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The current global warming caused by the enormous negative effects of climate change rings alarm bells to humanity. It requires a colossal cooperation of scientific researchers and practitioners in all professions to invent innovating solutions to reduce the impact of global warming. In fact, the use of kinetic facades in architecture helps to save up to 50% of energy used in office space and to reduce 20% of CO2 emissions of entire building. Thus, how effective can the use of kinetic facades be in different climate regions? This research employs Grasshopper to design kinetic facades based on Minimal surfaces. DIVA 4.1 and LadyBug software based on the EnergyPlus are used to generate output data of energy use for cooling system of kinetic facade and 06 conventional facades in Berlin, Ho Chi Minh and Las Vegas in two SRES scenarios (A1FI and B1) of the IPCC in 2020, 2050 and 2080. The output data shows that the performance of the kinetic facade is approximately 40% higher than the facade with high-performance double glazing. Meaning, there is great potential to apply kinetic facades in various places on Earth in the current context of severe climate change.
For the third time we were able to hold our PhD workshop "Research is Calling" on smart medical devices and systems, this time in Berlin again. This unique workshop brings together young scientists from computer science and medicine to provide a forum to discuss the very latest approaches to smart medical devices and systems. This year, for the first time, it is possible to publish corresponding workshop proceedings via the publication service of the Brandenburg Technical University (BTU). In our view, this format can create true interdisciplinarity because everyone presents their ideas and interim results to colleagues from a wide variety of disciplines and, conversely, hears and sees the latest from many other specialties. This forum is the vehicle for initiating new collaborations and planning joint research projects. The 'Cottbus project' emerged from personal partnerships between 'technicians' and 'physicians' and was planned from the beginning as a platform and an offer: as a platform for free and fully open scientific exchange and discourse, as an offer to all who are interested, also and gladly beyond Brandenburg. Begun as a "PhD Colloquium", Cottbus' "Research is Calling" is an ideas laboratory for young scientists. Cottbus is to establish a university medical faculty in the next few years as part of the structural change program following the coal phase-out. From our point of view, this lab is an important building block to establish cross-sectional issues right at the interface between medicine and technology, a culture of open discourse and scientific dialogue. The workshop covers the following topics in particular: Smart sensors for medical applications, Low-power wearable sensors, artificial intelligence for medical applications, medical robots, algorithms for medical applications, applications and case studies. Despite the pandemic situation the workshop could be held in presence. In five exciting presentations new ideas and cooperation possibilities were shown. Two keynotes (including Alina Nechyporenko, Marcus Frohme as special guests) and a dinner rounded off the program. At this point we would like to thank all participants, the reviewers, and the organizers, Stefan Scharoba and Kathleen Galke. We look forward to establishing this event as permanent and reaching an ever-growing audience.
Learning from the past, designing for the future : sustainability of the Mediterranean vernacular
(2020)
With climate change and the depleting ozone layer, awareness about protecting the environment is increasing and “Sustainable Architecture” is becoming an essential part of the architectural future of cities. However, sustainable buildings of today are being built with high cost, high tech systems which can be reduced by taking advantage of past technologies and systems. The brilliance of vernacular architecture and the way man adapted to his surroundings fascinated me and inspired me to do further research on the sustainable characteristics of vernacular settlements of the Mediterranean area in order to determine if these characteristics can be applied to present and future architecture in an innovative way to create sustainable buildings with least possible energy consumption.
The method of research was based upon a general analysis of the passive design (solar and wind) characteristics of a town or settlement in Mediterranean climate starting from its site elements such as topography, vegetation, water. After that its urban structure, such as the geometry, block and street orientation and dimensions. Following that, the dwelling characteristics like dwelling shape, orientation and dimensions and finally the thermal regulating elements found in these dwellings, such as windows and vegetation. These elements were given a score according to their contribution to energy savings in buildings. Four case studies were chosen: two vernacular case studies from the region of study (the Mediterranean Coasts) and two modern case studies inspired by the Mediterranean vernacular. The analysis was repeated in the same sequence mentioned: Site, Settlement, Dwelling, Element, for the actual performance of each case study. The elements were given a number of points out of the score assigned for each element in the general analysis.
A total score and rating for each case study resulted from this analysis. The objective of these scores were to compare the performance of the vernacular case studies to the vernacular inspired case studies in terms of energy savings. The final scores displayed comparable results between both types of case studies meaning that when these modern settlements were designed with an influence from the Mediterranean vernacular, their performance in energy savings was close to that of a vernacular settlement. That means that it is possible to design settlements which are influenced by vernacular settlements and can even defeat them by following the general guidelines of the vernacular passive design characteristics in addition to modern tools and innovative methods. These guidelines can be reflected in a handbook and rating system which can become a simple step by step guide for architects and planners to design sustainable settlements without the need for expensive and complicated rating systems and consultants.
Hybride PV-Fassaden sind gleichzeitig solarelektrisch und solarthermisch nutzbar (segmentierter Fassadenzwischenraum als Wandkollektor/Doppelfassade). Die Wechselwirkung zwischen der konstruktiven und anlagentechnischen Einbindung solcher Fassaden in das Gebäude und ihrer energetischen und raumklimabeeinflussenden Wirkung wurde in dieser Arbeit untersucht. Im Feldversuch (Umweltzentrum Cottbus) konnte eine beispielhafte Lösung zur Integration einer derartigen Fassade realisiert (Betriebszustände: freie und motorische Hinterlüftung bzw. geschlossene Fassade) und messtechnisch ausgewertet werden. Ein Modell zur Simulation und Bewertung unabhängiger Systemvarianten wurde auf Grundlage des thermischen Simulationsprogrammes TRNSYS erarbeitet. Damit konnten Aussagen zur Optimierung und zu Anwendungsgrenzen aus raumklimatischer und wirtschaftlicher Sicht getroffen werden.