Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation

Mohammad  Hemmat esfe; Somchai Wongwises; Ali Naderi; Amin Asadi; Mohammad Reza Safaei; Hadi Rostamian; Mahidzal Dahari; Arash Karimipour

Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation

Mohammad Hemmat esfe, Somchai Wongwises, Ali Naderi, Amin Asadi, Mohammad Reza Safaei, Hadi Rostamian, Mahidzal Dahari, Arash Karimipour

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

345 Citationer (Scopus)

Abstract

In the present paper, the thermal conductivity of hybrid nanofluids is experimentally investigated. The studied nanofluid was produced using a two-step method by dispersing Cu and TiO2 nanoparticles with average diameter of 70 and 40 nm in a binary mixture of water/EG (60:40). The properties of this nanofluid were measured in various solid concentrations (0.1, 0.2, 0.4, 0.8, 1, 1.5, and 2%) and temperatures ranging from 30 to 60 °C. Next, two new correlations for predicting the thermal conductivity of studied hybrid nanofluids, in terms of solid concentration and temperature, are proposed that use an artificial neural network (ANN) and are based on experimental data. The results indicate that these two new models have great ability to predict thermal conductivity and show excellent agreement with the experimental results.

Originalsprog	Engelsk
Tidsskrift	International Communications in Heat and Mass Transfer
Vol/bind	66
Sider (fra-til)	100-104
Antal sider	5
ISSN	0735-1933
Status	Udgivet - aug. 2015
Udgivet eksternt	Ja

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Hemmat esfe, M., Wongwises, S., Naderi, A., Asadi, A., Safaei, M. R., Rostamian, H., Dahari, M., & Karimipour, A. (2015). Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation. International Communications in Heat and Mass Transfer, 66, 100-104. http://www.sciencedirect.com/science/article/pii/S0735193315000925

@article{2cd43e37a4c34a17a889b6869bf8722c,

title = "Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation",

abstract = "In the present paper, the thermal conductivity of hybrid nanofluids is experimentally investigated. The studied nanofluid was produced using a two-step method by dispersing Cu and TiO2 nanoparticles with average diameter of 70 and 40 nm in a binary mixture of water/EG (60:40). The properties of this nanofluid were measured in various solid concentrations (0.1, 0.2, 0.4, 0.8, 1, 1.5, and 2%) and temperatures ranging from 30 to 60 °C. Next, two new correlations for predicting the thermal conductivity of studied hybrid nanofluids, in terms of solid concentration and temperature, are proposed that use an artificial neural network (ANN) and are based on experimental data. The results indicate that these two new models have great ability to predict thermal conductivity and show excellent agreement with the experimental results.",

keywords = "Thermal conductivity, Artificial neural network, Experimental data, Correlation",

author = "{Hemmat esfe}, Mohammad and Somchai Wongwises and Ali Naderi and Amin Asadi and Safaei, {Mohammad Reza} and Hadi Rostamian and Mahidzal Dahari and Arash Karimipour",

year = "2015",

month = aug,

language = "English",

volume = "66",

pages = "100--104",

journal = "International Communications in Heat and Mass Transfer",

issn = "0735-1933",

publisher = "Pergamon Press",

}

Hemmat esfe, M, Wongwises, S, Naderi, A, Asadi, A, Safaei, MR, Rostamian, H, Dahari, M & Karimipour, A 2015, 'Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation', International Communications in Heat and Mass Transfer, bind 66, s. 100-104. <http://www.sciencedirect.com/science/article/pii/S0735193315000925>

Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation. / Hemmat esfe, Mohammad ; Wongwises, Somchai; Naderi, Ali et al.
I: International Communications in Heat and Mass Transfer, Bind 66, 08.2015, s. 100-104.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

TY - JOUR

T1 - Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation

AU - Hemmat esfe, Mohammad

AU - Wongwises, Somchai

AU - Naderi, Ali

AU - Asadi, Amin

AU - Safaei, Mohammad Reza

AU - Rostamian, Hadi

AU - Dahari, Mahidzal

AU - Karimipour, Arash

PY - 2015/8

Y1 - 2015/8

N2 - In the present paper, the thermal conductivity of hybrid nanofluids is experimentally investigated. The studied nanofluid was produced using a two-step method by dispersing Cu and TiO2 nanoparticles with average diameter of 70 and 40 nm in a binary mixture of water/EG (60:40). The properties of this nanofluid were measured in various solid concentrations (0.1, 0.2, 0.4, 0.8, 1, 1.5, and 2%) and temperatures ranging from 30 to 60 °C. Next, two new correlations for predicting the thermal conductivity of studied hybrid nanofluids, in terms of solid concentration and temperature, are proposed that use an artificial neural network (ANN) and are based on experimental data. The results indicate that these two new models have great ability to predict thermal conductivity and show excellent agreement with the experimental results.

AB - In the present paper, the thermal conductivity of hybrid nanofluids is experimentally investigated. The studied nanofluid was produced using a two-step method by dispersing Cu and TiO2 nanoparticles with average diameter of 70 and 40 nm in a binary mixture of water/EG (60:40). The properties of this nanofluid were measured in various solid concentrations (0.1, 0.2, 0.4, 0.8, 1, 1.5, and 2%) and temperatures ranging from 30 to 60 °C. Next, two new correlations for predicting the thermal conductivity of studied hybrid nanofluids, in terms of solid concentration and temperature, are proposed that use an artificial neural network (ANN) and are based on experimental data. The results indicate that these two new models have great ability to predict thermal conductivity and show excellent agreement with the experimental results.

KW - Thermal conductivity

KW - Artificial neural network

KW - Experimental data

KW - Correlation

M3 - Journal article

SN - 0735-1933

VL - 66

SP - 100

EP - 104

JO - International Communications in Heat and Mass Transfer

JF - International Communications in Heat and Mass Transfer

ER -

Thermal conductivity of Cu/TiO2–water/EG hybrid nanofluid: Experimental data and modeling using artificial neural network and correlation

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