Satisfiability of Elastic Demand in the Smart Grid

We study a stochastic model of electricity production and consumption where appliances are adaptive and adjust their consumption to the available production, by delaying their demand and possibly using batteries. The model incorporates production volatility due to renewables, ramp-up and ramp-down time, uncertainty about actual demand versus planned production, delayed and evaporated demand due to adaptation to insufficient supply. We study whether threshold policies stabilize the system. The proofs use Markov chain theory on general state space.


Published in:
ENERGY 2011, The First International Conference on Smart Grids, Green Communications and IT Energy-aware Technologies
Presented at:
ENERGY 2011, The First International Conference on Smart Grids, Green Communications and IT Energy-aware Technologies, Venice, Italy, May 22-27, 2011
Year:
2011
Keywords:
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 Record created 2011-03-16, last modified 2018-03-18

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