Title :
Modeling Load Recovery Impact for Demand Response Applications
Author :
Nguyen, Duy T. ; Negnevitsky, Michael ; de Groot, M.
Author_Institution :
Centre for Renewable Energy & Power Syst. (CREPS), Univ. of Tasmania, Hobart, TAS, Australia
Abstract :
In this paper we develop a novel mathematical model to describe the localized economic impact of load recovery by electricity consumers following demand response (DR) event participation. In this model-termed “securitization”-cost and benefit associated with an amount of load recovery change exponentially with time-varying stochastic discount rates. These volatile rates, which can be estimated using the principle of Brownian motion, are further examined via case studies on the Roy Billinton test system. A formal application of the proposed recovery model to the crucial task of global DR scheduling is then studied. The study indicates that it is possible to optimize a DR schedule to cater for uncertainty in the subsequent load recovery.
Keywords :
demand side management; mathematical analysis; power system economics; scheduling; Brownian motion; Roy Billinton test system; demand response; electricity consumers; load recovery; mathematical model; time-varying stochastic discount rates; Economics; Electricity; Estimation; Load management; Load modeling; Mathematical model; Power systems; Demand response; demand response exchange; demand response scheduling; load recovery; securitization;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2012.2211625
