Marin Binički scite author profile

Marin Binički

4Publications

8Citation Statements Received

0Citation Statements Given

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University of Zagreb

Publications

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Passive Night Cooling Potential in Office Buildings in Continental and Mediterranean Climate Zone in Croatia

2022

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The envelope is one of the most important driving factors in the energy efficiency of buildings. Typical for office and commercial buildings, curtain wall facades allow solar heat gains to be used during the winter but can lead to difficulties in reducing the cooling load during summer. The cooling load is dominant in most building types in the temperate maritime climate, while in the temperate continental climate, it is dominant mainly in office and commercial buildings. The goal of this research was to determine the potential of night passive cooling in an office building model in the most populated urban areas in Croatia-Zagreb and Split, which are located in two different climate zones. Suitable to the climate on-site, an appropriate building envelope and various types of passive and mechanical ventilation systems were selected for each location and case. Additional factors included and analysed were climate conditions, heat gains, the heat accumulation of the building, night ventilation through openings, unwanted air infiltration, and cooling loads. Through a detailed description of the model, passive cooling potential calculations, and Computer Fluid Dynamics (CFD) simulations, the results showed a potential of up to 43.5% savings in the cooling energy need for the temperate continental climate and 32.2% in the temperate marine climate. It was found from the analysis that night ventilation is expected to cool down the building enough to delay a need for cooling by several hours and improve fresh air requirements, thus saving power for cooling, and effectively reducing the need for air conditioning.

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Sustainability, Environmental Performance and Energy Efficiency in Higher Education: Faculty of Architecture, University of Zagreb

Muraj

Veršić

Binički

2020

IOP Conf. Ser.: Earth Environ. Sci.

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Sustainability, environmental performance and energy efficiency have become main subjects not only for the profession of architecture, but for every profession, as well. Within the scope of this conference, and more specifically the overall energy performance of buildings, the section dealing with the higher technical education has special relevance. The need for incorporating sustainability and energy parameters in higher education has been recognised for some considerable time now. As academic staff members teaching in technical courses at the Faculty of Architecture, University of Zagreb, we are always under time pressure in keeping up with the newest performances in structure and technology facing the question: How to realise and improve the graduate framework and the learning and teaching plan of environmental issues in the courses that we teach? The paper examines available study programme ‘Architecture and Urban Studies’ within the master degree programme at the Department of Architectural Technology and Building Science. The new compulsory course Architecture and Technology 1 (AT1_2018/2019) addresses the topics of building energy consumption and emissions, rational use of energy, environmental impact, high performance efficiency and sustainable building. By comparing a selection of students’ works in different groups conducted experimentally for the first time, the paper will discuss the project approach, give a critical evaluation of the selected case studies and some lessons learned from attempts to incorporate environmental issues into the unit syllabus. Through this paper we attempt to share information and deepen the discussion within the academic community. Finally, as a contribution, it is expected to increase the ways by which parameters of energy and environmental sustainability can become an integral guiding principle in the design and delivery of all academic courses offered at the Faculty.

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Passively Maintained Closed Cavity Façade—Experimental Validation of the Mathematical Thermal Model

et al. 2023

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Although glass façades have been on the market for over a century, new improvements, following sustainable standards, are still being invented. An improvement of the actively maintained CCF has occurred in passive maintenance with natural ventilation of the cavity and insulation glass unit placed on the external side, which has served as a true motivation for further research. To develop the idea, a new type of CCF was invented, followed by the creation of the software, whose purpose is to determine optimal CCF façade components. During this research, an experimental and mathematical model was made regarding the thermal behavior, later validated by the measurements on-site in Rugvica, Croatia. Using simplified but unconventional methods, numerous formulae and variables, a simulation of climatic loads onto the CCF was conducted. Validations of the thermal model were made during winter and summer periods for southern and western façade orientation, explaining how heat transfers from the environment to close cavity façade elements. It was found from the analysis that air temperatures of the façade elements follow the outer air temperature, by constant air exchange with the outer space. The results showed great potential with up to 3 °C (5–10%) of difference in experimental and calculated results, thus creating a basis for further improvement of the software with the addition of structural and hygric behavior of the façade element, regarding climate conditions.

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Nearly Zero Energy Building CO2 Emissions

Binički¹,

Veršić²,

Muraj³

2020

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Marin Binički

Passive Night Cooling Potential in Office Buildings in Continental and Mediterranean Climate Zone in Croatia

Sustainability, Environmental Performance and Energy Efficiency in Higher Education: Faculty of Architecture, University of Zagreb

Passively Maintained Closed Cavity Façade—Experimental Validation of the Mathematical Thermal Model

Nearly Zero Energy Building CO2 Emissions

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