Performance analyses of helical coil heat exchangers. The effect of external coil surface modification on heat exchanger effectiveness

Andrzejczyk, Rafał; Muszyński, T.

doi:10.1515/aoter-2016-0032

Cited by 31 publications

(12 citation statements)

References 26 publications

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“…In recent years, investigations aimed at increasing heat transfer efficiency are of primary importance [1,2]. Reducing the energy requirement of energy-intensive systems and also maximization of energy utilization are common subjects of research [3].…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation on straight and u-bend double tube heat exchanger with active and passive enhancement methods

2018

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Authors in this work want to demonstrate the possibility to increase the heat transfer efficiency by using simple wire coil inserts to create turbulent flow in the boundary layer as well as air blowing into the annulus of the pipe. In the study, Wilson plot approach was applied in order to estimate heat transfer coefficients for all heat exchanger (HX) configurations. The study focuses on experimental values of heat transfer coefficient (HTC) and pressure drops. The primary objectives of the work are to: I. Provide an experimental comprehensive database for HTC and pressure drops; II. Analysis effect of different flow conditions e.g. water mass flow rate, the void fraction on heat transfer and hydraulic performance of tested elements. III. Compare influences of both passive and active methods at the efficiency of simple heat exchangers constructions; IV. Validation experimental results with selected experimental models from the open literature.

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Section: Introductionmentioning

confidence: 99%

Experimental investigation on straight and u-bend double tube heat exchanger with active and passive enhancement methods

2018

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“…Two-phase flows are associated with large rates of heat transfer because of the latent heat of evaporation and enhancement of the turbulence level between the liquid and the solid surface [8,9]. High heat fluxes can also be obtained by means of numerous enhancement technologies [10][11][12]. Predicting heat transfer coefficient and pressure drop is a challenging task, and has been pursued by various research for decades.…”

Section: Introductionmentioning

confidence: 99%

Experimental validation of pressure drop models during flow boiling of R134a – effect of flow acceleration and entrainment

2018

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A crucial step to assure proficient work of power and process apparatus is their proper design. A wide array of those devices operates within boiling or condensation of the working fluid to benefit from high heat transfer rates. Two-phase flows are associated with high heat transfer coefficients because of the latent heat of evaporation and high turbulence level between the liquid and the solid surface. Predicting heat transfer coefficient and pressure drop is a challenging task, and has been pursued by researchers for decades. In the case of diabatic flows, the total pressure drop is due to the change in kinetic and potential energy. The article presents detailed boiling pressure drops data for R134a at a saturation temperature of 19.4°C. Study cases have been set for a mass flux varying from 300 to 500 kg/m2s. Presented data along with the data reduction procedure was used to obtain the momentum pressure drop values during flow boiling. The study focuses on experimental values of momentum pressure drop component and its prediction based on various void fraction models and entrainment effects.

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“…Simultaneously with research aimed at enchancing heat transfer by modifying the construction of a thermal apparatus (change of surface roughness, surface development [1], use of flow turbulence elements) or using additional elements in the installation causing the liquid to pulsate or vibrate, numerous works are carried out to change thermophysical properties of conventional working fluids or proposing new products that can replace traditional liquids. In last two decades strong interest in fluids with suspended nanosize solid particles (called nanofluids) results in large number of experimental and numerical studies.…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation of forced convection of water/EG-Al₂O₃ nanofluids inside horizontal tube

Cieśliński

Kozak

2018

E3S Web Conf.

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In this paper, forced convection of water/EG-Al2O3 nanofluids inside horizontal stainless steel tube is studied experimentally. As base fluid served water/EG mixture of two ratios (60:50 and 50:50). Nanoparticle mass concentrations was 0.1% or and 1%. Transition and turbulent flow regimes were tested. Average heat transfer coefficient and pressure drop values were determined for nanofluids and compared to base fluids. Deterioration of heat transfer for all tested nanofluids has been recorded compared to base fluid. Negligible increase of pressure drop for nanofluids compared to base fluids has been observed.

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Performance analyses of helical coil heat exchangers. The effect of external coil surface modification on heat exchanger effectiveness

Cited by 31 publications

References 26 publications

Experimental investigation on straight and u-bend double tube heat exchanger with active and passive enhancement methods

Experimental investigation on straight and u-bend double tube heat exchanger with active and passive enhancement methods

Experimental validation of pressure drop models during flow boiling of R134a – effect of flow acceleration and entrainment

Experimental investigation of forced convection of water/EG-Al₂O₃ nanofluids inside horizontal tube

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Performance analyses of helical coil heat exchangers. The effect of external coil surface modification on heat exchanger effectiveness

Cited by 31 publications

References 26 publications

Experimental investigation on straight and u-bend double tube heat exchanger with active and passive enhancement methods

Experimental investigation on straight and u-bend double tube heat exchanger with active and passive enhancement methods

Experimental validation of pressure drop models during flow boiling of R134a – effect of flow acceleration and entrainment

Experimental investigation of forced convection of water/EG-Al2O3 nanofluids inside horizontal tube

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Experimental investigation of forced convection of water/EG-Al₂O₃ nanofluids inside horizontal tube