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AuthorRamachandran K.
AuthorKadirgama K.
AuthorRamasamy D.
AuthorAzmi W.H.
AuthorTarlochan F.
Available date2023-01-26T07:03:29Z
Publication Date2017
Publication NameApplied Thermal Engineering
ResourceScopus
URIhttp://dx.doi.org/10.1016/j.applthermaleng.2017.04.049
URIhttp://hdl.handle.net/10576/38903
AbstractCombined experimental-statistical approach for effective thermal conductivity and relative viscosity determination were investigated in this present study. Nanofluid used was dispersion of novel nanomaterial Cellulose Nanocrystal (CNC) in ethylene glycol-deionized water mixture at volume base ratio of 50:50 (BR = 0.5) and 60:40 (BR = 0.6). Influence of temperature, volume concentration and ethylene glycol volume base ratio (BR) is used to develop empirical mathematical model by using Response Surface Methodology (RSM) based on Central Composite Design (CCD) with aid of Minitab 17 statistical analysis software. The significance of the developed empirical mathematical model is validated by using Analysis of variance (ANOVA). Maximum effective thermal effectivity obtained is 1.127 and maximum relative viscosity is 4.521 which is recorded at 70 °C temperature, volume concentration of 0.9%, and BR of 0.5. Thus, effective thermal conductivity and relative viscosity has proportional relation with temperature and volume concentration which is supported by contour and surface plot from statistical software. Developed empirical model using RSM has good fit with the experimental data with maximum error of 0.77% for effective thermal conductivity and maximum error of 2.48% for relative viscosity.
Languageen
PublisherElsevier
SubjectEthylene glycol-water
Nanocellulose
Nanofluid
RSM
Thermal conductivity
Viscosity
TitleInvestigation on effective thermal conductivity and relative viscosity of cellulose nanocrystal as a nanofluidic thermal transport through a combined experimental - Statistical approach by using Response Surface Methodology
TypeArticle
Pagination473-483
Volume Number122
dc.accessType Abstract Only


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