Heat Transfer Enhancement in Thermal Radiative Flow of Ternary or Hybrid Nanofluids

— —

K Bhagya Swetha Latha

Heat Transfer Enhancement in Thermal Radiative Flow of Ternary or Hybrid Nanofluids

K Bhagya Swetha Latha

$73.95 $63.06

Paperback

Not in-store but you can order this
How long will it take?

Availability Information

We source books from suppliers in Australia and overseas. For books we don't currently have in stock, the time it takes to get them from our suppliers can vary widely - from a few days to a few months - so we check each book with each supplier to determine the expected time it will take to be supplied to us.

We then advise you accordingly. If the time taken to get any book is too long for you, you can let us know and we will cancel or adjust your order, and refund as required.

To find out the anticipated arrival time for specific items prior to ordering, please contact us by phone or email:

Phone +61 2 9264 3111, or 1800 4 BOOKS (1800 4 26657) if outside Sydney:
option 1 Abbey's Bookshop (Crime, History, Science, Kids & more) • info@abbeys.com.au
option 2 Language Book Centre (ESL & Foreign Languages) • language@abbeys.com.au
option 3 Galaxy Bookshop (Sci-fi, Fantasy, Romance, Graphic Novels) • sf@galaxybooks.com.au

QTY:

English

Mohd Abdul Hafi
23 February 2024

Science: general issues; Technology: general issues; Computing: general

Summary
Details

The fluid motion past a stretching cylinder has significant applications in the industrial manufacturing processes such as synthetic filaments, rubber, glass, fiberglass production, fabrication of papers, annealing and tinning of copper cords. On the other hand, many physical and manufacture coating processes have the boundaries in cylindrical configuration. Due to this, the influence of heat transfer past a cylindrical extended surfaces are critical in many mechanisms such as fiber spinning, hot rolling, and wire drawing. In view of this, many scientists worked on the fluid flow along a stretching cylinder. For instance, Wang [1] studied the viscous fluid flow through a stretching cylinder, and provided the exact similarity solutions. Batool et al. [2] used homotopy analysis technique (HAT) to explain the transport of viscous fluid over a stretching cylinder. Mukhopadhyay and Ishak [3] analysed the axisymmetric convective flow of Newtonian fluid towards the stretching cylinder using well-known shooting technique. Fang et al. [4] discussed the motion of unsteady viscous fluid towards a stretching cylinder using a numerical scheme. Munawar et al. [5] have investigated the unsteady boundary layer laminar motion of Newtonian fluid through analytically. Ali et al. [6] have presented the numerical analysis for the viscous flow towards a porous cylinder with variable radius. Abbasi et al. [7] studied the stagnation point propulsion of viscoelastic liquid using finite difference method. Vajravelu et al. [8] analysed the features of thermophysical properties on the transport of Newtonian fluid towards the cylinder using Keller-box numerical method. Ashorynejad et al. [9] studied the propulsion of nanofluid due to a stretching cylinder by employing of Runge- Kutta scheme (RKS). The viscoelastic fluid flow over a stretching cylinder using HAT has been explored by Bilal [1O].

By: K Bhagya Swetha Latha
Imprint: Mohd Abdul Hafi
Dimensions: Height: 279mm, Width: 216mm, Spine: 9mm
Weight: 408g
ISBN: 9798224851034
Pages: 170
Publication Date: 23 February 2024
Audience: General/trade , ELT Advanced
Format: Paperback
Publisher's Status: Active