Implementing state-space methods for multizone contaminant transport

TitleImplementing state-space methods for multizone contaminant transport
Publication TypeJournal Article
Year of Publication2014
AuthorsSimon T Parker, David M Lorenzetti, Michael D Sohn
JournalBuilding and Environment
Volume71
Pagination131 - 139
Date Published01/2014
ISSN03601323
KeywordsConcentration solution, Eigenvalue, Indoor dispersion, Multizone models, Numerical methods, State-space
Abstract

The “well-mixed zone” approximation is a useful model for simulating contaminant transport in buildings. Multizone software tools such as CONTAM [1] and COMIS [2] use time-marching numerical methods to solve the resulting ordinary differential equations. By contrast, the state-space approach solves the same equations analytically [3]. A direct analytical solution, using the matrix exponential, is computationally attractive for certain applications, for example, when the airflows do not change for relatively long periods. However, for large systems, even the matrix exponential requires numerical estimation. This paper evaluates two methods for finding the matrix exponential: eigenvalue decomposition, and the Padé algorithm. In addition, it considers a variation optimised for sparse matrices, and compares against a reference backward Euler time-marching scheme.

The state-space solutions can run several orders of magnitude faster than the reference method, with more significant speedups for a greater number of zones. This makes them especially valuable for applications where rapid calculation of concentration and exposure under constant air flow conditions are needed, such as real-time forecasting or monitoring of indoor contaminants. For most models, all three methods have low errors (magnitude of median fractional bias <3·10−5, normalised mean square error <3·10−7, and scaled absolute error <4·10−4). However, for the largest model considered (1701 zones) eigenvalue decomposition showed a dramatic increase in error.

DOI10.1016/j.buildenv.2013.09.021
Short TitleBuilding and Environment