"S\u00FDkora, Jan" . "The paper reviews several topics associated with the homogenization of transport processed in historical masonry structures. Since these often experience an irregular or random pattern, we open the subject by summarizing essential steps in the formulation of a suitable computational model in the form of Statistically Equivalent Periodic Unit Cell (SEPUC). Accepting SEPUC as a reliable representative volume element is supported by application of the Fast Fourier Transform to both the SEPUC and large binary sample of real masonry in search for effective thermal conductivities limited here to a steady state heat conduction problem. Fully coupled non-stationary heat and moisture transport is addressed next in the framework of two-scale first-order homogenization approach with emphases on the application of boundary and initial conditions on the meso-scale." . . "12"^^ . "21110" . . "Zeman, Jan" . . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "Random masonry; Binary images; Statistically equivalent periodic unit cell; Computational homogenization; Fast Fourier Transform; Coupled heat and moisture transport"@en . . "6" . "1874-1495" . "10.2174/1874149501206010148" . . . "Selected Topics in Homogenization of Transport Processes in Historical Masonry Structures"@en . . . "Selected Topics in Homogenization of Transport Processes in Historical Masonry Structures" . "RIV/68407700:21110/12:00197355!RIV13-GA0-21110___" . . . "The Open Civil Engineering Journal" . . "RIV/68407700:21110/12:00197355" . "http://arxiv.org/abs/1204.6199" . "167305" . "P(ED1.1.00/02.0070), P(GAP105/11/0224), P(GAP105/11/0411)" . . "\u0160ejnoha, Michal" . . "0" . "3"^^ . . "[298CCA2D5429]" . . . "Selected Topics in Homogenization of Transport Processes in Historical Masonry Structures"@en . . . "The paper reviews several topics associated with the homogenization of transport processed in historical masonry structures. Since these often experience an irregular or random pattern, we open the subject by summarizing essential steps in the formulation of a suitable computational model in the form of Statistically Equivalent Periodic Unit Cell (SEPUC). Accepting SEPUC as a reliable representative volume element is supported by application of the Fast Fourier Transform to both the SEPUC and large binary sample of real masonry in search for effective thermal conductivities limited here to a steady state heat conduction problem. Fully coupled non-stationary heat and moisture transport is addressed next in the framework of two-scale first-order homogenization approach with emphases on the application of boundary and initial conditions on the meso-scale."@en . "3"^^ . . . . "Selected Topics in Homogenization of Transport Processes in Historical Masonry Structures" . .