The effect of alphabet-shaped twisted tape on thermo-fluidic properties in a shell-tube type heat exchanger: a comparative study utilizing a two-phase mixture model. (English) Zbl 07855260
Keywords:
twisted tape; shell and tube-type heat exchanger; heat transfer coefficient; pressure drop; temperature distributionReferences:
| [1] | Fares, M.; Mohammad, A.-M.; Mohammed, A.-S., Heat transfer analysis of a shell and tube heat exchanger operated with graphene nanofluids. Case Stud Therm Eng (2020) |
| [2] | Said, Z.; Rahman, S. M.A.; Assad, M. E.H.; Alami, A. H., Heat transfer enhancement and life cycle analysis of a Shell-and-Tube heat exchanger using stable CuO/water nanofluid. Sustain Energy Technol Assessment, 306-317 (2019) |
| [3] | Bahiraei, M.; Naseri, M.; Monavari, A., A CFD study on thermohydraulic characteristics of a nanofluid in a shell-and-tube heat exchanger fitted with new unilateral ladder type helical baffles. Int Commun Heat Mass Transf (2021) |
| [4] | Rostami, M. H.; Najafi, G.; Ghobadin, B.; Motevali, A., Thermal performance investigation of SWCNT and graphene quantum dots nanofluids in a shell and tube heat exchanger by using fin blade tubes. Heat Transf, 4783-4800 (2020) |
| [5] | Masoud Hosseini, S.; Safaei, M. R.; Estellé, P.; Hadi Jafarnia, S., Heat transfer of water-based carbon nanotube nanofluids in the shell and tube cooling heat exchangers of the gasoline product of the residue fluid catalytic cracking unit. J Therm Anal Calorim, 351-362 (2020) |
| [6] | Yu, C.; Chen, J.; Zeng, M.; Gao, B., Numerical study on turbulent heat transfer performance of a new parallel-flow shell and tube heat exchanger with sinusoidal wavy tapes using RSM analysis. Appl Therm Eng, 875-887 (2019) |
| [7] | Mashayekhi, R.; Eisapour, A. H.; Eisapour, M.; Talebizadehsardari, P.; Rahbari, A., Hydrothermal performance of twisted elliptical tube equipped with twisted tape insert. Int J Therm Sci (2022) |
| [8] | Pourahmad, S.; Pesteei, S. M.; Ravaeei, H.; Khorasani, S., Experimental study of heat transfer and pressure drop analysis of the air/water two-phase flow in a double tube heat exchanger equipped with dual twisted tape turbulator: simultaneous usage of active and passive methods. J Energy Storage (2021) |
| [9] | Bahiraei, M.; Naseri, M.; Monavari, A., Thermal-hydraulic performance of a nanofluid in a shell-and-tube heat exchanger equipped with new trapezoidal inclined baffles: nanoparticle shape effect. Powder Technol, 348-359 (2022) |
| [10] | Mansoury, D.; Doshmanziari, F. I.; Kiani, A.; Chamkha, A. J.; Sharifpur, M., Heat transfer and flow characteristics of Al2O3/water nanofluid in various heat exchangers: experiments on counter flow. Heat Transf. Eng (2019) |
| [11] | Mansoury, D.; Ilami Doshmanziari, F.; Rezaie, S.; Rashidi, M. M., Effect of Al2O3/water nanofluid on performance of parallel flow heat exchangers. J Therm Anal Calorim, 625-643 (2019) |
| [12] | Karimi, S.; Heyhat, M. M.; Isfahani, A. H.M.; Hosseinian, A., Experimental investigation of convective heat transfer and pressure drop of SiC/water nanofluid in a shell and tube heat exchanger. Heat Mass Transf, 2325-2331 (2020) |
| [13] | Yang, D.; Khan, T. S.; Al-Hajri, E.; Ayub, Z. H.; Ayub, A. H., Geometric optimization of shell and tube heat exchanger with interstitial twisted tapes outside the tubes applying CFD techniques. Appl Therm Eng, 559-572 (2019) |
| [14] | Ayub, Z. H.; Yang, D.; Khan, T. S.; Al-Hajri, E.; Ayub, A. H., Performance characteristics of a novel shell and tube heat exchanger with shell side interstitial twisted tapes for viscous fluids application. Appl Therm Eng, 248-255 (2018) |
| [15] | Mahdi, Q. S.; Hussein, A. A., Enhancement of Heat Transfer In Shell and Tube Heat Exchanger with Tabulator and Nanofluid. Int. J. Mech. Eng. Technol. (2016) |
| [16] | Wang, D.; Ali, M. A.; Sharma, K.; Almojil, S. F.; ad, Alizadeh A.; Alali, A. F.; Almohana, A. I., Multiphase numerical simulation of exergy loss and thermo-hydraulic behavior with environmental cosiderations of a hybrid nanofluid in a shell-and-tube heat exchanger with twisted tape. Eng Anal Bound Elem, 1-10 (2023) |
| [17] | Dagdevir, T.; Ozceyhan, V., A comprehensive second law analysis for a heat exchanger tube equipped with the rod inserted straight and twisted tape and using water/CuO nanofluid. Int J Therm Sci (2022) |
| [18] | Ghazanfari, V.; Imani, M.; Shadman, M. M.; Amini, Y.; Zahakifar, F., Numerical study on the thermal performance of the shell and tube heat exchanger using twisted tubes and Al2O3 nanoparticles. Prog Nucl Energy (2023) |
| [19] | Aghaei, A., Thermal-hydraulic analysis of Syltherm 800 thermal oil/γ-AlOOH nanofluid in a baffled shell and tube heat exchanger equipped with corrugated helical tube with two-phase approach. Eng Anal Bound Elem, 668-694 (2023) |
| [20] | Assaf, Y. H.; Akroot, A.; Abdul Wahhab, H. A.; Talal, W.; Bdaiwi, M.; Nawaf, M. Y., Impact of Nano additives in heat exchangers with twisted tapes and rings to increase efficiency: a Review. Sustainability, 7867 (2023) |
| [21] | Aminifar, F.; Ghafouri, A.; Falavand Jozaei, A., Experimental investigation of hydro-thermodynamics performance of shell and tube heat exchanger using Nanofluid, triangular-Cut twisted tape and corrugated pipes. Modares Mech Eng, 2593-2603 (2020) |
| [22] | Kücük, H., The effect of minichannels on the overall heat transfer coefficient and pressure drop of a shell and tube heat exchanger: experimental performance comparison. Int J Therm Sci (2023) |
| [23] | Tavakoli, M.; Soufivand, M. R., Performance evaluation criteria and entropy generation of hybrid nanofluid in a shell-and-tube heat exchanger with two different types of cross-sectional baffles. Eng Anal Bound Elem, 272-284 (2023) |
| [24] | Zhang, J.; Zhang, G.; Du, Y.; Cui, G.; Lu, W.; Yang, Q., Flow and heat transfer behaviour of nucleating agent-enhanced nanofluids through manifold mini-channels. Appl Therm Eng (2023) |
| [25] | Gu, X.; Li, M.; Gao, W.; Shi, Q., Numerical study on application of orthogonal elliptic tube in torsional flow heat exchanger. Appl Therm Eng (2023) |
| [26] | Gui, T.; Ou, G.; Guo, L.; Ge, Z., Large eddy simulation on heat transfer characteristics of supercritical water in double-pipe heat exchanger. Int J Therm Sci (2024) |
| [27] | Bahiraei, M.; Nazari, S.; Moayedi, H.; Safarzadeh, H., Using neural network optimized by imperialist competition method and genetic algorithm to predict water productivity of a nanofluid-based solar still equipped with thermoelectric modules. Powder Technol, 571-586 (2020) |
| [28] | Bahiraei, M.; Monavari, A.; Naseri, M.; Moayedi, H., Irreversibility characteristics of a modified microchannel heat sink operated with nanofluid considering different shapes of nanoparticles. Int J Heat Mass Transf (2020) |
| [29] | Bahiraei, M., A numerical study of heat transfer characteristics of CuO-water nanofluid by Euler-Lagrange approach. J Therm Anal Calorim, 1591-1599 (2016) |
| [30] | Bahiraei, M.; Monavari, A., Thermohydraulic characteristics of a micro plate heat exchanger operated with nanofluid considering different nanoparticle shapes. Appl Therm Eng (2020) |
| [31] | Byrne R.C. (2019) TEMA standards of the tubular exchangerAu: Please provide full details of Ref. [31]. |
| [32] | Van Doormaal, J. P.; Raithby, G. D., Enhancements of the SIMPLE method for predicting incompressible fluid flows. Numer heat Transf, 147-163 (1984) · Zbl 0553.76005 |
| [33] | Roy G., Gherasim I., Nadeau F., Poitras G., Tam C. (2012) International Journal of Thermal Sciences Heat transfer performance and hydrodynamic behavior of turbulent nano fluid radial flows. 58:120-9. |
| [34] | Menter, F. R., Two-equation eddy-viscosity turbulence models for engineering applications. AIAA J, 1598-1605 (1994) |
| [35] | Nguyen, Q.; Sedeh, S. N.; Toghraie, D.; Kalbasi, R.; Karimipour, A., Numerical simulation of the ferro-nanofluid flow in a porous ribbed microchannel heat sink: investigation of the first and second laws of thermodynamics with single-phase and two-phase approaches. J Brazilian Soc Mech Sci Eng, 1-14 (2020) |
| [36] | Ho, C. J.; Chen, W. C., An experimental study on thermal performance of Al2O3/water nanofluid in a minichannel heat sink. Appl Therm Eng, 516-522 (2013) |
| [37] | Cengel, Y. A., Fluid mechanics (2010), Tata McGraw-Hill Education |
| [38] | Li N., Chen J., Cheng T., Wang Q., Yang W., Liu X., Zeng M. (2020) Analysing thermal-hydraulic performance and energy efficiency of shell-and-tube heat exchangers with longitudinal fl ow based on experiment and numerical simulation. https://doi.org/10.1016/j.energy.2020.117757 |
| [39] | Reddy, P. S.; Sreedevi, P.; Chamkha, A. J., MHD boundary layer flow, heat and mass transfer analysis over a rotating disk through porous medium saturated by Cu-water and Ag-water nanofluid with chemical reaction. Powder Technol, 46-55 (2017) |
| [40] | Fotukian, S. M.; Esfahany, M. N., Experimental study of turbulent convective heat transfer and pressure drop of dilute CuO /water nano fl uid inside a circular tube ☆. Int Commun Heat Mass Transf, 214-219 (2010) |
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.
