Heat transfer and pressure drop characteristics of alternating clockwise and counter clockwise twisted tape inserts in the transitional flow regime

Abolarin, Sogo Mayokun; Everts, Marilize

doi:10.1016/j.ijheatmasstransfer.2018.12.107

Cited by 92 publications

(36 citation statements)

References 77 publications

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“…Hence, all these changes can improve the heat performance in the grooved pipe compared to the normal one. These results agreed with References [2] and [6]. Figure 5 depicts the distributions in pressure inside both smooth and grooved pipes with different geometrical configurations.…”

Section: Validation Of Computational Calculation Proceduressupporting

confidence: 90%

“…To improve the convective heat transfer in the circular tubes, many types of turbulators have been applied. Turbulence is an important factor that has a direct effect on the thermal performance ratings, such as dimple, groove, 3,4 twisted tape, [5][6][7] wire coil, 8,9 and wing. 10 A numerical investigation of turbulent flows in the periodically grooved channels in 2D has been reported by Eiamsa-ard and Promvonge 11 with a range of Reynolds numbers 6000-18,000 and the (B/H) of 0.5-1.75, they found that the tube with groove increases the heat transfer up to 158% compared with the smooth tube, and the highest gain of 1.33 on thermal performance factor is obtained for the case of groove-width to the channel-height ratio by about 0.75.…”

Section: Introductionmentioning

confidence: 99%

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Analysis on flow structure and improvement of heat transfer in 3D circular tube with varying axial groove turbulator configurations

2021

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Using passive devices are an efficient method to enhance streamline behavior when liquid flows through the circular pipe. The interrupted structure groove is usually used to change the flow patterns. In this analysis, a heat performance numerical technique is applied to study the characteristics of fluid flow and heat transfer of the circular pipe using different axial groove geometrical configurations with different axial groove numbers, including 2, 3, and 4, under different conditions. The number of annular grooves and circumferential positions are the important parameters to analyse with varying operating conditions, with the Reynolds number (Re) range from 1500 to 23,000. A three-dimensional coordinate pipe system is applied using tetrahedron grids. The discretization equations are obtained by deriving algebraic approximations to integral conservation equations. Results observed that using this type of passive method has a low effect on pressure dope compared to the normal one (smooth pipe). The flow change occurs near and closed to the axial groove parameters. Moreover, the Nusselt number (Nu) value for the groove turbulators was higher than the normal one, about 14.5%-21%. The friction factor (f) value for the groove turbulators was higher than the normal one, were about 7.5%-24%. Most friction losses are caused by dynamical pressure dissipation owing to more viscous losses closed to the wall surfaces. The improvement of heat performance using this type of passing method was more than 1.2%.

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Section: Validation Of Computational Calculation Proceduressupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Analysis on flow structure and improvement of heat transfer in 3D circular tube with varying axial groove turbulator configurations

2021

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“…At constant pumping power, the maximum thermal performance factor obtained is 1.433, 1.396 and 1.24 respectively for perforated twisted tapes with alternate axis, perforated twisted tapes and regular twisted tapes. Abolarin et al (2019) experimentally investigate the heat transfer and pressure drop characteristics in a smooth circular tube with alternating clockwise and counter clockwise twisted tape inserts. An increase in heat flux significantly enhanced the heat transfer in the laminar flow regime and delayed transition.…”

Section: Frontiers In Heat and Mass Transfermentioning

confidence: 99%

Hydrodynamic and Thermal Performance Twisted Tape Insert Provided in Heat Exchanger Tubes: A Review

Kumar¹,

Datt²,

Bhist³

et al. 2019

Frontiers in Heat and Mass Transfer

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This work presents a review of the research recent results concerning the augmentation of hydrodynamic and thermal performance of various twisted tape inserts in heat exchanger tubes. The thermal and hydrodynamic correlations for various twisted tape elements have been summarized. A comparative study of thermal and hydrodynamic performance of numerous twisted elements has also been reported to understand the result of applications of twisted tape inserts in heat exchanger tubes. The literature review found that multiple twisted tapes heat exchanger tube shape enhanced hydrodynamic and thermal performance than other comparable twisted tape inserts heat exchanger tube shapes. The review of twisted tape inserts techniques existing in this paper will be helpful to the investigators working in this field.

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“…Bahiraei et al [14] have checked on a triple-tube that their outcomes show that, based on heat exchange efficiency, an increase in height and reduced pitch are suggested. Abolarin et al [15] have checked the impact of various geometries in twisted tapes, and the results pointed out that connection angle increases heat transfer. They found that when the wavelength is smaller, the temperatures near the walls increased.…”

Section: Introductionmentioning

confidence: 99%

Thermal Performance Enhancement Using Absorber Tube with Inner Helical Axial Fins in a Parabolic Trough Solar Collector

et al. 2021

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In the present work, a parabolic trough solar (PTC) collector with inner helical axial fins as swirl generator or turbulator is considered and analyzed numerically. The three-dimensional numerical simulations have been done by finite volume method (FVM) using a commercial CFD code, ANSYS FLUENT 18.2. The spatial discretization of mass, momentum, energy equations, and turbulence kinetic energy has been obtained by a second-order upwind scheme. To compute gradients, Green-Gauss cell-based method has been employed. This work consists of two sections where, first, four various geometries are appraised, and in the following, the selected schematic of the collector from the previous part is selected, and four various pitches of inner helical fins including 250, 500, 750 and 1000 mm are studied. All the numerical results are obtained by utilizing the FVM. Results show that the thermal performance improvement by 23.1% could be achieved by using one of the proposed innovative parabolic trough solar collectors compare to the simple one. Additionally, the minimum and maximum thermal performance improvement (compare to the case without fins) belong to the case with P = 250 mm by 14.1% and, to the case with P = 1000 mm by 21.53%, respectively.

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Heat transfer and pressure drop characteristics of alternating clockwise and counter clockwise twisted tape inserts in the transitional flow regime

Cited by 92 publications

References 77 publications

Analysis on flow structure and improvement of heat transfer in 3D circular tube with varying axial groove turbulator configurations

Analysis on flow structure and improvement of heat transfer in 3D circular tube with varying axial groove turbulator configurations

Hydrodynamic and Thermal Performance Twisted Tape Insert Provided in Heat Exchanger Tubes: A Review

Thermal Performance Enhancement Using Absorber Tube with Inner Helical Axial Fins in a Parabolic Trough Solar Collector

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