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Sibuchun

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Resume

Buchun Si is now a tenured Associate Professor in Department of Agricultural and Biological Engineering at the China Agricultural University. His research interests span a broad range of topics in the field of agricultural waste treatment, sustainable energy and environmental technologies. He currently studies the integration of systems for the next generation of waste-to-energy conversion technology (including anaerobic fermentation for hydrogen and methane production, design and development of technologies and equipment for wastewater treatment and hydrothermal liquefaction and gasification for biofuels production). He has authored or co-authored 77 technical papers in international peer-reviewed journals(e.g., Nat. Sustain., Prog. Energ. Combust., Green Chem., Water Res., Environ. Sci. Technol., Renew. Sustain. Energy Rev. etc.). His researches have been cited over 3000 times, and reported by Science Daily and EurekAlert! (operated by the American Association for the Advancement of Science). He has obtained five Chinese patents. He is also the author of 3 books concerning bioenergy, hydrothermal liquefaction and agricultural waste treatment. He currently serves as an expert of the Technical Advisory Group to develop the FAO livestock environmental assessment and performance guideline, the Associate Editor of the Front. Microbiol. and the (Guest) Editorial Members of the J Renew. Mater. Recently, he has obtained Young Top-notch Talents (Sanya Yazhou Bay Science and Technology City), Outstanding Talents (China Agricultural University) and 2021-2022 World’s Top 2% Scientistson Stanford List, etc.

Teaching research

Social Position

Ÿ   Associate Editor: Frontiers in Microbiology 2022-present

Ÿ   Editorial Board: Journal of Renewable Materials 2019-present

Ÿ   Peer Reviewer: Environ. Sci. Technol., Water Research, Chemical Engineering Journal, Fuel, ACS Sustainable Chemistry & Engineering, Desalination, Energy Conversion and Management, Bioresource Technology, International Journal of Hydrogen Energy, Applied Energy, Journal of Cleaner Production, Resources, Conservation & Recycling, Biomass Conversion and Biorefinery, Bioelectrochemistry, Industrial Crops & Products, Algae Research etc.


Dynamic activity

Field

Open Course

Project

Efficient and Safe Valorization Mode of Swine Wastewater Based on Multi-Stage Anaerobic Treatment-Farmland Irrigation, Hainan Key Research and Development Program (ZDYF2021XDNY138), 2021.09-2023.09, PI, 1,000,000 RMB.

Carbon Sequestration Technology Based on Crop Residues Recycling and Farmland Big Data, Project of Sanya Yazhou Bay Science and Technology City (SCKJ-JYRC-2022-34), 2022.07-2024.07, PI

 The Effect of N-Heterocyclic Compounds from Hydrothermal Liquefaction Aqueous Phase on Biological Hythane Production, National Natural Science Foundation of China (51806243), 2019.01-2020.12, PI

Low Temperature Effect of Cascade Transformation of Livestock and Poultry Wastewater in Cold Land and Biochar Strengthening Mechanism, National Natural Science Foundation of China (U21A20162), 2022.01-2025.12, Co-PI


Thesis

 

Selected   Publications

 

Refereed Journals 

1.         Si B., Watson J., Wang Z., Wang T., Acero Triana J. S.&   Zhang Y. Storage stability of biocrude oil fractional distillates derived   from the hydrothermal liquefaction of food waste. Renewable Energy, 2024,   220, 119669

2.         Tang S.,   Wang Z., Lu H., Si B*.,   Wang C., Jiang W. Design of stage-separated anaerobic digestion: Principles,   applications, and prospects. Renewable and Sustainable Energy Reviews,   2023, 187, 113702-113714

3.         Ren Y.,   Tang S., Hong F., Jiang W., Liu Z., Lu H., Wang C., Si B*. Effects of milli-magnetite on biohydrogen   production from potato peels: Insight of metabolism mechanisms. Fuel,   2023, 348, 128576

4.         Si B., Wang C., Cheng S., Ma X., Xu W., Wang Z., Li B., Wang   Y., Shi Z.& Jiang W. Carbon and water footprint analysis of pig farm   buildings in Northeast China using building-information-modeling enabled   assessment. Science of The Total Environment, 2023, 888, 164088

5.         Liu Z,   Xie S, Zhou H, Zhao L, Yao Z, Fan H, Si,   B*, Yang G*. Organic contaminants removal and carbon sequestration   using pig manure solid residue-derived biochar: A novel closed-loop strategy   for anaerobic liquid digestate. 2023, Chemical Engineering Journal:   144601 (IF=16.744)

6.         Zhang,   Z.; Ding, K.; Ma, X.; Tang, S.; Wang, Z.; Lu, H.; Jiang, W.; Si, B*. Hydrodynamic design of   down-flow packed bed reactor regulated the biohydrogen production and   microbial enrichment. 2023, Energy. 271, 127059 (IF=8.857)

7.         Zhu, D,   Wang, Z, Liu, K, Si, B*,   Yang, G*, Tian, C, Zhang, Y. Multi-cycle anaerobic digestion of hydrothermal   liquefaction aqueous phase: Role of carbon and iron based conductive   materials in inhibitory compounds degradation, microbial structure shaping,   and interspecies electron transfer regulation. 2023, Chemical Engineering Journal,   454: 140019 (IF=16.744)

8.         Yang, L, Si, B*, Tan, X, Xu, J, Xu, W,   Zhou, L, Chen, J, Zhang, Y, Zhou, X*. Valorization of livestock manure for   bioenergy production: A perspective on the fates and conversion of   antibiotics. 2022, Resources, Conservation and Recycling,   183: 106352-106364 ( IF=13.716)

9.         Yang, M,   Watson, J, Wang, Z, Si, B*,   Jiang, W, Zhou, B, Zhang, Y. Understanding and design of two-stage   fermentation: A perspective of interspecies electron transfer. 2022, Renewable   and Sustainable Energy Reviews, 168: 112891 (SCI, IF=16.799)

10.    Tang, S, Huang, S, Jiang, W, Lu, H, Zhan,g Y,   Zhou, B, Si, B*. Hythane   and methane production in a multistage anaerobic hythane reactor (MAHR):   Stage separation, functional microbe selection, thermodynamics, and kinetics.   2022, Energy Conversion and Management, 270: 116214 (SCI,   IF=11.533)

11.    Wang, Z, Zhang, C, Watson, J, Sharma, B K, Si, B*, Zhang, Y*. Adsorption   or direct interspecies electron transfer? A comprehensive investigation of   the role of biochar in anaerobic digestion of hydrothermal liquefaction   aqueous phase. 2022, Chemical Engineering Journal, 435:   135078-135089 (SCI, IF=16.744)

12.    Yang, G, Xie, S, Yang, M, Tang, S, Zhou, L,   Jiang, W, Zhou, B, Li, Y, Si, B*.   A critical review on retaining antibiotics in liquid digestate: Potential   risk and removal technologies. 2022, Science of The Total Environment,   853: 158550 (SCI, IF=10.753)

13.    Li, J.; Si,   B*., Liao, Q.; Fu, Q.; Liu, Z*. (2022) Insights into hydrothermal   process of microalgae via novel modified kinetic model and thermodynamic   analysis. Fuel. 317, 123540 (IF=8.035)

14.    Ren, Y.;Si, B*; Liu, Z.*; Jiang, W.; Zhang, Y. (2022) Promoting dark   fermentation for biohydrogen production: Potential roles of iron-based   additives. International Journal of Hydrogen Energy. 47, 1499-1515 (IF=7.139)

15.    Zhou, H, Margenot, A J, Li, Y, Si, B, Wang, T, Zhang, Y, Li,   S, Bhattarai, R. Phosphorus pollution control using waste-based adsorbents:   Material synthesis, modification, and sustainability. 2022,   Critical Reviews in Environmental Science and Technology, 52 (12):   2023-2059 (IF=11.750)

16.    Yang, L, Su, Q, Si, B, Zhang, Y, Zhang, Y, Yang, H, Zhou, X. Enhancing   bioenergy production with carbon capture of microalgae by ultraviolet   spectrum conversion via graphene oxide quantum dots. 2022, Chemical   Engineering Journal, 429: 132230 (IF=16.744)

17.    Watson, J., Swoboda, M., Aierzhati, A., Wang,   T., Si, B*., Zhang, Y.*.   (2021). Biocrude oil from algal bloom microalgae: a novel integration of   biological and thermochemical techniques. Environmental Science & Technology   55, 1973-1983(IF=11.357)

18.    Wang, Z#, Wang, T#,Si, B*, Watson, J, Zhang, Y* (2021). Accelerating   anaerobic digestion for methane production: Potential role of direct   interspecies electron transfer., Renewable and Sustainable Energy Reviews   145, 111069-111089(IF=16.799)

19.    Wang,   Z, Watson, J, Wang, T, Yi, S, Si, B.*, Zhang, Y.*. (2021). Enhancing   energy recovery via two stage co-fermentation of hydrothermal liquefaction   aqueous phase and crude glycerol. Energy Conversion and Management 231,   113855-113865 (IF=11.533)

20.    Si,   B#., Yang, H.#, Huang, S., Watson, J., Zhang,   Y., and Liu, Z*. (2020). An innovative multistage anaerobic hythane reactor   (MAHR): Metabolic flux, thermodynamics and microbial functions. Water   Research 169, 115216-115226 (IF=13.4)

21.      Watson,   J., Wang, T., Si, B*, Chen,   W., Aierzhati, A. and Zhang, Y*. (2020). Valorization of hydrothermal   liquefaction aqueous phase: Pathways towards commercial viability. Progress   in Energy and Combustion Science 77, 100819-100863.IF=35.339,   Highly cited paper ESI, reported by Science Daily and EurekAlert

22.      Tang, S.,   Wang, Z., Liu, Z., Zhang, Y., Si,   B.*. (2020). The role of biochar to enhance anaerobic digestion: A   review. Journal of Renewable Materials 8, 1033-1052 (Most cited paper of JRM, IF=2.115)

23.    Si,   B., Watson, J., Aierzhati, A., Yang, L., Liu, Z. * and Zhang,   Y*. (2019) Biohythane production of post-hydrothermal liquefaction   wastewater: A comparison of two-stage fermentation and catalytic hydrothermal   gasification. Bioresource Technology 274, 335-342 (IF=11.889)

24.    Aierzhati, A, Watson, J, Si B, Stablein, M, Wang, T, Zhang, Y. Development of a   mobile, pilot scale hydrothermal liquefaction reactor: Food waste conversion   product analysis and techno-economic assessment. 2021, Energy conversion and   management. X: 100076

25.    Si,   B., Yang, L., Zhou, X., Watson, J., Tommaso,   G., Chen, W., Liao, Q., Duan, N., Liu, Z.* and Zhang, Y*. (2019) Anaerobic   conversion of the hydrothermal liquefaction aqueous phase: fate of organics   and intensification with granule activated carbon/ozone pretreatment. Green   Chemistry 21,1305-1318 (IF=11.034)

26.    Fang, Y, Si,   B, Qiu, J, Wen, Q, An, M, Wang, B, Jiang, W. Bioconversion of bamboo   shoot shell to methane assisted by microwave irradiation and fungus   metabolism. 2020, Science of The Total Environment, 724: 138268 (IF=10.753)

27.    Li, M#, Si,   B.#, Zhang, Y*, Watson, J and Aierzhati, A. (2019) Reduce   recalcitrance of cornstalk using post-hydrothermal liquefaction wastewater   pretreatment. Bioresource Technology 279, 57-66 (IF=11.889)

28.    Liu, Z, Si,   B, Li, J, He, J, Zhang, C*, Lu, Y, Zhang, Y, Xing, X*. (2018) Bioprocess engineering   for biohythane production from low-grade waste biomass: technical challenges   towards scale up. Current Opinion in Biotechnology 50, 25-31 (IF=10.279)

29.    Chen, W, Zhang, Y*, Lee,   TH, Wu, Z, Si, B, Lee, CF,   Lin, A, Sharma, BK. (2018) Renewable diesel blendstocks   produced by hydrothermal liquefaction of wet biowaste. Nature Sustainability   1(11), 702-710 (IF=27.157,reported by EurekAlert)

30.    Si,   B, Li, J, Zhu, Z, Shen, M, Lu, J, Duan, N,   Zhang, Y, Liao, Q, Huang, Y, Liu, Z*. (2018) Inhibitors degradation and   microbial response during continuous anaerobic conversion of hydrothermal   liquefaction wastewater. Science of The Total Environment   630, 1124-1132 (IF=10.753)

31.    Yang, L,   Si, B, Tan, X, Chu, H, Zhou, X, Zhang, Y, Zhang, Y, Zhao F.   Integrated anaerobic digestion and algae cultivation for energy recovery and   nutrient supply from post-hydrothermal liquefaction wastewater. 2018, Bioresource   Technology, 266: 349-356 (IF=11.889)

32.    Watson, J, Zhang, Y*, Si, B, Chen, W, de Souza, R. (2018) Gasification of   biowaste: A critical review and outlooks. Renewable and Sustainable   Energy Reviews, 83: 1-17 (IF=16.799, Highly   cited paper)

 


Achievements

The software works Patent

1.       Si, B, Lin, X, Tang, S, Liu, Z. 2020A method for accelerating the formation of anaerobic granular sludge,Chinese patent: ZL202011505960.5.

2.       Liu, Z, Si, B, Huang, S, Li, J, Yang, H, Zhang, Y. 2018 A reactor for hydrogen and methane production from wastewater. Chinese patent: ZL201810842820.3

3.       Liu, Z, Si, B, Huang, S, Li, J, Yang, H, Zhang, Y. 2018 A reactor for hydrogen and methane production from solid waste. Chinese patent: ZL201810842836.4

4.       Liu, Z, Lu, J, Si, B, Shen, R, Zhu, Z, Zhang, Y, Li, B, 2015. A method to producecrude oil by hydrothermal liquefaction of algae and crude glycerol. Chinese patent: ZL 201410499416.2

5.       Liu, Z, Si, B, Li, J, Qu, Z, Zhu, Z, Lu, H, Li, B, Zhang, Y, 2014. A method coupling the algae cultivation and biohythane production to treat the organic waste. Chinese patent: CN201410226015.X


Honor

·        2022  Young Top-notch Talents, Sanya Yazhou Bay Science and Technology City

·        2019  Outstanding Talents, China Agricultural University

·        2017  International Postdoctoral Exchange Fellowship of China, Ministry of Human Resources and Social Security, China

·        2015  Principal Scholarship, the highest honors at China Agricultural University

·        2015  National Scholarship, Ministry of Education, China

·        2015  Scholarship under the State Scholarship Fund , China Scholarship Council

·        2015  Awards for PhD Thesis, International Partnership for Hydrogen and Fuel Cells in the Economy

·        2014  Academic Scholarship, China Agricultural University

·        2013  Research Scholarship, China Agricultural University

·        2010  National Scholarship, Ministry of Education, China

·        2009  National Endeavor Fellowship, China Agricultural University


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Email: sibuchun@cau.edu.cn

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