To provide flexibility for the operation of smart electricity networks, a large number of scattered demand response resources are managed by a demand response aggregator (DRA). Increasing the economic viability of this new entity, i.e., DRA, has attracted a great deal of attention in recent years. Following this direction, this paper proposes stochastic model of multiple large-scale energy storage system (LESS) investments from the perspective of a DRA. A LESS directly connects to smart distribution networks and provides the possibility to save energy costs and thereafter increase the energy efficiency of the DRA. In this paper, a novel mixed-integer model is proposed to determine the optimal capacity and operation of a LESS in coordination...
International audienceThe use of batteries as a backup in case of power outages is a common practice...
This research aims to develop solutions to relieve system stress conditions in electric grids. The a...
The need for secure and flexible operation of distribution power systems with renewable generation a...
To provide flexibility for the operation of smart electricity networks, a large number of scattered ...
Distributed storage capacity at load centers (e.g. deferrable demand) can lower the total cost of ge...
Because of electricity markets, environmental concerns, transmission constraints, and variable renew...
With the rapid development of new energy, wind power, photovoltaic, geothermal and other energy sour...
The adoption of distributed resources by households, e.g., storage units and renewables, open the po...
Energy storage has the potential to provide multiple services to several sectors in electricity indu...
In this paper, we consider the problem of optimal demand response and energy storage management for ...
While industrial demand response programmes have long been valued to support the power grid, recent ...
Thesis (Ph.D.)--Boston UniversityAs the integration of Renewable Generation into today's Power Syste...
Integration of demand response (DR) programs and battery energy storage system (BESS) in microgrids ...
Part 10: Renewable EnergyInternational audienceDue to the limited predictability and associated unce...
International audienceThe use of batteries as a backup in case of power outages is a common practice...
This research aims to develop solutions to relieve system stress conditions in electric grids. The a...
The need for secure and flexible operation of distribution power systems with renewable generation a...
To provide flexibility for the operation of smart electricity networks, a large number of scattered ...
Distributed storage capacity at load centers (e.g. deferrable demand) can lower the total cost of ge...
Because of electricity markets, environmental concerns, transmission constraints, and variable renew...
With the rapid development of new energy, wind power, photovoltaic, geothermal and other energy sour...
The adoption of distributed resources by households, e.g., storage units and renewables, open the po...
Energy storage has the potential to provide multiple services to several sectors in electricity indu...
In this paper, we consider the problem of optimal demand response and energy storage management for ...
While industrial demand response programmes have long been valued to support the power grid, recent ...
Thesis (Ph.D.)--Boston UniversityAs the integration of Renewable Generation into today's Power Syste...
Integration of demand response (DR) programs and battery energy storage system (BESS) in microgrids ...
Part 10: Renewable EnergyInternational audienceDue to the limited predictability and associated unce...
International audienceThe use of batteries as a backup in case of power outages is a common practice...
This research aims to develop solutions to relieve system stress conditions in electric grids. The a...
The need for secure and flexible operation of distribution power systems with renewable generation a...