Abstract
This article focused on investigating numerically the effects of key design parameters including tape thickness, tube wall to tape edge clearance and three different perforated shapes cut (circular, triangular and pentagon) on the heat transfer coefficient enhancement in tube with twisted tape inserts. Water was considered as the working fluid under the turbulent flow of Reynolds number (Re) between 12,000 and 22,000, with constant wall temperature of the tubes. It is found that due to the swirling flow and efficient mixing of the fluid, all the tape inserts considered in this study produced better thermalhydraulic performance than the plain tube without an insert. At the same time, tape inserts with small tube wall to tape edge clearance and considerable thickness value is beneficial to reduce the friction factor, consequently enhancing the heat transfer rate. Through the thermal performance factor (TPF) evaluation, the twisted tape with perforated triangular shape cut has an advantage over the pentagon and circular shapes cut with increasing Re. A maximum TPF as high as 1.68 can be obtained for the twisted tape with perforated triangular shape cut under low turbulent Re.
Highlights
Improving the rate of heat transfer with an eye on enhancing thermal system efficiency is an important area that has been widely studied in recent time and has led to various developments in several heat transfer enhancement techniques
Higher heat transfer coefficient and larger pressure drop are observed in tube with twisted tape insert independent of their thickness when compared to plain tube without insert
Results for the different tape inserts considered in this study revealed that tube with twisted tape inserts improves thermal performance compared to tube without twisted tape insert
Summary
Improving the rate of heat transfer with an eye on enhancing thermal system efficiency is an important area that has been widely studied in recent time and has led to various developments in several heat transfer enhancement techniques. Despite the numerous experimental studies have been carried out to investigate performance of different twisted tape inserts and with the growing interest due to their high thermal performance, more systematic researches are needed to fully understand the mechanisms associated with the heat transfer coefficient enhancement in tube with twisted tape inserts. More so, they are still limited in making optimum design judgement via visualisation of flow pattern with geometrical variations due to equipment cost and time involved in carrying out such experiments. These effects were numerically studied for comparative thermo-hydraulic performance of turbulent flow in tubes with twisted tape inserts
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