Mathematical Modeling of Steam-Water-Vapor-Space with Mfact-Vfact Approach Using Combined Steam Properties

Author

Philip, Jacob K. ; Kazi, Faruk ; Mangalvedekar, Harivittal

Author_Institution

Simulator Group, NPCIL, Mumbai, India

fYear

2013

fDate

23-25 July 2013

Firstpage

252

Lastpage

257

Abstract

Computational complexity of a software model is directly related to its mathematical model. Mathematical modeling of Saturated Steam and Water Spaces is a challenging problem due to the involvement of complicated equations and steam tables. A simple modeling technique results in better turnaround time. This paper proposes a simple and quick approach for modeling steam water vapor spaces by efficiently combining suitable steam and water properties. This approach is computationally efficient and reduces the model development time considerably. It enables easy integration of steam water vapor space models with other models and easy deployment in parallel processing and other high performance computing environments.

Keywords

atmospheric humidity; computational complexity; nuclear reactor steam generators; Mfact-Vfact approach; combined steam properties; computational complexity; high performance computing environments; parallel processing; saturated steam mathematical modeling; software model; steam-water-vapor-space mathematical modeling; water spaces mathematical modeling; Approximation methods; Computational modeling; Mathematical model; Polynomials; Temperature; Water; high performance computing; parallel computing; quasisteady state modeling; simulation; steam tables; steam water vapour space;

fLanguage

English

Publisher

ieee

Conference_Titel

Modelling Symposium (AMS), 2013 7th Asia

Conference_Location

Hong Kong

Type

conf

DOI

10.1109/AMS.2013.46

Filename

6664703