| Name: |
Taha Rajeh |
![]( "Taha Rajeh") |
| Gender: |
Male |
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| Education: |
2006-2011 Bachelor of Engineering, Mechanical Engineering, Thamar University – Dhamar, Yemen
2016-2019 Master of Engineering, Power Engineering and Engineering Thermophysics, Nanjing University of Science and Technology – Nanjing, China
2020-2024 Doctor of Engineering, Engineering Thermophysics, Tianjin University – Tianjin, China
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| Academic experience: |
2012-2016: Lecturer, Thamar University, Dhamar, Yemen
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| Research interest: |
1.Thermal Engineering
2.Heat Exchangers
Efficient Geothermal Energy Utilization
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| Teaching: |
Engineering Mechanics, Fluid Mechanics, and Renewable Energy Sources
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| Academic achievement: |
1.Top international student of the graduate patch – Mechanical Engineering School, Tianjin University 2024.
2.Outstanding Talent Award of the PhD international graduate students of the Mechanical Engineering School, Tianjin University 2024.
3.Award for Outstanding Academic Achievement – Thamar University Awarded for 2008 and 2009.
4.Top student of the graduate patch – Thamar University – 2011.
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| Research projects: |
Thermal power unit waste heat coupled with geothermal energy for quality improvement and cross seasonal energy storage technology
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| Selected publications: |
1.Comparative numerical investigation on hollow-finned borehole heat exchangers: Multi-criteria optimization and dimensionless sensitivity analysis, Applied Thermal Engineering.
2.Local Entropy Generation Optimization and Thermodynamic Irreversibility Analysis of Oval-Shaped Coaxial Ground Heat Exchangers: A Detailed Numerical Investigation, International Journal of Heat and Mass Transfer.
3.Comparative numerical modeling complemented with multi-objective optimization and dynamic life cycle assessment of coaxial ground heat exchangers with oval-shaped and typical circular-shaped configurations, Applied Thermal Engineering.
4.Transient heat transfer simulation, sensitivity analysis, and design optimization of shallow ground heat exchangers with hollow-finned structures for enhanced performance of ground-coupled heat pumps, Energy and Buildings.
5.A novel oval-shaped coaxial ground heat exchanger for augmenting the performance of ground-coupled heat pumps: Transient heat transfer performance and multi-parameter optimization, Journal of Building Engineering.
6.Heat extraction analyses and energy consumption characteristics of novel designs of geothermal borehole heat exchangers with elliptic and oval double U-tube structures, Applied Thermal Engineering.
7.Modeling and techno-economic comparison of two types of coaxial with double U-tube ground heat exchangers, Applied Thermal Engineering.
8.Design and energy analysis of solid oxide fuel cell and gas turbine hybrid systems with membrane reactor, International Journal of Green Energy.
9.Application and development of ground source heat pump technology in China, Protection and Control of Modern Power Systems.
10.Thermal Stress and Deformation of Hollow Paddle-Shaft Components with Internal High Temperature Molten Salt Flow, Processes.
11.Irreversibility distribution in heat transfer process of hollow paddle-shaft components, International Journal of Hydromechatronics.
12.导热油在单叶型空心桨叶换热器中的层流换热特性, 能源研究与利用.
13.Thermo-fluid characteristics of high temperature molten salt flowing in single-leaf type hollow paddles, Entropy.
14.Performance Analysis of Oval and Circular Cross-Sections Single U-Tube Ground Heat Exchangers: A Simulation-Based Comparison, World Geothermal Congress, WGC 2023.
15.Thermal performance comparison and sensitivity analysis of conventional and elliptical U-tube borehole heat exchangers: Numerical approach, World Geothermal Congress, WGC 2023.
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