Robust reserve capacity provision and peak load reduction from buildings in smart grids

Abstract: This paper proposes a robust demand-side control algorithm in a smart grid environment for heating, ventilation and air conditioning (HVAC) systems. A robust model predictive control (RMPC) scheme in a receding horizon fashion is deployed, which optimizes electricity cost and capacity market participation of the HVAC system, while satisfying comfort and operational constraints of the building and utility, respectively. Thermal load uncertainties experienced by the HVAC system are included to perform a realisti… Show more

“…), a linear approximation using sequential quadratic programming (SQP) is obtained [118]. The building model is linearized using sequential quadratic programming.…”

“…The building model is derived from [115][116][117][118]130]. The thermal behavior of each building zone is described using a simplified R-C (lumped) model.…”

Flexible electric vehicle aggregation in distribution grids for participation in electricity markets

“…), a linear approximation using sequential quadratic programming (SQP) is obtained [118]. The building model is linearized using sequential quadratic programming.…”

“…The building model is derived from [115][116][117][118]130]. The thermal behavior of each building zone is described using a simplified R-C (lumped) model.…”

Flexible electric vehicle aggregation in distribution grids for participation in electricity markets

Distributed Congestion Management of Distribution Grids Under Robust Flexible Buildings Operations