Application of Control Volume Based Finite Element Method CVFEM for Nanofluid Flow and Heat Transfer

Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer discusses this powerful numerical method that uses the advantages of both finite volume and finite element methods for the simulation of multi-physics problems in complex geometries, along with its applications in heat transfer and nanofluid flow. The book applies these methods to solve various applications of nanofluid in heat transfer enhancement. Topics covered include magnetohydrodynamic flow, electrohydrodynamic flow and heat transfer, melting heat transfer, and nanofluid flow in porous media, all of which are demonstrated with case studies. This is an important research reference that will help readers understand the principles and applications of this novel method for the analysis of nanofluid behavior in a range of external forces. Explains governing equations for nanofluid as working fluid Includes several CVFEM codes for use in nanofluid flow analysis Shows how external forces such as electric fields and magnetic field effects nanofluid flow

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  • Author : Mohsen Sheikholeslami
  • Publisher : Elsevier
  • Pages : 780 pages
  • ISBN : 0128141530
  • Rating : 4/5 from 21 reviews
CLICK HERE TO GET THIS BOOKApplication of Control Volume Based Finite Element Method CVFEM for Nanofluid Flow and Heat Transfer

Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer

Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer
  • Author : Mohsen Sheikholeslami
  • Publisher : Elsevier
  • Release : 14 September 2018
GET THIS BOOKApplication of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer

Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer discusses this powerful numerical method that uses the advantages of both finite volume and finite element methods for the simulation of multi-physics problems in complex geometries, along with its applications in heat transfer and nanofluid flow. The book applies these methods to solve various applications of nanofluid in heat transfer enhancement. Topics covered include magnetohydrodynamic flow, electrohydrodynamic flow and heat transfer, melting heat transfer, and

Applications of Nanofluid Transportation and Heat Transfer Simulation

Applications of Nanofluid Transportation and Heat Transfer Simulation
  • Author : Sheikholeslami, Mohsen
  • Publisher : IGI Global
  • Release : 28 December 2018
GET THIS BOOKApplications of Nanofluid Transportation and Heat Transfer Simulation

Different numerical and analytical methods have been employed to find the solution of governing equations for nanofluid flow and heat transfer. Applications of Nanofluid Transportation and Heat Transfer Simulation provides emerging research exploring the theoretical and practical aspects and applications of heat and nanofluid transfer. With practical examples and proposed methodology, it features coverage on a broad range of topics such as nanoparticles, electric fields, and hydrothermal behavior, making it an ideal reference source for engineers, researchers, graduate students, professionals,

Hydrothermal Analysis in Engineering Using Control Volume Finite Element Method

Hydrothermal Analysis in Engineering Using Control Volume Finite Element Method
  • Author : Mohsen Sheikholeslami,Davood Domairry Ganji
  • Publisher : Academic Press
  • Release : 27 February 2015
GET THIS BOOKHydrothermal Analysis in Engineering Using Control Volume Finite Element Method

Control volume finite element methods (CVFEM) bridge the gap between finite difference and finite element methods, using the advantages of both methods for simulation of multi-physics problems in complex geometries. In Hydrothermal Analysis in Engineering Using Control Volume Finite Element Method, CVFEM is covered in detail and applied to key areas of thermal engineering. Examples, exercises, and extensive references are used to show the use of the technique to model key engineering problems such as heat transfer in nanofluids (to

Nanofluid Flow in Porous Media

Nanofluid Flow in Porous Media
  • Author : Mohsen Sheikholeslami Kandelousi,Sadia Ameen,M. Shaheer Akhtar,Hyung-Shik Shin
  • Publisher : BoD – Books on Demand
  • Release : 19 August 2020
GET THIS BOOKNanofluid Flow in Porous Media

Studies of fluid flow and heat transfer in a porous medium have been the subject of continuous interest for the past several decades because of the wide range of applications, such as geothermal systems, drying technologies, production of thermal isolators, control of pollutant spread in groundwater, insulation of buildings, solar power collectors, design of nuclear reactors, and compact heat exchangers, etc. There are several models for simulating porous media such as the Darcy model, Non-Darcy model, and non-equilibrium model. In

Thermal Energy Battery with Nano-enhanced PCM

Thermal Energy Battery with Nano-enhanced PCM
  • Author : Mohsen Sheikholeslami Kandelousi
  • Publisher : BoD – Books on Demand
  • Release : 11 September 2019
GET THIS BOOKThermal Energy Battery with Nano-enhanced PCM

The consumption of any kind of energy has a significant role in protecting energy in the economic development of any country. Today, request in the sector has led to beautiful and large buildings around the world. It is noteworthy that buildings will spend about 30% of the worldwide energy produced. An energy storage system should have certain features that include proper energy storage material with a specific melting temperature at the optimum range, decent heat transfer well, and a pleasant enclosure

Applications of Nanofluid for Heat Transfer Enhancement

Applications of Nanofluid for Heat Transfer Enhancement
  • Author : Mohsen Sheikholeslami,Davood Domairry Ganji
  • Publisher : William Andrew
  • Release : 26 February 2017
GET THIS BOOKApplications of Nanofluid for Heat Transfer Enhancement

Applications of Nanofluid for Heat Transfer Enhancement explores recent progress in computational fluid dynamic and nonlinear science and its applications to nanofluid flow and heat transfer. The opening chapters explain governing equations and then move on to discussions of free and forced convection heat transfers of nanofluids. Next, the effect of nanofluid in the presence of an electric field, magnetic field, and thermal radiation are investigated, with final sections devoted to nanofluid flow in porous media and application of nanofluid

External Magnetic Field Effects on Hydrothermal Treatment of Nanofluid

External Magnetic Field Effects on Hydrothermal Treatment of Nanofluid
  • Author : Mohsen Sheikholeslami,Davood Domairry Ganji
  • Publisher : William Andrew
  • Release : 08 March 2016
GET THIS BOOKExternal Magnetic Field Effects on Hydrothermal Treatment of Nanofluid

This book seeks to comprehensively cover recent progress in computational fluid dynamics and nonlinear science and its applications to MHD and FHD nanofluid flow and heat transfer. The book will be a valuable reference source to researchers in various fields, including materials science, nanotechnology, mathematics, physics, information science, engineering and medicine, seeing to understand the impact of external magnetic fields on the hydrothermal behavior of nanofluids in order to solve a wide variety of theoretical and practical problems. Readers will

Microfluidics and Nanofluidics

Microfluidics and Nanofluidics
  • Author : Mohsen Sheikholeslami Kandelousi
  • Publisher : BoD – Books on Demand
  • Release : 22 August 2018
GET THIS BOOKMicrofluidics and Nanofluidics

In the present book, various applications of microfluidics and nanofluidics are introduced. Microfluidics and nanofluidics span a broad array of disciplines including mechanical, materials, and electrical engineering, surface science, chemistry, physics and biology. Also, this book deals with transport and interactions of colloidal particles and biomolecules in microchannels, which have great importance to many microfluidic applications, such as drug delivery in life science, microchannel heat exchangers in electronic cooling, and food processing industry. Furthermore, this book focuses on a detailed

Applications of Semi-Analytical Methods for Nanofluid Flow and Heat Transfer

Applications of Semi-Analytical Methods for Nanofluid Flow and Heat Transfer
  • Author : Mohsen Sheikholeslami,Davood Domairry Ganji
  • Publisher : Elsevier
  • Release : 02 January 2018
GET THIS BOOKApplications of Semi-Analytical Methods for Nanofluid Flow and Heat Transfer

Application of Semi-Analytical Methods for Nanofluid Flow and Heat Transfer applies semi-analytical methods to solve a range of engineering problems. After various methods are introduced, their application in nanofluid flow and heat transfer, magnetohydrodynamic flow, electrohydrodynamic flow and heat transfer, and nanofluid flow in porous media within several examples are explored. This is a valuable reference resource for materials scientists and engineers that will help familiarize them with a wide range of semi-analytical methods and how they are used in

Nanofluid Heat and Mass Transfer in Engineering Problems

Nanofluid Heat and Mass Transfer in Engineering Problems
  • Author : Mohsen Sheikholeslami Kandelousi
  • Publisher : BoD – Books on Demand
  • Release : 15 March 2017
GET THIS BOOKNanofluid Heat and Mass Transfer in Engineering Problems

In the present book, nanofluid heat and mass transfer in engineering problems are investigated. The use of additives in the base fluid like water or ethylene glycol is one of the techniques applied to augment heat transfer. Newly, innovative nanometer-sized particles have been dispersed in the base fluid in heat transfer fluids. The fluids containing the solid nanometer-sized particle dispersion are called "nanofluids." At first, nanofluid heat and mass transfer over a stretching sheet are provided with various boundary conditions.

Preparation, Characterization, Properties, and Application of Nanofluid

Preparation, Characterization, Properties, and Application of Nanofluid
  • Author : I. M. Mahbubul
  • Publisher : William Andrew
  • Release : 20 September 2018
GET THIS BOOKPreparation, Characterization, Properties, and Application of Nanofluid

Preparation, Characterization, Properties and Application of Nanofluid begins with an introduction of colloidal systems and their relation to nanofluid. Special emphasis on the preparation of stable nanofluid and the impact of ultrasonication power on nanofluid preparation is also included, as are characterization and stability measurement techniques. Other topics of note in the book include the thermophysical properties of nanofluids as thermal conductivity, viscosity, and density and specific heat, including the figure of merit of properties. In addition, different parameters, like

Nanoparticle Heat Transfer and Fluid Flow

Nanoparticle Heat Transfer and Fluid Flow
  • Author : W. J. Minkowycz,E M Sparrow,J. P. Abraham
  • Publisher : CRC Press
  • Release : 19 April 2016
GET THIS BOOKNanoparticle Heat Transfer and Fluid Flow

Featuring contributions by leading researchers in the field, Nanoparticle Heat Transfer and Fluid Flow explores heat transfer and fluid flow processes in nanomaterials and nanofluids, which are becoming increasingly important across the engineering disciplines. The book covers a wide range, from biomedical and energy conversion applications to materials properties, and addresses aspects that are essential for further progress in the field, including numerical quantification, modeling, simulation, and presentation. Topics include: A broad review of nanofluid applications, including industrial heat transfer,

Heat Transfer Enhancement with Nanofluids

Heat Transfer Enhancement with Nanofluids
  • Author : Vincenzo Bianco,Oronzio Manca,Sergio Nardini,Kambiz Vafai
  • Publisher : CRC Press
  • Release : 01 April 2015
GET THIS BOOKHeat Transfer Enhancement with Nanofluids

Nanofluids are gaining the attention of scientists and researchers around the world. This new category of heat transfer medium improves the thermal conductivity of fluid by suspending small solid particles within it and offers the possibility of increased heat transfer in a variety of applications. Bringing together expert contributions from across the globe, Heat Transfer Enhancement with Nanofluids presents a complete understanding of the application of nanofluids in a range of fields and explains the main techniques used in the

Numerical Optimization in Engineering and Sciences

Numerical Optimization in Engineering and Sciences
  • Author : Debashis Dutta,Biswajit Mahanty
  • Publisher : Springer Nature
  • Release : 07 April 2020
GET THIS BOOKNumerical Optimization in Engineering and Sciences

This book presents select peer-reviewed papers presented at the International Conference on Numerical Optimization in Engineering and Sciences (NOIEAS) 2019. The book covers a wide variety of numerical optimization techniques across all major engineering disciplines like mechanical, manufacturing, civil, electrical, chemical, computer, and electronics engineering. The major focus is on innovative ideas, current methods and latest results involving advanced optimization techniques. The contents provide a good balance between numerical models and analytical results obtained for different engineering problems and challenges. This

Electric Field

Electric Field
  • Author : Mohsen Sheikholeslami Kandelousi
  • Publisher : BoD – Books on Demand
  • Release : 23 May 2018
GET THIS BOOKElectric Field

In the present book, various applications of electric field are introduced in health and biology like treating cancer and cell sorting and in engineering and technological applications like enhancing the heat transfer, colloidal hydrodynamics and stability, and lithography. Electric field is defined as a force field arising from the electric charges. Depending on the nature of the material (the ability to polarize) and the inherent or attained surface charges, the response of the electric field varies.