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Stutterecker, Werner
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Official Name
Stutterecker, Werner
Main Affiliation
Akademische Titel
DI(FH) DI, PhD
Email
werner.stutterecker@fh-burgenland.at
Scopus Author ID
55303713600
Status
staff
Research Outputs
Now showing 1 - 10 of 26
- PublicationUsing heat for cooling in biomass based energy systems: technological challenges and solutions(2009-09-30)
;Pinter, Christian; 115 1 - PublicationIDES-EDU-new educational program for sustainable buildings(Czech Technical University in Prague, 2013)
;Dvořáková, Pavla ;Kabele, Karel ;Brunsgaard, Camilla ;Wyckmans, Annemie; ;Magyar, Zoltan ;Almeida, Manuela ;Laskari, Marina ;Bartkiewicz, PiotrOp 't Veld, Peter87 1 - PublicationSimulation of a Magnetocaloric Heat Pump in Building TechnologyIncreased quality of building envelopes in the last decades leads to decreased heating demands of new buildings and therefore heating devices with lower heating powers are needed. !ere is a lack of suitable solutions in the heating market in the small power range, which can cover small heating loads decentral without distribution losses. In the presented study, the potential of magnetocaloric heating is investigated. Apart from the advantage that no climate-relevant gases are used compared to commonly used compression heat pumps, this technology is suitable for covering low heating requirements. A cornerstone of the investigation is the development of a programme for simulating the behaviour of a building-integrated magnetocaloric heat pump. Target is to determine the effect of the change in basic properties such as the nature of the magnetocaloric material, the magnetic flux density, the working frequency, etc., but also to determine the influence of building parameters on the overall efficiency of the heating system.
126 688 - PublicationPELTIER HEAT PUMP- Test methods and results of thermoelectric modules(9th International Conference on Indoor Climate of Buildings, Štrbské pleso 2016, 2016)
; ; ; ; ;Aschauer, JohannAschauer, Rudolf2 1 - PublicationPELTIER HEAT PUMP- Test methods and results of thermoelectric modules(9th International Conference Indoor Climate of Buildings, 2016)
; ; ; ; ;Aschauer, JohannAschauer, Rudolf135 2 - PublicationOptimization of thermal environment in a building with low-exergy radiant systems and glazed facadeThe aim of this study is to evaluate the potential of thermal comfort enhancement in a selected zone of a modern office building with high ratio of glazed façade and a heating / cooling system with high thermal inertia, equipped with low-exergy radiant heating and cooling. Experimental measurements performed over three reference weeks, distributed over heating, transition and cooling period, revealed overheating during 15 % - 30 % of the evaluated time intervals in the heating period. A simulation model of the reference zone with four variations of ventilation and shading system control strategies was created in TRNSYS to investigate the possibilities of thermal environment optimization. Three different heating/ cooling radiant systems were implemented to the model with the optimal set-point variation. The simulations indicate a potential to significantly enhance thermal comfort by improving the control strategy of the heating system and of the external blinds, however, the difference between the thermal environments created by the three different radiation systems were negligible.
90 1 - PublicationUsing heat for cooling in biomass based energy systems: technological challenges and solutions(2009-09-30)
; ; Pinter, Christian87 1 - PublicationIntegrated energy design – Education and training in cross-disciplinary teams implementing energy performance of buildings directive (EPBD)(Elsevier, 2014)
;Brunsgaard, Camilla ;Dvořáková, Pavla ;Wyckmans, Annemie; ;Laskari, Marina ;Almeida, Manuela ;Kabele, Karel ;Magyar, Zoltan ;Bartkiewicz, PiotrOp 't Veld, PeterIn Europe, energy and climate policies started to take shape from the 1990s onwards culminating with the ambitious 20–20–20 climate goals and the Low-Carbon Europe roadmap 2050. The European Commission empower the importance of achieving the objective of the recast Directive on energy performance of buildings (EPBD) that new buildings built from 2021 onwards will have to be nearly zero-energy buildings. The general belief is that the energy performance optimization of buildings requires an integrated design approach and cross-disciplinary teamwork to optimize the building's energy use and quality of indoor environment while satisfying the occupants' needs. In this context, there is a substantial need for professionals such as architects and engineers specifically trained and educated in integrated design approach and trained to work in cross-disciplinary teams. To be able to push forward the development, it is essential that educational institutions foster professionals with such knowledge, skills and competences. An initiative toward this direction is the EU-project of IDES-EDU: “Master and Post-Graduate education and training in multi-disciplinary teams”. The paper describes the necessity of more integrated and cross-disciplinary approaches to building design through state-of-the-art of the building sector and educational initiatives in the participating countries in the project, and through theory of design processes. The paper also communicates the results of newly developed cross-disciplinary education established by fifteen different educational institutions in Europe. Finally, the paper explains and discusses the challenges encountered during development and implementation of the education across different professions and countries.152 1Scopus© Citations 33
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