Suchergebnisse
Sol2Pump - Hocheffiziente Kombinationen von Solarthermie, Photovoltaik und Wärmepumpenanlagen
Das Projekt beschäftigte sich mit dem Ziel einer möglichst dezentralen Eigenenergieversorgung auf Basis von erneuerbaren Energieformen. Die Kombinationsmöglichkeiten von Solarthermie, Photovoltaik und Wärmepumpe werden tiefgehend analysiert und der Eigenstromverbrauch durch Ausnutzung des Gebäudes als Kurzzeitwärmespeicher maximiert. Im Sinne der Verbrauchsoptimierung sollen mehrere Maßnahmen gesetzt und die Wirkung auf den Energieverbrauch wirtschaftlich bewertet werden.
Potenzial und Konzepte zur Wärmerückgewinnung aus Abwasser in Kombination mit Solarthermie und Wärmepumpe (WRGpot)
Ziel des Projekts war es, Möglichkeiten zur Reduktion des Energiebedarfs für die Warmwasserbereitung in Niedrigenergie- und Passivhäusern - auf dem Weg zum Plus-Energie-Haus - zu finden. Dabei kam dem Verhältnis zwischen eingesparter Energie und Investitionskosten großes Augenmerk zu.
Verringerung des Energieeinsatzes im "Haus der Zukunft" durch Nutzung innovativer Informationstechnologien
Im Rahmen des Projekts werden Möglichkeiten untersucht, durch Fernkontakt der Bewohnerinnen und Bewohner über Mobiltelefon und/oder Internet unter Berücksichtigung der Möglichkeiten der "Location Awareness" (z. B. GPS), den Energieeinsatz im "Haus der Zukunft" zu verringern. Dies betrifft vor allem die Möglichkeit der Temperaturabsenkung von Raumluft und Warmwasser während der Abwesenheit der Bewohnerinnen und Bewohner
BIGMODERN - Subproject 9: Demonstration project University Innsbruck, Faculty for Construction Engineering - Implementation
The demonstration project University Innsbruck, building of the faculty for construction engineering is part of the flagship project BIGMODERN. The demonstration project shows that in major renovation projects high energy and sustainability performance can be achieved using economically viable solutions.
Solarenergie Urban - Analyse und Bewertung der ökonomischen, energetischen und architektonischen Qualität urbaner Solarenergiebauten
Dieses Projekt entwickelte energetisch und ökonomisch optimierte Planungsgrundlagen für den mehrgeschoßigen Wohnbau zur Integration von erneuerbaren Energiesystemen in die Gebäudehülle. Es wurden die Bereiche Neubau und Sanierung bearbeitet.
SOLROSE FP - bionisch designter Solarkollektor, finale Produktgestaltung
Ziel war es den innovativen solarthermischen Kollektor SOLrose vom Prototypen zu Serientauglichkeit fertig zu entwickeln. Verbesserungen SOLrose gegenüber Stand der Technik: Ansprechendes Design auch für Fassadenintegration, Serienproduktion der Systembausteine, Verbesserungen für Vertrieb und Montage.
Sunny Energy Building: ENERGYbase - Bürohaus der Zukunft
Mit der Errichtung dieses zukunftsweisenden Kompetenzzentrums für Erneuerbare Energie setzt der Wiener Wirtschaftsförderungsfonds (WWFF) neue Maßstäbe bei der Entwicklung Energie optimierter Büroimmobilien. Auf 7.500 m² stehen Unternehmen sowie Forschungs- und Bildungseinrichtungen aus dem Zukunftsbereich der Erneuerbaren Energien modernste Büroflächen zur Verfügung.
Energy-storage concrete: Thermal Component Activation
This planning guide provides information on the option of solely heating and cooling small-volume residential buildings by means of thermal component activation (TCA). Concrete instructions on the planning of residential buildings with thermally-activated ceilings are also provided.
Felix Friembichler, Simon Handler, Klaus Krec, Harald Kuster
Herausgeber: BMVIT
Englisch, 122 Seiten
Downloads zur Publikation
PEAR – Test facility for energy efficient automation and control of buildings
The energy demand calculated in the design phase often differs from measured values in the actual building operation. This projects reviews building automation and operation by presenting a solution how to assess energy efficiency of control strategies in the fields of air conditioning systems, concrete core activation and free cooling. The results are implemented in the demonstration building "Post am Rochus".
ARIS - Application of non-linear control engineering and implementation of intelligent sensor systems for the improvements of energy efficiency in the building sector
The major goal of the project was the development of innovative control concepts for controlling and optimizing heating, cooling and ventilation systems (HVAC) as well as building loads. The implementation of advanced, energy efficient non-linear control techniques in building management systems is supported by new sensor technologies that are applied to building and energy systems in order to improve their energy-efficient operation.
SaLüH! Renovation of multi-family houses with small apartments, low-cost technical solutions for ventilation, heating and hot water
New innovative concepts for heating and ventilation were investigated. Very compact heat pumps are developed in such a way that it will be possible to integrate these units into the window parapet or into a prefabricated timber façade.
EnerPHit-green concept Modernisation of a historic building with application of an aerogel insulation plaster
This demonstration project shows the comprehensive modernization of a historic building within the constraints of a regional protection zone. By using the Aerogel high-performance insulating plaster, a comprehensive energy-efficient building refurbishment had been realized without changing the outer appearance of the façade.
SocialLowCostFlex - Collaborative flexible low-cost energy supply concepts for social housing
This project aimed for feasible low-cost solutions, which allow residents of multi-party houses, with special focus on social housing to profit and participate in the energy transition process and associated trends (e.g. community generation units, exploitation of flexibility). The results of the project are low-cost concepts and business models of community generation units and utilization concepts, tested for their feasibility in a social housing complex. These concepts are based on special requirements of different lifestyles in low-income households and take the framework of social housing such as tenant fluctuation into account.
FiTNeS - Facade integrated modular Split-heat pump for new buildings and refurbishment
The goal of FitNeS was the development of modular split heat pumps with compact and silent façade-integrated outdoor units for heating and domestic hot water preparation (and optionally cooling in combination with PV). The outstanding features of the concept are a modular design with a high degree of prefabrication and representing a visually and architectonically attractive, economic and sustainable solution for both new constructions and renovations. One of the main development goals is the minimization of sound emissions by means of optimized flow control.
fit4power2heat
The integration of heat pumps can increase the cost effectiveness of existing heating networks and counter the high costs for the expansion of power grids at the same time. Aim of the project is to develop innovative business models for small and medium municipal heating networks with focus on synergies between heat and power market. Main focus is a heat pump pooling for several heat grids.
BIMBestand - BIM-based management of existing buildings
The objective of this research project was to develop information requirements and process descriptions for the application of BIM models related to building services in facility management and to demonstrate the lifecycle-oriented use of these models in an open BIM environment. For this purpose, software solutions for the use of IFC in the open-source platform SIMULTAN and building management software were developed and evaluated on the basis of four typical use cases.
ecoRegeneration: Development of a "Merit-Order" in order to assess regeneration heat for geothermal probes within urban residential neighbourhoods
In urban residential areas there are not enough active-cooled usages, to use the waste heat of the cooling process as required regeneration heat for geothermal probes; free cooling of the apartments is not sufficient. The project is developing various options (waste heat from commercial uses in the ground floor zones of residential buildings, by using waste heat of data centres, additional installation of heat generation systems for regeneration) within the urban settlement area, business models and is calculating life-cycle-costs of all solutions. The result should be a kind of "merit order" for regeneration heat.
Using buildings as energy storage - Monitoring project: Detached house H and detached house F Energy source wind power – Energy source solar power
Monitoring and comparison of performance of thermally activated building components in two similarly built, inhabited detached houses with different energy sources (wind and solar power). The functionality of energy supply through wind power or solar energy will be investigated as well as the verification of the practicability of self-regulating system control due to building temperature behaviour. The results provide an insight into the calculation assumptions, system control and feasibility of the smart grid technology.
Eco.District.Heat - Potentials and restrictions of grid-bound heating systems of urban areas
Aim of the project Eco.District.Heat is to provide strategic decision-making support that enables Austrian towns and cities to deal with aspects of grid-bound heating (and cooling) systems in accordance with integrated spatial and energy planning from a holistic perspective when elaborating urban energy concepts.
Exploration of window systems with innovative glass - especially vacuum insulating glass - for building renovation
Exploration of the use of the first fabricable highly insulating vacuum glazing (VG) for highly efficient window systems specifically for the renovation of existing buildings via Verification of the availability and performance of Vacuum Glazing VG worldwide, concepts for structural optimization and thermal simulations of integrated systems, investigation of typical applications and market potential studies and identification of achievable energy savings for single buildings and settlements.