Simplified Battery Operation And Control Algorithm release_vrrcile2pvcatbt3dqxqwt4uum

by Stig Odegaard Ottesen, Pol Olivella-Rosell, Pau Lloret-Gallego, Ari Hentunen, Pedro Crespo del Granado, Sigurd Bjarghov, Venkatachalam Lakshmanan, Jamshid Aghaei

Published by Zenodo.

2017  

Abstract

The main objective of the INVADE project is to study possibilities to increase RES penetration and integration in the power system by adding more storage, i.e., batteries. The analysis centres on the flexibility services that different types of storages can provide, namely: centralized, distributed and mobile (EVs). The focus of the work package 5 (WP5) is to assess flexibility and perform analysis in order to investigate the optimal deployment of flexibility sources. Solutions to reduce the challenges brought by variable RES and EV charging include both the added flexibility on the supply and load side. Combining the different characteristics of these resources is essential in assessing the value of distributed energy resources in the power system and in the energy market. The main objective of this WP is to study how to achieve optimal deployment of flexible energy storage in distribution systems. This would lead to an improved use of existing power system infrastructure and reduce issues caused by variable renewable energy sources in the physical electricity systems and at the electricity markets. Deliverable D5.3 provides a simple model for flexibility operation and planning to serve distribution system operators (DSO), balance responsible parties (BRPs) and Prosumers. This is a simplified model that will be initially implemented in the INVADE Platform. This report contains the first version of flexibility management allocation and operation algorithms. The focus is to develop an optimisation method for the operation of stationary and EV batteries as energy storage assets in the distribution grid. The motivation is that storage applications could help to improve the flexibility of the demand side, which again enables a more efficient integration of supply from renewable energy sources. To cope with the intermittent output of RES production, the charging/discharging scheduling of battery storage systems will be carried out with respect to the load and supply variations. The reaction of batteries to net-load v [...]
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