Market power is a dominant feature of many modern electricity markets with an oligopolistic structure, resulting in increased consumer cost. This work investigates how consumers, through demand response (DR), can mitigate against market power. Within DR, our analysis particularly focusses on the impacts of load shifting and self-generation. A stochastic mixed complementarity problem is presented to model an electricity market characterised by oligopoly with a competitive fringe. It incorporates both energy and capacity markets, multiple generating firms and different consumer types. The model is applied to a case study based on data for the Irish power system in 2025. The results demonstrate how DR can help consumers mitigate against the ne...
We present a novel method of determining the contribution of load-shifting Demand Response (DR) to e...
Demand response (DR) is envisaged to be of significance for enhancing the flexibility of power syste...
Thesis: S.M. in Technology and Policy, Massachusetts Institute of Technology, Engineering Systems Di...
Power systems based on renewable energy sources (RES) are characterised by increasingly distributed,...
Demand Response is capable of reducing the total amount of generation capacity investment required t...
In traditional power system operation, the power landscape comprises centralized generation utilitie...
Demand Response (DR) is capable of reducing the need for generation capacity investments in order to...
This dissertation studies two topics in Demand Response (DR) in electricity markets, with some discu...
Previous work has demonstrated that the price elasticity of the demand side reduces electricity prod...
Electricity demand varies over the course of a day or a year, with very high levels of electricity d...
We present a novel method of determining the contribution of load-shifting Demand Response (DR) to e...
Demand response (DR) as a source of flexibility is considered to become increasingly important in po...
Demand response is capable of providing multiple services, including energy and reserve. As a conseq...
We study the effect of Demand-Response (DR) in dynamic real-time electricity markets. We use a two-s...
As a result of government policies increasing the amount of electricity generated from fluctuating r...
We present a novel method of determining the contribution of load-shifting Demand Response (DR) to e...
Demand response (DR) is envisaged to be of significance for enhancing the flexibility of power syste...
Thesis: S.M. in Technology and Policy, Massachusetts Institute of Technology, Engineering Systems Di...
Power systems based on renewable energy sources (RES) are characterised by increasingly distributed,...
Demand Response is capable of reducing the total amount of generation capacity investment required t...
In traditional power system operation, the power landscape comprises centralized generation utilitie...
Demand Response (DR) is capable of reducing the need for generation capacity investments in order to...
This dissertation studies two topics in Demand Response (DR) in electricity markets, with some discu...
Previous work has demonstrated that the price elasticity of the demand side reduces electricity prod...
Electricity demand varies over the course of a day or a year, with very high levels of electricity d...
We present a novel method of determining the contribution of load-shifting Demand Response (DR) to e...
Demand response (DR) as a source of flexibility is considered to become increasingly important in po...
Demand response is capable of providing multiple services, including energy and reserve. As a conseq...
We study the effect of Demand-Response (DR) in dynamic real-time electricity markets. We use a two-s...
As a result of government policies increasing the amount of electricity generated from fluctuating r...
We present a novel method of determining the contribution of load-shifting Demand Response (DR) to e...
Demand response (DR) is envisaged to be of significance for enhancing the flexibility of power syste...
Thesis: S.M. in Technology and Policy, Massachusetts Institute of Technology, Engineering Systems Di...