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Page 1 • Fins are generally used to enhance the heat transfer from a given surface. • Addition of fins can increase the heat transfer from the surface by several folds. • Typical application areas of Fins are HEAT TRANSFER FROM EXTENDED SURFACES (FINS) Aug. 2016 MT/SJEC/M.Tech. 7 • Typical application areas of Fins are: • Radiators for automobiles • Air-cooling of cylinder heads of Internal Combustion engines (e.g. scooters, motor cycles, aircraft engines etc.), air compressors etc. Page 2 • Fins are generally used to enhance the heat transfer from a given surface. • Addition of fins can increase the heat transfer from the surface by several folds. • Typical application areas of Fins are HEAT TRANSFER FROM EXTENDED SURFACES (FINS) Aug. 2016 MT/SJEC/M.Tech. 7 • Typical application areas of Fins are: • Radiators for automobiles • Air-cooling of cylinder heads of Internal Combustion engines (e.g. scooters, motor cycles, aircraft engines etc.), air compressors etc. • Economizers of steam power plants • Heat exchangers of a wide variety, used in different industries • Cooling of electric motors, transformers Fins – Applications (contd.) • Cooling of electric motors, transformers etc. • Cooling of electronic equipments, chips, I.C. boards etc. Page 3 • Fins are generally used to enhance the heat transfer from a given surface. • Addition of fins can increase the heat transfer from the surface by several folds. • Typical application areas of Fins are HEAT TRANSFER FROM EXTENDED SURFACES (FINS) Aug. 2016 MT/SJEC/M.Tech. 7 • Typical application areas of Fins are: • Radiators for automobiles • Air-cooling of cylinder heads of Internal Combustion engines (e.g. scooters, motor cycles, aircraft engines etc.), air compressors etc. • Economizers of steam power plants • Heat exchangers of a wide variety, used in different industries • Cooling of electric motors, transformers Fins – Applications (contd.) • Cooling of electric motors, transformers etc. • Cooling of electronic equipments, chips, I.C. boards etc. Fins of uniform cross-section (rectangular or circular) – Governing differential equation: Q conv T o t Y A c h, T a L dx Q x Q x+dx w X X Z Fig. 6.2(a) Rectangular fin of uniform crosssection Page 4 • Fins are generally used to enhance the heat transfer from a given surface. • Addition of fins can increase the heat transfer from the surface by several folds. • Typical application areas of Fins are HEAT TRANSFER FROM EXTENDED SURFACES (FINS) Aug. 2016 MT/SJEC/M.Tech. 7 • Typical application areas of Fins are: • Radiators for automobiles • Air-cooling of cylinder heads of Internal Combustion engines (e.g. scooters, motor cycles, aircraft engines etc.), air compressors etc. • Economizers of steam power plants • Heat exchangers of a wide variety, used in different industries • Cooling of electric motors, transformers Fins – Applications (contd.) • Cooling of electric motors, transformers etc. • Cooling of electronic equipments, chips, I.C. boards etc. Fins of uniform cross-section (rectangular or circular) – Governing differential equation: Q conv T o t Y A c h, T a L dx Q x Q x+dx w X X Z Fig. 6.2(a) Rectangular fin of uniform crosssection Fins of uniform cross-section (rectangular or circular) – Governing differential equation: • Assumptions: • Steady state conduction, with no heat generation in the fin • Thickness ‘t’ is small • Thickness ‘t’ is small compared to length L and width w, i.e. one- dimensional conduction in the x-direction only. • Thermal conductivity, k of the fin material is constant. Page 5 • Fins are generally used to enhance the heat transfer from a given surface. • Addition of fins can increase the heat transfer from the surface by several folds. • Typical application areas of Fins are HEAT TRANSFER FROM EXTENDED SURFACES (FINS) Aug. 2016 MT/SJEC/M.Tech. 7 • Typical application areas of Fins are: • Radiators for automobiles • Air-cooling of cylinder heads of Internal Combustion engines (e.g. scooters, motor cycles, aircraft engines etc.), air compressors etc. • Economizers of steam power plants • Heat exchangers of a wide variety, used in different industries • Cooling of electric motors, transformers Fins – Applications (contd.) • Cooling of electric motors, transformers etc. • Cooling of electronic equipments, chips, I.C. boards etc. Fins of uniform cross-section (rectangular or circular) – Governing differential equation: Q conv T o t Y A c h, T a L dx Q x Q x+dx w X X Z Fig. 6.2(a) Rectangular fin of uniform crosssection Fins of uniform cross-section (rectangular or circular) – Governing differential equation: • Assumptions: • Steady state conduction, with no heat generation in the fin • Thickness ‘t’ is small • Thickness ‘t’ is small compared to length L and width w, i.e. one- dimensional conduction in the x-direction only. • Thermal conductivity, k of the fin material is constant. Fins of uniform cross-section (rectangular or circular) – Governing differential equation: • Assumptions (contd.): • Isotropic (i.e. const. k in all directions) and homogeneous (i.e. const. density) material. • Uniform heat transfer coeff. h, over the entire length of fin. • Uniform heat transfer coeff. h, over the entire length of fin. • No bond resistance in the joint between the fin and the base wall, and • Negligible radiation effect.Read More
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FAQs on PPT: Fins - Heat Transfer - Mechanical Engineering
| 1. What is mechanical engineering? |  |
Ans. Mechanical engineering is a branch of engineering that involves the design, analysis, and manufacturing of mechanical systems. It deals with the principles of mechanics, thermodynamics, materials science, and other related fields to develop and improve machines, tools, and processes.
| 2. What are the key responsibilities of a mechanical engineer? | |
Ans. A mechanical engineer is responsible for designing, developing, and testing mechanical devices, equipment, and systems. They analyze problems, create prototypes, and oversee the manufacturing process. They also ensure that the designs meet safety and environmental regulations, and they may be involved in maintenance and troubleshooting of mechanical systems.
| 3. What are some common applications of mechanical engineering? | |
Ans. Mechanical engineering finds applications in various industries such as automotive, aerospace, energy, manufacturing, and robotics. It is involved in the design and development of engines, vehicles, turbines, power plants, heating and cooling systems, manufacturing processes, and automated machinery.
| 4. How does a mechanical engineer contribute to sustainability? | |
Ans. Mechanical engineers play a crucial role in promoting sustainability by developing energy-efficient systems, renewable energy technologies, and eco-friendly manufacturing processes. They work towards reducing carbon emissions, improving efficiency in transportation, and developing green building solutions. They also contribute to waste management and recycling efforts.
| 5. What skills are important for a successful mechanical engineer? | |
Ans. A successful mechanical engineer should possess strong analytical and problem-solving skills, as well as a solid understanding of mathematics and physics. They should have proficiency in computer-aided design (CAD) software and be familiar with various manufacturing processes. Good communication and teamwork skills are also essential in working effectively with colleagues and clients.
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