. "P(FR-TI1/144)" . . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "10.1007/s10765-012-1196-y" . "Use of PCM Boards for Solar Cell Cooling"@en . . . "Ba\u0159inka, Radim" . "4"^^ . "PCM - Phase change materials, Solar cells, Specific heat, Thermal conductivity, Thermal diffusivity, Thermal fractal systems"@en . "Zme\u0161kal, Old\u0159ich" . "4"^^ . "Use of PCM Boards for Solar Cell Cooling" . "RIV/00216305:26310/12:PU99218" . "RIV/00216305:26310/12:PU99218!RIV13-MPO-26310___" . "[66E621A1C33D]" . . "0195-928X" . "34" . "5" . . "INTERNATIONAL JOURNAL OF THERMOPHYSICS" . "176396" . . . . "Dohnalov\u00E1, Lenka" . "This contribution explains the use of fractal theory to describe thermal properties of materials. The basic idea is rooted in the theory of fractal fields defined in E-dimensional Euclidian space. Generic equations describing heat distribution are then specialized to describe the changes in heat transfer as a response to step-wise increases in the amount of heat added to the system. This model was then applied to the study of properties of a systems consisting of solar cells attached on a phase-change material (PCM) back sheet board."@en . . "Use of PCM Boards for Solar Cell Cooling"@en . "This contribution explains the use of fractal theory to describe thermal properties of materials. The basic idea is rooted in the theory of fractal fields defined in E-dimensional Euclidian space. Generic equations describing heat distribution are then specialized to describe the changes in heat transfer as a response to step-wise increases in the amount of heat added to the system. This model was then applied to the study of properties of a systems consisting of solar cells attached on a phase-change material (PCM) back sheet board." . . . "\u0160tefkov\u00E1, Pavla" . . . . . . "Use of PCM Boards for Solar Cell Cooling" . "26310" . . . . . "13"^^ .