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夏奡研究员个人主页

个人简介
夏奡
 

       

 

夏奡,工学博士,2016年入选重庆大学百人计划,现任重庆大学动力工程学院研究员、博士生导师。2008年获浙江大学能源与环境系统工程专业学士学位及竺可桢学院混合班荣誉学位,2013年获浙江大学动力工程及工程热物理专业博士学位,随后在爱尔兰国立科克大学(UCC)及爱尔兰海洋可再生能源中心(MaREI)从事博士后研究。2016年全职引进重庆大学动力工程学院、低品位能源利用教育部重点实验室开展科研工作。长期从事生物质能及节能减排相关领域的研究。在Trends in BiotechnologyApplied EnergyEnergyBioresource Technology等国际SCI期刊上发表论文60余篇,出版Springer Nature专著1部(ISBN 978-981-10-7676-3),合作撰写国际能源署(IEA)生物天然气出版物1部(ISBN 978-1-910154-18-2),应邀撰写Springer重要参考书(Major Reference Works1章。研究成果被引用1000余次,4篇论文入选ESI高被引论文、1篇论文入选ESI热点论文、1篇论文入选重庆市科协自然科学优秀学术论文,H-index21

夏奡研究员应邀担任国家重点研发计划、国家自然科学基金、波兰科学基金评审专家。担任2个国际期刊客座编辑和编委、1个国际期刊副主编以及Applied EnergyRenewable & Sustainable Energy ReviewsEnergyBioresource TechnologyAlgal ResearchEnergy & Fuels21SCI期刊评审专家。担任APEC先进生物氢能研究中心重庆分会副主席。担任国际学术会议组委会委员或分会主席3次、做特邀报告2次。目前作为课题负责人主持国家重点研发计划子课题、国家自然科学基金青年项目、重庆市留学人员回国创业创新支持计划重点项目等多个科研项目。曾获得国际SCI期刊Bioresource Technology最佳审稿人奖、浙江大学最高荣誉“竺可桢奖学金”、国际清洁能源会议“优秀论文奖”等荣誉和奖励。

夏奡研究员担任本科生SRTP项目、国创项目、节能减排大赛等科研训练项目导师,指导学生曾获得国际水协会世界厌氧大会“杰出海报奖”、重庆大学优秀本科毕业论文等荣誉和奖励。




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主要研究方向:

 

1. 生物燃气转化过程中的能质传输问题

2. 生化反应器多尺度过程强化

3. 新型节能减排技术

欢迎对上述方向感兴趣、有志于一起奋斗的博士和硕士研究生加入。


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研究生培养:

招收以上相关方向动力工程及工程热物理专业博士、硕士研究生。


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联系方式:
E-MAIL:  
aoxia@cqu.edu.cn

电话/传真:023-65103113

重庆大学工程热物理研究所 


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科研项目:

[1]     国家重点研发计划子课题(2016YFB0601002):微藻烟气CO2多相传递与固碳机理,80万元,2016.7~2020.6,负责人

[2]     国家重点研发计划子课题(2017YFB0603601):液态熔渣相变换热与物相演化耦合作用机制,64万元,2016.7~2020.6,负责人

[3]     国家自然科学基金青年项目(51606021):降流式两步厌氧发酵制取氢烷气生物膜反应器内传递与转化特性及调控方法研究,23.6万元,2017.1~2019.12,负责人

[4]     中央高校基本科研业务费基地平台项目(106112017CDJPT140001):有机废水发酵联产氢气和甲烷研究,50万元,2017.1~2017.12,负责人

[5]     重庆市留创计划重点项目(cx2017019),12万元,2017.12~2019.12,负责人

[6]     重庆大学“百人计划”科研启动费,100万元,2016.1~2018.12,负责人


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发表论文: 
 

一、SCI论文

[1]     Ao Xia and Jerry Murphy*. Microalgal cultivation in treating liquid digestate from biogas systems. Trends in Biotechnology 2016; 34:264–275.

[2]     Ao Xia, Jun Cheng* and Jerry Murphy. Innovation in biological production and upgrading of methane and hydrogen for use as gaseous transport biofuel. Biotechnology Advances 2016; 34:451–472.

[3]     Ao Xia, Amita Jacob, Muhammad Rizwan Tabassum, Christiane Herrmann and Jerry Murphy*. Production of hydrogen, ethanol and volatile fatty acids through co-fermentation of macro-and micro-algae. Bioresource Technology 2016; 205:118–125.

[4]     Ao Xia, Amita Jacob, Christiane Herrmann and Jerry Murphy*. Fermentative bio-hydrogen production from galactose. Energy 2016; 96:346–354.

[5]     Ao Xia, Jun Cheng*, Lingkan Ding, Richen Lin, Wenlu Song, Huibo Su, Junhu Zhou and Kefa Cen. Substrate consumption and hydrogen production via co-fermentation of monomers derived from carbohydrates and proteins in biomass wastes. Applied Energy 2015; 139:9–16.

[6]     Ao Xia, Amita Jacob, Christiane Herrmann, Muhammad Tabassum and Jerry Murphy*. Production of hydrogen, ethanol and volatile fatty acids from the seaweed carbohydrate mannitol. Bioresource Technology 2015; 193:488–497.

[7]     Ao Xia, Jun Cheng*, Wenlu Song, Huibo Su, Lingkan Ding, Richen Lin, Hongxiang Lu, Jianzhong Liu, Junhu Zhou and Kefa Cen. Fermentative hydrogen production using algal biomass as feedstock. Renewable & Sustainable Energy Reviews 2015; 51:209–230.

[8]     Ao Xia, Christiane Herrmann and Jerry Murphy*. How do we optimise third generation algae biofuels? Biofuels Bioproducts & Biorefining-Biofprining 2015; 9:358–367.

[9]     Ao Xia, Jun Cheng*, Lingkan Ding, Richen Lin, Wenlu Song, Junhu Zhou and Kefa Cen. Enhancement of energy production efficiency from mixed biomass of Chlorella pyrenoidosa and cassava starch through combined hydrogen fermentation and methanogenesis. Applied Energy 2014; 120:23–30.

[10] Ao Xia, Jun Cheng*, Lingkan Ding, Richen Lin, Wenlu Song, Junhu Zhou and Kefa Cen. Effects of changes in microbial community on the fermentative production of hydrogen and soluble metabolites from Chlorella pyrenoidosa biomass in semi-continuous operation. Energy 2014; 68:982–988.

[11] Ao Xia, Jun Cheng*, Richen Lin, Jianzhong Liu, Junhu Zhou and Kefa Cen. Sequential generation of hydrogen and methane from glutamic acid through combined photo-fermentation and methanogenesis. Bioresource Technology 2013; 131:146–151.

[12] Ao Xia, Jun Cheng*, Richen Lin, Hongxiang Lu, Junhu Zhou and Kefa Cen. Comparison in dark hydrogen fermentation followed by photo hydrogen fermentation and methanogenesis between protein and carbohydrate compositions in Nannochloropsis oceanica biomass. Bioresource Technology 2013; 138:204–213.

[13] Ao Xia, Jun Cheng*, Richen Lin, Lingkan Ding, Junhu Zhou and Kefa Cen. Combination of hydrogen fermentation and methanogenesis to enhance energy conversion efficiency from trehalose. Energy 2013; 55:631–637.

[14] Ao Xia, Jun Cheng*, Lingkan Ding, Richen Lin, Junhu Zhou and Kefa Cen. Improvement of the energy conversion efficiency of Chlorella pyrenoidosa biomass by a three-stage process comprising dark fermentation, photofermentation, and methanogenesis. Bioresource Technology 2013; 146:436–443.

[15] Ao Xia, Jun Cheng*, Wenlu Song, Cong Yu, Junhu Zhou and Kefa Cen. Enhancing enzymatic saccharification of water hyacinth through microwave heating with dilute acid pretreatment for biomass energy utilization. Energy 2013; 61:158–166.

[16] Muhammad Rizwan Tabassum, Ao Xia* and Jerry Murphy. Potential of seaweed as a feedstock for renewable gaseous fuel production in Ireland. Renewable & Sustainable Energy Reviews 2017; 68:136–146.

[17] Amita Jacob Guneratnam, Ao Xia*, Jerry Murphy. Comparative study of single- and two-stage fermentation of the brown seaweed Laminaria digitata. Energy Conversion and Management 2017; 148: 405-412.

[18] Muhammad Rizwan Tabassum, Ao Xia*, Jerry Murphy. Comparison of pre-treatments to reduce salinity and enhance biomethane yields of Laminaria digitata harvested in different seasons. Energy 2017;140: 546-551.

[19] Muhammad Rizwan Tabassum, Ao Xia* and Jerry Murphy. Seasonal variation of chemical composition and biomethane production from the brown seaweed Ascophyllum nodosum. Bioresource Technology 2016; 216:219–226.

[20] Muhammad Rizwan Tabassum, Ao Xia* and Jerry Murphy. The effect of seasonal variation on biomethane production from seaweed and on application as a gaseous transport biofuel. Bioresource Technology 2016; 209:213–219.

[21] Truc TQ Vo*, Ao Xia, David M Wall, Jerry D Murphy. Use of surplus wind electricity in Ireland to produce compressed renewable gaseous transport fuel through biological power to gas systems. Renewable Energy 2017; 105:495–504.

[22] Truc TQ Vo*, Ao Xia, Fionn Rogan, David M Wall, Jerry D Murphy. Sustainability assessment of large-scale storage technologies for surplus electricity using group multi-criteria decision analysis. Clean Technologies and Environmental Policy 2017; 19:689–703.

[23] Enrique Chan Gutierrez, Ao Xia, Jerry D Murphy*. Can slurry biogas systems be cost effective without subsidy in Mexico? Bioresource Technology 2016; 95:22–30.

[24] Amita Jacob, Ao Xia, Jerry D Murphy*. A perspective on gaseous biofuel production from micro-algae generated from CO2 from a coal-fired power plant. Applied Energy 2015; 148:396–402.

[25] Jun Cheng*, Ao Xia, Huibo Su, Wenlu Song, Junhu Zhou, Kefa Cen. Promotion of H2 production by microwave-assisted treatment of water hyacinth with dilute H2SO4 through combined dark fermentation and photofermentation. Energy Conversion and Management 2013; 73:329–334.

[26] Jun Cheng*, Ao Xia, Yaqiong Liu, Richen Lin, Junhu Zhou, Kefa Cen. Combination of dark-and photo-fermentation to improve hydrogen production from Arthrospira platensis wet biomass with ammonium removal by zeolite. International Journal of Hydrogen Energy 2012; 37:13330–13337.

[27] Jun Cheng*, Ao Xia, Wenlu Song, Huibo Su, Junhu Zhou, Kefa Cen. Comparison between heterofermentation and autofermentation in hydrogen production from Arthrospira (Spirulina) platensis wet biomass. International Journal of Hydrogen Energy 2012; 37:6536–6544.

[28] Lingkan Ding, Jun Cheng*, Ao Xia, Amita Jacob, Markus Voelklein, Jerry D Murphy. Co-generation of biohydrogen and biomethane through two-stage batch co-fermentation of macro-and micro-algal biomass. Bioresource Technology 2016; 218:224–231.

[29] Jun Cheng*, Lingkan Ding, Ao Xia, Richen Lin, Junhu Li, Yuyou, Zhou, Kefa Cen. Hydrogen production using amino acids obtained by protein degradation in waste biomass by combined dark- and photo-fermentation. Bioresource Technology 2015; 179:13–19.

[30] Jun Cheng*, Richen Lin, Ao Xia, Yaqiong Liu, Junhu Zhou, Kefa Cen. Sequential generation of fermentative hydrogen and methane from swine manure with physicochemical characterization. Energy & Fuels 2014; 28:563–570.

[31] Jun Cheng*, Wenlu Song, Ao Xia, Huibo Su, Junhu Zhou, Kefa Cen. Sequential generation of hydrogen and methane from xylose by two-stage anaerobic fermentation. International Journal of Hydrogen Energy 2012; 37:13323–13329.

[32] Yahui Sun, Qiang Liao*, Yun Huang, Ao Xia, Qian Fu, Xun Zhu, Jingwei Fu, Jun Li. Application of growth-phase based light-feeding strategies to simultaneously enhance Chlorella vulgaris growth and lipid accumulation. Bioresource Technology 2018; 256:421–430.

[33] Lingkan Ding, Enrique Chan Gutierrez, Jun Cheng*, Ao Xia, Richard O’Shea, Amita Jacob Guneratnam, Jerry D Murphy. Assessment of continuous fermentative hydrogen and methane co-production using macro-and micro-algae with increasing organic loading rate. Energy 2018; 151:760–770.

[34] Rijuta Ganesh Saratale, Gopalakrishnan Kumar, Rajesh Banu, Ao Xia, Sivagurunathan Periyasamy, Ganesh Dattatraya Saratale*. A critical review on anaerobic digestion of microalgae and macroalgae and co-digestion of biomass for enhanced methane generation. Bioresource Technology 2018; DOI: 10.1016/j.biortech.2018.03.030.

[35] Yahui Sun, Yun Huang*, Qiang Liao, Ao Xia, Qian Fu, Xun Zhu, Jingwei Fu. Boosting Nannochloropsis oculata growth and lipid accumulation in a lab-scale open raceway pond characterized by improved light distributions employing built-in planar waveguide modules. Bioresource Technology 2018; 249:880–889.

[36] Qiang Liao*, Yahui Sun, Yun Huang, Ao Xia, Qian Fu, Xun Zhu. Simultaneous enhancement of Chlorella vulgaris growth and lipid accumulation through the synergy effect between light and nitrate in a planar waveguide flat-plate photobioreactor. Bioresource Technology 2017; 243:528–538.

[37] Haixing Chang, Qian Fu*, Yun Huang, Ao Xia, Qiang Liao, Xun Zhu. Improvement of microalgae lipid productivity and quality in an ion-exchange-membrane photobioreactor using real municipal wastewater. International Journal of Agricultural and Biological Engineering 2017; 10:97–106.

[38] Yahui Sun, Qiang Liao*, Yun Huang, Ao Xia, Qian Fu, Xun Zhu, Yaping Zheng. Integrating planar waveguides doped with light scattering nanoparticles into a flat-plate photobioreactor to improve light distribution and microalgae growth. Bioresource Technology 2016; 220:215–224.

[39] Hai-Xing Chang, Qian Fu*, Yun Huang, Ao Xia, Qiang Liao, Xun Zhu, Ya-Ping Zheng, Chi-He Sun. An annular photobioreactor with ion-exchange-membrane for non-touch microalgae cultivation with wastewater. Bioresource Technology 2018; 219:668–676.

[40] Christiane Herrmann, Navajyoti Kalita, David Wall, Ao Xia, Jerry D Murphy*. Optimised biogas production from microalgae through co-digestion with carbon-rich co-substrates. Bioresource Technology 2016; 214:328–337.

[41] Christiane Herrmann, Jamie FitzGerald, Richard O’Shea, Ao Xia, Pádraig O’Kiely, Jerry D Murphy*. Ensiling of seaweed for a seaweed biofuel industry. Bioresource Technology 2015; 196:301–313.

[42] Eoin Allen, David M Wall, Christiane Herrmann, Ao Xia, Jerry D Murphy*. What is the gross energy yield of third generation gaseous biofuel sourced from seaweed? Energy 2015; 81:352–360.

[43] Jun Cheng*, Richen Lin, Wenlu Song, Ao Xia, Junhu Zhou, Kefa Cen. Enhancement of fermentative hydrogen production from hydrolyzed water hyacinth with activated carbon detoxification and bacteria domestication. International Journal of Hydrogen Energy 2015; 40:2545–2551.

[44] Jun Cheng*, Yaqiong Liu, Richen Lin, Ao Xia, Junhu Zhou, Kefa Cen. Cogeneration of hydrogen and methane from the pretreated biomass of algae bloom in Taihu Lake. International Journal of Hydrogen Energy 2014; 39:18793–18802.

[45] Jun Cheng*, Minghui Zhang, Wenlu Song, Ao Xia, Junhu Zhou, Kefa Cen. Cogeneration of hydrogen and methane from Arthrospira maxima biomass with bacteria domestication and enzymatic hydrolysis. International Journal of Hydrogen Energy 2011; 36:1474–1481.

[46] Chaoyang Wei, Yun Huang*, Qiang Liao, Qian Fu, Ao Xia, Yahui Sun. The kinetics of the polyacrylic superabsorbent polymers swelling in microalgae suspension to concentrate cells density. Bioresource Technology 2018; 249:713–719.

[47] Qiang Liao*, Hai-Xing Chang, Qian Fu, Yun Huang, Ao Xia, Xun Zhu, Nianbing Zhong. Physiological-phased kinetic characteristics of microalgae Chlorella vulgaris growth and lipid synthesis considering synergistic effects of light, carbon and nutrients. Bioresource Technology 2018; 250:583–590.

[48] Yong Huang, Yun Huang*, Qiang Liao, Qian Fu, Ao Xia, Xun Zhu. Improving phosphorus removal efficiency and Chlorella vulgaris growth in high-phosphate MFC wastewater by frequent addition of small amounts of nitrate. International Journal of Hydrogen Energy 2017; 42:27749–27758.

[49] Yaping Zheng, Yun Huang*, Qiang Liao, Qian Fu, Ao Xia, Xun Zhu. Impact of the accumulation and adhesion of released oxygen during Scenedesmus obliquus photosynthesis on biofilm formation and growth. Bioresource Technology 2017; 244:198–205.

[50] Haixing Chang, Qiang Liao*, Qian Fu, Yun Huang, Ao Xia, Yaping Zheng, Yahui Sun, Xun Zhu. Phase-feeding strategy for Chlorella vulgaris to enhance biomass and lipid productivity. International Journal of Agricultural and Biological Engineering 2017; 10:205–215.

[51] Amita Jacob Guneratnam, Eoin Ahern, Jamie A FitzGerald, Stephen A Jackson, Ao Xia, Alan DW Dobson, Jerry D Murphy*. Study of the performance of a thermophilic biological methanation system. Bioresource Technology 2017; 225:308–315.

[52] Xiaojian Ding, Yun Huang*, Qiang Liao, Qian Fu, Ao Xia, Chao Xiao, Xun Zhu. Medium-low temperature hydrothermal hydrolysis kinetic characteristics of concentrated wet microalgae biomass. International Journal of Agricultural and Biological Engineering 2017; 10:154–162.

[53] Yun Huang, Wei Xiong, Qiang Liao*, Qian Fu, Ao Xia, Xun Zhu, Yahui Sun. Comparison of Chlorella vulgaris biomass productivity cultivated in biofilm and suspension from the aspect of light transmission and microalgae affinity to carbon dioxide. Bioresource Technology 2016; 222:367–373.

[54] Yun Huang, Yahui Sun, Qiang Liao*, Qian Fu, Ao Xia, Xun Zhu. Improvement on light penetrability and microalgae biomass production by periodically pre-harvesting Chlorella vulgaris cells with culture medium recycling. Bioresource Technology 2016; 216:669–676.

[55] Yun Huang, Yaping Zheng, Jun Li, Qiang Liao*, Qian Fu, Ao Xia, Jingwei Fu, Yahui Sun. Enhancing microalgae biofilm formation and growth by fabricating microgrooves onto the substrate surface. Bioresource Technology 2018; 261:36–43.

[56] Hao Chen, Qian Fu*, Qiang Liao, Hong Zhang, Yun Huang, Ao Xia, Xun Zhu. Rheological properties of microalgae slurry for application in hydrothermal pretreatment systems. Bioresource Technology 2018; 249:599–604.

[57] Qian Fu*, Yishan Li, Nianbing Zhong, Qiang Liao*, Yun Huang, Ao Xia, Xun Zhu, Yunpeng Hou. A novel biofilm photobioreactor using light guide plate enhances the hydrogen production. International Journal of Hydrogen Energy 2017; 42:27523–27531.

[58] Yaping Zheng, Yun Huang, Qiang Liao*, Xun Zhu, Qian Fu, Ao Xia. Effects of wettability on the growth of Scenedesmus obliquus biofilm attached on glass surface coated with polytetrafluoroethylene emulsion. International Journal of Hydrogen Energy 2016; 41: 21728–21735.

[59] Qian Fu, Hai-Xing Chang, Yun Huang, Qiang Liao*, Xun Zhu, Ao Xia, Ya-Hui Sun. A novel self-adaptive microalgae photobioreactor using anion exchange membranes for continuous supply of nutrients. Bioresource Technology 2016; 214:629–636.

[60] Sutha Shobana, Gopalakrishnan Kumar*, Péter Bakonyi, Ganesh D Saratale, Ala'a Hamed Al-Muhtaseb, Nándor Nemestóthy, Katalin Bélafi-Bakó, Ao Xia, Jo-Shu Chang. A review on the biomass pretreatment and inhibitor removal methods as key-steps towards efficient macroalgae-based biohydrogen production. Bioresource Technology 2017; 244:1341–1348.

 

二、英文专著

[61] Qiang Liao, Jo-Shu Chang, Christiane Herrmann and Ao Xia. Bioreactors for Microbial Biomass and Energy Conversion, Springer Nature 2018, ISBN 978-981-10-7676-3.

[62] Ao Xia*, Xun Zhu and Qiang Liao. Hydrogen Production from Biological Sources. Encyclopedia of Sustainability Science and Technology, Second Edition, Springer 2017, DOI: 10.1007/978-1-4939-2493-6_955-1.

[63] Jerry Murphy*, Bernhard Drosg, Eoin Allen, Jacqueline Jerney, Ao Xia and Christiane Herrmann. A perspective on algal biogas. IEA Bioenergy 2015; ISBN 978-1-910154-18-2.

 

最新论文列表请参考网页:https://www.researchgate.net/profile/Ao_Xia ResearchGate