Projects
There are 467 results.
ClimateConcrete Bregenz - Model development of transferable NEB quality processes for climate-resilient urban districts in Bregenz
KlimaKonkret Bregenz is not a traditional planning project; rather, it develops a clear framework for quality and decision-making in future urban development. Its aim is to bring together topics such as climate resilience, mobility, building culture, and social issues in a way that enables policymakers and administrators to make well-informed, sustainable long-term decisions. This results in concrete tools, such as binding quality criteria in accordance with NEBKritQ and—where appropriate—a design guideline derived from these criteria for future projects.
ClimateLENS | KlimaBLICK: Prototyping a GHG emission and climate protection indicators monitoring system in Austria
Buidling on the successful achievements of the former precursor research Austrian Space Application Program (ASAP18) GHG-KIT project, the scope of the follow-up ASAP 25 flagship initiative ClimateLENS is to prototype an Earth Observation (EO)-integrated greenhouse gas (GHG) emission and climate Monitoring Reporting and Verification (MRV) Information Communication and Technology (ICT) system, with two main components: (i) Pillar 1: Land Use Land Use Change and Forestry (LULUCF) and atmospheric modelling of GHG fluxes at nested national, Federal States (Bundesländer) and municipality levels, (ii) Pillar 2: Development of climate protection EO-indicators for selected climate-neutral cities.
Climbing plant NAVI - Webapplication for the reliable selection of climbing plants
The comprehensive web application "Climbing Plants NAVI" takes important parameters such as the type of greening, weight classes, toxicity, ecological value, the possibility of culinary use, into account and thereby supports the selection of suitable climbing plants for greening projects. The climbing plants NAVI is not only intended for municipal representatives, planners and other professionals, but is also directed at private individuals.
Co-Housing Gutenberg: Integrated Sector Coupling for Shared Living, Energy, and Mobility
The "CoHoGutenberg" project aims to establish a sustainable co-housing model in the rural community of Gutenberg, Styria, by combining sufficiency principles with state-of-the-art energy technologies.
CoSpatial Heat - Joint spatial coordination of heat supply in Gleisdorf
CoSpatial Heat is developing an integrated, geodata-based heating and gas supply planning concept for the Gleisdorf region. By jointly considering space heating, process heat, and gas infrastructure, future supply, expansion, and decommissioning areas are identified. The systemic integration of GIS analyses, consumption data, energy audits, and stakeholder knowledge generates robust decision-making foundations for municipalities, industry, and network operators.
Commercial Quarter Erdberger Mais (EBM) - Transformation of a Business Development Area into a Climate-Resilient Commercial Quarter
The project addresses the urgent need to further develop existing industrial areas in a climate-resilient, resource-efficient, and future-oriented way. The approximately 7.6-hectare commercially used site in Vienna is to be developed as an industrial-commercial area in line with the Wien-Plan (Urban Development Plan 2035).
Cool Windows - Windows with shading optimising the trade-off between summery overheating, wintery heat protection and adequate illumination
Windows with their associated components such as sun and glare protection are optimised as a holistic building equipment unit regarding different seasonal requirements in light of the climate crisis. The results serve as a basis for new developments in the window and shading technology in order to provide summery and wintery heat protection as well as adequate natural illumination over the year.
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.
Cooling LEC - Energy-flexible buildings by controlling cooling systems via unidirectional communication in local energy communities
As a result of climate change and the rise in temperature, especially due to the increase in active cooling systems, especially at low-voltage level, new challenges are being posed to the electricity system (in particular to the distribution network). Due to the high electrical input of active cooling units and the high density of plants, which are sometimes operated uncoordinated and at unfavorable times, leads to peak consumption in the system. The project Cooling LEC therefore has as its overall objective the development and demonstration of a central control / intelligence of decentralized active cooling systems by further developing the unidirectional communication of ripple control systems to create energy-flexible buildings in the sense of the new approach of "Local Energy Communities" by creating a "special tariff". Ripple control systems have been established for many decades and are available and proven by all energy suppliers. The upscaling potential is very big.
Cooperative Living Volkersdorf (KooWo - Volkersdorf) - sufficiency, space and energy efficiency in the quarter
The jointly planned demonstration project "KooWo" in Volkersdorf aims at reaching sufficiency as well as energy and CO2 reductions in a holistic way. System boundaries are shifted in order not to look only at energy consumption in buildings, relating to unit of floor space, but to consider all use of resources and relating it to persons and social communities.
Counterintuitive Building Types - Innovation Potentials for Sustainable Transformation of Commercial and Retail Locations
Selected commercial retail and properties provide existing resources for this project’s case studies that will convert and further develop them towards more positive energy, use, and life cycle balances. The currently underperforming properties will be transformed into more active and attractive places of higher experiential density and environmental relevance through multiplication of space and uses in the interior and exterior areas, demonstrating opportunities for more sustainable development of these understudied building typologies.
DALEC - Day- and Artificial Light with Energy Calculation
In the course of DALEC an online concept evaluation tool for architects, building engineers, lighting designers and building owners was developed. Although easy to use, the software accounts for the complex thermal and light processes in buildings and allows a simple evaluation of heating, cooling and electric lighting loads. Not only energy, but also user behavior were considered (e.g. in terms of glare protection) and visual and thermal comfort were evaluated. This novel and innovative, holistic approach makes sustainable and energy efficient building design possible for new buildings as well as refurbishment.
DEKARBOdezentral - Cost-effective Implementation of Decentralised Decarbonisation in Residential Buildings
The project explores cost-effective, decentralised heat pump solutions as an alternative to gas-fired floor combi boilers in existing flats. By utilising existing infrastructures such as chimney shafts, minimally invasive decarbonisation is enabled without comprehensive building refurbishment.
DESIREE - Decarbonisation and fighting energy poverty through energy communities
The number of poor people is steadily increasing, while climate change requires our full attention. DESIREE addresses these two issues and explores the potential of energy communities (ECs) as a vehicle for affordable energy, sustainable housing and clean mobility for all parts of the population.
DIM4Energy - Digital Information Models for the Planning and Optimization of Buildings and Urban Energy Infrastructure
Digital information models (DIM) are playing an increasingly important role in urban planning and decision-making processes, from individual buildings (BIM) to urban information models (UIM). For the planning and optimal operation of plus-energy neighborhoods, valuable information could be obtained from these existing models, provided the appropriate data sources and associated software tools are properly linked.
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.
DUO-TES - Double utilization of aboveground and underground sprinkler water tanks as thermal energy storages
Exploratory project on the dual use of sprinkler and fire-fighting water tanks as thermal energy storages and their integration into building-internal heating and cooling processes as well as into district heating and cooling networks. The dual use of this infrastructure promises significant decarbonization and cost-reduction potential through energy savings and an increased share of renewable energy, while simultaneously enhancing system resilience.
DW² - Thermal improvements on diaphragm walls
New materials and installation methods for diaphragm walls will be investigated in laboratory and field tests in order to improve the thermal properties of the construction elements. Additional numerical and ecological aspects are considered to ensure an energetic enhancement of underground constructions such as underground garages or thermal energy storages.
DataScience4SmartQuarters - Energy saving potentials through neighbourhood and community planning – Part 2
DataScience4SmartQuarters develops and researches an innovative method for the fast and efficient evaluation of simulation scenarios (building/energy, mobility) for communities.
DeLight Monitoring - Demo light Impact-Monitoring and metrological investigation of energy-efficient buildings
The Project consists of the metrological examination of eleven innovative buildings in terms of energy consumption and user comfort. In addition, building constructors and operators as well as the public are sensitized to the subject of energy-related optimization of building operation. Also, the potentials of energy-related optimization of building operation are shown.