Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
Solar Adsorption cooling system of residential and office buildings (SunSorber)
In the on hand project an adsorber/desorber for a solar operated/district heating operated one-level adsorption chiller with water as cooling agent and silica gel as adsorbent agent will be planned for a low range of performance (2 to 50 kW refrigerating capacity). It will be implemented as a test-/pilot plant. Hence these two substances are an alternative to the HFCKW´s cooling agents that are used nowadays.
Innovative regulation of thermal solar collectors
Research and development of the possibility of a "sensorless" regulation for thermal solar systems
Renewable Biopolymers as Substitution for Bulk Plastics
Biopolymers consist of renewable resources. The concept deals with the development and implementation of technologies in the sector of renewable biodegradable materials.
CELL4LIFE - Reversible SOCs as a link between electricity, heat and gas networks to increase the self-sufficiency and resilience of neighbourhoods
A system consisting of a solid oxide fuel cell and a Machine Learning-based control system for increasing efficiency and minimizing degradation is being developed. As a link between all energy supply networks, the system is intended to increase the self-sufficiency and resilience of plus-energy districts.
ProKlim+ - Use of Model Predictive Control to optimize solar power consumption in case of increased energy efficiency.
Using weather forecast for building automation can help improving the energy efficiency of buildings and, thus, saving energy. In the project ProKlim+ the forecast of solar radiation will be used to optimize the building automation to satisfy the needs of the building users, and at the same time to minimize the energy demand on the one hand and to maximize the consumption of self-produced energy on the other hand.
ZERMET - Zero Emission Retrofitting For Existing Textile Plants
Minimisation of the consumption of water, chemicals and energy in the textile industry. Further development of the ZERMEG approach in the form of a questionnaire and application in the textile industry.
Reallabor Weizplus - Reallabor climate-neutral region Weizplus
Clarification of relevant questions for the potential establishment of a real lab in the region of Weizplus, which aims at a 100% supply of the region with renewable energies by 2030. The content-related technological focus of the activities of the future real lab is on all energy-relevant sectors (heating, electricity, cooling) applied to the focal points of energy efficiency and replacement of fossil energy in buildings, in trade and industry as well as mobility.
Pioneering industrial energy technologies
Innovations on the way to low-carbon industry
energy innovation austria
1/2018
Herausgeber: BMVIT und Klima- und Energiefonds
Englisch, 8 Seiten
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INN'FIT4UM - Innsbruck "Fit4UrbanMission" - climate neutral Innsbruck 2030
Cities are the place where decarbonization strategies for energy, transport and buildings intersect. A few years ago, the municipality of Innsbruck set up a Smart City Group consisting of staff from the municipality, IIG, IKB and IVB to address this challenge. The goal of INN'F4UM is to develop a step-by-step plan to achieve climate neutrality for the city by 2030, building on an up-to-date representation of energy and resource flows together with the University of Innsbruck.
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.
Efficient use of biogenic resources
Current research and technology development
energy innovation austria
3/2017
Herausgeber: BMVIT und Klima- und Energiefonds
Englisch, 8 Seiten
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South Burgenland Innovation Cluster
South Burgenland Innovation Cluster for Integrated Regional Energy and Transport Systems
energy innovation austria
1/2019
Herausgeber: BMVIT und Klima- und Energiefonds
Mehrsprachig, 8 Seiten
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Acceptance and improvement of low-energy-house components as a mutual learning process for users and producers
A social scientific investigation of acceptance and dissemination strategies for controlled ventilation systems with waste heat recovery and a joint heating system in low energy and passive houses.
Renewable Heating and Cooling
Innovative technologies and concepts for sustainable heating and cooling
energy innovation austria
3/2022
Herausgeber: BMK in cooperation with the Climate and Energy Fund
Englisch, 12 Seiten
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Know-How-Plus - Options and constraints of building renovation towards plus energy building standard
Aim of this research project is to identify the realizable reduction potential of energy consumption and CO2 emissions by refurbishment of the Austrian building stock towards plus energy building standard. Furthermore a construction-oriented manual will be supplied for interdisciplinary planning.
Innovations for cool urban oases
Smart ideas for green infrastructure and against urban overheating
energy innovation austria
3/2018
Herausgeber: BMVIT und Klima- und Energiefonds
Englisch, 8 Seiten
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Digitization in the construction industry
Research and technology development in Austria
energy innovation austria
4/2018
Herausgeber: BMVIT und Klima- und Energiefonds
Englisch, 8 Seiten
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University Plus-Energy Office High-Rise Building
Innovations for buildings in practice
Herausgeber: BMVIT und Klima- und Energiefonds
Englisch, 8 Seiten
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CoolAIR - Predictive control of natural nighttime ventilation and daylight-optimized shading for passive building cooling
Natural nighttime ventilation and daylight-optimized shadowing are high potential approaches to efficiently and economical cool buildings. Nevertheless, the full potential cannot be acquired, since, if at all, such behavior is manually initiated by users. Goal of this project is the development of an automated, self-learning system that can assess the full cooling capabilities and establish an alternative to conventional air conditioning systems.
Elaboration of the conditions to build up a reuse-cycle network for WEEE
Selection of electrical and electronic equipment disposed as waste back into a reuse-cycle, bulding up an operational network between social enterprises, linking up and improving the workflows necessary for this purpose and the creation of a second-hand-shop for electrical an electronic equipment.