Type and Duration
Auftragsforschung, July 2012 until March 2015 (finished)Coordinator
Institute of Architecture and PlanningMain Research
Sustainable Planning and ConstructionField of Research
Sustainable Urban DesignDescription
Sun, wind, water, geothermal energy and biomass are the natural capital of the Alpine Space - and the essential foundation of future societal and economic development. The Alpine Space is therefore predestined for decentralised generation of power from renewable energy sources (RES). Many of those are intermittent: since demand side management offers limited potential, intelligent storage technologies can provide for cost effective buffering in metropolitan as well as scattered habitats.The extension of pumped hydro storages meets natural and societal barriers. Other technologies can bring added value to homes, towns and regions. Electric vehicles can provide short time balancing. Mobile storage must be conbined with stationary storage (battery, gas, hydrogen). In the mobility sector gas vehicles will compete with battery electric traction systems.
Besides intelligent grids, storage systems will be key enablers for a future mostly renewable energy supply - and our focus here is on the societal, geographic and climatological characteristics of the Alpine space in this context. There is much uncertainty among decisionmakers as to the viability of small, medium and large scale storage systems. Deploying explorative and piloting actions ALPSTORE will assess which mixture of technolgies will best match the Alpine space needs, and implement combined storage and mobility concepts in regional and municipal planning.
Our efforts are focused on compiling national programs and masterplan profiles, and understanding the spatial and sustainability implications of this rising infrastructure. As one of many examples in a wide range of technologies and systems, electric vehicles will be integral elements of the future energy system. Their networked batteries can be charged with excessive power from intermittent energy sources and electricity can be fed into the grid to meet peak loads. Beyond short term balancing with EVs, stationary batteries can serve long term balancing needs.
Reference to Liechtenstein
Nur durch die Fähigkeit Energie zu speichern wird die Energiewende hin zu 100% Erneuerbare Energien gelingen. Hier stellt sich auch für das Fürstentum Liechtenstein die Frage, welche Speichertechnologien sind am geeignetsten und wo könnten versteckte Potentiale liegen. Besonderes Augenmerk beim Erstellen des Masterplans für Energiespeicherung für das Fürstentum lag hierbei in der räumlichen Integration von Speichertechnologien in die Architektur und die Stadtplanung.Keywords
Renewable energy, Territorial development, Technology Transfer, Energy storage
Principal Investigator
Project Collaborator
Administration
Partner
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Universität Liechtenstein
- Kraftwerke Oberhasli AG/Battery Consult GmbH
- Kraftwerke Oberhasli AG/Battery Consult GmbH
- ALOT scarl-Agenzia della Lombardia Orientale per i Trasporti e la Logistica
- AGIRE-Agenza per la Gestione Intelligente delle Risorse Energetiche
- Regione Autonoma Valle d'Aosta-Assessorato Attività Produttive-Struttura pianificazione ed efficienza energetica
- Euroimpresa Legnano s.c.r.l.
- Vorarlberger Elektroautomobil Planungs- und Beratungs GmbH
- Europäisches Zentrum für erneuerbare Energie Güssing GmbH
- Novae Alsace (Freshmile)
- Université de Technologie de Belfort-Montbéliard
- P+M Rothmoser GmbH&Co. KG
- Allgäuer Überlandwerk GmbH
- eza! energie- & umweltzentrum allgäu gemeinnützige gmbh
- Regionalna razvojna agencija Gorenjske
- Univerza v Ljubljani
- Obcina Jezersko
- Forschungsstelle für Energiewirtschaft e.V.
- Università della Svizzera italiana