張景新--上海交通大學(xué) 中英國(guó)際低碳學(xué)院，副教授

• 2018.11 - 至今，上海交通大學(xué) 中英國(guó)際低碳學(xué)院，副教授
• 2019.6-2019.9，新加坡國(guó)立大學(xué) 環(huán)境研究所 客座副教授
• 2014.02 - 2018.10，新加坡國(guó)立大學(xué) 環(huán)境研究所，研究員
• 2008.09 - 2013.12, 大連理工大學(xué) 環(huán)境學(xué)院，環(huán)境工程 工學(xué)博士（PH.D）

• 有機(jī)固體廢棄物處理與資源化
• 厭氧消化廢物能源化技術(shù)與能源系統(tǒng)
• 高濃度有機(jī)廢水厭氧生物處理與資源化
• 環(huán)境生物技術(shù)  

歡迎申請(qǐng)人以本科短期訓(xùn)練、碩士、博士、聯(lián)合培養(yǎng)研究生、科研助理、博士后等形式加入團(tuán)隊(duì)。

課題組長(zhǎng)期與新加坡國(guó)立大學(xué)合作，基于上海交通大學(xué)與新加坡國(guó)立大學(xué)CREATE-E2S2中心構(gòu)建了長(zhǎng)短期學(xué)生赴新加坡交流的機(jī)制，合作研究主要聚焦城市有機(jī)固體廢棄物資源化技術(shù)和生態(tài)能源系統(tǒng)研究，開展“超大城市的能源與環(huán)境可持續(xù)發(fā)展解決方案”Create-E2S2項(xiàng)目及多個(gè)中新雙方合作課題。歡迎環(huán)境、化學(xué)化工、生物等相關(guān)專業(yè)的申請(qǐng)人加入團(tuán)隊(duì)。有意者請(qǐng)將完整版CV發(fā)至郵箱lcczjx@sjtu.edu.cn

1. 2020-2022，國(guó)家自然科學(xué)基金項(xiàng)目，零價(jià)鐵驅(qū)動(dòng)異化鐵還原強(qiáng)化微生物電催化厭氧甲烷化的調(diào)控機(jī)制及耐鹽機(jī)制研究，負(fù)責(zé)人
2. 2020-2023，國(guó)家重點(diǎn)研發(fā)計(jì)劃子課題，城鄉(xiāng)混合有機(jī)垃圾多源有機(jī)物源頭快速穩(wěn)定化技術(shù)及裝備，負(fù)責(zé)人
3. 2020-2022，上海市固體廢物處理與資源化工程研究中心開放課題，基于微氧處理的餐廚垃圾與污泥厭氧共消化應(yīng)用基礎(chǔ)研究，負(fù)責(zé)人
4. 2019-2021，上海市浦江人才計(jì)劃，零價(jià)鐵強(qiáng)化微生物電催化厭氧產(chǎn)甲烷的微氧調(diào)控機(jī)制及機(jī)理解析，負(fù)責(zé)人
5. 2019-2021，工業(yè)生態(tài)與環(huán)境工程教育部重點(diǎn)實(shí)驗(yàn)室項(xiàng)目，鐵強(qiáng)化厭氧消化餐廚垃圾處理與能源化，負(fù)責(zé)人
6. 2018-2023，國(guó)際科技合作項(xiàng)目-新加坡國(guó)家研究基金會(huì)（NRF）CREATE計(jì)劃項(xiàng)目，Waste-to-Resource: Eco-Energy System towards Environmental Sustainability, Co-PI
7. 2020-2023，中國(guó)與新加坡國(guó)際科技合作項(xiàng)目，環(huán)境新生污染物“一帶一路”中新聯(lián)合實(shí)驗(yàn)室，骨干成員
8. 2020-2023，中國(guó)與新加坡國(guó)際科技合作項(xiàng)目，基于納米催化凈化的餐廚垃圾高效集成治理系統(tǒng)開發(fā)及其示范應(yīng)用，骨干成員
    

2020年發(fā)表文章：

1. J.X. Zhang*, Y.Y. Qu, Q.X. Qi, P.S. Zhang, Y.B. Zhang, Y.H. Tong, Y.L. He*, " The bio-chemical cycle of iron and the function induced by ZVI addition in anaerobic digestion: A review" Water Research 186, 116405 (2020).
2. J.X. Zhang*, Q. Hu, Y.Y. Qu, Y.J. Dai, Y.L. He, C.H. Wang, Y.W. Tong*, "Integrating food waste sorting system with anaerobic digestion and gasification for hydrogen and methane co-production" Applied Energy 257, 113988 (2020).
3. J.X. Zhang*, D.N. Gu, J.Q. Chen, Y.L. He, Y.J. Dai, K.C. Loh, Y.H. Tong*, " Assessment and optimization of a decentralized food-waste-to-energy system with anaerobic digestion and CHP for energy utilization" Energy Conversion and Management, 113654 (2020).
4. Q.X. Qi (學(xué)生), C. Sun*, J.X. Zhang*, Y.L. He, Y.H. Tong, "Internal enhancement mechanism of biochar with graphene structure in anaerobic digestion: The bioavailability of trace elements and potential direct interspecies electron transfer" Chemical Engineering Journal 406, 126833 (2020).
5. J.X. Zhang, H.L. Tian, X.N. Wang*, Y.H. Tong*, " Effects of activated carbon on mesophilic and thermophilic anaerobic digestion of food waste: Process performance and life cycle assessment" Chemical Engineering Journal 399, 125757 (2020).
6. J.X. Zhang, Q.X. Qi, L.W. Mao, H.L. Y.L. He, K.C. Loh, Y.H. Tong*, " Mixing strategies – Activated carbon nexus: Rapid start-up of thermophilic anaerobic digestion with the mesophilic anaerobic sludge as inoculum" Bioresource Technology 310, 123401 (2020).
7. E.Y. Lim, H.L. Tian, Y.Y. Chen, K.W. Ni, J.X. Zhang, Y.H. Tong*, " Methanogenic pathway and microbial succession during start-up and stabilization of thermophilic food waste anaerobic digestion with biochar" Bioresource Technology 314, 123751 (2020).

8.  J.C. Cheong, T.E. Lee, J.W. Lim, S. Song, J.X. Zhang etc. "Closing the food waste loop: Food waste anaerobic digestate as fertilizer for the cultivation of the leafy vegetable, xiao bai cai (Brassica rapa)". Science of The Total Environment 715, 136789 (2020).

2019年發(fā)表文章：

1. J.X. Zhang, L.W. Mao, K. Nithya, K.C. Loh, Y.J. Dai, Y.L. He, Y.W. Tong. "Optimizing mixing strategy to improve the performance of an anaerobic digestion waste-to-energy system for energy recovery from food waste" Applied Energy 249, 28-36 (2019).

2. L.W. Mao, J.X. Zhang, Y.J. Dai, Y.W. Tong. "Effects of mixing time on methane production from anaerobic co-digestion of food waste and chicken manure: Experimental studies and CFD analysis" Bioresource Technology 294, 122177 (2019).

3. L. Zhang, K.C. Loh, J.X.Zhang, L.W. Mao, Y.W. Tong, Y.J. Dai. “Three-stage anaerobic co-digestion of food waste and waste activated sludge: Identifying bacterial and methanogenic archaeal communities and their correlations with performance parameters" Bioresource Technology, 285, 121333 (2019).

4. L. Zhang, K.C. Loh*, J.W. Lim, J.X. Zhang, Bioinformatics analysis of metagenomics data of biogas-producing microbial communities in anaerobic digesters: A review. Renewable and Sustainable Energy Reviews, 100, 110-126 (2019).

5. L. Zhang, K.C. Loh*, J.X. Zhang,Jointly reducing antibiotic resistance genes and improving methane yield in anaerobic digestion of chicken manure by feedstock microwave pretreatment and activated carbon supplementation. Bioresource Technology, 372, 815-824 (2019).

6. L. Zhang, K.C. Loh*, J.X. Zhang, Enhanced food waste anaerobic digestion: An encapsulated metal additive for shear stress-based controlled release. Journal of Cleaner Production 235, 85-95 (2019).

2018年發(fā)表文章：

1. J.X. Zhang, X. Kan, Y. Shen, K.C. Loh, C.H. Wang, Y.J. Dai, Y.W. Tong*, A hybrid biological and thermal waste-to-energy system with heat energy recovery and utilization for solid organic waste treatment. Energy, 152, 214-222 (2018).

2. J.X. Zhang, F.J. Mao, K.C. Loh, K.Y. Gin, Y.J. Dai, Y.W. Tong*. “Evaluating the effects of activated carbon on methane generation and the fate of antibiotic resistant genes and class I integrons during anaerobic digestion of solid organic wastes.” Bioresource Technology, 249, 729-736 (2018).

3. W.L. Li, K.C. Loh, J.X. Zhang, Y.W. Tong*, Y.J. Dai. “Two-stage anaerobic digestion of food waste and horticultural waste in high-solid system.” Applied Energy, 209,400-408 (2018).

4. X. Kan, J.X. Zhang, Y.W. Tong, C.H. Wang. “Overall evaluation of microwave-assisted alkali pretreatment for enhancement of biomethane production from brewers’ spent grain.” Energy Conversion and Management, 158, 315-326 (2018).

5. H.H. Tong, Y. Shen, J.X. Zhang, C.H. Wang, S.G. Tian, Y.W. Tong. “A comparative life cycle assessment on four waste-to-energy scenarios for food waste generated in eateries.” Applied Energy, 225, 1143-1157 (2018).

6. L. Zhang, J.X. Zhang, K.C. Loh. “Activated carbon enhanced anaerobic digestion of food waste – Laboratory-scale and Pilot-scale operation.” Waste Management, 75, 270-279 (2018).

7. L. Zhang, K.C. Loh*, J.X. Zhang, “Food waste enhanced anaerobic digestion of biologically pretreated yard waste: Analysis of cellulose crystallinity and microbial communities.” Waste Management, 79, 109-119 (2018).

8. L. Zhang, K. C. Loh, J.X. Zhang, Enhanced biogas production from anaerobic digestion of solid organic wastes: Current status and prospects. Bioresource Technology Reports, In press (2018).

2017年發(fā)表文章：

1. J.X. Zhang, K.C. Loh, W.L. Li, J.W. Lim, Y.J. Dai, Y. W. Tong*. “Three-stage anaerobic digester for food waste. Applied Energy, 194, 287-295 (2017) .

2. J.X. Zhang, W.L. Li, J. Lee, K.C. Loh, Y.J. Dai, Y.W. Tong*. “Enhancement of biogas production in anaerobic co-digestion of food waste and waste activated sludge by biological co-pretreatment” Energy, 137, 479-486 (2017).

3. J.X. Zhang, L.W. Mao, L. Zhang, K. C. Loh, Y.J. Dai, Y.W. Tong*. “Metagenomic insight into the microbial networks and metabolic mechanism in anaerobic digesters for food waste by incorporating activated carbon.” Scientific Reports 7, 11293 (2017).

4. J.X. Zhang, K.C. Loh, J. Lee, C.H. Wang, Y.J. Dai, Y.W. Tong*. “Three-stage anaerobic co-digestion of food waste and horse manure”. Scientific Reports, 7, 1269 (2017).

5. J.X. Zhang, L. Zhang, K.C. Loh, Y. Dai, and Y.W. Tong*, “Enhanced anaerobic digestion of food waste by adding activated carbon: Fate of bacterial pathogens and antibiotic resistance genes”, Biochemical Engineering Journal, 128C, 19-25 (2017).

6. X. Kan, Z. Yao, J.X. Zhang, Y.W. Tong, W. Yang, Y. Dai, and C.H. Wang*, “Energy performance of an integrated bio-and-thermal hybrid system for lignocellulosic biomass waste treatment”, Bioresource Technology, 228, 77-88 (2017).

2017年以前文章：

7. J.X. Zhang, Y.B. Zhang*, X. Quan, S. Chen. “Enhancement of anaerobic acidogenesis by integrating an electrochemical system into an acidogenic reactor: Effect of hydraulic retention times (HRT) and role of bacteria and acidophilic methanogenic Archaea.” Bioresource Technology, 179, 43-49 (2015).

8. J.X. Zhang, Y.B. Zhang*, X. Quan. “Bio-electrochemical enhancement of anaerobic reduction of nitrobenzene and its effects on microbial community.” Biochemical Engineering Journal, 94, 85-91 (2015).

9. J.X. Zhang, Y.B. Zhang*, B.Q. Liu, Y. Dai, X. Quan, S. Chen. “A direct approach for enhancing the performance of a microbial electrolysis cell (MEC) combined anaerobic digester by dosing ferric iron: Enrichment and isolation of Fe (III) reducing bacteria.” Chemical Engineering Journal, 248, 223-229（2014）.

10. J.X. Zhang, Y.B. Zhang*, X. Quan, S. Chen. “Effects of ferric iron on the anaerobic treatment and microbial biodiversity in a coupled microbial electrolysis cell (MEC) – Anaerobic reactor.” Water Research, 47, 5719-5728 (2013).

11. J.X. Zhang, Y.B. Zhang*, J.H. Chang, X. Quan, Q. Li. “Biological sulfate reduction in the acidogenic phase of anaerobic digestion under dissimilatory Fe (III) – Reducing conditions.” Water Research, 47, 2033-2040 (2013).

12. J.X. Zhang, Y.B. Zhang, X. Quan, S. Chen, S. Afzal. “Enhanced anaerobic digestion of organic contaminants containing diverse microbial population by combined microbial electrolysis cell (MEC) and anaerobic reactor under Fe(III) reducing conditions.” Bioresource Technology, 136, 273-280 (2013).

13. J.X. Zhang, Y.B. Zhang, Y. Li, L. Zhang, S. Qiao, F.L. Yang, X. Quan. “Enhancement of nitrogen removal in a novel anammox reactor packed with Fe electrode.” Bioresource Technology, 114, 102-108 (2012).

14. J.X. Zhang, Y.B. Zhang, X. Quan, S. Chen. “Response to the comments on the paper “Bioaugmentation and functional partitioning in a zero valent iron-anaerobic reactor for sulfate-containing wastewater treatment” Chemical Engineering Journal, 248, 223-229 (2012).

15. J.X. Zhang, Y.B. Zhang, X. Quan. “Electricity assisted anaerobic treatment of salinity wastewater and its effects on microbial communities.” Water Research, 46, 3535-3543 (2012).

16. J.X. Zhang, Y.B. Zhang, X. Quan, Y. Li, S. Chen, H.M. Zhao, D. Wang. “An anaerobic reactor packed with a pair of Fe-graphite plate electrodes for bioaugmentation of azo dye wastewater” Biochemical Engineering Journal, 63, 31-37, 2012.

17. J.X. Zhang, Y.B. Zhang, X.Quan, Y.W. Liu, X.L. An, S. Chen, H.M. Zhao. “Bioaugmentation and functional partitioning in a zero valent iron-anaerobic reactor for sulfate-containing wastewater treatment.” Chemical Engineering Journal, 174, 159-165 (2011).

18. Y. Li, J.X. Zhang, Y.B. Zhang*, X. Quan. “Scalling-up of a zero valent iron packed anaerobic reactor for textile dye wastewater treatment: a potential technology for on-site upgrading and rebuilding of traditional anaerobic wastewater treatment plant.” Water Science and Technology, 76, 823-831 (2017).

19. Y. Li, Y.B. Zhang, X. Quan, J.X. Zhang, S. Chen, S. Afzal. “Enhanced anaerobic fermentation with azo dye as electron acceptor: Simultaneous acceleration of organics decomposition and azo decoloration.” Journal of Environmental Sciences, 26, 1970-1976 (2014).

20. Y.W. Liu, Y.B. Zhang, X. Quan, J.X. Zhang, H.M. Zhao, S. Chen. “Effects of an electric field and zero valent iron on anaerobic treatment of azo dye wastewater and microbial community structures.” Bioresource Technology, 102, 2578-2584 (2011).

21. Y.B. Zhang, Y.W. Jing, J.X. Zhang, L.F. Sun, X. Quan. “Performance of a ZVI-UASB reactor for azo dye wastewater treatment.” Journal of Chemical Technology and Biotechnology, 86, 199-204 (2011).

22. Q.X. Qi, C. Sun, J.X. Zhang*, Y.L. He, Y.W. Tong, Internal enhancement mechanism of biochar with graphene structure in anaerobic digestion: The bioavailability of trace elements and potential direct interspecies electron transfer. Chemical Engineering, Journal 406, 126833 (2021).

23. J.X. Zhang, J.Q. Chen, D.N. Gu, Y.L. He, Y.J.Dai, K.C. Loh.  Assessment and Optimization of a decentralized Food-Waste-to-Energy System with anaerobic digestion and CHP for energy utilization. Energy Conversion and Management, Accepted, (2020).

Solid Waste Treatment and Resource Recovery（研究生）

1. 第三屆鐵環(huán)境化學(xué)及污染控制技術(shù)研討會(huì)2020分會(huì)場(chǎng)主席；“13th International Conference On Solid Waste Technology and Management 2017”分會(huì)場(chǎng)主席；“15th International Conference on Sustainable Energy Technologies 2016”會(huì)議執(zhí)行委員會(huì)委員；WSSET-World Society of Sustainable Energy Technologies協(xié)會(huì)會(huì)員；Bioenergy Society of Singapore協(xié)會(huì)會(huì)員

2. 擔(dān)任多個(gè)SCI期刊的審稿人：Applied energy, Renewable and Sustainable Energy Reviews, Energy, Water Research, Scientific reports, Bioresource Technology, Chemical Engineering Journal, Solar Energy, Applied Microbiology and Biotechnology, Environmental Engineering Science, Chemosphere.

• 2018 第一屆“京津冀-粵港澳”（國(guó)際）青年創(chuàng)新創(chuàng)業(yè)大賽 暨未來(lái)城市創(chuàng)新創(chuàng)業(yè)大賽 銅獎(jiǎng) 
• 2016 指導(dǎo)學(xué)生（Ms. Colleen Yeow）榮獲新加坡科技與工程博覽會(huì)項(xiàng)目 銅獎(jiǎng)
• 2015 遼寧省優(yōu)秀博士學(xué)位論文