Numerical study of the flow pattern and heat transfer enhancement in oscillatory baffled reactors with helical coil inserts

Solano, J.P.; Herrero, R.; Espín, S.; Phan, Anh N.; Harvey, Adam P.

doi:10.1016/j.cherd.2012.03.017

Cited by 53 publications

(35 citation statements)

References 14 publications

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“…Chougulea et al [77] investigated heat transfer and friction factor characteristics of MWCNT/ water nanofluid flowing through a uniformly heated horizontal tube with and without coiled wire. Solano et al [78] carried out a numerical study of the flow pattern and heat transfer enhancement in oscillatory-baffled reactors with helical coil inserts. The heat transfer enhancement rate was discussed, considering the compound effect of oscillatory motion and helical coil inserts in the paper.…”

Section: Coiled Wire Insertsmentioning

confidence: 99%

A Review of Heat Transfer Enhancement Methods Using Coiled Wire and Twisted Tape Inserts

Keklikçioğlu¹,

Özceyhan²

2018

Heat Transfer - Models, Methods and Applications

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Heat transfer enhancement is categorized into passive and active methods. Active methods need external power to input the process; in contrast, passive methods do not require any additional energy to improve the thermohydraulic performance of the system. Passive methods are widely used in both experimental and numerical applications when investigating heat transfer enhancement and friction losses to save energy and costs. The many passive methods for increasing heat transfer rate include various components located in the fluid flow path, such as twisted tapes, coiled or tangled wires, and nozzle turbulators. The present paper represents a comprehensive review that focused on heat transfer enhancement methods with coiled wire and twisted tape inserts since the installation of inserts is easier and more economical. The thermodynamic performance of heat exchange components is also affected by the flow conditions such as laminar or turbulence. The present review comprises investigations on the enhancement of heat transfer using twisted tape and coiled wire inserts in laminar and turbulent flow region.

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Section: Coiled Wire Insertsmentioning

confidence: 99%

A Review of Heat Transfer Enhancement Methods Using Coiled Wire and Twisted Tape Inserts

Keklikçioğlu¹,

Özceyhan²

2018

Heat Transfer - Models, Methods and Applications

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“…A number of studies [11][12][13][14][15][16][17] prove that the implementation of OBRs can lead to a significant improvement potential in chemical processing with increase in productivity of 30-40%, shortening of reaction times of 50-90 % and an increase of heat transfer up to a factor of 4. Due to increasing heat transfer coefficients in comparison to stirred tanks, they enable low temperature heat supply and theoretically enable a better integration of solar process heat [1].…”

Section: Oscillatory Baffled Reactorsmentioning

confidence: 99%

IEA SHC Task 49/IV - Deliverable B5 - Potential Enhancement of Solar Process Heat by Emerging Technologies

Muster-Slawitsch¹,

Prosinecki²,

Ahmad³

et al. 2016

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“…In order to extend the allowable heat flux limits, HHFR enhancements (e.g., see Table 1) such as swirl or twisted tape [2], hypervapotron [3], helical wire insert [4] (etc.) can be incorporated into the heat sink (monoblock).…”

Section: Chfmentioning

confidence: 99%

High heat flux removal measurements in a single-side heated monoblock flow channel with a helical wire insert

Boyd¹,

May²,

Cofie³

et al. 2014

2014 IEEE 41st International Conference on Plasma Sciences (ICOPS) Held With 2014 IEEE International Conference on High-Power P

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In order to accommodate high thermal loading of single side heated (SSH) high energy density magnetic or alternate fusion plasma-facing components, robust thermal management and high heat flux removal (HHFR) approaches are essential to prevent thermal instability, thermal run-away or a thermal spiral towards component failure. This paper presents results from 2-D steady-state heat flux measurements for a high-strength copper SSH monoblock (heat sink) coolant flow channel with a helical wire insert and "internal thermally developing laminar and turbulent water (coolant) flow. In addition to producing local boiling curves, 2-D and 3-D comparisons were made between flow channels with and without a helical wire insert. Further, 2-D (axial and circumferential) inside flow channel wall heat fluxes were measured up to about 4.0 MW/m 2 . For the same inside flow channel temperature, the helical wire insert enhanced the incident heat flux by up to 100% when compared with the flow channel without the insert.

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Numerical study of the flow pattern and heat transfer enhancement in oscillatory baffled reactors with helical coil inserts

Cited by 53 publications

References 14 publications

A Review of Heat Transfer Enhancement Methods Using Coiled Wire and Twisted Tape Inserts

A Review of Heat Transfer Enhancement Methods Using Coiled Wire and Twisted Tape Inserts

IEA SHC Task 49/IV - Deliverable B5 - Potential Enhancement of Solar Process Heat by Emerging Technologies

High heat flux removal measurements in a single-side heated monoblock flow channel with a helical wire insert

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