu, yin; hu, hongying*; zhang, tianyuan; li, fengmin; 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, 2013, 144: 445-451.(期刊论文)

32. wu, yinhu; yu, yin; li, xin; hu, hongying*; su, zhenfeng; biomass production of a scenedesmus sp under phosphorous-starvation cultivation condition, bioresource technology, 2012, 112: 193-198.(期刊论文)


论著之外的代表性研究成果和学术奖励:

1. 巫寅虎(9/15); 城镇再生水生态纽联循环利用技术及应用, 华夏建设科学技术奖励委员会, 科技进步, 省部一等奖, 2020(胡洪营; 曾思育; 龚道孝; 张建; 李锋民; 吴光学; 王冠平; 郭玉梅; 巫寅虎; 陈卓; 董欣; 吴乾元; 李志超; 石伟; 王跃昌).(科研奖励)

2. 巫寅虎(11/15); 污废水强化增效处理与工业循环利用关键技术及应用, 中国循环经济协会, 科技进步, 省部一等奖, 2020(胡洪营; 孙迎雪; 吴光学; 陈卓; 杜烨; 张鹤清; 梁思懿; 郭玉梅; 王冠平; 时孝磊; 巫寅虎; 吴乾元; 王文龙; 倪明亮; 郭昉). (科研奖励)

3. yin-hu wu(1/1); jswe-idea water environment international exchange award, japan society on water environment, 其他, 国际学术奖, 2019(yin-hu wu).(科研奖励)

4. 巫寅虎; 胡洪营; 庄林岚; 基于聚合物-表面活性剂二元微纳米结构的藻类浓缩收获方法, 2020-8-21, 中国, zl201710368499.5.(专利)

5. 巫寅虎; 胡洪营; 赵雪皓; 王运宏; 童心; 白苑; 一种反渗透平膜装置, 2019-7-16, 中国, zl201821729914.1.(专利)

6. 巫寅虎; 胡洪营; 霍正洋; 刘海; 倪欣业; 一种高通量消毒装置, 2019-9-24, 中国, zl201822159622.5.(专利)

7. 巫寅虎; 胡洪营; 白苑; 一种评价水样超滤膜污堵潜势的装置, 2021-2-19, 中国, zl202020969030.4.(专利)



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