Boundary-layer flow over a moving plate
The content of this report covers a numerical study of boundary-layer flow over a moving plate. The main aim of the study is to investigate heat transfer to and from a moving plate. The governing equations from the system were modeled through mathematical manipulation of existing known equations rel...
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sg-ntu-dr.10356-674262023-03-04T19:14:36Z Boundary-layer flow over a moving plate Muhammad Hanis Bin Ismail Shu Jian Jun School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering::Fluid mechanics The content of this report covers a numerical study of boundary-layer flow over a moving plate. The main aim of the study is to investigate heat transfer to and from a moving plate. The governing equations from the system were modeled through mathematical manipulation of existing known equations relating to heat transfer and boundary-layer flow. The modeled governing equations were then solved with the use of “COMSOL Multiphysics”, a general-purpose software platform, based on advanced numerical methods, for modelling and simulating physics-based problems. Previous works that are related to the study were analyzed and researched upon extensively. Relevant topics are documented in the literature review chapter of this report. The numerical solutions were analyzed, interpreted and presented in a detailed analysis in this report. The numerical results cover areas such as the relationship between parameters of the governing equations. Velocity profile and temperature profile were also included in the study of the system. After interpretation of the results, a conclusion was drawn to determine whether parameters such as the reactant consumption and activation energy level have a vital role in the problem and that the modeled governing equations are valid and applicable for use in this problem. Bachelor of Engineering (Mechanical Engineering) 2016-05-16T08:17:36Z 2016-05-16T08:17:36Z 2016 Final Year Project (FYP) http://hdl.handle.net/10356/67426 en Nanyang Technological University 89 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering::Fluid mechanics Muhammad Hanis Bin Ismail Boundary-layer flow over a moving plate |
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The content of this report covers a numerical study of boundary-layer flow over a moving plate. The main aim of the study is to investigate heat transfer to and from a moving plate. The governing equations from the system were modeled through mathematical manipulation of existing known equations relating to heat transfer and boundary-layer flow. The modeled governing equations were then solved with the use of “COMSOL Multiphysics”, a general-purpose software platform, based on advanced numerical methods, for modelling and simulating physics-based problems.
Previous works that are related to the study were analyzed and researched upon extensively. Relevant topics are documented in the literature review chapter of this report. The numerical solutions were analyzed, interpreted and presented in a detailed analysis in this report. The numerical results cover areas such as the relationship between parameters of the governing equations. Velocity profile and temperature profile were also included in the study of the system. After interpretation of the results, a conclusion was drawn to determine whether parameters such as the reactant consumption and activation energy level have a vital role in the problem and that the modeled governing equations are valid and applicable for use in this problem. |
| author2 |
Shu Jian Jun |
| author_facet |
Shu Jian Jun Muhammad Hanis Bin Ismail |
| format |
Final Year Project |
| author |
Muhammad Hanis Bin Ismail |
| author_sort |
Muhammad Hanis Bin Ismail |
| title |
Boundary-layer flow over a moving plate |
| title_short |
Boundary-layer flow over a moving plate |
| title_full |
Boundary-layer flow over a moving plate |
| title_fullStr |
Boundary-layer flow over a moving plate |
| title_full_unstemmed |
Boundary-layer flow over a moving plate |
| title_sort |
boundary-layer flow over a moving plate |
| publishDate |
2016 |
| url |
http://hdl.handle.net/10356/67426 |
| _version_ |
1759854644920582144 |