J
Jiří Maděra
Researcher at Czech Technical University in Prague
Publications - 130
Citations - 675
Jiří Maděra is an academic researcher from Czech Technical University in Prague. The author has contributed to research in topics: Moisture & Thermal insulation. The author has an hindex of 14, co-authored 127 publications receiving 587 citations.
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Exterior thermal insulation systems for AAC building envelopes: Computational analysis aimed at increasing service life
TL;DR: In this paper, a computational analysis aimed at increasing service life of exterior thermal insulation systems suitable for building envelopes based on autoclaved aerated concrete (AAC) in the climatic conditions of Central Europe is presented.
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Application of waste ceramic dust as a ready-to-use replacement of cement in lime-cement plasters: an environmental-friendly and energy-efficient solution
Václav Kočí,Jiří Maděra,Miloš Jerman,Jaromír Žumár,Dana Koňáková,Monika Čáchová,Eva Vejmelková,Pavel Reiterman,Robert Černý +8 more
TL;DR: In this paper, a potential application of waste ceramic dust as cement replacement in lime-cement plasters is studied using both experimental and computational approaches, and the results show that compressive strength of ceramics-containing plasters can be up to three times higher as compared with the lime-ccement plaster but their thermal conductivity is higher as well.
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Computational modelling of coupled water and salt transport in porous materials using diffusion–advection model
TL;DR: The results of experimental and computational investigations show that the moisture diffusivity of lime mortar increases fast with increase in moisture content, its maximum value being about 10 −6 m 2 /s, which indicates very fast moisture transport in that material.
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Effect of applied weather data sets in simulation of building energy demands: Comparison of design years with recent weather data
TL;DR: In this paper, the authors discuss the coupled effects of warming trend in global mean surface temperatures, application of different design weather datasets, and utilization of different methods of building energy assessment on the calculated energy demands.
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Parallel modeling of hygrothermal performance of external wall made of highly perforated bricks
TL;DR: Coupled heat and moisture transport in highly perforated bricks is indispensable part of design of energy efficient buildings and parallelization is based on the Schur complement method which is able to deal with nonsymmetric systems.