Abstract
Integrated community energy systems (ICESs) are a modern development of local energy systems by integrating distributed energy resources and local communities. Cost allocation is one of the key issues affecting the success of ICESs. Costs should be allocated to those who cause them, and benefits to those who make the investments. A well-designed cost allocation approach will therefore contribute to a successful implementation and sustainable development of ICESs. This paper presents a general framework for designing cost allocation schemes in ICESs. Various cost allocation methods are proposed to compute the energy bills for local community members in an ICES. In addition, the cost reflectiveness of different cost allocation methods has been computed based on a case study of an ICES to gain insights into how well the costs are allocated. Next to this, the same is also done for the cost predictability to investigate how the energy costs would change in the long term. The results showed that methods with a single energy charging component perform the best in terms of the two criteria. Our assessment can facilitate local community members in selecting a method that satisfies their requirements. Overall, this research contributes to a successful implementation of cost allocation in an ICES.
Highlights
IntroductionIndividual households are the basic units of local communities; they can choose whether or not to invest in an individual distributed energy resources (DERs)
The performance in terms of the two criteria for the methods considered here has been assessed based on a case study
Methods with an energy charging component retain their merits in respect of the two criteria in the event of changes in the number of local community members and prosumers
Summary
Individual households are the basic units of local communities; they can choose whether or not to invest in an individual DER In doing so they are changing their role from being consumers to prosumers thanks to local generation, demand response, and energy efficiency measures. Off-grid ICESs aim to achieve self-sufficiency by reducing dependence on the grid, exchanging energy with it only when necessary. This is the future trend [5]. Compared to a large number of individual grid-connected DERs, ICESs reduce the effects on the distribution grid through collective generation, consumption, purchasing, and local energy management [3]. ICESs have a significant role to play in the transition to future energy systems
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