Comparative Study of the Wall Heat Transfer Model Between the RETRAN-3D and RELAP5 Code

Nuclear Science and Technology
doi 10.12677/nst.2015.33010
Full Text
Abstract

Available in full text

Date
Authors
Publisher

Hans Publishers

Related search

Evaluation of Two-Phase Critical Flow Model Based on the RETRAN-3D and RELAP5/MOD4.0

Nuclear Science and Technology
2015English

Heat Transfer Between Wall and Fluidized Bed

The Journal of the Society of Chemical Industry, Japan
1964English

Heat Transfer Predictions in Rotating Radial Smooth Channel: Comparative Study of K-Ε Models With Wall Function and Low-Re Model

1994English

Preliminary Experimental Study on Heat Transfer Characteristics of Wall With Automatic Adjustment of Heat Transfer Coefficient

2015English

Heat Transfer Mechanism Between Fluid Bed and Fluid Bed Wall. Concerning Heat Transfer of Internal Heat Exchanger in Fluid Bed 3.

Journal of the Society of Powder Technology, Japan
FiltrationFluid FlowProcess ChemistrySeparationTransfer ProcessesCatalysisTechnology
1985English

Mathematical Model of Non-Stationary Heat Conduction in the Wall: Asymmetric Problem With the Boundary Conditions of Imperfect Heat Transfer

MATEC Web of Conferences
Materials ScienceEngineeringChemistry
2016English

Feasibility Study for Improved Steady-State Initialization Algorithms for the RELAP5 Computer Code

1993English

A Numerical Study of a Plane Wall Jet With Heat Transfer

2015English

Modifications to the VV PHTS RELAP5 Model

2011English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2026 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy