Designing Electricity Distribution Network Charges for an Efficient Integration of Distributed Energy Resources and Customer Response

Designing Electricity Distribution Network Charges for an Efficient Integration of Distributed Energy Resources and Customer Response

Abdelmotteleb, I.I.A. (TU Delft Energie and Industrie)

De Vries, Laurens (promotor)
Gómez San Roman, Tomas (promotor)
Reneses Guillén, Javier (copromotor)

Delft University of Technology
KTH Royal Institute of Technology
Comillas University

2018-12-17

A significant transformation has been gradually taking place within the energy sector, mainly as a result of energy policies targeting environmental objectives. Consequently, the penetration of Distributed Energy Resources (DERs) has been escalating, including self-generation, demand side management, storage, and electrical vehicles. Although the integration of DERs may create technical challenges in the operation of distribution networks, it may also provide opportunities to more efficiently manage the network and defer network reinforcements. These opportunities and challenges impose the necessity of redesigning distribution network charges to incentivize efficient customer response. This PhD thesis focuses on the design of distribution network charges that send correct economic signals and trigger optimal responses within the context of active customers. First, a cost-reflective network charge is proposed that consists of a forward-looking locational component based on the network’s utilization level, which transmits the long-term incremental cost of network upgrades. Then, a residual cost component that recovers the remaining part of the regulated network revenues is proposed. The objective of the proposed network charge is to increase the system’s efficiency by incentivizing efficient short- and long-term customers’ reaction while ensuring network cost recovery. The Thesis presents an optimization model that simulates customers’ response to the proposed network charge in comparison to other traditional network charge designs. The model considers the operational and DER investment decisions that customers take rationally to minimize their total costs.

customer response
distributed energy resources
distribution network charges
local flexibility mechanisms

https://doi.org/10.4233/uuid:99dae138-5f0a-42c5-ad1d-a8b7ef5f410f

978-84-09-04874-8

Institutional Repository

doctoral thesis

© 2018 I.I.A. Abdelmotteleb