6 research outputs found
Design considerations for smart microgrids
The sustainable transition towards a smarter electricity system with an emphasis on decentralized systems and additional functionalities will be facilitated in the near future by smart (micro) grids. Smart (micro) Grids are very complex systems which must be developed in an efficient, effective and transparent way. A smart (micro) grid isn't "just" a technological concept but a multi-, inter- and trans disciplinary theme that can only succeed with a common effort of all involved actors. These actors vary in education, beliefs, etc., and are seeking for a pragmatic method to develop a smart microgrid in a very complex and non-transparent sector. Based on several design considerations and a discussion about system development methods, a new method is proposed for developing smart microgrids
Framework for estimating flexibility of commercial and industrial customers in smart grids
A new framework was created to estimate technical flexibility in electricity consumption of commercial and industrial customers. By classifying flexibility, building blocks could be created for several sources of flexibility, which can be inserted into a framework, allowing the construction of a power profile, including flexibility potential. The proposed framework gives insight in maximal potential of Demand Side Management (DSM) and is applicable for Smart (micro) Grid project developers
Framework for estimating flexibility of commercial and industrial customers in smart grids
A new framework was created to estimate technical flexibility in electricity consumption of commercial and industrial customers. By classifying flexibility, building blocks could be created for several sources of flexibility, which can be inserted into a framework, allowing the construction of a power profile, including flexibility potential. The proposed framework gives insight in maximal potential of Demand Side Management (DSM) and is applicable for Smart (micro) Grid project developers