The Blockage Ratio Effect to The Spray Performances

Authors

  • Mohamad Rasidi Pairan Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia
  • Sharul Azmir Osman Centre for Energy and Industrial Environment Studies (CEIES), Faculty of Mechanical and Manufacturing, UTHM, Batu Pahat, Johor, Malaysia
  • Ahmad Nabil Md Nasir Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia
  • Nur Hazirah Noh@Seth Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia
  • Mohd Hizwan Mohd Hisham Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia
  • Adjah Naqkiah Mazlan Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia
  • Hanifah Jambari Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia
  • Muhamad Afzamiman Aripin Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

DOI:

https://doi.org/10.37934/arfmts.95.1.99109

Keywords:

Mist spray, cooling system, spray pattern

Abstract

Nozzle sprays are used in wide range of application. The used of nozzle application is depend on the spray characteristics, by which to suit the particular application. This project studies the effect of the air blockage ratio to the spray characteristics. This research conducted into two part which are experimental and simulation section. The experimental was conducted by using particle image velocimetry (PIV) method, and ANSYS software was used as tools for simulation section. There are two nozzles were tested at 1 bar pressure of water and air. Nozzle A (with blockage ratio 0.316) and nozzle B (blockage ratio 1.000). Both of the sprays performances generated by the nozzles was examined at 9 cm vertical line from 8 cm of the nozzle orifice. The validation result provided in the detailed analysis shows that the trend of graph velocity versus distance gives the good agreement within simulation and experiment. From result, nozzle A generated a wider spray angle and higher water droplet velocity which are 31.41 degree and 37.317 m/s compared to nozzle B which has produced 27.13 degree of spray penetration angle and 16.49 m/s water droplet velocity. As a conclusion, blockage ratio has affected the spray system by increasing the velocity of air inside the spray system. This is happened at a condition of 1 bar air pressure.

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Author Biographies

Mohamad Rasidi Pairan, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

rasidi@utm.my

Sharul Azmir Osman, Centre for Energy and Industrial Environment Studies (CEIES), Faculty of Mechanical and Manufacturing, UTHM, Batu Pahat, Johor, Malaysia

shahrula@uthm.edu.my

Ahmad Nabil Md Nasir, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

ahmadnabil@utm.my

Nur Hazirah Noh@Seth, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

nurhazirah.n@utm.my

Mohd Hizwan Mohd Hisham, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

hizwan@utm.my

Adjah Naqkiah Mazlan, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

adjahnaqkiah@utm.my

Hanifah Jambari, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

hanifah-j@utm.my

Muhamad Afzamiman Aripin, Department of Technical and Engineering Education, Faculty of Science Social and Humanities, UTM, Skudai, Malaysia

afzamiman@utm.my

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Published

2022-05-11

How to Cite

Mohamad Rasidi Pairan, Sharul Azmir Osman, Ahmad Nabil Md Nasir, Nur Hazirah Noh@Seth, Mohd Hizwan Mohd Hisham, Adjah Naqkiah Mazlan, Hanifah Jambari, & Muhamad Afzamiman Aripin. (2022). The Blockage Ratio Effect to The Spray Performances. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 95(1), 99–109. https://doi.org/10.37934/arfmts.95.1.99109

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