Demand response (DR) programs provide an effective approach for dealing with the challenge of wind power output fluctuations. Given that uncertain DR, such as price elastic load (PEL), plays an important role, the uncertainty of demand response behavior must be studied. In this paper, a multi-objective stochastic optimization problem of PEL is proposed on the basis of the analysis of the relationship between price elasticity and probabilistic characteristic, which is about stochastic demand models for consumer loads. The analysis aims to improve the capability of accommodating wind output uncertainty. In our approach, the relationship between the amount of demand response and interaction efficiency is developed by actively participating in ...
This paper proposes a comprehensive planning model for enhancing accommodation of renewable energy s...
Ever-increasing price of conventional energy resources and related environmental concern enforced to...
The variability of renewables requires a higher degree of flexibility in power system operation. At ...
Demand response (DR) programs provide an effective approach for dealing with the challenge of wind p...
This paper optimizes the price-based demand response of a large customer in a power system with stoc...
This chapter introduces several two-stage stochastic programming models in order to procure energy a...
Demand response (DR) is known as a key solution in modern power systems and electricity markets for ...
Thesis (Ph.D.)--University of Washington, 2018The new perspective of looking at power system operati...
Demand response (DR) can play an important role when dealing with the increasing variability of rene...
Abstract In this paper, a multi-stage stochastic model is presented for a renewable distributed gene...
Demand response is nowadays considered as another type of generator, beyond just a simple peak reduc...
To combat global climate change, the reduction of carbon emissions in different industries, particul...
Demand response (DR) is one of the most effective and economical methods for power operators to impr...
The large-scale integration of wind generation in power systems increases the need for reserve procu...
Renewable energy resources such as wind and solar are increasingly more important in distribution ne...
This paper proposes a comprehensive planning model for enhancing accommodation of renewable energy s...
Ever-increasing price of conventional energy resources and related environmental concern enforced to...
The variability of renewables requires a higher degree of flexibility in power system operation. At ...
Demand response (DR) programs provide an effective approach for dealing with the challenge of wind p...
This paper optimizes the price-based demand response of a large customer in a power system with stoc...
This chapter introduces several two-stage stochastic programming models in order to procure energy a...
Demand response (DR) is known as a key solution in modern power systems and electricity markets for ...
Thesis (Ph.D.)--University of Washington, 2018The new perspective of looking at power system operati...
Demand response (DR) can play an important role when dealing with the increasing variability of rene...
Abstract In this paper, a multi-stage stochastic model is presented for a renewable distributed gene...
Demand response is nowadays considered as another type of generator, beyond just a simple peak reduc...
To combat global climate change, the reduction of carbon emissions in different industries, particul...
Demand response (DR) is one of the most effective and economical methods for power operators to impr...
The large-scale integration of wind generation in power systems increases the need for reserve procu...
Renewable energy resources such as wind and solar are increasingly more important in distribution ne...
This paper proposes a comprehensive planning model for enhancing accommodation of renewable energy s...
Ever-increasing price of conventional energy resources and related environmental concern enforced to...
The variability of renewables requires a higher degree of flexibility in power system operation. At ...