Reference:
M. Houwing,
R.R. Negenborn, and
B. De Schutter,
"Demand response with micro-CHP systems," Proceedings of the
IEEE, vol. 99, no. 1, pp. 200-213, Jan. 2011.
Abstract:
With the increasing application of distributed energy resources and
novel information technologies in the electricity infrastructure,
innovative possibilities to incorporate the demand side more actively
in power system operation are enabled. A promising, controllable,
residential distributed generation technology is a micro combined heat
and power system (micro-CHP). Micro-CHP is an energy efficient
technology that simultaneously provides heat and electricity to
households. In this paper we investigate to what extent domestic
energy costs could be reduced with intelligent, price-based control
concepts (demand response). Hereby, first the performance of a
standard, so-called heat-led micro-CHP system is analyzed. Then, a
model predictive control strategy aimed at demand response is proposed
for more intelligent control of micro-CHP systems. Simulation studies
illustrate the added value of the proposed intelligent control
approach over the standard approach in terms of reduced variable
energy costs. Demand response with micro-CHP lowers variable costs for
households by about 1-14%. The cost reductions are highest with the
most strongly fluctuating real-time pricing scheme.