The home for science and engineering™
Deutsch
English
中文
Русский
日本語
Português
Français
Español
Preise und Aborichtlinien
Über Begell House
Kontakt
Kundenlogin
0
Einkaufswagen
Search box
Search
Home
Bücher
eBücher
Zeitschriften
Referenzen und Berichte
Autoren, Herausgeber, Rezensenten
A – Z Produktindex
Journale finden
Home
Autoren, Herausgeber und Rezensenten von Begell House
Autoren, Herausgeber und Rezensenten von Begell House
Menu
Informationen für Autoren
Informationen für Herausgeber
Für Rezensenten
Dawei Tang
Institute of Engineering Thermophysics, Chinese Academy of Sciences, 11 Beisihuanxi Road, Beijing 100190, China
Weitere Infos über den Autor erhalten Sie im Expertenverzeichnis
Articles
INFLUENCE OF VAPOR BUBBLES ON THE THERMAL PERFORMANCE OF A TWO-PHASE CLOSED THERMOSYPHON LOOP WITH A LIQUID HEAT TRANSFER AGENT
Vol. 47 '2016
-
Heat Transfer Research
NUMERICAL SIMULATION OF THERMOACOUSTIC WAVES IN A NaK ALLOY
Vol. 48 '2017
-
Heat Transfer Research
Micro Liquid Film Heat Transfer and Critical Heat Flux of Flow Boiling in Micro-Channels
Vol. 16 '2014
-
International Heat Transfer Conference 15
An Analytical Study of the Heat Transfer in a Regular-Shaped Micro-Channel Type Stirling Regenerator
Vol. 18 '2014
-
International Heat Transfer Conference 15
The Freestanding Sensor-Based 3Ω Technique for Thermophysical Properties Characterization
Vol. 28 '2014
-
International Heat Transfer Conference 15
Temperature Dependent Thermal Transport Across the Interfaces Between Cnt Array and Adjacent Layers
Vol. 33 '2014
-
International Heat Transfer Conference 15
Effective Thermal Conductivity of Metal Foams: Experiments and Analysis
Vol. 40 '2014
-
International Heat Transfer Conference 15
Reconstruction of Thermal Boundary Resistance and Intrinsic Thermal Conductivity of SiO
2
-GaN-Sapphire Structure
Vol. 55 '2014
-
International Heat Transfer Conference 15
THERMAL CONDUCTANCE MEASUREMENT OF Al-SiC INTERFACE AT 4-300K USING TIME-DOMAIN THERMOREFLECTANCE TECHNIQUE
Vol. 24 '2018
-
International Heat Transfer Conference 16
EXPERIMENTAL STUDY OF BUBBLE GROWTH AND FLOW IN SMALL-DIAMETER THERMOSYPHON LOOPS WITH FILLING RATIOS OF 90% AND 95%
Vol. 21 '2014
-
Journal of Enhanced Heat Transfer
Home
Digitales Begell-Portal
Begell Digitale Bibliothek
Zeitschriften
Bücher
eBücher
Referenzen und Berichte
Autoren, Herausgeber, Rezensenten
A – Z Produktindex
Journale finden
Preise und Aborichtlinien
Über Begell House
Kontakt
Language
English
中文
Русский
日本語
Português
Deutsch
Français
Español