Title of article
The concept of validation of numerical models for consequence analysis
Author/Authors
Borg، نويسنده , , Audun and Paulsen Husted، نويسنده , , Bjarne and Njه، نويسنده , , Ove، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
10
From page
36
To page
45
Abstract
Numerical models such as computational fluid dynamics (CFD) models are increasingly used in life safety studies and other types of analyses to calculate the effects of fire and explosions. The validity of these models is usually established by benchmark testing. This is done to quantitatively measure the agreement between the predictions provided by the model and the real world represented by observations in experiments. This approach assumes that all variables in the real world relevant for the specific study are adequately measured in the experiments and in the predictions made by the model.
s paper the various definitions of validation for CFD models used for hazard prediction are investigated to assess their implication for consequence analysis in a design phase. In other words, how is uncertainty in the prediction of future events reflected in the validation process? The sources of uncertainty are viewed from the perspective of the safety engineer. An example of the use of a CFD model is included to illustrate the assumptions the analyst must make and how these affect the prediction made by the model. The assessments presented in this paper are based on a review of standards and best practice guides for CFD modeling and the documentation from two existing CFD programs. Our main thrust has been to assess how validation work is performed and communicated in practice. We conclude that the concept of validation adopted for numerical models is adequate in terms of model performance. However, it does not address the main sources of uncertainty from the perspective of the safety engineer. Uncertainty in the input quantities describing future events, which are determined by the model user, outweighs the inaccuracies in the model as reported in validation studies.
Keywords
Validation , uncertainty , CFD models , Consequence Analysis
Journal title
Reliability Engineering and System Safety
Serial Year
2014
Journal title
Reliability Engineering and System Safety
Record number
1573869
Link To Document