Suchergebnisse
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
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Passive-house-suited low power wood-furnace
Log-fired furnace with low energy performance, optimised to be used in passive house constructions. The desired energy output, ranging from 1 kW to a max-peak of 3 kW, is achieved by an "energy storing unit" (energy-storage material covered by an insulation layer) in combination with valves to control the energy release.
CPC-lightweight construction collector
On the basis of our relieable CPC-collector SOLARFOCUS S1 we develop the CPC-lightweight construction collector to get more material efficiency and maximum output of solar hightemperature energy.
New4Old - New energies for old buildings
The project "New4Old - New energy for old buildings - Promoting the integration of RES & RUE measures in historic buildings" aims to promote the integration of renewable energy and energy efficiency technologies into historic buildings, and to create a European-wide network of Renewable Energy Houses in the different Member States of the European Union.
Training Offensive: Comfort Ventilation
Specialised theoretical and practical training for designers/installers of comfort ventilation systems in residential buildings.
Urban district heating extended – Development of flexible and decarbonized urban district heating systems
Development of innovative urban district heating systems by integration of long-term thermal storage, large scale heat pumps, large scale solar thermal installations, waste heat recovery and analysis and evaluation by simulation. The results of this project will provide templates for technology selection, system design and merit order for new urban district heating areas.
Facade Integrated Solar Collectors
Within the framework of this project system-, structural- as well as building physical basis theories should be elaborated, which will serve as a basis for constructional and aesthetically attractive solutions for the production of facade integrated solar collectors without thermal separation. The recyclability of the materials used and resource efficiency play a central role when it comes to the development of constructional solutions.
Solar Combisystems - IEA SHC Task 26
Documentation, comparison and optimisation of solar combisystems for domestic hot water preparation and space heating in the framework of an IEA research project
SOCO.net - Solar Cooling Network for AUSTR(AL)IA
The main goal was to establish a long-term cooperation for "Solar Cooling" between the Austria Solar Innovation Center (ASiC) and the Center for Sustainable Energy Systems (CSES) at the renowned Australian National University (ANU) in Canberra. Combining the competences of both institutes immediately offers the chance to boost the penetration of the European and the Australian market with this new technology for cooling in sustainable buildings.
Sorption cooling and air dehumidification device
Solar-assisted air-conditioning in combination with comfortable controlled ventilation systems soon possible and affordably for building owners. With a new part DEC-systems should become acceptance.
Demoobject energy-autarkic solarplant
Within the project at hand a production plant with store house and offices had been constructed. It serves as a reality testing field for long-term measurement of components and systems developed in previous projects. It serves for the demonstration of innovative energy systems and components for the interested public and for experts.
Quality criteria for the Building of Tomorrow
Development and implementation of contributions to the quality control of innovative technologies in the areas of building services and insulation that are derived substantially from HAUSderZukunft findings.
Sol4City - Integrated solar supply concepts for climate-neutral buildings for the "city of the future"
Intelligent technology coupling to achieve high solar coverage of the buildings (multi-storey residential building) heat and electricity demand. At the end of the project, integrated energy supply concepts for multi-storey residential buildings based on high network interaction and flexibility potential, maximum surface efficiency of conversion technologies on site and high economic competitiveness are available for the broad applicability in the "City of the Future".
OptiMAS - Optimization of building energy efficiency through model-based energy flow analysis with non-invasive sensors
Using a model-based energy flow analysis supported by non-invasive sensor technologies OptiMAS investigated how to monitor, analyze and optimize existing buildings independent of the installed HVAC systems and automation components. With the OptiMAS approach the optimization potential of individual buildings up to entire areas can be detected, located and tapped by adjustment of system parameters to ensure highest energy and resource efficiency.
ÖKO-OPT-AKTIV - Optimised control and operating behaviour of thermally activated buildings in future urban districts
Development and simulation of scalable, distributed control strategies for the use of the storage effect of thermally activated components in buildings of future city districts for their energy supply by an energy centre.
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.
SolCalc: Development of a standardized calculation algorithm for the energy consumption assessment and the energy certification of residential buildings with a solar fraction of up to 100% in combination with biomass boilers and heat pumps
Development of a standardized calculation algorithm for the energy consumption assessment and the energy certification of residential buildings with a solar fraction of up to 100% in combination with biomass boilers and heat pumps
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.
Energy-Sponge: The Building as an Energy-Sponge - Electricity In - Heat Out
Innovative, dynamic control concepts had been developed which enable (air) heat pumps in combination with PV- or renewable grid electricity to use the building mass of a multi-familiy house as heat storage. User acceptance had been evaluated and possible business models had been developed.
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.