Compact Heat Exchanger.pptx
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Compact Heat Exchanger
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Compact Heat Exchanger.pptx
- 1. Improving the Performance of Electronics Devices by Enhancing Heat Transfer Rate using Compact Heat Exchanger Department of Mechanical Engineering 1
- 2. Compact Heat Exchanger • High heat transfer surface area per unit volume of the exchanger • Area density greater than 700 m2/m3 for gas or greater than 300 m2/m3 when operating in liquid or two-phase streams. • Highly efficient • Reduce volume, weight and cost
- 3. 1. Plate fin heat exchanger 2. Tube fin heat exchanger 3. Diffusion bonded heat exchanger 4. Printed circuit heat exchanger 5. Plate and frame heat exchanger (brazed plate/welded plate) 6. Spiral heat exchanger 7. Compact shell and tube heat exchanger Types of compact heat exchanger
- 4. Types of compact heat exchanger: 1.Plate fin heat exchanger
- 5. Types of compact heat exchanger: 2. Tube fin heat exchanger
- 6. Types of compact heat exchanger: 3. Diffusion bonded heat exchanger
- 7. Types of compact heat exchanger: 4. Printed circuit heat exchanger
- 8. Types of compact heat exchanger: 5. Plate and frame heat exchanger (brazed plate/welded plate)
- 9. Types of compact heat exchanger 6. Spiral heat exchanger
- 10. Types of compact heat exchanger: 7. Compact shell and tube heat exchanger.
- 11. Sector/Application of CHE: • Chemicals and petrochemicals • Cryogenics • Paper & board • Textiles & fabric • Oil & gas processing • Prime movers • Medical Industry • Electronics
- 13. Department of Mechanical Engineering 13 Review of applications and developments of ultra-thin micro heat pipes for electronic cooling • A review of the applications and developments of UTHPs for electronic cooling is reported. • The UTHPs are particularly suitable for the heat dissipation of ultra-slim portable electronic devices.
- 14. Power saving exploration for high end ultra slim laptop computers with miniature loop heat pipe cooling module (a) schematic of the proposed mLHP
- 15. Objective and Problem Identification Problem: When we continuously use laptop the processor chips gets warm by which Performance of laptop decreases. Objective: So to overcome above problem, We are enhancing the Heat transfer of that processor chips by using a compact Heat exchanger.
- 17. Description: •When Processor Chip gets warm, Evaporator extract the heat from that surface. Evaporator is connected with the tubes coupling. •High thermal conductivity fluid is present in tubes. And that fluid is circulated in overall operation. •The tube couplings are connected with the compact heat exchanger, which is the main body for heat transfer to the atmosphere. •The compact heat exchanger will transfer the heat to atmosphere with the help of fans and a cooling fan.
- 18. How to couple?
- 19. How to couple?
- 20. TUBE FIN HEAT EXCHANGER
- 21. Construction 1. Finned tube is the main heat exchange element in the finned tube heat exchanger. 2. The heat transfer between the inner and outer fluid through the tube wall and fins, and because the fin expands the heat transfer area, the heat transfer can improve. 3. The shape of the fins on the finned tube is generally circular or rectangular
- 22. 1. The finned tube is made of fins on the surface of the tube. 2. The common methods of connection are hot sleeve, inlay, tension winding, welding and so on. In addition, the fin tube can also be made by the method of integral rolling, integral casting or machining. 3. When the convective heat transfer coefficient of the two fluids is different, the fins on the smaller heat transfer coefficient can enhance heat transfer.
- 23. 1. The finned tube is composed of a base tube and a fin, and the base tube is provided with a round tube, a flat tube, an elliptical tube and so on. the fin is provided with a plurality of types, which can be respectively processed on a single base tube, and can also be connected with several tubes at the same time.
- 25. Working •Finned Tube Heat exchanger have tubes with extended outer surfaces are or fins to enhance the heat transfer rate from the additional area of fins. •Finned tube enhance the heat transfer area between the tube and surrounding Fluid.
- 26. Factor Influencing Design 1. Design Pressure and temperature 2. Process Fluid 3. Heating/Cooling curves 4. Allowable pressure drop 5. Required Thermal effectiveness
- 27. Design Parameter 1. Fin Configuration Design • Fin count/pitch • Fin Thickness • Fin Height • Fin Material- Carbon steel, stainless steel, Aluminium and alloys, copper and Alloys. 2. Tube circuit Designing • Tube Diameter • Tube Spacing • Number of tube rows • Tube Material- Carbon steel, Chromium-Molybdenum steel, Aluminium and alloys, Copper and alloys.
- 28. Liquid Coolants For Electronics cooling Sr. No Fluid Freezing Point (oC) Flash Point (oC) Viscosity (Kg/m.s) Thermal Conductivity (w/m.k) 1 Silicate-ester < -50 > 175 0.009 0.132 2 Aliphatic (PAO) < -50 > 175 0.009 0.137 3 W/methanol (60:40 v/v) -40 29 0.002 0.4 4 W/Potassium Formate (60:40 wt/wt) -35 None 0.0022 0.53
- 29. Expected Outcomes •As we use laptop continuously it gets warm, by which the performance of laptop decreases, specially gaming laptops. •To overcome the problem compact heat exchanger will be helpful. •This project will help to cool the Processor chips (CPU and GPU) as well as PCB (Printed circuit board). This will indirectly increase the performance of the laptop.