Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"

Stadt der Zukunft

Future quarter 2.0 - Replicable, thermally and electrically grid-supportive conception of (positive energy) districts in a dense urban context

Development of a replicable concept for grid-supportive integration of innovative (positive energy) district with high on-site energy supply into the existing network infrastructure (electricity and district heating network).

Haus der Zukunft

BIGMODERN - Subproject 10: Evaluation, Documentation and Ensuring Transferability

The subproject 10 is part of the flagship project BIGMODERN. It is based on the results of subproject SP 7 in which a monitoring concept has been developed. This concept is now implemented through monitoring of different aspects occurring during the first two years of operation of both BIGMODERN demonstration buildings.

Stadt der Zukunft

BIM4BEMS - Building Information Modeling for Building Energy Management Systems

BIM4BEMS explores use cases that represent the usage of building information models (BIM) in combination with building energy management systems (BEMS) during operation. This enables the interaction between BIM and building management systems (BMS) which improves the analysis and visualization of inefficiencies in facilities.

Haus der Zukunft

aspern Vienna´s Urban Lakeside - subproject 5: Monitoring of Energy Consumption in Demonstration Buildings in Seestadt Aspern

Goal of the project is to develop a monitoring tool that allows to predict the expectable (final) quality of the residential buildings based on decisions made during the planning and construction phase. For this purpose, the current certification tool for the determination of "TQB-points" will be equipped with "interim" certifications, which shall allow the land developer to carry out a quality monitoring parallel to the construction phase. The tool will be tested with the data obtained from selected construction projects during the first residential development phase in seestadt aspern.

Nachhaltig Wirtschaften

"IÖB-Tool" Housing and renewable energy technologies

Innovation-promoting public procurement tool for housing and renewable energy technologies

Haus der Zukunft

(energy central 400+) Marketable energy central from 400 kW with innovative, simple electricity conversion for residential building, public utility and commercial objects

Development of a marketable, decentralised "energy central" on a scale from 400 kW for the generation of electricity, heating (and cooling) for residential building, public utility and commercial objects, with a broad variety of applicable fuels on the base of regionally available biogenous residual materials.

Stadt der Zukunft

SPACE4free - Retrofitting souterrain areas in 19th century townhouses to apartments with high quality of life and low energy consumption

Planning of durable and damage-free apartments with high quality of life and low energy consumption in moisture exposed souterrain areas of 19th century townhouses. Using innovative ventilation control systems comfortable room climate will be created. Additionally the tolerance of different types of use is ensured. A planning tool enables the scaling of the findings and thus the applicability to various planning situations.

Stadt der Zukunft

DREI x NULL = NULL - Research project on climate-neutral construction in all life cycle phases based on three demonstration buildings

The aim of the F&E project is the realization of three different residential buildings, which are all climate-neutral in the life cycle phases of construction, operation and dismantling. The aim is to create exemplary showcase projects for the future residential construction sector.

Internationale Energieagentur (IEA)

Workshop: Will a smarter grid lead to smarter end users - or vice versa

3. - 4. June 2015
Oslo, NO

The workshop will focus on the potential benefits of smart grids for end-users and society at large, with the goal of identifying novel approaches and critical aspects for realising this potential as well as core R&D needs on this topic and similar areas that need attention.

Haus der Zukunft

"Building of Tomorrow" in the media

Press support for "Building of Tomorrow"

Klimaneutrale Stadt

Tulln Climate Neutral City 2040 (Tulln2040)

The core of the project is the development of a systemic strategy at a city-wide level that shows how the city of Tulln will achieve climate neutrality by 2040.

Internationale Energieagentur (IEA)

Design Guidelines - Solar Space Heating of Factory Buildings With Underfloor Heating Systems (Jaehnig/Weiss 2008)

The energy required for the space heating of factory buildings and warehouses can be a major percentageof the energy consumption of a company. While in some cases, waste heat from other processesin the company is available and is the most cost effective way to heat a factory building, aninteresting option is to use solar energy to cover the heat demand of an industrial building. Englisch

Internationale Energieagentur (IEA)

Webinar: Indicators to Assess Resilience of Cooling in Buildings

10. May 2022
Online, AT

Well-insulated and air-tight buildings are known to be vulnerable to overheating. An increase in the severity and duration of heatwaves is expected, resulting in more severe overheating risks, affecting on their turn the health and mortality of building users. To achieve more future-proof buildings, it is crucial to design buildings that are "resilient" to overheating in future climate conditions.

Nachhaltig Wirtschaften

IEA HPP Annex 33: Compact heat exchangers for heat pumping equipment

International cooperation aiming at widening the use of compact heat exchangers in heat pumping equipment. The goal of this project is to identify compact heat exchangers, either existing or under development, that may be applied in heat pumping equipment such as compression or absorption heat pumps.

Internationale Energieagentur (IEA)

IEA EBC Annex 80: Resilient Cooling for Residential and Small Non-Residential Buildings

The rapidly increasing cooling demand for buildings - internationally as well as in Austria - requires further development and application of low energy and low carbon cooling solutions on a large scale. The Annex 80 is meeting this challenge boosting the development and implementation of appropriate cooling solutions by transferring knowledge and coordinating international research endeavours.

Internationale Energieagentur (IEA)

IEA EBC Annex 68: Indoor Air Quality Design and Control in Low Energy Residential Buildings

In this project, the scientific basis and data for a coupled calculation and evaluation of indoor air quality and energy efficiency of residential buildings were developed. Assessment metrics and detailed air pollutant models were developed and integrated into the building simulation to derive guidance for the planning and operation of energy-efficient residential buildings.

Internationale Energieagentur (IEA)

IEA EBC Annex 84: Demand Management of Buildings in Thermal Networks

The concept of demand-side management (DSM) in buildings to reduce peak loads in the grid is well established in the power sector. The same concept can be applied to shift thermal loads in buildings connected to thermal networks. This project addresses the topic of demand response in buildings, focusing on the collection of case studies, technologies and collaboration models.

Internationale Energieagentur (IEA)

IEA-SHC Task 64: Solar Process Heat

The main objective of the task is to identify, verify and promote the role of SHIP (Solar Heat in Industrial Processes) systems as single system and in integrated energy systems. Technical and non-technical barriers will be tackled. The main results of the project are a dimensioning and integration guideline for SHIP and integrated energy systems and a Guideline to Market for SHIP and integrated energy systems.

Internationale Energieagentur (IEA)

IEA-SHC Task 65: Solar Cooling for the Sunbelt Regions

Without measures, cooling demand will triple by 2050. The aim of Task 65 is to adapt existing technologies to the boundary conditions of the sunbelt, to find suitable system concepts, to evaluate them and to disseminate the advantages. In addition to system adaptations, the Austrian focus is on life cycle cost-benefit analysis and the further development of existing assessment tools.