The aim of BTTAB is to examine applications of the technology of building component activation on the basis of extensive monitoring of Austrian properties and to evaluate and compare the pilot projects with the help of suitable evaluation criteria. The various benefits and potentials of building component activation will be made available to the public in the form of a publishable study.
KMU in the manufacturing sector are a key success factor for the energy transition. Due to limited resources, however, they are often dependent on external impulses in the form of ideas, concepts and implementations in order to exploit their potential for CO2 reduction.
Developing a holistic concept for a digital twin that also includes networking beyond the system boundaries of a single sewage treatment plant in order to enable new possibilities for sector coupling is a time-consuming and labor-intensive undertaking. Even if the potential of a digital twin of a wastewater treatment plant is enormous at first glance - a detailed assessment of the realistically achievable benefit under the actual conditions in the wastewater treatment plant is not possible on the basis of the information currently available.
The overall object of the STAR-C project is to contribute to increased access to quality solar products and services for inclusive and sustainable development by mitigating qualification, certification and accreditation barriers.
Shipping is responsible for the emission of about 1 billion tons of carbon dioxide (CO2) and about 2.5% of global greenhouse gas
(GHG) emissions worldwide. The drastic reduction of GHG emissions from ships has been set as one of the urgent targets to achieve the EU Green deal objectives.
Ammonia is an important CO2-free fuel for the mobility of the future. The project „Green AmmoniaFUEL“ aims to develop an energy efficient industrial concept to separate ammonium-nitrogen from waste water and to deliver ammonia gas that can be used in SOFC fuel cells. This reduces the nitrogen load in waste water treatement plants and enables the conversion of excess nitrogen into a sustainable fuel.
The DIH SÜD initiative was launched to provide the best possible support for SMEs in Austria's southern region in the digital transformation taking place in the coming years.
Biodiversity, animal-aided design, innovative energy management and rainwater management are the focal points of this exploratory project. In interdisciplinary cooperation, an ambitious, future-oriented district concept is being created that goes far beyond common building practice.
The aim of this project is to impart necessary knowledge, skills and competencies in order to develop sustainable simulation methods to plan, construct and operate sustainable cost-efficiently by means of BIM-integrated simulation methods and operate them.
This project reflects an important milestone for forcing the "phase-out of gas". The goal is to switch the heating and hot water supply in residential buildings from gas to innovative heat pump solutions plus PV. However, this also requires a corresponding minimally invasive thermal refurbishment of the existing buildings in order to reduce the required supply temperature to a level that makes sense for heat pumps.