Suchergebnisse

IEA ISGAN Annex 7: Smart Grids Transition (Workingperiod 2017-2020)

ISGAN Annex 7 deals primarily with institutional and socio-technical issues in connection with the transition of the energy system, with smart grids at its core. It thus aims to bundle international experience and interdisciplinary research activities on smart grids, to process them and to make them usable for policy makers and stakeholders.

IEA ISGAN Annex 3: Benefit/Cost Analyses and Tools of Smart Grids

Together with experts from 11 countries, the EI-JKU has analysed cost-benefit models and developed proposals for their adaptation and further development. In the course of the work, the EI-JKU dealt in particular with two questions: how such an evaluation model can be adapted to Austrian conditions and which socio-economic factors influence the question of whether an end consumer emerges as a winner or loser from Smart Grid-based functionalities.

IEA ISGAN Annex 5: Smart Grids International Research Facility Network (SIRFN). (Working period 2013-2018)

The Smart Grids International Research Facility Network (SIRFN) aims at improving the implementation of Smart Grids technologies by collaboration between smart grid testing facilities, test beds, and large-scale demonstrations. By active participation, Austria’s position and leading role on the forefront of international Smart Grids development has been strengthened.

IEA ISGAN Annex 6: Power Transmission and Distribution Systems (working period 2017 - 2018)

ISGAN aims at enhancing the knowledge about Smart Grid Technologies and accelerating their international development. The main objective of the Austrian participation in IEA ISGAN Annex 6 is to acquire knowledge and develop long-term concepts for the development of an intelligent electricity system, with the focus on the interaction of distribution and transmission networks.

IEA International Smart Grid Action Network (ISGAN) Annex 6 on Power T&D Systems. Working period 2015 - 2016.

The International Smart Grid Action Network (ISGAN) aims in enhancing the knowledge about Smart Grid Technologies and accelerating the development and the international deployment. The main objective of the Austrian contribution in IEA ISGAN Annex 6 is to build up knowledge and long term concepts for the development of an intelligent and integrated electricity system, with the focus on the interaction of distribution and transmission networks, including the lead of the related subtask within the Annex.

ISGAN Introductory Webinar Sandbox 2.0 Knowledge Exchange

28. January 2021
Online, AT

Building on the successful ISGAN Knowledge Transfer Project (KTP) in 2019, involving more than 20 countries, and subsequent work on regulatory sandboxes, this webinar introduces the follow-up workshop series "Sandbox 2.0" to capture recent developments and to support countries in their development of such regulatory instruments, to enable upscaling and deployment of energy system innovation.

ISGAN Regulatory Sandbox International Knowledge Exchange Workshop 3

15. April 2021
Online webinar, AT

The objective of the workshop is to facilitate a structured and learning-focused knowledge exchange on sandbox programs and similar measures of regulatory experimenting in different countries.

IEA ISGAN Working Group 9: Flexibility Markets - Development and Implementation (Working Period 2021 - 2023)

ISGAN Working Group 9 focuses on flexibilities in the power system and related market mechanisms. Main work areas include the integration of trading with flexibilities (redispatch), investigation of the needs of different market participants, identification and definition of flexibilities and their characteristics, development and scaling of interoperable flexibility markets, consumer-oriented understanding of flexibilities and the avoidance of stability or security losses due to diversity loss.

Grid-forming inverters - Validation and testing challenges

15. March 2024
AIT Austrian Institute of Technology, Giefinggasse 2, Wien, AT

The proposed workshop is testing-originated and presents methodologies-related research activities, entailing the design and optimization of interfacing methods that are dedicated to the robust and high-fidelity PHIL testing of GFC with soft black start capability.