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Modern Mechanical Engineering

Modern Mechanical Engineering

Modern Mechanical Engineering

ISSN Print: 2164-0165
ISSN Online: 2164-0181
www.scirp.org/journal/mme
E-mail: mme@scirp.org
"Numerical Study on Application of CuO-Water Nanofluid in Automotive Diesel Engine Radiator"
written by Navid Bozorgan, Komalangan Krishnakumar, Nariman Bozorgan,
published by Modern Mechanical Engineering, Vol.2 No.4, 2012
has been cited by the following article(s):
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[1] Performance Evaluation Of Flat Face Heat Exchanger With FDM Printed Micro-Channel Fin Holders
Educational Administration: Theory and Practice, 2024
[2] Effect of internal heating/cooling on heat transfer using different types of gravity/magnetic modulations in (H2O + CuO) nanofluid saturated with porous media
Numerical Heat Transfer …, 2024
[3] Influence on the Energy Conservation and Green Environment R152A Refrigeration with Various Nanorefrigerants
Nano, 2023
[4] CFD simulation of heat transfer performance of hybrid nanofluids in radiator
AIP Conference …, 2023
[5] Investigation on Heat Transfer Performance of Nanofluids
Recent Advances in Thermal Sciences and …, 2023
[6] Performance of Automobile Engine Radiator by Using Nanofluids on Variable Compression Diesel Engine
Recent Trends in Product …, 2023
[7] Design and development of automotive radiator for better cooling efficiency
Materials Today: Proceedings, 2022
[8] Experimental investigation on thermo hydraulic performance of ferronanofluid flow in a dimpled tube under magnetic field effect
Experimental heat …, 2022
[9] Assessment of a desiccant cooling system in a traditional and innovative nanofluid HVAC system
Journal of Physics …, 2022
[10] FARKLI DALGA TİPLERİNDE ALTERNATİF MANYETİK ALAN ETKİSİ ALTINDA DAİRESEL KESİTLİ KANAL İÇERİSİNDEKİ HİBRİT NANOAKIŞKANIN …
2021
[11] ПРИМЕНЕНИЕ НАНОЖИДКОСТЕЙ В КАЧЕСТВЕ ТЕПЛОНОСИТЕЛЯ В ОХЛАДИТЕЛЯХ ФУНКЦИОНАЛЬНЫХ АГРЕГАТАХ АВТОТРАКТОРНОЙ ТЕХНИКИ
НАУКА В ЦЕНТРАЛЬНОЙ РОССИИ, 2021
[12] Heat transfer performance of nanofluids in heat exchanger: a review
Journal of Thermal Engineering, 2021
[13] Heat transfer performance of water based nanofluids: A review
Materials Today: Proceedings, 2021
[14] Geometrical Analysis of the Thermal Conductivity of Nanofluids Using Different Models
2021
[15] Применение наножидкостей в качестве теплоносителя в охладителях функциональных агрегатов автотракторной техники
Электротехнологии и электрооборудование в АПК, 2021
[16] Nanofluid selection used for coolant in heat exchanger by multiple attribute decision-making method
2021
[17] Numerical Analysis of Heat Transfer Improvement in Flat Tube Car Radiator by Using TiO2/Water Nanofluids
2021
[18] FARKLI DALGA TİPLERİNDE ALTERNATİF MANYETİK ALAN ETKİSİ ALTINDA DAİRESEL KESİTLİ KANAL İÇERİSİNDEKİ HİBRİT NANOAKIŞKANIN AKIŞ VE ISI …
2021
[19] The Use of CuO Nanoparticles as Additive to the Engine Coolant
2020
[20] An updated review on application of nanofluids in flat tubes radiators for improving cooling performance
2020
[21] Numerical Analysis on Heat Transfer with Nanofluid in an Automotive Radiator
2020
[22] Further discussion on the significance of quartic autocatalysis on the dynamics of water conveying 47 nm alumina and 29 nm cupric nanoparticles
2020
[23] Experimental Analysis of Automobile Radiator using MWCNT-Water Nanofluid
2020
[24] Effect of nanofluids on heat transfer enhancement in automotive cooling circuits
2019
[25] Numerical analysis of performance of water‐based nanofluid flowing through tube bent at 90°
Heat Transfer - Asian Research, 2019
[26] Numerical study of a crossflow heat exchanger to investigate thermal performance using nanofluids
2019
[27] Numerical Investigation of the Effect of Twisted Tape in a Tube Using Water-TiO2 Nanofluid on Heat Transfer Enhancement
European Journal of Engineering and Natural Sciences, 2019
[28] Heat transfer augmentation in automobile radiator using Al2O3–water based nanofluid
2019
[29] Significance of quartic autocatalysis on fluid flows conveying nanoparticles, dust-particles and microstructures over an object with non-uniform thickness
… dissertation), Federal University of Technolog y …, 2019
[30] Heart transfer enhancement in automobile radiator using nanofluids: a review”
2018
[31] Review on contemporary trends in radiator design and testing of automobile radiators
International Journal of Mechanical …, 2018
[32] Analisis Pengaruh Campuran Nanofluid Dengan Cairan Pendingin Aquades Dan Radiator Coolant Terhadap Kinerja Radiator
2018
[33] Heat transfer enhancement in automobile radiator using nano fluids: A review
Int. J. Eng. Trends Technol, 2018
[34] Comparative CFD Analysis and Investigation of Automobile Radiator Using Nanofluids
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[35] DEVELOPMENT OF A HEAT PIPE AND GREY BASED TAGUCHI METHOD FOR MULTI-OUTPUT OPTIMIZATION TO IMPROVE THERMAL PERFORMANCE USING …
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[36] Study of Sedimentation Process in Nanofluids with Various Concentrations of SiO2 and Al2O3 Nanoparticles
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[37] REVIEW ON CONTEMP RADIATOR DESIGN AUTOMOBILE
International Journal of Mechanical Engineering and Technology, 2018
[38] Development of a heat pipe and grey based Taguchi method for multi-output optimization to improve thermal performance using hybrid nanofluids
2018
[39] Heat Transfer Enhancement in Automobile Radiator Using Nanofluids: A Review
International Journal of Engineering Trends and Technology (IJETT), 2018
[40] Investigations on convective heat transfer enhancement in circular tube radiator using Al2O3 and CuO nanofluids
2018
[41] Experimental investigation on heat transfer enhancement in a minichannel using CuO-water nanofluid
International Journal of Ambient Energy, 2018
[42] „Experimental analysis of Turning Process in CNC Lathe using Nano Fluid as a Coolant‟
2017
[43] On the Nanofluids Application in the Automotive Radiator to Reach the Enhanced Thermal Performance: A Review
2017
[44] Experimental and numerical study on heat transfer enhancement of flat tube radiator using Al2O3 and CuO nanofluids
Heat and Mass Transfer, 2017
[45] Numerical Investigation of performance for Car Radiator Oval Tube
Materials Today: Proceedings, 2017
[46] Thermo-hydraulic performance analyses of water based CuO-SiO2 hybrid nanofluid flow in a horizontal straight tube
2017
[47] Improving Performance in Engine Cooling System Using Nano fluids
International Research Journal of Engineering and Technology, 2017
[48] Analysis of Gasketed-plate Heat Exchanger Performance Using Nanofluid
2017
[49] Heat Transfer Enhancement with Nanofluids for Automotive Cooling
Engineering Applications of Nanotechnology, 2017
[50] Experimental analysis of Turning Process in CNC Lathe using Nano Fluid as a Coolant
International Journal of Advanced Research Methodology in Engineering & Technology, 2017
[51] Experimental Analysis on Thermophysical Properties of Al2O3/CuO Hybrid Nano Fluid with its Effects on Flat Plate Solar Collector
Defect and Diffusion Forum, 2017
[52] PERFORMANCE ANALYSIS OF MICROCHANNEL COUNTER FLOW HEAT EXCHANGER USING DIFFERENT NANOFLUIDS
2017
[53] A review on thermophysical properties of nanofluids and heat transfer applications
Renewable and Sustainable Energy Reviews, 2017
[54] A review of heat transfer enhancement using nano fluids with different base fluids
2017
[55] Otomobil radyatörlerinde nanoakışkan kullanımı
2017
[56] NUMERICAL SIMULATION AND ANALYSIS OF HEAT TRANSFER AND FLUID FLOW IN FORMULA STUDENT VEHICLE COOLING SYSTEM
2016
[57] SUMMARIZING NANOFLUID AS COOLING AGENT IN ENGINE
2016
[58] Heat Transfer Augmentation by using Metallic Nanoparticles at Different Concentrations in a Counter Flow Heat Exchanger
International Journal of Engineering and Management Research, 2016
[59] Heat Transfer Enhancement by Using Nanofluid Cuo and Water with Helical Coil
2016
[60] A Review of Automotive Radiator Performance
2016
[61] Nanofluids revisited
Applied Thermal Engineering, 2016
[62] Review on Improving the Cooling Performance of Automobile Radiator with CuO/Water Nanofluid
International Journal for Scientific Research & Development, 2015
[63] КРИТИЧЕСКИЙ ТЕПЛОВОЙ ПОТОК ПРИ КИПЕНИИ ВОДНОЙ ДИСПЕРСИИ НАНОЧАСТИЦ
2015
[64] Full-spectrum solar energy harvesting using nanotechnology-enabled photovoltaic/thermoelectric hybrid system
2015
[65] EFFECT OF NANOFLUIDS AND MASS FLOW RATE OF AIR ON HEAT TRANSFER RATE IN AUTOMOBILE RADIATOR BY CFD ANALYSIS
IJRET: International Journal of Research in Engineering and Technology, 2014
[66] Experimental Analysis of Heat Transfer From Car Radiator Using Nanofluids
IJMCA, 2014
[67] Measuring and ANFIS Modelling for Thermal Conductivity of Cu/Zn Bimetallic Nanofluids
Applied Mechanics and Materials, 2014
[68] Performance Evaluation of Nanofluids Application in Heat Exchangers
2014
[69] Effect of Nano fluids and mass flow rate of air on heat transfer rate in automobile radiator by CFD analysis
mental, 2014
[70] CFD Analysis of the Radial Blower Performance for Telecommunication System Cooling
[71] TOTAL VIEWS: 4653
[72] TOTAL VIEWS
[73] TOTAL VIEWS: 4708
[74] REVIEW ON RADIATO AUT
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