Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts
Due to their high performance and low-cost demands, internally treated tube heat exchanger surfaces are one of the passive heat transfer enhancements that have caught the industry's attention. At bulk temperatures of 30 degrees C, an experiment for the insertion of 1 mm and 0.5 mm wire coils wi...
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my.um.eprints.451762024-09-20T04:56:40Z http://eprints.um.edu.my/45176/ Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts Ibrahim, Farah Arina Muhamad, Mohd Ridha Mohd Zubir, Mohd Nashrul Omar, Mohd Siri, Zailan Hasan, Rony Mehedy Eid, Mohamed Moustafa Abdelhalim Ahmed TJ Mechanical engineering and machinery Due to their high performance and low-cost demands, internally treated tube heat exchanger surfaces are one of the passive heat transfer enhancements that have caught the industry's attention. At bulk temperatures of 30 degrees C, an experiment for the insertion of 1 mm and 0.5 mm wire coils with a constant pitch length of 8 mm was carried out in this study. The results on the improvement of heat transfer, including the velocity profile, Nusselt number (6000 < Re < 20,000), friction factor, and thermal enhancement efficiency, were significant. Based on a lower surface temperature recorded beyond the uncertainty value, the results demonstrated an improvement in heat transfer for smaller diameter of wire coil inserts. It's interesting that this improvement is concentrated at low Reynolds numbers, indicating that there may be a point at which an increase in wire thickness does not necessarily result in an equivalent improvement in heat transfer. For both wire thicknesses, a Nusselt number increase of up to five times was visible. The friction factor penalty, however, varies depending on the wire thickness, with a higher magnitude (3.2-fold increase) obtained for 1 mm as opposed to a 1.8-fold increase for the lower counterpart. This distinction results in the 0.5 mm coil insert gaining better overall performance with an average of 2.2 for the thermal performance ratio, further solidifying the advantage of this technique for enhancing heat transfer in conduits. The diameter of the wire coil is found to be a key factor in improving heat transfer and convection on the boundary layer surface. ASME 2024-06 Article PeerReviewed Ibrahim, Farah Arina and Muhamad, Mohd Ridha and Mohd Zubir, Mohd Nashrul and Omar, Mohd and Siri, Zailan and Hasan, Rony Mehedy and Eid, Mohamed Moustafa Abdelhalim Ahmed (2024) Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts. ASME Journal of Heat and Mass Transfer, 146 (6). 061901. ISSN 2832-8450, DOI https://doi.org/10.1115/1.4065115 <https://doi.org/10.1115/1.4065115>. https://doi.org/10.1115/1.4065115 10.1115/1.4065115 |
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TJ Mechanical engineering and machinery Ibrahim, Farah Arina Muhamad, Mohd Ridha Mohd Zubir, Mohd Nashrul Omar, Mohd Siri, Zailan Hasan, Rony Mehedy Eid, Mohamed Moustafa Abdelhalim Ahmed Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts |
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Due to their high performance and low-cost demands, internally treated tube heat exchanger surfaces are one of the passive heat transfer enhancements that have caught the industry's attention. At bulk temperatures of 30 degrees C, an experiment for the insertion of 1 mm and 0.5 mm wire coils with a constant pitch length of 8 mm was carried out in this study. The results on the improvement of heat transfer, including the velocity profile, Nusselt number (6000 < Re < 20,000), friction factor, and thermal enhancement efficiency, were significant. Based on a lower surface temperature recorded beyond the uncertainty value, the results demonstrated an improvement in heat transfer for smaller diameter of wire coil inserts. It's interesting that this improvement is concentrated at low Reynolds numbers, indicating that there may be a point at which an increase in wire thickness does not necessarily result in an equivalent improvement in heat transfer. For both wire thicknesses, a Nusselt number increase of up to five times was visible. The friction factor penalty, however, varies depending on the wire thickness, with a higher magnitude (3.2-fold increase) obtained for 1 mm as opposed to a 1.8-fold increase for the lower counterpart. This distinction results in the 0.5 mm coil insert gaining better overall performance with an average of 2.2 for the thermal performance ratio, further solidifying the advantage of this technique for enhancing heat transfer in conduits. The diameter of the wire coil is found to be a key factor in improving heat transfer and convection on the boundary layer surface. |
| format |
Article |
| author |
Ibrahim, Farah Arina Muhamad, Mohd Ridha Mohd Zubir, Mohd Nashrul Omar, Mohd Siri, Zailan Hasan, Rony Mehedy Eid, Mohamed Moustafa Abdelhalim Ahmed |
| author_facet |
Ibrahim, Farah Arina Muhamad, Mohd Ridha Mohd Zubir, Mohd Nashrul Omar, Mohd Siri, Zailan Hasan, Rony Mehedy Eid, Mohamed Moustafa Abdelhalim Ahmed |
| author_sort |
Ibrahim, Farah Arina |
| title |
Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts |
| title_short |
Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts |
| title_full |
Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts |
| title_fullStr |
Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts |
| title_full_unstemmed |
Experimental Analysis of the Improvement of Heat Transfer in Tube Heat Exchangers Via Passive Flow Generators Using Wire Coil Inserts |
| title_sort |
experimental analysis of the improvement of heat transfer in tube heat exchangers via passive flow generators using wire coil inserts |
| publisher |
ASME |
| publishDate |
2024 |
| url |
http://eprints.um.edu.my/45176/ https://doi.org/10.1115/1.4065115 |
| _version_ |
1811682098164006912 |