Details zur Publikation |
Kategorie | Textpublikation |
Referenztyp | Tagungsbeiträge |
URL | http://congress.cimne.com/coupled2015/frontal/default.asp |
Titel (primär) | On the term and concepts of numerical model validation in geoscientific applications |
Titel (sekundär) | Proceedings of the 6th International Conference on Computational Methods for Coupled Problems in Science and Engineering – COUPLED PROBLEMS 2015, CIMNE, 18 - 20 May 2015, San Servolo, Venice, Italy |
Autor | Görke, U.-J.; Nagel, T.; Kolditz, O. |
Herausgeber | Schrefler, B.; Oñate, E.; Papadrakakis, M. |
Erscheinungsjahr | 2015 |
Department | ENVINF |
Seite von | 149 |
Seite bis | 159 |
Sprache | englisch |
Keywords | Coupled Problems; Model Development; Numerical Methods; Model Confirmation; Inverse Problems |
Abstract | Modeling and numerical simulation of the coupled physical and chemical processes observed in the subsurface are the only options for long-term analyses of complex geological systems. This contribution discusses some more general aspects of the (dynamic) process modeling for geoscientific applications including reflections about the slightly different understanding of the terms model and model validation in different scientific communities, and about the term and methods of model calibration in the geoscientifc context. Starting from the analysis of observations of a certain part of the perceived reality, the process of model development comprises the establishment of the physical model characterizing relevant processes in a problem-oriented manner, and subsequently the mathematical and numerical models. Considering the steps of idealization and approximation in the course of model development, Oreskes et al. [1] state that process and numerical models can neither be verified nor validated in general. Rather the adequacy of models with specific assumptions and parameterizations made during model set-up can be confirmed. If the adequacy of process models with observations can be confirmed using lab as well as field tests and process monitoring, the adequacy of numerical models can be confirmed using numerical benchmarking and code comparison. Model parameters are intrinsic elements of process and numerical models, in particular constitutive parameters. As they are often not directly measurable, they have to be established by solving inverse problems based on an optimal numerical adaptation of observation results. In addition, numerical uncertainty analyses should be an obligatory part of numerical studies for critical real world applications. |
dauerhafte UFZ-Verlinkung | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=16246 |
Görke, U.-J., Nagel, T., Kolditz, O. (2015): On the term and concepts of numerical model validation in geoscientific applications In: Schrefler, B., Oñate, E., Papadrakakis, M. (eds.) Proceedings of the 6th International Conference on Computational Methods for Coupled Problems in Science and Engineering – COUPLED PROBLEMS 2015, CIMNE, 18 - 20 May 2015, San Servolo, Venice, Italy 149 - 159 |