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All projects


ComRed - Complexity reduction for planning, simulation, optimisation and control of district heating systems

ComRed seeks for a central criterion which tool and which paradigm is suitable for fully dynamic simulation of large-scale district heating and cooling systems and the models that approximates the behaviour of the original system to decrease the computational time.


IEA SHC Task 64 - SHIP on Solar Heat in Industrial Processes

The main objective of the task is to identify, verify and promote the role of SHIP systems (Solar Heat for Industrial Processes) as reliable part of the industrial energy supply system, both as single component or part of an integrated energy system. Technical and non-technical barriers will be tackled. The main contribution of the Austrian part of the project are [1] a dimensioning and integration guideline as well [2] a Guideline to Market for SHIP and integrated energy systems.


Green BIM - Green building infrastructure as part of BIM-based planning and maintenance

The Green BIM project merges the greening and Building Information Modeling (BIM) into friction-free planning, implementation and maintenance of building greenery, with the aim of achieving additions to the IFC standard (ISO 16739).


DataDrivenLM - Improving the system efficiency of district heating networks by intelligent and data driven load management

The systematic evaluation of the operating data of district heating plant holds an enormous, but hardly used potential for system optimization. In the DataDrivenLM project, a load and forecast modelling is created using a data-driven approach and cross-domain data sources.


Digital Energy Twin - Optimised operation and design of industrial energy systems

To increase efficiency and sustainability in industry a harmonization of energy supply systems with regard to the actual need of industry processes is necessary as well as load management strategies.


Arrowhead Tools

The Arrowhead Tools project aims for digitalisation and automation solutions for the European industry, which will close the gaps that hinder the IT/OT integration by introducing new technologies in an open source platform for the design and run-time engineering of IoT and System of Systems.


Open Data Platform - Green Energy Lab Open Data Platform

The main goal of the Open Data project is the development and implementation of an Open Data Platform (ODP) for the energy sector to provide an easy access and overview of relevant data and interdependencies of a current and future integrated energy system.


Thermaflex Thermal demand and supply as flexible elements of future sustainable energy systems

More flexibility for more renewables in district heating systems - the flagship project "Thermaflex"

In 2016, Austria's space heating requirement amounted to approx. 87 TWh/a (total energy requirement: 311 TWh/a)1. A quarter of this demand is provided by district-heating based heat supply through more than 2000 district heating systems1. Thus, the district heating sector already plays a central role in Austria's energy supply. Due to the already installed infrastructure (approx. 5,400 km pipe length2), the existing expansion potential, especially in dense urban areas, the application of new concepts, technologies and renewable energy sources, the growing possibilities for sector coupling and the resulting contributions to the decarbonisation of our energy system, the district heating sector will become increasingly important in the future.


Spatial Energy Planning - Räumliche Energieplanung für die Wärmewende

HEATatlas and HEATapp for a spatially optimised development of the heat supply infrastructure, taking into account renewable energy potentials and technological options, as well as test applications in selected pioneering municipalities in the federal states of Salzburg, Styria and Vienna.


Luft.Ort.Leck: Localized leakages - method and probe development

Currently, leaks in the entire building envelope (blower door) or on components (test bench) are only determined as summation parameters. The aim of the project is to develop a measuring methodology and the prototype of a measuring probe that can be used to determine individual local leakages on the construction site and on the test bench.

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