杨艳霞
职称:副教授
学历:博士研究生
学科:工程热物理
研究领域或方向:流动、传热传质研究、多尺度数值计算
邮箱:yangyanxia@tyut.edu.cn
- 主讲课程
- 学术论文
- 主持项目
- 著作
《传热学》
《储能原理及技术》
《储能原理及技术》
(1) 论文名称, 作者,期刊(会议)名,年、卷、期、页,收录情况
(核心,SCI/ EI /ISTP), 分区
[1] Simulation of photobioreaction for hydrogen production in membrane bioreactor with an optical fiber[J], Yang YanXia, Li Jing.. Applied Physics A. 2018, 124:372 (SCI,EI) ,三区
[2] A simulation on flow and mass transfer in a packed bed photobioreactor for hydrogen production[J]. Liao Qiang, Yang YanXia, et al. Int. J. Heat and Mass Transfer,2017, 109:1132-42 (SCI, EI),二区
[3] Pore-scale lattice Boltzmann simulation of flow and mass transfer in bioreactor with an immobilized granule for biohydrogen production[J]. Liao Qiang, Yang YanXia, et al. Science Bulletin, 62(1):22-30, 2017 (SCI, EI),三区
[4] Lattice Boltzmann simulation on liquid flow and mass transport in a bioreactor with cylinder bundle for hydrogen production[J]. Liao Qiang, Yang YanXia, et al. Heat and Mass Transfer,2015, 51(6), 859-873 (SCI, EI),二区
[5]人字形板式换热器流道传热特性及参数优化[J]. 杨艳霞,马晴婵,左玉清.农业工程学报,2019,35(21):210-215, (EI)
[6] 3D格子Boltzmann传质模型模拟生物膜降解有机污水[J]. 杨艳霞,李静.农业工程学报,2018,31(10):225-23,(EI)
(核心,SCI/ EI /ISTP), 分区
[1] Simulation of photobioreaction for hydrogen production in membrane bioreactor with an optical fiber[J], Yang YanXia, Li Jing.. Applied Physics A. 2018, 124:372 (SCI,EI) ,三区
[2] A simulation on flow and mass transfer in a packed bed photobioreactor for hydrogen production[J]. Liao Qiang, Yang YanXia, et al. Int. J. Heat and Mass Transfer,2017, 109:1132-42 (SCI, EI),二区
[3] Pore-scale lattice Boltzmann simulation of flow and mass transfer in bioreactor with an immobilized granule for biohydrogen production[J]. Liao Qiang, Yang YanXia, et al. Science Bulletin, 62(1):22-30, 2017 (SCI, EI),三区
[4] Lattice Boltzmann simulation on liquid flow and mass transport in a bioreactor with cylinder bundle for hydrogen production[J]. Liao Qiang, Yang YanXia, et al. Heat and Mass Transfer,2015, 51(6), 859-873 (SCI, EI),二区
[5]人字形板式换热器流道传热特性及参数优化[J]. 杨艳霞,马晴婵,左玉清.农业工程学报,2019,35(21):210-215, (EI)
[6] 3D格子Boltzmann传质模型模拟生物膜降解有机污水[J]. 杨艳霞,李静.农业工程学报,2018,31(10):225-23,(EI)
(1)国家自然科学基金项目,生化反应中流动传质特性研究(2016.1-2018.12,) 24万元 ,结题
(2)教育部重点实验室开放项目,生物制氢反应器内流动传质特性研究,(2016.1-2017.12),5万元,结题
(2)教育部重点实验室开放项目,生物制氢反应器内流动传质特性研究,(2016.1-2017.12),5万元,结题
(1)Bioreactors for Microbial Biomass and Energy Conversion,Springer,2018,参编
