Figures index

From

Performance Evaluation of a Forward Curved Blower for Thermal Applications

Abubakar A. Bukar, M. Ben Oumarou, Fasiu A Oluwole, Sahabo Abubakar

American Journal of Mechanical Engineering. 2018, 6(3), 114-126 doi:10.12691/ajme-6-3-4
  • Figure 1. Relationship of Air velocity, Time for Rice husk using Thermocouple 1
  • Figure 2. Relationship of Air velocity, Time for Bagasse husk using Thermocouple 1
  • Figure 3. Relationship of Air velocity, Time for Groundnut shell using Thermocouple 1
  • Figure 4. D comparative graph of agricultural waste samples at t= 300 sec, using Thermocouple T1
  • Figure 5. 2D comparative graph of agricultural waste samples at t= 1650 sec, using Thermocouple T1
  • Figure 6. 2D comparative graph of agricultural waste samples at t= 3000 sec, using Thermocouple T1
  • Figure 7. Line graph showing interaction between feedstocks and operating time at 21.3 m/s using Thermocouple T1
  • Figure 8. Line graph showing interaction between feedstocks and operating time at 23.8 m/s using Thermocouple T1
  • Figure 9. Line graph showing interaction between feedstocks and operating time at 24.5 m/s using Thermocouple T1
  • Figure 10. Relationship of Air velocity, Time for Rice husk using Thermocouple 2
  • Figure 11. Relationship of Air velocity, Time for Bagasse using Thermocouple 2
  • Figure 12. Relationship of Air velocity, Time for Groundnut shell using Thermocouple 2
  • Figure 13. 2D comparative graph of agricultural waste samples at t= 300 sec, using Thermocouple T2
  • Figure 14. 2D comparative graph of agricultural waste samples at t= 1650 sec, using Thermocouple T2
  • Figure 15. 2D comparative graph of agricultural waste samples at t= 3000 sec, using Thermocouple T2
  • Figure 16. Line graph showing interaction between feedstocks and operating time at 21.3 m/s using Thermocouple T2
  • Figure 17. Line graph showing interaction between feedstocks and operating time at 23.8 m/s using Thermocouple T2
  • Figure 18. Line graph showing interaction between feedstocks and operating time at 24.5 m/s using Thermocouple T2