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"Gasthermenersatz" - Modular heat pump with environmentally friendly refrigerant to replace natural gas-based heating systems in large-scale residential buildings
The project "Gasthermenersatz" aims at developing, manufacturing, and testing a functional prototype of a decentralized, sound-optimized heat pump solution with refrigerant circuit modules connected in series or parallel. This renewable technology is well-suited to replace existing natural gas-based heating systems in large-scale residential buildings and to pave the way to carbon-neutral cities.
# Murau : Real-World Laboratory of energy transition for inner-alpine regions
Inner-alpine regions are rich in the natural resources water, sun, wind and biomass. This study investigates how the Murau region can become a stable and fail-safe, renewable 100% region and how it is possible to supply the energy-hungry conurbations as a needs-based energy export region.
#EEG++ Digital Energy Communities Optimized
The project aims to develop an innovative energy system for plus-energy neighborhoods by integrating advanced photovoltaic installations, IoT technology, and energy communities to maximize the self-consumption of renewable energy while ensuring economic efficiency and user-centricity.
3D*3B - 3D-Concret Printing, Reinforcement for low carbon and bending stressed structures.
The project is about 3D printed structural elements and their integration in building structures. The focus is predominantly set on bending stresses structural elements like panels and slabs. Results will point out technical, logistic and climate relevant aspects.
50 green houses - Development and demonstration of a low-tech façade greening system
Development of a cost-efficient all-in façade greening system („Greening-Toolkit“) including a maintenance concept, involving all trades and processes, for a broad (facing roads) implementation on facades in the urban built environment, combined with a process innovation for simplification of all necessary coordination processes.
6D BIM-Terminal: Missing Link for the development of CO2 neutral buildings
The present project aims to close the gap between specialist consultants and Building Information Modeling (BIM) applications. For that, relevant data for cost estimation, scheduling construction planning and management or sustainable building operation and facility management, shall be added automatically to BIM elements and imported into the respective specialist planning software. This data exchange shall be carried out using IFC interface according to ÖNORM A6241-2 and the properties of the ASI properties server via a central platform, the "6D BIM-Terminal".
AIA4ALL - development of open, modular and automatable employer’s information requirements (EIR) and BIM execution plan (BEP)
The Employer's Information Requirements - EIR (German: AIA) - serves the client to define goals and use cases for a BIM-based construction project. The aim of this project is to create a modular, machine-readable AIA that can be seamlessly integrated into the tool landscape of openBIM projects. This is done by developing an open platform for creating use cases for the AIA.
AR-AQ-Bau - Use of Augmented Reality for acceptance and quality assurance on construction sites
The aim of this research project is the development of a construction site-suitable augmented reality (AR) system included a Remote-Expert-System and a BIM-Closed-Loop data transfer system for improving the quality of construction, building security and energy efficiency as well as increasing the efficiency of construction investigation.
AR-HES-B – Energy storage, production and recovery of valuable substances in wastewater treatment plants
AR-HES-B develops technologically based concepts of municipal wastewater treatment plants in order to convert them from energy consumers into a hybrid energy provider, energy storage and a provider of resources. The concept enables wastewater plants to turn into an important platform in the regional energy and mass transfer.
ARIS - Application of non-linear control engineering and implementation of intelligent sensor systems for the improvements of energy efficiency in the building sector
The major goal of the project was the development of innovative control concepts for controlling and optimizing heating, cooling and ventilation systems (HVAC) as well as building loads. The implementation of advanced, energy efficient non-linear control techniques in building management systems is supported by new sensor technologies that are applied to building and energy systems in order to improve their energy-efficient operation.
An innovative approach for facades with optimised noise protection and natural ventilation
The aim of this project was to advance the state of the art in the engineering of double-leaf building facades that facilitate natural ventilation while providing sufficient sound insulation. Realization of natural (window) ventilation is in some instances difficult due to a number of factors. Thereby, noise pollution (especially traffic noise) plays an important role. To address these issues, the project explored innovative solutions in terms of facade constructions for concurrent natural ventilation and noise control.
Anergy2Plus - Demonstration and expansion of an anergy network as part of a holistic energy concept and plus energy quarter
The overall objective of the project is to pursue and demonstrate a holistic approach to the design, construction and ultimately the use of the residential quarter in the context of energy supply. Especially in the area of thermal energy supply, a project with lighthouse character on the way to a plus-energy quarter is to be created by demonstrating the innovative supply concept based on an anergy network.
BIM2BEM Flow - Continuous BIM-based energy efficient planning
Automated integration and assignment of exchange requirements between the design and simulation programs, based on the elaborated exchange information requirements, should enable continuous energy efficiency planning along the design phase.
BIM4BEMS - Building Information Modeling for Building Energy Management Systems
BIM4BEMS explores use cases that represent the usage of building information models (BIM) in combination with building energy management systems (BEMS) during operation. This enables the interaction between BIM and building management systems (BMS) which improves the analysis and visualization of inefficiencies in facilities.
BIM4BIPV - Future aspects of building-integrated photovoltaics (BIPV) in cross-system BIM planning
Research into an end-to-end BIM planning flow for energy-optimised, building-integrated photovoltaics (BIPV) that simultaneously generates solar energy, enables optimal use of daylight and provides shading.
BIMBestand - BIM-based management of existing buildings
The objective of this research project was to develop information requirements and process descriptions for the application of BIM models related to building services in facility management and to demonstrate the lifecycle-oriented use of these models in an open BIM environment. For this purpose, software solutions for the use of IFC in the open-source platform SIMULTAN and building management software were developed and evaluated on the basis of four typical use cases.
BIMSavesEnergy - BIM-based planning-methods for the assurance of energy-efficiency in the building process
The Building Information Model (BIM) brings about fundamental changes in the planning and construction of buildings, as the common base makes it possible to work closely together across disciplines in construction projects. In this project, BIM-based planning methods were developed, which make the influence of planning decisions on energy efficiency quantifiable and controllable in the management process.
BIMaterial Process Design for Material Building Pass
Building Information Modelling supported compilation of a Material Building Pass; as a qualitative and quantitative documentation of the material composition of, and the material distribution within, a building structure. This project is a central milestone towards standardized, BIM-generated building material passes.
BIMpeco - Environmentally relevant product data in collaborative BIM environments
Construction products can pose a risk to the environment and health due to their pollutant content or releases. In the BIMpeco project, workflows and data structures for digital information management of this environmentally relevant product data are developed. For this purpose, the new ISO standards ISO 23387 and ISO 19650-1 are tested and synchronized with established process flows. The project results will be made available on an open-source basis and can be integrated into any Common Data Environment (CDE) that complies with the standards mentioned. The BIMpeco project is the first to lay the foundations for product information management of environmentally relevant properties in the CDE, covering the entire lifecycle and supply chain.
BIOCOOL - Bio-inspired Surfaces for the Evaporation Cooling of Building Envelopes
The BIOCOOL project will explore the transfer of morphological principles from leaves of deciduous trees, with optimized thermal properties and efficiency of evaporation to the parametric design of form-optimized architectural ceramic surfaces for climate control of building envelopes. The study paves the way for an industrial research project.