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PV-Arc Detection - Circuit supervision using DC-Arc Detection in PV systems on dwellings.
It was the aim of this project to make a technology leap in the safe and realistic detection of DC arcs. In reality the variety of conditions of ignition is huge and therefore not covered by the standards and most available products. The focus of this project was the research of conditions of ignition, to derive new detection methods based on the outcomes.
PVOPTI-Ray, Optimization of reflecting materials and photovoltaics in urban environment with respect to energy balance and bioclimate.
Within the scope of the project PVOPTI_Ray the influence of reflection and energy balance on the performance of building integrated photovoltaics (PV) in complex urban environment have been investigated. Equally the influence of PV modules and of the energy conversion of solar energy at the PV module surface has an impact on micro climate and therefore also on pedestrians who are exposed to the radiation fluxes. This was also investigated.
Photonic Cooling – Efficient cooling of buildings through the use of photonic
Within the scope of the project a photonic cooling approach was investigated and evaluated in terms of feasibility and cost efficiency for building applications. In particular cost-efficient photonic surfaces and concepts were investigated which need to have a high reflectivity in of the incident solar radiation (>97%) and a high emission coefficient within the spectral range of 8 – 13 micrometer in order to enable the emission of heat into the sky.
Photovoltaic solar modules for building integration
Development of new manufacturing technique for photovoltaic solar modules, which fulfil the special requirements of building integration.
Poly2Facade - Innovative thermal self-regulating solar facades by means of functional polymers
The overall objective of the present project is to develop and implement an optimal overheating protection system based on polymeric materials. The aim is to reduce maximum room temperatures in buildings caused by facade integrated solar-thermal collectors in stagnation.
Possibilities of urban high-rise multi-storey buildings in a timber-frame method with target course eight or more floors
Research of urban high-rise multi-storey buildings in a timber-frame construction method. Fundamental clarification of the feasibility in relation to the supporting structure, fire prevention and security. SWOT analysis as well as economic, ecological research concerning sustainable design.
Potential and concepts for waste water heat recovery in combination with solar collectors and heat pumps (WRGpot)
The objective of the project is to find possibilities for the reduction of heat demand for hot water preparation of low energy and passive house buildings, in order to advance a further step into the direction of plus-energy buildings.
PowerShade - Development of electricity-generating shading solutions for energy-flexible buildings in urban space
The main goal of the cooperative R&D project "PowerShade" is the development of low-cost and universally usable electricity-generating shading solutions for energy-flexible buildings in urban space.
ProKlim - Optimisation of Energy Efficiency of automated indoor climate systems by using weather forecasts
Investigation of the basic energy savings potential for buildings in commercial use by including weather forecasts as a variable. Additionally, a concept for integrating weather forecasts into the heating and air conditioning control systems in buildings is planned to be developed. Within the scope of the feasibility study, a detailed analysis of technological possibilities, including both hardware and software, will be conducted.
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.
Probing for PV façade systems made of lightweight plastic modules with reversible fittings for new and old buildings (PV-FAS_light + easy)
Probing for a new, simple, cost-effective and building-integrated PV facade system made of plastic PV modules through initial investigations for fixing technology, for building physics, for fire protection and for electrical engineering concerning the usability, the areas of applicability and the yield and application potentialfor new buildings and for existing buildings.
P³Power - Plug&Play Storage of Photovoltaic Power
The core of the project P³Power is the measurement technology NetDetection, which is able to detect the power consumption of a household from any point, e.g. a regular wall socket. Based on this technology a plug&play powerplant, consisting of photovoltaics and battery pack, is realized. The system is able to guarantee 100% self-consumption within flexible aggregates (from single households to whole communes) without any changes of existing infrastructure. The measurement technology will be implemented into digital hardware, evaluated comprehensively in lab and household environment and subsequently new energy service business models are developed.
RAARA - Residential Area Augmented Reality Acoustics
Populations with high exposure to noise emissions will generally agree: Noise means trouble. The aim of project RAARA is to develop a simple, intuitive albeit accurate method for reducing noise imissions in urban areas. This method involves placing a noise-source into its planned real-world destination prior to actual installation, by means of augmented reality. The ensuing sound-imissions are then made tangible by means of sound effects and coloured visualizations. This exceptional approach will facilitate planning for heating and cooling devices and thus reduce noise pollution in urban areas. This, in turn, can contribute to an increase in societal acceptance and investment in renewable energy.
RCC – Reduced Carbon Concrete: Implementation of CO2-redudes concrete in construction sites
The objectives of the present project "RCC - Reduced Carbon Concrete" were to test the current knowledge about the temperature-dependent curing processes of performance concretes by concrete work on large components on the construction site, under summer and winter conditions, and in precast production. The results will be incorporated into construction practice and standardization work.
RCC2 - Life cycle assessment of heatable formwork for CO2-reduced and climate-neutral concrete
Experimental development of innovative formulations of CO2-reduced concrete and heated formwork to support early strength development in wintry temperatures.
ReAssuRe – risk management for re-use of construction components and building technology by non-destructive on-site testing procedures
Risk assessment and insurability is essential for the re-use of functional components in buildings. In the best case, properties of components can be examined before they are removed from the donor building. ReAssuRe identifies suitable on-site testing procedures and establishes a network for the quality assurance of re-use components.
Revolutionary, cost efficient bitumen rooftop membrane with integrated photovoltaic modules
The project goal is to adapt the photovoltaic (PV) modules of crystalsol and an appropriately designed production process in order to integrate the flexible photoactive layer cost-effectively into waterproof roof membranes. At the end of the project the first membranes with integrated PV-layers will be produced. The success of this project would lead to enormous cost cutting and technological development advantages in the BIPV technology.
S - House
Innovative Use of Renewable Resources demonstrated by means of an Office and Exhibition Building
SCI_BIM - Scanning and data capturing for Integrated Resources and Energy Assessment using Building Information Modelling
The aim of the project is to increase the resources- and energy efficiency through coupling of various digital technologies and methods for data capturing (geometry and materials composition) and modelling (as-built BIM), as well as through gamification.
SOLROSE FP - bionical designed solarthermal collector, final product developement
Archieved goal was the final product developement oft he innovative solarthermal collector SOLrose from prototype to seriel production. Enhancements of SOLrose with respect to the state oft he art: attractive design for frontage integration, serial production of system modules, distribution and assembling.