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Page 2 INTRODUCTION Heat transfer is a physical process involving the transfer of heat from hot area to cold area. ? Heat transfer occurs due to temperature difference i.e. driving force between the points where heat is received and where heat is originating. ? Heat always tend to flow from point of high temperature to point of low temperature. Page 3 INTRODUCTION Heat transfer is a physical process involving the transfer of heat from hot area to cold area. ? Heat transfer occurs due to temperature difference i.e. driving force between the points where heat is received and where heat is originating. ? Heat always tend to flow from point of high temperature to point of low temperature. INTRODUCTION ? It is a unit operation. ? It is always accompanied by another unit operation in practice such as… Heating & cooling of liquid/solid/air Refrigeration Evaporation Drying Distillation Page 4 INTRODUCTION Heat transfer is a physical process involving the transfer of heat from hot area to cold area. ? Heat transfer occurs due to temperature difference i.e. driving force between the points where heat is received and where heat is originating. ? Heat always tend to flow from point of high temperature to point of low temperature. INTRODUCTION ? It is a unit operation. ? It is always accompanied by another unit operation in practice such as… Heating & cooling of liquid/solid/air Refrigeration Evaporation Drying Distillation MECHANISM OF HEAT TRANSFER There are 3 basic mechanisms of heat transfer. ? Conduction ? Convection ? Radiation Page 5 INTRODUCTION Heat transfer is a physical process involving the transfer of heat from hot area to cold area. ? Heat transfer occurs due to temperature difference i.e. driving force between the points where heat is received and where heat is originating. ? Heat always tend to flow from point of high temperature to point of low temperature. INTRODUCTION ? It is a unit operation. ? It is always accompanied by another unit operation in practice such as… Heating & cooling of liquid/solid/air Refrigeration Evaporation Drying Distillation MECHANISM OF HEAT TRANSFER There are 3 basic mechanisms of heat transfer. ? Conduction ? Convection ? Radiation CONDUCTION “When heat flow in a body is achieved by the transfer of the momentum of individual atoms or molecules without mixing, such process is known as conduction.” ? It takes place in solids and fluids whose movement is restricted. ? e.g. - iron rod such as metal wall of an evaporator.Read More
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FAQs on PPT: Computational Fluid Dynamics - Heat Transfer - Mechanical Engineering
| 1. What is Computational Fluid Dynamics (CFD) and how does it work? |  |
Ans. Computational Fluid Dynamics (CFD) is a branch of fluid mechanics that uses numerical analysis and algorithms to solve and analyze problems involving fluid flows. CFD works by discretizing the fluid domain into smaller, manageable elements, allowing the governing equations of fluid motion (the Navier-Stokes equations) to be solved iteratively. This process enables the simulation of complex fluid behavior under various conditions.
| 2. What are the applications of CFD in engineering? | |
Ans. CFD has a wide range of applications in engineering, including aerospace for analyzing airflow over aircraft wings, automotive for optimizing vehicle aerodynamics, civil engineering for studying wind effects on buildings, and chemical engineering for mixing processes in reactors. It is also used in environmental studies, such as modeling pollutant dispersion in air and water.
| 3. What are the key advantages of using CFD over traditional experimental methods? | |
Ans. The key advantages of using CFD include cost-effectiveness, as it reduces the need for physical testing; the ability to simulate complex scenarios that may be difficult or impossible to recreate in a lab; rapid iteration and analysis, allowing for quicker design modifications; and the provision of detailed insights into flow behavior at any point in the fluid domain.
| 4. What are the common software tools used for CFD simulations? | |
Ans. Common software tools used for CFD simulations include ANSYS Fluent, COMSOL Multiphysics, OpenFOAM, and Autodesk CFD. Each of these tools offers unique features and capabilities, catering to different types of fluid flow problems and engineering applications.
| 5. How do boundary conditions affect CFD simulations? | |
Ans. Boundary conditions are crucial in CFD simulations as they define how the fluid interacts with its surroundings. They can influence the accuracy of the results significantly. Properly defined boundary conditions help ensure that the simulation reflects the real-world scenario, while incorrect or unrealistic boundary conditions can lead to misleading results and incorrect conclusions.
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