The Equilibrium Dynamics of Thermostatic End-use Load Diversity as a Function of Demand

Details The Equilibrium Dynamics of Thermostatic End-use Load Diversity as a Function of Demand The Equilibrium Dynamics of Thermostatic End-use Load Diversity as a Function of Demand

2004-09-18

arxiv.org/abs/nlin/0409037v1

Nonlinear Sciences

Exactly Solvable and Integrable Systems

9 pages, 6 figures, prereview manuscript (unsolved problem in fig. 6)

Scientific paper

A recently developed state-of-the-art agent-based simulation of power distribution systems is capable of modeling the thermal and demand response behavior of many thousands of thermostatic end-use loads. It computes the total power consumed by electric power customers when responding to real-time prices. Investigation of the initialization transients has led to a more precise understanding of the relationship between the end-use state probability of thermostatic loads, end-use demand, and load diversity.

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