On the comparison of three numerical methods applied to building simulation: Finite-differences, RC circuit approximation and a spectral method

Julien Berger, Suelen Gasparin, Denys Dutykh, Nathan Mendes

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

Predictions of physical phenomena in buildings are carried out by using physical models formulated as a mathematical problem and solved by means of numerical methods, aiming at evaluating, for instance, the building thermal or hygrothermal performance by calculating distributions and fluxes of heat and moisture transfer. Therefore, the choice of the numerical method is crucial since it is a compromise among (i) the solution accuracy, (ii) the computational cost to obtain the solution and (iii) the complexity of the method implementation. An efficient numerical method enables to compute an accurate solution with a minimum computational run time (CPU). On that account, this article brings an investigation on the performance of three numerical methods. The first one is the standard and widely used finite-difference approach, while the second one is the so-called RC approach, which is a particular method brought to the building physics area by means of an analogy of electric circuits. The third numerical method is the spectral one, which has been recently proposed to solve nonlinear diffusive problems in building physics. The three methods are evaluated in terms of accuracy on the assessment of the dependent variable (temperature or vapor pressure) or of density of fluxes for three different cases: (i) heat diffusion through a concrete slab, (ii) moisture diffusion through an aerated concrete slab and (iii) heat diffusion using measured temperatures as boundary conditions. Results highlight the spectral approach as the most accurate method. The RC based model with a few number of resistances does not provide accurate results for temperature and vapor pressure distributions neither to flux densities nor conduction loads.

Original languageBritish English
Pages (from-to)1-18
Number of pages18
JournalBuilding Simulation
Volume13
Issue number1
DOIs
StatePublished - 1 Feb 2020

Keywords

  • finite differences
  • heat transfer
  • moisture transfer
  • numerical methods
  • spectral method
  • thermal circuit model

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