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TYAGI, Rajeshwar Dayal
一、基本信息
TYAGI, Rajeshwar Dayal主要研究方向为生物化学工程、污水处理、污泥处置、废水及污泥生物转化为有价值产品、生物反应器设计及分析等。出版专著25部,申请发明专利100多项,发表SCI论文超过400多篇,所发表论文谷歌学术总引用次数超26902次,h-index为78(截止2023-07),并被20多场国际会议和研讨会邀请做主题报告和特邀报告。曾任加拿大首席科学家(2004-2018)。荣获欧洲科学与艺术学院院士、国际废物管理、空气和水学会终身成就奖(2020)、全球前2%顶尖科学家榜单(2021),加拿大环境科学领袖奖(2023)等30余项荣誉及奖项。在污水污泥处理与资源化领域具有丰富的研究经验及很高的国际学术威望和学术影响力。目前担任多个国际SCI期刊副主编及编委。
二、研究方向
1. 废弃生物质发酵生产可降解塑料聚羟基脂肪酸酯技术
三、教育经历
1979,印度理工学院德里分校,生物工程,博士
1974,印度哈考特巴特勒技术大学,生物化学工程,硕士
1971,印度德里大学,物理,化学,数学,学士
四、工作经历
2022/06–2023/09,香港浸会大学,生物系,访问教授
2020/10–2022/06,加拿大生物制品公司BOSK,首席科学家
1984-2020/09,加拿大魁北克大学,国家科学研究所,教授,加拿大首席科学家
1982-1984,印度理工学院,生物化学工程研究中心,讲师
1980-1982,法国工程技术大学,讲师
1979-1980,印度理工学院,生物化学工程研究中心,讲师
1979-1979,印度理工学院,生物化学工程研究中心,研究助理
五、科研项目
1. 加拿大自然科学和工程研究委员会合作研发项目:Production of bioplastics using pulp and paper mill activated sludge (PPMAS) as a raw material and new sludge isolated microorganisms,2018-2021,800,000加元,主持;
2. 加拿大自然科学和工程研究委员会项目:Industrial Process Engineering training program for processing and the valorization of agricultural / agro-industrial waste into high added value products Science,2018-2021,30,000加元,主持;
3. 加拿大自然科学和工程研究委员会合作研发项目:Polyhydroxyalkanoates (Bioplastics) production, extraction and protein recovery using Pulp and Paper Industry Activated Sludge,2018-2021,300,000加元,主持;
4. 加拿大自然科学和工程研究委员会项目:Utilization of wastewater sludge for the production of value-added products,2017.03-2019.03,200,000加元,主持;
5. 加拿大自然科学和工程研究委员会加拿大首席科学家项目:Bioconversion of Wastewater and Sludge to High Value-Added Products,2015-2018,900,000加元,主持;
6. 加拿大自然科学和工程研究委员会合作研发项目:Production of lipids for conversion to biodiesel using crude glycerol as a raw material and employing new isolated strains,2016.01-2016.12,1,000,000加元,主持;
7. 加拿大自然科学和工程研究委员会合作研发项目:Utilization of wastewater sludge for the production of value added products,2015.10-2016.10,1,000,000加元,主持;
六、荣誉称号及奖励
1. 加拿大环境科学领袖奖,2023
2. 最先进土木工程奖,美国土木工程师学会,2022
3. 全球前2%顶尖科学家榜单,2021
4. 国际废物管理、空气和水学会终身成就奖,2020
5. 欧洲科学与艺术学院院士,2013
七、科研成果
(一)代表性论文
1. Concomitant production of value-added products with polyhydroxyalkanoate (PHA) synthesis: A review. Bioresource Technology, 2021, 337: 125419. (通讯作者,中科院一区,SCI 2021 IF=11.4)
2. Identifying economical route for crude glycerol valorization: Biodiesel versus polyhydroxy-butyrate (PHB). Bioresource Technology, 2021, 323: 124565. (通讯作者,中科院一区,SCI 2021 IF=11.4)
3. Food waste valorization: Energy production using novel integrated systems. Bioresource Technology, 2021, 322: 124538. (通讯作者,中科院一区,SCI 2021 IF=11.4)
4. Acclimatization of microbial community of submerged membrane bioreactor treating hospital wastewater. Bioresource Technology, 2021, 319: 124223. (通讯作者,中科院一区,SCI 2021 IF=11.4)
5. A review on recovery of proteins from industrial wastewaters with special emphasis on PHA production process: Sustainable circular bioeconomy process development. Bioresource Technology, 2020, 317: 124006. (通讯作者,中科院一区,SCI 2021 IF=11.4)
6. Techno-economic analysis for extracellular-polymeric substances (EPS) production using activated sludge fortified with crude glycerol as substrate and its application in leachate treatment. Bioresource Technology, 2020, 303: 122954. (通讯作者,中科院一区,SCI 2021 IF=11.4)
7. Bioconversion of waste (water)/residues to bioplastics- A circular bioeconomy approach. Bioresource Technology, 2020, 298: 122584. (通讯作者,中科院一区,SCI 2021 IF=11.4)
8. Cost, energy and GHG emission assessment for microbial biodiesel production through valorization of municipal sludge and crude glycerol. Bioresource Technology, 2020, 297: 122404. (通讯作者,中科院一区,SCI 2021 IF=11.4)
9. A review on variation in crude glycerol composition, bio-valorization of crude and purified glycerol as carbon source for lipid production. Bioresource Technology, 2019, 293: 122155. (通讯作者,中科院一区,SCI 2021 IF=11.4)
10. Production of Bacillus thuringiensis based biopesticide formulation using starch industry wastewater (SIW) as substrate: A techno-economic evaluation. Bioresource Technology, 2019, 294: 122144. (通讯作者,中科院一区,SCI 2021 IF=11.4)
11. Extracellular polymeric substances (EPS) producing bacterial strains of municipal wastewater sludge: Isolation, molecular identification, EPS characterization and performance for sludge settling and dewatering. Water Research, 2010, 44(7): 2253-2266. (通讯作者,中科院一区,SCI 2021 IF=12.8)
12. Efficient centrifugal recovery of Bacillus thuringiensis biopesticides from fermented wastewater and wastewater sludge. Water Research, 2006, 40(6): 1310-1320. (通讯作者,中科院一区,SCI 2021 IF=12.8)
13. Wastewater sludge as a potential raw material for antagonistic fungus (Trichoderma sp.): Role of pre-treatment and solids concentration. Water Research, 2005, 39(15): 3587-3596. (通讯作者,中科院一区,SCI 2021 IF=12.8)
14. Sludge based Bacillus thuringiensis biopesticides: Viscosity impacts. Water research, 2005, 39(13): 3001-3011. (通讯作者,中科院一区,SCI 2021 IF=12.8)
15. Studies on the production of B. thuringiensis based biopesticides using wastewater sludge as a raw material. Water Research, 2002, 36(19): 4850-4860. 通讯作者,中科院一区,SCI 2021 IF=12.8)
16. Wastewater treatment sludge as a raw material for the production of bacillus thuringiensis based biopesticides. Water Research, 2001, 35(16): 3807-3816. (通讯作者,中科院一区,SCI 2021 IF=12.8)
17. Simultaneous sewage sludge digestion and metal leaching using an internal loop reactor: effect of suspended solids concentration. Water Research, 1998, 32(8): 2373-2390. (通讯作者,中科院一区,SCI 2021 IF=12.8)
18. Simultaneous sewage sludge digestion and metal leaching using an internal loop reactor. Water Research, 1997, 31(10): 2638-2654. (通讯作者,中科院一区,SCI 2021 IF=12.8)
19. Simultaneous sewage sludge digestion and metal leaching—Effect of sludge solids concentration. Water Research, 1997, 31(1): 105-118. (第一作者,中科院一区,SCI 2021 IF=12.8)
20. Effect of sulfur concentration on sludge acidification during the SSDML process. Water research, 1996, 30(11): 2728-2738. (通讯作者,中科院一区,SCI 2021 IF=12.8)
(二)专利
1. R.D. Tyagi, Rajwinder Kaur (2018) “Production of polyhydroxyalkanoates from pulp and paper waste streams” Patent application number: US 62/778349, United States Patent.
2. Song Yan, Rajwinder Kaur, R. D. Tyagi, Patrick Drogui, Benjamin Yao, Soro Doudjo (2018) “Process for the production of polyhydroxyalkanoates (PHA) from cashew apple juice” The patent number: CI2018 005, African Intellectual Property
3. Simon Barnabe, Mausam Verma, Rajeshwar Dayal Tyagi, Jose R. Valero (2005). Culture media for increasing biopesticide producing microorganisms pesticidal activity, methods of producing same, biopesticide producing microorganisms so produced. Submitted. The international application number: PCT/CA2005/000235.
4. BLAIS, J.F., N. MEUNIER, J.L. SASSEVILLE, R.D. TYAGI, G. MERCIER and F. HAMMY (2005). Hybrid chemical and biological process for decontaminating sludge from municipal sewage. Canada patent application, 3 August, and PCT No. 2,279,525. US Patent No. 6,855,256B2. Feb15, 2005.
5. TYAGI, R.D., J.F. BLAIS and J.C. AUCLAIR (1995). Simultaneous sludge digestion and leaching in semi-continuous process. U.S. Patent No 5,454,948.
6. TYAGI, R.D., J.F. BLAIS and J.C. AUCLAIR (1991). Semi-continuous bacterial leaching process, No 07/693, 650 (U.S.). March 1991.
7. TYAGI, R.D., D.K. JAIN and D. COUILLARD (1991). A microbial process for heavy metal removal from municipal sludges - I, No 07/659,723, (U.S.), February 1991.
8. GHOSE, T.K. and R.D. TYAGI (1986). Process for delignification. Indian patent No 155781.
9. TYAGI, R.D. and T.K. GHOSE (1985). Preparation of Ethyl alcohol from fermentable sugars. Indian patent No 155777.
10. GHOSE, T.K. and R.D. TYAGI (1985). Process for the preparation of hydrolysate. Indian Patent No. 155782.
11. TYAGI, R.D. and T.K. GHOSE (1984). Process for the preparation of hydrolysate from lignocellulosic substances. Indian Patent No. 155776