Cover Image

Intensification in heat transfer due to hybrid nanoparticles embedded in sodium alginate

In this study, we have addressed the flow of hybrid nanofluid (Cuâ��Al2O3-Sodium Alginate), nanofluid (Cu-Sodium Alginate), and nanofluid (Al2O3-Sodium Alginate). Flow is because of the heated boundary of the channel and its different movements. The flow is modelled using Casson fluid's momentu...

Full description

Saved in:

Bibliographic Details
Main Authors:	Sheikh, N.A., Ching, D.L.C., Khan, I., Sakidin, H.
Format:	Article
Published:	Elsevier Ltd 2021
Online Access:	https://www.scopus.com/inward/record.uri?eid=2-s2.0-85114999987&doi=10.1016%2fj.csite.2021.101440&partnerID=40&md5=4ea823d1719d2832978c4b861812e097 http://eprints.utp.edu.my/29660/
Tags:	Add Tag No Tags, Be the first to tag this record!

Similar Items

Intensification in heat transfer due to hybrid nanoparticles embedded in sodium alginate
by: Sheikh, Nadeem Ahmad, et al.
Published: (2021)

$Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives$

Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives
by: Sheikh, N.A., et al.
Published: (2022)

$Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives$

Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives
by: Sheikh, Nadeem Ahmad, et al.
Published: (2022)

$Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives$

Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives
by: Sheikh, Nadeem Ahmad, et al.
Published: (2022)

$Author Correction: Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives$

Author Correction: Enhancement in heat transfer due to hybrid nanoparticles in MHD flow of Brinkman-type fluids using Caputo fractional derivatives
by: Sheikh, Nadeem Ahmad, et al.
Published: (2022)

Fractional Model for the Flow of Casson Nanofluid using the Generalized Fourierâ��s Law for Heat Transfer
by: Sheikh, N.A., et al.
Published: (2021)

Fractional Model for the Flow of Brinkman-Type Fluid with Mass Transfer
by: Sheikh, N.A., et al.
Published: (2022)

Synthesis and characterization of silver nanoparticles mediated in glutathione and sodium alginate
by: Keshan Balavandy, Sepideh
Published: (2014)

Magnetohydrodynamics squeeze flow of sodium alginate-based jeffrey hybrid nanofluid with heat sink or source
by: Mat Noor, Nur Azlina, et al.
Published: (2023)

Rapid and green synthesis of silver nanoparticles via sodium alginate media
by: Balavandy, Sepideh Keshan, et al.
Published: (2015)

Rapid and green synthesis of silver nanoparticles via sodium alginate media
by: Balavandy, Sepideh Keshan, et al.
Published: (2015)

$A new model of fractional Casson fluid based on generalized Fick's and Fourier's laws together with heat and mass transfer$

A new model of fractional Casson fluid based on generalized Fick's and Fourier's laws together with heat and mass transfer
by: Sheikh, N.A., et al.
Published: (2020)

$A new model of fractional Casson fluid based on generalized Fick's and Fourier's laws together with heat and mass transfer$

A new model of fractional Casson fluid based on generalized Fick's and Fourier's laws together with heat and mass transfer
by: Sheikh, N.A., et al.
Published: (2020)

Process Intensification Strategies for the Synthesis of Superparamagnetic Nanoparticles and Fabrication of Nano-Hybrid
by: Suk, Fun Chin, et al.
Published: (2008)

Simulation and modeling of synthesis Cu nanoparticles in sodium alginate media by means of expert systems
by: Shabanzadeh, P., et al.
Published: (2016)

Ultrasound-assisted in the synthesis of silver nanoparticles using sodium alginate mediated by green method
by: Faried, M., et al.
Published: (2016)

Simulation and modeling of synthesis Cu nanoparticles in sodium alginate media by means of expert systems
by: Shabanzadeh, Parvaneh, et al.
Published: (2016)

Preparation and characterization of core-shell copper nanoparticles stabilized by kappa carragenan and sodium alginate
by: Khanehzaei, Hajar
Published: (2015)

Green synthesis of sodium alginate mediated fluorapatite nanoparticle via sol-gel method
by: Kia, Pooneh, et al.
Published: (2021)

Effect of sintering on hydroxyapatite/sodium alginate properties
by: Kanasan, Nanthini, et al.
Published: (2018)

Formulation, characterization and biological activity screening of sodium alginate-gum Arabic nanoparticles loaded with curcumin
by: Hassani, Abdelkader, et al.
Published: (2020)

Facile electrosynthesis of Fe3O4 nanoparticles mediated with sodium alginate for paracetamol degradation
by: Masudi, Ahmad, et al.
Published: (2020)

Formulation, characterization and biological activity screening of sodium alginate-gum Arabic nanoparticles loaded with curcumin
by: Hassani, Abdelkader, et al.
Published: (2020)

Formulation, characterization and biological activity screening of sodium alginate-gum arabic nanoparticles loaded with curcumin
by: Hassani, Abdelkader, et al.
Published: (2020)

Heat transfer flow of Maxwell hybrid nanofluids due to pressure gradient into rectangular region
by: Chu, Yu Ming, et al.
Published: (2020)

Photocatalyst treatment for lead(II) using titanium oxide nanoparticles embedded in PVA-alginate beads
by: Idris, A., et al.
Published: (2016)

Amylase immobilization on calcined-kaolin and sodium alginate beads
by: Nor Sa'adah, Mohamed
Published: (2009)

Fractional Model for the Flow of Casson Nanofluid using the Generalized Fourierâ��s Law for Heat Transfer
by: Sheikh, Nadeem Ahmad, et al.
Published: (2022)

Fractional Model for the Flow of Casson Nanofluid using the Generalized Fourierâ��s Law for Heat Transfer
by: Sheikh, Nadeem Ahmad, et al.
Published: (2022)

Heat Transfer Enhancement Using Hybrid Nanoparticles in Ethylene Glycol Through a Horizontal Heated Tube
by: Adnan Mohammed, Hussein, et al.
Published: (2017)

Shape effect in magnetohydrodynamic free convection flow of sodium alginate-ferrimagnetic nanofluid
by: Muhammad Saqib, Muhammad Saqib, et al.
Published: (2019)

Heat transfer in ferrofluid with cylindrical shape nanoparticles past a vertical plate with ramped wall temperature embedded in a porous medium
by: Khalid, A., et al.
Published: (2016)

Fractional model for MHD flow of Casson fluid with cadmium telluride nanoparticles using the generalized Fourierâ��s law
by: Sheikh, N.A., et al.
Published: (2021)

Synthesis, Characterisation And Evaluation Of Biocompatible Disulphide Cross-Linked Sodium Alginate Derivative Nanoparticles For Colon Targeted Drug Delivery
by: Ayub, Asila Dinie
Published: (2018)

Sodium alginate-f-GO composite hydrogels for tissue regeneration and antitumor applications
by: Aslam Khan, Muhammad Umar, et al.
Published: (2022)

Combined maghemite - titania nanoparticles embedded in polyvinyl alcohol-alginate beads for heavy metals and radioactive ions removal
by: Majidnia, Zohreh
Published: (2015)

Grafting of polyacrylonitrile onto sodium alginate using benzoyl peroxide as initiator
by: Salisu, Ahmed, et al.
Published: (2014)

Synthesis and characterisation of biodegradable superabsorbent polymer derived from sodium alginate
by: Phang, Ying Ning
Published: (2011)

Potential of sodium alginate/titanium oxide biomembrane nanocomposite in DMFC application
by: Shaari, N., et al.
Published: (2020)

Effect of Sodium Alginate on the properties of calcium phosphate for bone implant application
by: Sharifah Adzila, et al.
Published: (2020)