Amin Al-Hinaai
Deputy project leader, Scientific Assistant at Professional School of Business & Technology, University of Applied Sciences Kempten- Claim this Profile
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Arabic Native or bilingual proficiency
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German Full professional proficiency
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English Professional working proficiency
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Spanish Elementary proficiency
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Bio
Experience
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Professional School of Business & Technology, University of Applied Sciences Kempten
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Germany
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Higher Education
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Deputy project leader, Scientific Assistant
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Feb 2020 - Present
Thermal management of high voltage power electronics Thermal management of high voltage power electronics
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Selbständig
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Professional Training and Coaching
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700 & Above Employee
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Tutor
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Jan 2018 - Jan 2020
private tutoring of different subjects "CAD, Thermodynamics, Heat Transfer, Fluid Dynamics, Maths" private tutoring of different subjects "CAD, Thermodynamics, Heat Transfer, Fluid Dynamics, Maths"
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Master Thesis
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Sep 2018 - Apr 2019
Topic of the Master Thesis: „topology optimization of conjugate heat transfer (cht) systems by means of adjoint method“ (grade: 1.0) - Numerical discretisation of Systems with „OpenFOAM & ANSA“ - Performance the CFD simulations using the C++ software „OpenFOAM“ - Dealing with CHT systems (Conjugate Heat Transfer) - Derivation und implementation of the adjoit equations - Determination of topological sensitivity throughout the systems - Using of developed solver for the… Show more Topic of the Master Thesis: „topology optimization of conjugate heat transfer (cht) systems by means of adjoint method“ (grade: 1.0) - Numerical discretisation of Systems with „OpenFOAM & ANSA“ - Performance the CFD simulations using the C++ software „OpenFOAM“ - Dealing with CHT systems (Conjugate Heat Transfer) - Derivation und implementation of the adjoit equations - Determination of topological sensitivity throughout the systems - Using of developed solver for the numerical calculations - Visualisation the results by „ParaView“ - C++/LINUX scripting to evaluate the results Show less Topic of the Master Thesis: „topology optimization of conjugate heat transfer (cht) systems by means of adjoint method“ (grade: 1.0) - Numerical discretisation of Systems with „OpenFOAM & ANSA“ - Performance the CFD simulations using the C++ software „OpenFOAM“ - Dealing with CHT systems (Conjugate Heat Transfer) - Derivation und implementation of the adjoit equations - Determination of topological sensitivity throughout the systems - Using of developed solver for the… Show more Topic of the Master Thesis: „topology optimization of conjugate heat transfer (cht) systems by means of adjoint method“ (grade: 1.0) - Numerical discretisation of Systems with „OpenFOAM & ANSA“ - Performance the CFD simulations using the C++ software „OpenFOAM“ - Dealing with CHT systems (Conjugate Heat Transfer) - Derivation und implementation of the adjoit equations - Determination of topological sensitivity throughout the systems - Using of developed solver for the numerical calculations - Visualisation the results by „ParaView“ - C++/LINUX scripting to evaluate the results Show less
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University of Kassel
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Higher Education
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700 & Above Employee
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Guidance of Tutorials in Fluid Mechanics
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Apr 2018 - Oct 2018
- Creation of exercise materials - Teaching the subject content - Support the students and answer their questions in the office hours - Creation of exercise materials - Teaching the subject content - Support the students and answer their questions in the office hours
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Bachelor Thesis
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Dec 2017 - Jul 2018
Topic of the Bachelor Thesis: "optimization of pin-fin structures for the design of cooling power electronics" (Grade: 1.3) -Numerical discretisation of the Systems with „OpenFOAM & ANSA“ - Using CHT solver of OpenFOAM for the numerical CFD calculation - Employment with different turbulence models - Execution of different parameter studies - Analyzing the boundary layers of the velocity and temperature - Validation and physical analysis of the results Topic of the Bachelor Thesis: "optimization of pin-fin structures for the design of cooling power electronics" (Grade: 1.3) -Numerical discretisation of the Systems with „OpenFOAM & ANSA“ - Using CHT solver of OpenFOAM for the numerical CFD calculation - Employment with different turbulence models - Execution of different parameter studies - Analyzing the boundary layers of the velocity and temperature - Validation and physical analysis of the results
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Project Work
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May 2017 - Dec 2017
Topic of the project work: "thermal simulations for optimization study of semi-infinite body with OpenFOAM" (grade: 2.0) - Design of a cooling system for cooling heated surfaces. - Carrying out heat transfer research. - Numerical discretization of the system. - Definition of the boundary conditions and the material properties in OpenFOAM. - Performance of the CFD simulations using CHT solver. - Visualization and evaluation of the results. Topic of the project work: "thermal simulations for optimization study of semi-infinite body with OpenFOAM" (grade: 2.0) - Design of a cooling system for cooling heated surfaces. - Carrying out heat transfer research. - Numerical discretization of the system. - Definition of the boundary conditions and the material properties in OpenFOAM. - Performance of the CFD simulations using CHT solver. - Visualization and evaluation of the results.
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Engineering Internship
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Oct 2016 - Jan 2017
- Analysis and evaluation of multiphase flows - design/construct of experimental equipments with "Creo" - Examination of tube bundle heat exchangers - Programming and evaluation of measurement data with "Matlab & Excel" - Graphical representation of measurement results with "OriginLab" - creation of graphics with "visio" - Analysis and evaluation of multiphase flows - design/construct of experimental equipments with "Creo" - Examination of tube bundle heat exchangers - Programming and evaluation of measurement data with "Matlab & Excel" - Graphical representation of measurement results with "OriginLab" - creation of graphics with "visio"
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Heat Transfer – Experimental Laboratory Course
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Jun 2016 - Sep 2016
Topic of the course: "calibration of thermometers for power measurement of heat exchangers" Grade(1.0) - Conducting searches relating to calibration methods. - Measurements of temperatures and electrical resistances. - Documentation and evaluation of the measured data. - Graphical representation of the results. - construct / design of the experimental apparatus. - Analyze the results using mathematical methods. Topic of the course: "calibration of thermometers for power measurement of heat exchangers" Grade(1.0) - Conducting searches relating to calibration methods. - Measurements of temperatures and electrical resistances. - Documentation and evaluation of the measured data. - Graphical representation of the results. - construct / design of the experimental apparatus. - Analyze the results using mathematical methods.
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Practical Training in Mechanical Engineering (CFD-Training)
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Feb 2016 - Apr 2016
Topic of the training: "Fluid flow simulations (CFD) for optimization of the positon movement in the chamber of a casting process" (Grade: 1.3) - Numerical discretization of the system. - Definition of boundary conditions and material properties in OpenFOAM. - Carrying out a mesh Independence study. - Visualization and evaluation of the results. - Examination of the influence of turbulence on the results. Topic of the training: "Fluid flow simulations (CFD) for optimization of the positon movement in the chamber of a casting process" (Grade: 1.3) - Numerical discretization of the system. - Definition of boundary conditions and material properties in OpenFOAM. - Carrying out a mesh Independence study. - Visualization and evaluation of the results. - Examination of the influence of turbulence on the results.
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Education
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University of Kasse
Bachelor of Science, Mechanical Engineering -
University Kassel
Master of Science, Mechanical Engineering