Article: Kircher, KJ; Zhang, KM; (2015) “On The Lumped Capacitance Approximation Accuracy in RC Network Building Models”, Energy and Buildings, 108: 454-462
Abstract: Thermal resistor-capacitor networks are a popular method for control-oriented building modeling. A basic assumption underlying this method is that the continuous temperature distribution in a wall or window is well-approximated by a small number of lumped capacitances. In this paper, we explore the accuracy of this approximation when a single capacitance is used. We derive conditions on the dimensionless parameters that characterize the problem, called Biot numbers, that lead to small errors in approximating a wall or window’s surface heat fluxes and internal energy. The lumped capacitance approximation can be surprisingly accurate for Blot numbers much larger than the conventional upper bound of 0.1. In particular, the approximation is nearly exact for window panes, and is often acceptable for uniform walls. A large Blot number at an indoor wall surface, however, leads to large lumped capacitance approximation errors. (C) 2015 Elsevier B.V. All rights reserved.
Funding Acknowledgement: Hydro Research Foundation Fellowship; Energy Efficiency and Renewable Energy Program of the U.S. Department of Energy
Funding Text: The authors gratefully acknowledge support from the Hydro Research Foundation Fellowship and the Energy Efficiency and Renewable Energy Program of the U.S. Department of Energy.