Abstract
On the energy markets, conscious customers may exist who are not only interested in minimising the cost of energy purchase, but, simultaneously, in optimising some other quality criteria (arising from ecological concerns, or social responsibility of the energy producers). In this paper, we develop both a mathematical optimisation problem and a market framework for balancing a power system in a peer-to-peer market setup, where product differentiation can be considered directly on the market. Thus, origins of energy may be clearly identified, and product quality characteristics can be understood by various actors (including households). We derive a multi-objective (mixed-integer) linear programming optimisation problem for balancing the energy system in a peer-to-peer energy trading environment, where not only the cost but also other additional quality criteria are considered. We have identified many possible actors to be present within the proposed market setup. They include consumers, producers, brokers and flexible prosumers with storage. The approach was tested on the IEEE 30-bus standard test system, over three different scenarios, by analysing the impact of various actors/peers activities and different extensions. It has been shown that a multi-objective energy balancing scheme may be developed through crafted optimisation problem and that each type of studied peers may bring some added value to the power system balancing.
Highlights
There is a trend of shifting from the centrally-controlled power systems, where control and trade actions are created by the system operators, towards more decentralised, consumer-oriented systems, where market participants may reveal more preferences and may have greater impact on market operations
The resulting optimisation problem has to be solved by the responsible market operator. We develop both a tool and a framework for power system balancing in a peer-to-peer market setup when ecological, social, or sustainability criteria are considered in addition to the cost criterion
We develop a mathematical optimisation tool, together with a market framework to operate power system balancing with preference criteria additional to the cost of energy
Summary
There is a trend of shifting from the centrally-controlled power systems, where control and trade actions are created by the system operators, towards more decentralised, consumer-oriented systems, where market participants may reveal more preferences and may have greater impact on market operations. We derive a multi-objective (mixed-integer) linear programming optimisation problem for balancing the energy system in a peer-to-peer energy trading environment In this multi-objective approach, the cost and some other additional criteria can be considered. We develop both a tool (in the form of mathematical optimisation problem) and a framework for power system balancing in a peer-to-peer market setup when ecological, social, or sustainability criteria are considered in addition to the cost criterion. It would address willingness of some peers to buy from ecological or socially responsible sellers. The approach was tested on the IEEE 30-bus standard test system, over three different scenarios, where the impact of various actors/peers activities and different extensions was analysed
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