Isobaric Specific Heat Capacity for Al2O3/ Water Ethylene Glycol Mixture Nanofluid

Abstract Specific heat is a vital characteristic of nanofluids. The present work is an experimental assessment for the isobaric specific heat measurements for the Al2O3 nanoparticle dispersed in a base fluid of different mixture ratio of ethylene glycol and water at 30, 40, 50, and 60 vol%. The experiments were conducted over temperature range from 35 to 105 °C with nanoparticle concentrations of 0.5 to 2.5 vol%. The results indicated that the specific heat of nanofluid decreases as the nanoparticle volume increases and EG ratio increases but increases as the temperature increases. This characteristic demonstrates that the use of nanofluids should be at as high temperature as possible to fulfill a good beneficial effect. A new correlation from the measurements with maximum deviation of 2.2% was found to estimate the specific heat for these nanofluids.

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An approach to predict the isobaric specific heat capacity of nitrides/ethylene glycol-based nanofluids using support vector regression

Journal of Energy Storage ◽

10.1016/j.est.2020.101313 ◽

2020 ◽

Vol 29 ◽

pp. 101313 ◽

Cited By ~ 4

Author(s):

Ibrahim Olanrewaju Alade ◽

Mohd Amiruddin Abd Rahman ◽

Tawfik A. Saleh

Keyword(s):

Heat Capacity ◽

Ethylene Glycol ◽

Specific Heat ◽

Support Vector Regression ◽

Specific Heat Capacity ◽

Support Vector ◽

Isobaric Specific Heat

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Studies on thermo physical property variations of graphene nanoparticle suspended ethylene glycol/water

Chemical Industry and Chemical Engineering Quarterly ◽

10.2298/ciceq200504036p ◽

2020 ◽

pp. 36-36

Author(s):

Manikandan Periasamy ◽

Rajoo Baskar

Keyword(s):

Thermal Conductivity ◽

Heat Capacity ◽

Ethylene Glycol ◽

Physical Properties ◽

Specific Heat ◽

Specific Heat Capacity ◽

Base Fluid ◽

Physical Property ◽

Inlet Temperature ◽

Thermo Physical Properties

The objective of the study is to determine the thermo physical property variations (such as viscosity, density, specific heat capacity and thermal conductivity) of graphene suspended base fluid (Ethylene Glycol (EG) /Water (W)), with respect to graphene nanoparticle concentration and hot fluid inlet temperature. Graphene nanoparticle concentrations (0.2, 0.4, 0.6, 0.8 and 1 volume %) and the base fluid of 30:70 volume % of EG: Water is prepared initially. The impact of graphene nano particle addition on base fluids based on experimentation in the commercial plate heat exchanger was studied. In this experiment, the hot fluid inlet temperature was varied at 55? C, 65? C and 75? C. The experimental results of thermo physical properties were compared with the selected models proposed in the literature. Einstein (1956); Kitano (1981); and Bachelor models (1977) have been used to consider the effect of viscosity. The measured density and Specific heat capacity was validated with Pak and Cho and Xuan model respectively. To consider the effect of thermal conductivity, three different models (Maxwell, 1954; Vajjah, 2010; and Sahoo, 2012) have been used. Study revealed that the thermo physical properties of base fluid significantly affects with the graphene nanoparticle suspension.

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