Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar
Swirl effervescent atomizer consists of a combined atomization mechanism of swirl and effervescent atomization. Despite of the advantages and potential of various applications, this type of atomizer was not widely used. This is due to the lack of extensive studies on the external and internal flow o...
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my.uitm.ir.178142022-04-18T05:44:34Z https://ir.uitm.edu.my/id/eprint/17814/ Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar Abdul Ghaffar, Zulkifli Swirl effervescent atomizer consists of a combined atomization mechanism of swirl and effervescent atomization. Despite of the advantages and potential of various applications, this type of atomizer was not widely used. This is due to the lack of extensive studies on the external and internal flow of this atomizer. Therefore, there is a need to understand the behaviour of the external and internal flow of this atomizer. In this study, the atomizer was designed, fabricated and later tested with water as the working fluid and nitrogen gas as the atomizing gas. An experimental test rig was built to evaluate the relation of swirl-generating vane angle, gas-to-liquid ratio (GLR) and discharge orifice diameter with spray angle, breakup length and gas core diameter respectively. To ensure optimization of experiment, Box-Behnken design of experiment was applied. High-speed shadowgraph was utilized during the recordings of resultant spray patterns and internal flow structure. The acquired images were analyzed using image processing software. Spray angle increases with swirl-generating vane angle and orifice diameter but unchanged with GLR. Increased of every independent parameters shortened the spray breakup and enlarged the gas core diameter but the GLR produced the most optimum results. The maximum spray angle is 28° which achieved from the interaction between the swirl-generating vane angle and discharge orifice diameter. Shortest breakup length (6mm) obtained with swirl-generating vane angle and GLR interact at the highest levels of both parameters. Gas core diameter expanded by 0.12mm with the interaction of the swirl-generating vane angle and discharge orifice diameter. 2015-08 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/17814/2/TM_ZULKIFLI%20ABDUL%20GHAFFAR%20EM%2015_5.pdf (2015) Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar. Masters thesis, thesis, Universiti Teknologi MARA. |
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Swirl effervescent atomizer consists of a combined atomization mechanism of swirl and effervescent atomization. Despite of the advantages and potential of various applications, this type of atomizer was not widely used. This is due to the lack of extensive studies on the external and internal flow of this atomizer. Therefore, there is a need to understand the behaviour of the external and internal flow of this atomizer. In this study, the atomizer was designed, fabricated and later tested with water as the working fluid and nitrogen gas as the atomizing gas. An experimental test rig was built to evaluate the relation of swirl-generating vane angle, gas-to-liquid ratio (GLR) and discharge orifice diameter with spray angle, breakup length and gas core diameter respectively. To ensure optimization of experiment, Box-Behnken design of experiment was applied. High-speed shadowgraph was utilized during the recordings of resultant spray patterns and internal flow structure. The acquired images were analyzed using image processing software. Spray angle increases with swirl-generating vane angle and orifice diameter but unchanged with GLR. Increased of every independent parameters shortened the spray breakup and enlarged the gas core diameter but the GLR produced the most optimum results. The maximum spray angle is 28° which achieved from the interaction between the swirl-generating vane angle and discharge orifice diameter. Shortest breakup length (6mm) obtained with swirl-generating vane angle and GLR interact at the highest levels of both parameters. Gas core diameter expanded by 0.12mm with the interaction of the swirl-generating vane angle and discharge orifice diameter. |
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Abdul Ghaffar, Zulkifli |
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Abdul Ghaffar, Zulkifli Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar |
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Abdul Ghaffar, Zulkifli |
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Abdul Ghaffar, Zulkifli |
title |
Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar |
title_short |
Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar |
title_full |
Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar |
title_fullStr |
Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar |
title_full_unstemmed |
Investigation of swirl effervescent atomization using design of experiment and photographic-based technique / Zulkifli Abdul Ghaffar |
title_sort |
investigation of swirl effervescent atomization using design of experiment and photographic-based technique / zulkifli abdul ghaffar |
publishDate |
2015 |
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https://ir.uitm.edu.my/id/eprint/17814/2/TM_ZULKIFLI%20ABDUL%20GHAFFAR%20EM%2015_5.pdf https://ir.uitm.edu.my/id/eprint/17814/ |
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1731229057684602880 |
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13.211869 |