This paper deals with the definition of demand flexibility time intervals. These intervals are extracted from the binomial probability model of load variation patterns with the two possible categories of increase and non-increase in demand. These intervals along with the information on the coefficient of variation of the aggregate demand are used to assess the potential of demand flexibility exhibited by the aggregate residential demand in different periods of the day. The results of the proposed approach are useful for the distribution system operator or an aggregator to effectively set up demand response programmes in suitable time slots of the day
Demand Response can be defined as the ability of electricity suppliers to shift the consumption patt...
The role of the distribution system operator (DSO) is evolving with the increasing possibilities of ...
Abstract — Flexibility in electric power consumption can be leveraged by Demand Response (DR) progra...
This paper deals with the definition of demand flexibility time intervals. These intervals are extra...
In the modern power system, characterization of customer's demand plays a vital role for Demand Side...
Nowadays, enhanced knowledge on the nature of the electricity demand is achieved through the progres...
The renewable energy sources (RES) are intermittent in their nature and their integration in electri...
With the modernization of the electricity grid, the role of the demand side becomes more vital to ba...
The demand side in a power system has key importance in the evolving context of the energy systems. ...
The electrical load in residential systems highly depends on various types of uncertainty due to the...
Electrical load patterns that represent the consumption level are affected by different types of unc...
For distribution system studies, a relevant aspect is the characterisation of the aggregate demand i...
Aggregator in a microgrid is responsible for its secure and economic operation. As far as system eco...
The balancing of power systems with high penetration of renewable energy is a serious challenge to b...
Nowadays, the attainment of flexibility in different loads for different electricity customers is an...
Demand Response can be defined as the ability of electricity suppliers to shift the consumption patt...
The role of the distribution system operator (DSO) is evolving with the increasing possibilities of ...
Abstract — Flexibility in electric power consumption can be leveraged by Demand Response (DR) progra...
This paper deals with the definition of demand flexibility time intervals. These intervals are extra...
In the modern power system, characterization of customer's demand plays a vital role for Demand Side...
Nowadays, enhanced knowledge on the nature of the electricity demand is achieved through the progres...
The renewable energy sources (RES) are intermittent in their nature and their integration in electri...
With the modernization of the electricity grid, the role of the demand side becomes more vital to ba...
The demand side in a power system has key importance in the evolving context of the energy systems. ...
The electrical load in residential systems highly depends on various types of uncertainty due to the...
Electrical load patterns that represent the consumption level are affected by different types of unc...
For distribution system studies, a relevant aspect is the characterisation of the aggregate demand i...
Aggregator in a microgrid is responsible for its secure and economic operation. As far as system eco...
The balancing of power systems with high penetration of renewable energy is a serious challenge to b...
Nowadays, the attainment of flexibility in different loads for different electricity customers is an...
Demand Response can be defined as the ability of electricity suppliers to shift the consumption patt...
The role of the distribution system operator (DSO) is evolving with the increasing possibilities of ...
Abstract — Flexibility in electric power consumption can be leveraged by Demand Response (DR) progra...