Experimental comparison of heat transfer coefficient and pressure drop of graphene oxide, titanium oxide and aluminum oxide on the radiator of a car

Publish Year: 1402
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:

JR_IJAEIU-13-3_004

تاریخ نمایه سازی: 4 دی 1402

Abstract:

In this research, the effect of using three Nano fluids contains graphene oxide (GO), titanium oxide (TiO۲) and aluminum oxide (Al۲ O۳) was analyzed on the heat transfer of the car radiator by experiment in physical conditions on the car engine. Distilled water and ethylene glycol (۶۰:۴۰) as the base fluid was companied with three nanoparticles contain graphene oxide, titanium oxide and aluminum oxide that each one separately with ۰.۱, ۰.۲ and ۰.۳ weight percent and flow rates of ۱۰, ۲۰, ۳۲ and ۴۰ liters per minute were used at normal engine temperature. After the temperature of the radiator cooling fluid reached ۹۰ degrees Celsius and the fan was turned on for one minute, the results showed that increasing the weight percentage of nanoparticles to the base fluid increases the displacement heat transfer coefficient and most increase in the coefficient of heat transfer at ۰.۳ weight percent to an approximate value of ۵.۲% in aluminum oxide, ۱۱.۹% for titanium oxide and ۲۸.۷% for graphene oxide compared to the base fluid was received. With the increase in weight percentage, the pressure drop and Nusselt number increased.  The highest percentage increase in the radiator pressure drop for all three Nano fluids with ۰.۳ weight percentage and ۲.۲% for   aluminum oxide, ۳.۵% for Titanium oxide and ۵.۲۴% for graphene oxide were received.

Authors

Ali Ghiasi Noghabi

Department of Mechanical Engineering, Mashhad Branch, Islamic Azad university, Mashhad, Iran

Mansour Baghaeian

Department of Mechanical Engineering, Mashhad Branch, Islamic Azad university, Mashhad, Iran

Hamid Reza Goshayeshi

Department of Mechanical Engineering, Mashhad Branch, Islamic Azad university, Mashhad, Iran

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  • S. U. S. Choi, “Enhancing thermal conductivity of fluids with ...
  • I. Gonçalves, R. Souza,G. Coutinho, J. Miranda, A. Moita, JE. ...
  • H. Ahmad, K. Al khaled, S.A. Sowayan, “Experimental investigation for ...
  • S.K. Saripella, W. Yu, J.L. Routbort, D.M. France, “Effect of ...
  • R.Ghimire,P.Mehta,N.Aryal,D.R.Sah, “Thermal Performance of Car Radiator Operated by Al۲O۳–Ethylene Glycol/Water-Based ...
  • V. Vasu, K.R. Krishna, A.C.S. Kumar, “Thermal design analysis of ...
  • R.S. Vajjha, D.K. Das, P.K. Namburu, “Numerical study of fluid ...
  • H. Xie, Y. Li, W. Yu, “Intriguingly high convective heat ...
  • K.Y.Leong, R.Saidur, S. N. Kazi, A. H. Mamun. “ Performance ...
  • S.MPeyghambarzadeh,SH.Hashemabadi,S.M. Hoseini, JM. Seifi, “Experimental study of heat transfer enhancement ...
  • S.M.Peyghambarzadeh, SH.Hashemabadi, M. Naraki, Y. Vermahmoudi, “Experimental study of overall ...
  • M.Naraki,S.M.Peyghambarzadeh,SH.Hashemabadi,Y.Vermahmoudi,“Parametric study of overall heat transfer coefficient of CuO/water nanofluids ...
  • A.M.Hussein,R.ABakar,K.Kadirgama,K.V.Sharma,“Heat transfer enhancement using nanofluids in an automotive cooling system”, ...
  • H. M. Ali, H. Ali, H. T. B.Maqsood,M.A.Nadir, “Experimental Investigation ...
  • M.Raja,R.Vijayan,P. Dineshkumar, M.Venkatesan. “Review on nanofluids characterization, heat transfer characteristics ...
  • M.Bozorg Bigdeli, M. Fasano,A.Cardellini,E.Chiavazzo,P.Asinari.“A review on the heat and mass ...
  • G.Heydarbeigi,“Investigation of the effect of using copper nanofluid, silver nanofluid ...
  • B.Rahmatinejad , M.Abbasqalipour and B.Mohammadi Elesti, "Experimental evaluation of heat ...
  • Y.Chen, A.Alizadeh," The combustion process of methyl ester-biodiesel in the ...
  • S.Ali Ahmed,M.Ozkaymak, “Improving car radiator performance by using Tio۲-water nanofluid” ...
  • R.Prasanna Shankara ,N.R.Banapurmath, “An insight into the performance of radiator ...
  • M.A.Hussein,R.A.Bakar,K.Kadirgama, “Study of forced convection nanofluid heat transfer in the ...
  • C.Ho,W.Liu, Y.Chang, C.Lin, “Natural convection heat transfer of alumina-water nanofluid ...
  • M.M. Heyhat, F.Kowsary, A.M.Rashidi, S.Alem Varzane Esfehani, A.Amrollahi. “Experimental investigation ...
  • A.Turgut,I.Tavman,M.Chirtoc,H.P.Schuchmann,C.Sauter,S.Tavman. “Thermal conductivity and viscosity measurements of waterbased TiO۲ nanofluids ...
  • M.Bahiraei,S.M.Hosseinalipour,K. Zabihi “ Using neural network for determination of viscosity ...
  • X.Fan, H.Chen,Y. Ding,P.K.Plucinski,A.A.Lapkin.“Potential of ‘nanofluids’ to further intensify microreactors”. Green ...
  • A.Ghadimi,I.H.Metselaar,“The influence of surfactant and ultrasonic processing on improvement of ...
  • T.Yiamsawas,A.S.Dalkilic,O. Mahian,A.Wongwises. “Measurement and correlation of the viscosity of waterbased ...
  • D.Wen,G.Lin,S.Vafaei,K.Zhang.“Review of nanofluids for heat transfer applications” ,Particuology;۷:۱۴۱–۵۰, (۲۰۰۹) ...
  • R.L.Hamilton,O.K.Crosser,“Industrial and Engineering Chemistry Fundamental”,ACS Publications, ۱(۳), ۱۸۷ (۱۹۶۲) ...
  • J. P. Holman, “Heat Transfer”, Mcgraw-Hill Co, ۸th edition, (۱۹۹۷) ...
  • W.M. Kays, “Numerical solutions for laminar-flow heat transfer in circular ...
  • W.Yu,D.France,D.smith, “Nanofluids for Thermal Conditions-Underhood Heat Transfer”, Argonne National Laboratory, ...
  • نمایش کامل مراجع