黄建科

发布时间:2019-09-29浏览次数:9002


黄建科,男,副教授,博士、硕导

Email:jkhuang@hhu.edu.cn, 海洋科学实验中心201


学习经历:

2002/09 – 2006/06,中国矿业大学,化工学院,生物工程, 本科,学士

2006/09 – 2012/11,华东理工大学,生工学院,生物化工,  硕博,博士 

 

工作经历:

2012/12 –2014/12,华东理工大学,生工学院,轻工技术与工程,师资博士后

2015/01–2019/08华东理工大学,生工学院,生物反应器国家重点实验室,讲师

2018/01–2018/12,分子生物学研究所(IMB),澳大利亚昆士兰大学, 访问学者

2019/09 至今,    河海大学,威尼斯5994,副教授  


研究方向: 

1. 微藻生物工程技术:海洋微藻培养、藻类活性物质及功效评价、藻类高附加值产品开发、过程模拟及模型化、藻细胞代谢途径分析

2. 微藻环境生态技术:极端环境微藻(低温、嗜酸)、微藻/藻菌耦合处理废水、微藻/藻菌土壤改良剂开发、重金属、微塑料暴露及海洋酸化对微藻的胁迫响应机制


主讲课程: 

《海洋浮游生物学》

《海洋天然产物和海洋药物》


学生指导:

2022年,第十五届全国大学生节能减排社会实践与科技竞赛/三等奖(指导教师)

2022年,首届全国大学生低碳循环科技创新大赛/一等奖(指导教师)

2022年,全国第十六届iCan大学生创新创业大赛总决赛/二等奖(指导教师)

2022年,第十二届“挑战杯”江苏省大学生创业计划竞赛/银奖(指导教师)

2022年,江苏省大学生海洋低碳技能大赛/一等奖(指导教师)

2023年, 第五届全国大学生可再生能源优秀科技作品竞赛/二等奖(指导教师)

2023年,第九届江苏省“互联网+”大学生创新创业大赛/二等奖(指导教师)

2023年,第二届全国大学生低碳循环科技创新大赛/一等奖(指导教师)

2023年,“科创江苏”创新创业大赛/二等奖(负责人)

2024年,第十四届“挑战杯”江苏省大学生创业计划竞赛/银奖(指导教师)

2024年,第三届全国大学生低碳循环科技创新大赛/一等奖(指导教师)

2024年,河海大学2024届本科毕业论文(设计)优秀指导教师


科研项目: 

[1] 藻红蛋白和海洋生物硫酸酯多糖开发,张家港科技计划项目(编号:ZKYY2309),2023-2024

[2] 绿色微藻生物制剂高密度培养及应用关键技术开发课题研发,2022-2025,主持

[3] 微藻生物膜-膜气升式跑道池耦合系统构建及其对水产养殖废水脱氮除磷和β-葡聚糖同步合成的过程与调控方法国家自然科学基金面上项目(批准号: 32273157),2023-2026主持

[4] 藻红蛋白和海洋生物硫酸酯多糖开发课题研发,2022-2024主持

[5] 基于流场/光场耦合调控的微藻生物固碳与转化方法,成果转让,2022-2023主持

[6] 微藻资源高效利用高效利用关键技术开发与工程化示范,2022.10-2023.12,参与

[7] 高效绿色微藻生物肥和土壤改良剂制备关键技术研究与应用,南通市2021年度社会民生科技计划,2021-2023,主持

[8] 水产绿色健康养殖的守护者——微藻及其光生物反应器系统中央高校基本科研业务费自由探索专项-大学生学科竞赛项目,2021.1-2022.12,参与

[9] 海洋微生物发酵产DHA作为动物营养保健技术开发,江苏省科技副总项目,2020-2022主持

[10] 微藻薄膜式光生物反应器及其在菌酶藻协同发酵饲料开发中的应用研究,研发课题,2020-2021主持

[11] 环境因子对三角褐指藻兼养产岩藻黄素的影响规律及过程调控研究,中央高校基本科研业务费项目,2020~2021主持

[12] 混合对微藻生长的综合影响机制及其调控,华东理工大学远志计划项目2017-2018主持

[13] 微藻光自养培养过程中剪切力对藻细胞的伤害作用机制及其调控(课题编号:31402319) 国家自然科学基金青年基金,2015~2017主持

[14] 微藻高效光生物反应器研制与放大(课题编号:FT2014-01-13山西省重点科技攻关项目的子课题,2014~2017主持

[15] 混合与剪切力耦合作用对微藻生长的影响机制及其调控(课题编号:2014M551344)中国博士后基金,2014.3~2014.12主持

[16] 光生物反应器设计与放大研究(2011CB200903-5),973计划项目子课题,2013~2015主持


论文论著:

[1] Jianke Huang*Hanlong WangXiwen XueRuizeng Zhang. Impacts of microplastic and seawater acidification on unicellular red algae: Growth response, photosynthesis, antioxidant enzymes, and extracellular polymer substances. Aquatic Toxicology, 2024. 272:106960 (IF4.5, 二区)

[2] Sanjiong Yi, Ai-Hua Zhang*, Jianke Huang*, Ting Yao, Bo Feng, Xinghu Zhou, Yadong Hu* and Mingxuan Pan. Maximizing Polysaccharides and Phycoerythrin in Porphyridium purpureum via the Addition of Exogenous Compounds: A Response-Surface-Methodology Approach. Mar. Drugs 2024, 22, 138.(IF5.4, 二区)

[3]Jianke Huang, Bocheng Su, Xingyi Fei, Jiayi Che, Ting Yao, Ruizeng Zhang, Sanjiong Yi,Enhanced microalgal biomass and lipid production with simultaneous  effective  removal of Cd using algae-bacteria-activated carbon consortium added with organic carbon source.Chemosphere,2024, 350:141088 (IF8.8, 二区Top) 

[4] T. Yao, Jianke. Huang*, B. Su, L. Wei, A.-H. Zhang*, D.-F. Zhang, Y. Zhou, G. Ma, Enhanced phycocyanin production of Arthrospira maxima by addition of mineral elements and polypeptides using response surface methodology, Frontiers in Marine Science, 2022, 9(IF3.7, 二区Top)

[5] Jianke Huang *, Chao Zhang, Ting Yao, Jinshun Jiang , Aihua Zhang , Daofeng Zhang, Zhen Zhang*. Simultaneous treatment of swine and furfural wastewater with microalgal lipid production by Chlorella pyrenoidosa cultivation. Applied Sciences, 2022,12(16), 8144(IF2.7,四区)

[6] Aihua Zhang, Bo Feng, Han Zhang, Jinshun Jiang, Daofeng Zhang*, Yi Du, Zheng Cheng, Jianke Huang*. Efficient cultivation of Porphyridium purpureum integrated with swine wastewater treatment to produce phycoerythrin and polysaccharide.Journal of Applied phycology, 2022, 34:2315-2326(IF3.3, 三区)

[7] Zeng-Yu Gao#, Hua-Peng Xue#, Lu Wang2 , Yutian Yao, Dao-Feng Zhang, Jianke Huang*, Chuang Liu, Ai Hua Zhang*. Sphingopyxis jiangsuensis sp. nov., isolated from the surfacewater of the Yellow Sea. Current Microbiology,2022,79:214(IF3.6, 三区)

[8]  Pengfei Cheng#, Jianke Huang#Xiaotong Song, Ting Yao, Jingshun Jiang, Chengxu Zhou, Xiaojun Yan, Roger Ruan*.Heterotrophic and mixotrophic cultivation of microalgae to simultaneously achieve furfural wastewater treatment and lipid production. Bioresource Technology,2022, 349, 126888 (IF11.4, 一区Top)

[9]   Jinshun Jiang, Jianke Huang*,Han Zhang, Zhen Zhang, Yi Du, Zheng Cheng, Bo Feng, Ting Yao, Aihua Zhang, Zhe Zhao*. Potential integration of wastewater treatment and natural pigment production by Phaeodactylum tricornutum: Microalgal growth, nutrient removal, and fucoxanthin accumulation. Journal of Applied Phycology, 2022,34:1411-1422(IF3.3, 三区)

[10]   Jianke Huang, Ruirui Chu, Ting Chang, Pengfei Cheng, Jingshun Jiang, Ting Yao, Chengxu Zhou, Tianzhong Liu, Roger Ruan. Modeling and improving arrayed microalgal biofilm attached culture system. Bioresource Technology, 2021, 331:124931 (IF11.4, 一区Top)

[11]   Jianke Huang, Minxi Wan, Jingshun Jiang, Aihua Zhang, Daofeng Zhang. Evaluating the effects of geometry and arrangement parameter of flat panel photobioreactor on microalgae biomass production and economic performance in China. Algal research, 2021, 57:102343.(IF5.1,  二区)

[12]   Fei Fan, Minxi Wan, Jianke Huang*, Weiliang Wang, Wenmin Bai, Maolei He,Yuanguang Li*, Modeling of astaxanthin production in the two-stage cultivation of Haematococcuspluvialis and its application on the optimization of vertical multi-column airlift photobioreactor. Algal research, 2021, 58:102301(IF5.1,  二区)

[13]   Shaohua Li#, Jianke Huang#, Liang Ji, Cheng Chen, Ping Wu, Wei Zhang, Gaoyi Tan, Haizhen Wu, Jianhua Fan*. Assessment of light distribution model for marine red microalgae Porphyridium purpureum to improve the culture performance with controlled light in the photobioreactor, Algal research, 2021,58, 102390(IF5.1,  二区)


[14]  Jianke Huang, Ben Hankamer, Jennifer, Yarnold*. Design scenarios of outdoor arrayed cylindrical photobioreactors for microalgae cultivation considering solar radiation and temperature, Algal research, 2019, ,41: 101515(IF5.1,  二区)

[15]  Jianke Huang#, Qijian Yang#, Jianpei Chen, Minxi Wan, Jiangguo Ying, Fei Fan, Jun Wang, Wei Li, Yuanguang Li. Design and optimization of a novel airlift-driven sloping raceway pond with numerical and practical experiments. Algal research, 2016, 20: 164-171(IF5.1,  二区) 

[16]  Jianke Huang#, Jiangguo Ying#, Fan Fei, Qijian Yang, Jun Wang, Yuanguang Li. Developed a novel multi-tube airlift photobioreactor with easy scablilty by means of computational fluid dynamic simulations and experiments.Bioresource Technology,2016, 222:399-407(IF11.4, 一区Top)

[17]  Fanxue Zeng#Jianke Huang#, Chen Meng, Fachao Zhu, Jianpei Chen. Investigation on novel raceway pond with inclined paddle wheels through simulation and microalgae culture experiments.Bioprocess and Biosystems Engineering, 2016, 39(1):169-180(IF3.8, 三区)

[18]  Jianke Huang, Xiaoxing Qu, Minxi   Wan, Jiangguo  Ying, Yuanguang Li, Faochao  Zhu, Jun  Wang, Guomin  Shen, Jianpei  Chen, Wei  Li. Investigation on the performance of raceway ponds with internal structures by the means of CFD simulations and experimentsAlgal research. 2015, 10:64-71(IF5.1,  二区) 

[19Jianke Huang, Fei Feng, Minxi Wan, Jiangguo Ying, Yuanguang Li, Xiaoxing Qu, Ronghua Pan, Guomin Shen, Wei  Li. Improving performance of flat-plate photobioreactors by installation of novel internal mixers optimized with computational fluid dynamics. Bioresource Technology, 2015, 182: 151-159(IF11.4, 一区Top)

[20Jianke Huang, Shaofeng Kang, Minxi Wan, Yuanguang Li, Xiaoxing Qu, Fei Feng, Jun Wang, Weiliang Wang Guomin Shen, Wei Li. Numerical and experimental study on the performance of flat-plate photobioreactors with different inner structures for microalgae cultivation. Journal of Applied Phycology, 2015, 27(1): 49-58(IF3.3, 三区)

[21Jianke Huang, Yuanguang Li, Minxi Wan, Yi Yan, Fei Feng, Xiaoxing Qu, Jun Wang, Guomin Shen, Wei Li, Jianhua Fan, Weiliang Wang. Novel flat-plate photobioreactors for microalgae cultivation with special mixers to promote mixing along the light gradient.Bioresource Technology, 2014, 159:8-16(IF11.4, 一区Top)

[22] Feifei Han#, Jianke Huang#,  Yuanguang Li, Weiliang Wang, Minxi Wan, Guomin Shen, Jun Wang. Enhanced lipid productivity of Chlorella pyrenoidosa through the culture strategy of semi-continuous cultivation with nitrogen limitation and pH control by CO2Bioresource Technology, 2013, 136:418-424(IF11.4, 一区Top)

[23] Feifei Han#Jianke Huang#, Yuanguang Li, Weiliang Wang, Jun Wang, Jianhua Fan, Guomin Shen. Enhancement of microalgal biomass and lipid productivities by a model of photoautotrophic culture with heterotrophic cells as seed. Bioresource Technology 2012, 118:431-437(IF11.4, 一区Top)


授权专利/软著:

[1]黄建科. 用于微藻兼性生长模式培养的生物反应器及其工作方法,中国发明专利专利号:ZL201911118818.2

[2] 黄建科.一种耦合糠醛废水处理与生物质生产的微藻培养方法中国发明专利,专利号:ZL202011421535.8

[3] 黄建科.一种用于微藻异养和混养培养的薄膜式无菌生物反应器实用新型专利,专利号:ZL202023297301.5

[4]黄建科. 微藻培养同步固碳和废水净化的跑道式光生物反应池实用新型专利专利号:ZL202220661000.6

[5]黄建科. 户外柱式光生物反应器中微藻光自养生长预测分析软件V1.0,登记号:2022SR0704099, 2022

[6]黄建科等微藻固碳和产氢一体化耦合系统实用新型专利专利号:ZL202222114919.6

[7]姚婷、黄建科.微藻生物膜和膜跑道池的微藻培养耦合系统,实用新型专利专利号:ZL202220684984.X



学术兼职:

期刊审稿人:Water Research、Chemical Engineering Journal、Bioresource Technology, Journal of Cleaner Production、Environmental pollution、Journal of Environmental Management、Algal Research、Journal of Water Process Engineering、Journal of Environmental Chemical Engineering、Marine pollution bulletin等

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