Cover Image

Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk

This study examines the impact of viscous dissipation past a fluctuating disk on the three-dimensional unsteady incompressible viscous flow of water-based nanofluids. The problem?s mathematical modeling entails the formulation of continuity, momentum, and energy equations?three fundamental nonlinear...

Full description

Saved in:
Bibliographic Details
Main Authors: Rehman A., Raghunatha K.R., Inc M., Jan R.
Other Authors: 57210205189
Format: Article
Published: Springer 2025
Subjects:
Graphene
Heat transfer
Nanofluidics
Nonlinear equations
Ordinary differential equations
Viscous flow
ethylene glycol
gadolinium
graphene
graphene oxide
nanofluid
nanomaterial
water
Analysis method
Analytical investigations
Coupled equation
Fluctuating disk
Governing equations
Graphene oxides
Homotopy analyse method
Homotopy analysis
Nanofluids
Viscous dissipation
analytic method
Article
commercial phenomena
controlled study
drug analysis
mathematical parameters
mathematical phenomena
nonhuman
particle size
pharmaceutics
temperature
velocity
Ethylene
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uniten.dspace-36532
record_format dspace
spelling my.uniten.dspace-365322025-03-03T15:42:55Z Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk Rehman A. Raghunatha K.R. Inc M. Jan R. 57210205189 57196003367 56051853500 57205596279 Graphene Heat transfer Nanofluidics Nonlinear equations Ordinary differential equations Viscous flow ethylene glycol gadolinium graphene graphene oxide nanofluid nanomaterial water Analysis method Analytical investigations Coupled equation Fluctuating disk Governing equations Graphene oxides Homotopy analyse method Homotopy analysis Nanofluids Viscous dissipation analytic method Article commercial phenomena controlled study drug analysis mathematical parameters mathematical phenomena nonhuman particle size pharmaceutics temperature velocity Ethylene This study examines the impact of viscous dissipation past a fluctuating disk on the three-dimensional unsteady incompressible viscous flow of water-based nanofluids. The problem?s mathematical modeling entails the formulation of continuity, momentum, and energy equations?three fundamental nonlinear governing equations. The proper transformations were conducted in order to convert a collection of partial differential equations (PDEs) to nonlinear ordinary differential equations (NODEs). The obtained governing equations are then solved analytically using the homotopy analysis method (HAM). The study looks into the effects of many factors. To illustrate the influence of these characteristics, the study displays temperature filed and velocity filed as graphical representations. It is anticipated that this work will progress the field of condensed nanostructure and nanomaterials, providing new directions for future investigation in applications pertaining to heat transfer enhancement. ? The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024. Final 2025-03-03T07:42:55Z 2025-03-03T07:42:55Z 2024 Article 10.1007/s12668-024-01350-y 2-s2.0-85190660978 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85190660978&doi=10.1007%2fs12668-024-01350-y&partnerID=40&md5=c4b28fbc083326908839f2ff5531bbdf https://irepository.uniten.edu.my/handle/123456789/36532 14 2 1171 1180 Springer Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Graphene
Heat transfer
Nanofluidics
Nonlinear equations
Ordinary differential equations
Viscous flow
ethylene glycol
gadolinium
graphene
graphene oxide
nanofluid
nanomaterial
water
Analysis method
Analytical investigations
Coupled equation
Fluctuating disk
Governing equations
Graphene oxides
Homotopy analyse method
Homotopy analysis
Nanofluids
Viscous dissipation
analytic method
Article
commercial phenomena
controlled study
drug analysis
mathematical parameters
mathematical phenomena
nonhuman
particle size
pharmaceutics
temperature
velocity
Ethylene
spellingShingle Graphene
Heat transfer
Nanofluidics
Nonlinear equations
Ordinary differential equations
Viscous flow
ethylene glycol
gadolinium
graphene
graphene oxide
nanofluid
nanomaterial
water
Analysis method
Analytical investigations
Coupled equation
Fluctuating disk
Governing equations
Graphene oxides
Homotopy analyse method
Homotopy analysis
Nanofluids
Viscous dissipation
analytic method
Article
commercial phenomena
controlled study
drug analysis
mathematical parameters
mathematical phenomena
nonhuman
particle size
pharmaceutics
temperature
velocity
Ethylene
Rehman A.
Raghunatha K.R.
Inc M.
Jan R.
Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk
description This study examines the impact of viscous dissipation past a fluctuating disk on the three-dimensional unsteady incompressible viscous flow of water-based nanofluids. The problem?s mathematical modeling entails the formulation of continuity, momentum, and energy equations?three fundamental nonlinear governing equations. The proper transformations were conducted in order to convert a collection of partial differential equations (PDEs) to nonlinear ordinary differential equations (NODEs). The obtained governing equations are then solved analytically using the homotopy analysis method (HAM). The study looks into the effects of many factors. To illustrate the influence of these characteristics, the study displays temperature filed and velocity filed as graphical representations. It is anticipated that this work will progress the field of condensed nanostructure and nanomaterials, providing new directions for future investigation in applications pertaining to heat transfer enhancement. ? The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024.
author2 57210205189
author_facet 57210205189
Rehman A.
Raghunatha K.R.
Inc M.
Jan R.
format Article
author Rehman A.
Raghunatha K.R.
Inc M.
Jan R.
author_sort Rehman A.
title Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk
title_short Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk
title_full Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk
title_fullStr Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk
title_full_unstemmed Analytical Investigation of Graphene Oxide-Ethylene Glycoland Graphene Oxide?Water, Nanofluid Flow with the Influence of Viscous Dissipation Over Fluctuating Disk
title_sort analytical investigation of graphene oxide-ethylene glycoland graphene oxide?water, nanofluid flow with the influence of viscous dissipation over fluctuating disk
publisher Springer
publishDate 2025
_version_ 1825816275891257344
score 13.244413

Similar Items