A Physically based Load Model of Residential Electric Thermal Storage: Application to LM Programs

A. Molina, A. Gabaldón, C. Álvarez, J.A. Fuentes, and E. Gómez


  1. [1] C.W. Gellings & J.Chamberlain, Demand-side managementplanning (Tulsa, OK: PennWell, 1993).
  2. [2] M.W. Gustafson, J.S. Baylor, & G. Epstein, Direct water heater load control: Eestimating program effectiveness using an engineering model, IEEE Trans. on Power Systems, 8 (1), 1993, 137–143. doi:10.1109/59.221259
  3. [3] J.C. Van Tonder & I.E. Lane, A load model to support demandmanagement decisions on domestic storage water heater controlstrategy, IEEE Trans. on Power Systems, 11 (4), 1996, 1844–1849. doi:10.1109/59.544652
  4. [4] A. Gomes, A. Gomes Martins, & R. Figueiredo, Simulation-based assessment of electric load management programs, International Journal of Energy Research, 23, 1999, 169–181. doi:10.1002/(SICI)1099-114X(199902)23:2<169::AID-ER471>3.0.CO;2-P
  5. [5] S. Mak & D. Radford, Communication system requirementsfor implementation of large scale demand side managementand distribution automation, IEEE Trans. on Power Systems,11 (2), 1996, 683-689. doi:10.1109/59.496139
  6. [6] W. Sweet & E.A. Bretz, Toward carbon-free energy, IEEESpectrum, November 1999, 28–33. doi:10.1109/6.803586
  7. [7] S. Kamoun, R.P. Malhamé, C. Álvarez, & A. Gabaldón, Onlineidentification of models of aggregate air conditioning loads,Third Int. Symp. on DAS & DSM, California, USA, 1993.
  8. [8] C. Álvarez, R.P. Malhamé, & A. Gabaldón, A class of modelsfor load management application and evaluation revisited,IEEE Trans. on Power System, 7 (4), 1992, 1435–1443. doi:10.1109/59.207365
  9. [9] R.E. Mortesen & K.P. Haggerty, Dynamics of heating andcooling loads: Models, simulation, and actual utility data,IEEE Trans. on Power System, 5 (5), 1990, 243–249. doi:10.1109/59.49112
  10. [10] M.H. Nehrir, P.S. Dolan, V. Gerez, & W.J. Jameson, Development and validation of a physically-based computer model for predicting winter electric heating loads, IEEE Trans. on Power System, 10 (1), 1995, 266–272. doi:10.1109/59.373949
  11. [11] M. Domínguez, O. Herrera, & I. Álvarez, Resolution of heattransmission equation for multilayer walls by means of thermalimpedance, Instituto del Frio C.S.I.C., Spain, 1985.
  12. [12] A. Gabaldón, C. Álvarez, F.J. Cánovas, J.A. Fuentes, & A. Molina, Physically based load modeling og HVAC loads with some kind of energy storage, Fourth Int. Congress on Energy, Environment and Technological Innovation, Rome, 1999, 329-335.

Important Links:

Go Back