There are 128 results.
The aim of the exploration-study for the urban region Bruck/Oberaich "Energieschwamm Bruck" or "Energy-Sponge-Bruck" was to establish clear and stringent basics for a flexible development of the future energy system. Therefore an energy development concept as well as a cadaster for short-term implementation measures had been applied. The structured, Bruck-based approach acts as framework for a general energy-conception-method, valid for small and medium urban regions with 10,000 to 20,000 inhabitants.
EnergyCityConcepts - Methods and concepts for the implementation of sustainable energy systems in cities
Two concrete model regions (small city Gleisdorf and urban city quarter Salzburg-Schallmoos) will be developed and tested using new methodical approaches (interdisciplinary urban and regional energy planning, modeling and simulation). Therefore, it is aimed to substantiate scenarios and concepts for the implementation of defined targets on technical, ecological and economic criteria.
In "Enerspired Cities" the concept for an automized junction of judicial secured access regulation to (geo-)energy data is elaborated. This will be adapted to the specific situations in the cities of Innsbruck, Salzburg and Vienna and implemented in dedicated pilot applications. The declared aim is the support of urban planning, monitoring and research by an easy and transparent access to base data coming from various sources for a wide range of users.
The project examines the challenges of urban manufacturing (UM) from the energy perspective and shows opportunities arising from the implementation of UM concepts for the future design of sustainable energy systems for cities.
Evaluation of solar-thermal energy stores using a uniform and marketable system of characteristic numbers
Comparison of solar-thermal energy stores A clear and uniform system of characteristic numbers enables a cost-saving comparison of the efficiency of solar-thermal energy stores of different technologies for the first time and gives important impulses for the market.
The feasibility of daylight-optimized solutions for retrofitting courtyards by an intelligent alignment of different materials has been examined. With it, daylighting levels in lower floors can realistically be increased tenfold. Additionally, a calculation tool for generating and evaluating optimal courtyard solutions was designed. Besides daylighting parameters also economic criteria were considered.
Development of testbeds and demonstration zones within already designated areas for urban development along the Graz-Gleisdorf Innovation-Axis with a focus on energy, integrated building technology, smart city-spaces, compact settlement structures, generational living, and ‘cities of short ways’. It will pay specific attention to intermodal mobility as well as ICT-based solutions.
Development of moss-covered facade panels by selecting and testing of appropriate moss species, new water storage and adhesive substratum, Materials of the support panels and technical construction details, for year-round green, sustainable, maintenance friendly, affordable building facades
Documentation of available knowledge on the renovation of historical buildings ("Gründerzeitgebäude") as an input for the preparation of 5 demonstration projects as well as the development of an accompanying monitoring system within the scope of the project "Gründerzeit with future".
IDsolutions - Solutions for the refurbishment within existing building stock with interior insulation
The refurbishment of existing building stock demands solutions within single units. Interior insulation is a suitable technology. The challenge is to bring multiple demands and requirements together to create optimal solutions. Therefore it's necessary to arrange individual system components to form working model refurbishment solutions. The development of such solutions is the aim of the project. Not only durability and quality is to be ensured, but also user acceptance. Increasing the rate of refurbishments is the overall aim of the project.
Development of integrated concepts for multi-storey buildings, which enable renovations of buildings with high energy efficiency at good user acceptance during the realisation phase as well as afterwards (comfort, affordability). Relevant components: integrated solutions of roof and façade with high rate of pre-fabrication, the possibility of integrating the energy façade/roofs and energy distribution and supply.
The project involved the evaluation of the significance of new approaches for the increase of in-house consumption of solar energy (electric energy and heat) of buildings in Großschönau, which are already equipped for such measurements. The existing municipal buildings, commercial buildings and households are aggregated to form virtual building clusters. Subsequently, the clusters were analyzed according to their in-house consumption with and without the usage of batteries and H2 storages. The economic analysis of this concept derives from a regional implementation plan for further industrial research.
InnoGOK – Investigation of the energetic and ecological usability of solar radiation on urban spaces and paths
Examination of the suitability of street space or other paved or not paved surfaces in urban areas for promoting renewable heat from solar radiation. Thus offers a high potential for increasing energy efficiency and conserving resources in urban contexts. Besides, the dissipation of heat from large solar-heated surfaces promises to prevent urban heat islands.
Innovation & Cost efficiency: Building standards for multi family residential buildings at optimal cost (Inno-Cost)
In this project, innovative building standards were examined concerning their economical aspects through the life cycle of a building. By means of life cycle-costs for 40-50 multi family lowest energy and passive house residential buildings on actual data from the day-to-day operation, reliable data and know-how was compiled for the first time, which is to support further market penetration of innovative building standards in the field of multi family residential buildings.
Concepts for enhancing in-house innovation in construction; development of performance and benchmarking indicators in the housing sector. Economic proposals to improve legal and structural business environment and to increase sustainable and energy efficient construction and renovation activities.
The Innovation Lab act4energy is set up as an innovation laboratory project. Its focus is to solve the problems of renewable energies integration with a focus on photovoltaic power paired with local consumption, linked to the the high fluctuation of renewable energies.
Intensified Density - a small scale densification strategy for the suburbs by using modular construction
The project investigated whether a small scale densification strategy for the suburbs / intermediary cities, using modular construction, and existing infrastructure on empty plots of land, can offer a competing alternative to not only the sprawl of single family dwellings but also to large projects.
Assessment of the potential for pre-commercial procurement in the Smart City energy sector in Austria in the areas of innovative building technologies, urban energy systems and systems for urban planning. The results will serve as the basis for recommendations for future priority setting for public procurers.
The consumption of ecological and economic resources over the whole life cycle is supposed to be anticipated and optimised in the design process of buildings and refurbishments. A combined life cycle assessment model together with an economic-ecological base element catalogue considering the klima:aktiv criteria was developed based on the structure of the life cycle cost model LEKOS and the ecological valuation tool Ecosoft.
Life Cycle Cost Forecasting Model - Real Estate-Database analysis for life-cycle based investment decisions
Estimation of operational costs of buildings based on a "cause/effect model" between technical building characteristics, investment and running costs to support the decision making process in early planning stages regarding energy efficient buildings.