Two Phase Closed Thermosyphon Cooling System - Cooling the Moderator of Cold Neutron Source (CNS) for Research Nuclear Reactor

by Habte, Melaku
State: New
$86.99
VAT included - FREE Shipping
Habte, Melaku Two Phase Closed Thermosyphon Cooling System - Cooling the Moderator of Cold Neutron Source (CNS)  for Research Nuclear Reactor
Habte, Melaku - Two Phase Closed Thermosyphon Cooling System - Cooling the Moderator of Cold Neutron Source (CNS)  for Research Nuclear Reactor

Do you like this product? Spread the word!

$86.99 incl. VAT
Only 1 items available Only 1 items available
Delivery: between 2021-06-30 and 2021-07-02
Sales & Shipping: Dodax

Check other buying options

1 Offer for $86.99

Sold by Dodax EU

$86.99 incl. VAT
State: New
Free Shipping
Delivery: between 2021-06-30 and 2021-07-02
View other buying options

Description

The use of two phase closed thermosyphons has been
on the rise in recent years. This is due to the fact
that thermosyphons offer very low thermal
resistance, are highly efficient and very easy to
manufacture. Thermosyphons are especially suitable
for applications where there is considerable
distance between heat source and heat sink. One such
application is in cooling the moderator of cold
neutron source (CNS) of research nuclear reactors.
However, the operational limit of the closed two
phase thermosyphons has been the focus of very few
studies. Most of these studies considered only the
thermosyphon, but have not included the vapor
reservoir. In this book, the fundamental working
principles of Two-Phase Closed Thermosyphon with
Reservoir (TPCTR) is reviewed. The various
operational limits and the effects of the size of
the vapor reservoir on the heat transport capacity
are analyzed. An analytical model is developed and
CFD analysis is carried out to study the nucleate
boiling inside the thermosyphon.

Contributors

Author:
Habte, Melaku

Further information

Biography Artist:
Dr. Melaku Habte received his M.Sc and PhD in Mechanical
Engineering from Penn State University, University Park, PA. He
served as a research assistant and member of the Neutron Beam
Group of the research nuclear reactor at Penn State. Dr. Habte s
research focuses on experimental and computational fluid flow
and heat transfer (CFD).
Language:
Englisch
Number of Pages:
196
Media Type:
Taschenbuch
Publisher:
VDM Verlag Dr. Müller

Master Data

Product Type:
Paperback book
Package Dimensions:
0.223 x 0.15 x 0.012 m; 0.26 kg
GTIN:
09783639122770
DUIN:
IJIT9ULV5C0
$86.99
We use cookies on our website to make our services more efficient and more user-friendly. Therefore please select "Accept cookies"! Please read our Privacy Policy for further information.