Figures index

From

Experimental Investigation on Thermal Performance of a Closed Loop Pulsating Heat Pipe without Fin and with Fin Structure

Md. Lutfor Rahman, Md. Faisal Kader, Md. Zakaria Rahman, M. Ali

American Journal of Mechanical Engineering. 2016, 4(6), 209-214 doi:10.12691/ajme-4-6-1
  • Figure 1. CLPHP without fin Structure
  • Figure 2. CLPHP with fin Structure
  • Figure 3. Experimental set-up
  • Figure 4. Variation of thermal resistance with heat input for different filling ratio at 0º inclination angle
  • Figure 5. Variation of thermal resistance with heat input for different filling ratio at 0º inclination angle
  • Figure 6. Variation of thermal resistance with heat input at different inclination angle with 70% filling ratio
  • Figure 7. Variation of thermal resistance with heat input at different inclination angle with 50% filling ratio
  • Figure 8. Variation of thermal resistance with heat input at 70% filling ratio and 0º inclination angle
  • Figure 9. Variation of thermal resistance with heat input at 50% filling ratio and 0º inclination angle
  • Figure 10. Variation of thermal resistance with heat input at 70% filling ratio and 0º inclination angle
  • Figure 11. Variation of thermal resistance with heat input at 50% filling ratio and 0º inclination angle
  • Figure 12. Variation of thermal resistance with heat input for different structures with acetone at 40% filling ratio and 0° inclination angle
  • Figure 13. Variation of thermal resistance with heat input for different structures with acetone at 70% filling ratio and 0° inclination angle
  • Figure 14. Variation of thermal resistance with heat input for different structures with acetone at 50% filling ratio and 0° inclination angle
  • Figure 15. Variation of temperature difference between evaporator and condenser section with heat input for different working fluids at 0º inclination
  • Figure 16. Variation of temperature difference between evaporator and condenser section with heat input for different working fluids at 0º inclination
  • Figure 17. Variation of temperature difference between evaporator and condenser section with heat input for different working fluids at 0º inclination
  • Figure 18. Variation of temperature difference between evaporator and condenser section with heat input for different working fluids at 0º inclination