. . . "InTech" . "Convection and Conduction Heat Transfer - Properties and Numerical Modeling-Simulation of Phase Change Material" . "RIV/00216305:26220/11:PU94342" . . . "heat transfer, convection, conduction, phase change material, finite element analysis"@en . . "3"^^ . "Convection and Conduction Heat Transfer - Properties and Numerical Modeling-Simulation of Phase Change Material"@cs . "Rijeka, Croatia" . "Convection and Conduction Heat Transfer - Properties and Numerical Modeling-Simulation of Phase Change Material"@en . "3"^^ . . . "Convection and Conduction Heat Transfer" . . "Convection and Conduction Heat Transfer - Properties and Numerical Modeling-Simulation of Phase Change Material"@cs . "Fiala, Pavel" . "978-953-307-582-2" . "26220" . . "Convection and Conduction Heat Transfer - Properties and Numerical Modeling-Simulation of Phase Change Material"@en . . "394"^^ . "B\u011Bhunek, Ivo" . . . "Drexler, Petr" . . . "InTech Open" . "There exists a domain of models that is principially classified into the linear and non-linear fields of modelling. In the field of non-linear modelling, significant progress has been made since the 1960s thanks to the widespread and regularly available computer technology. This dynamic development influenced a large number of problems including the description of physical behaviour of non-trivial tasks. Non-linear models are solved in the material, spatial, and time domains. However, certain non-linear model domains are not sufficiently developed or regularly used for analysis of the more simple tasks. This group includes task models using non-linear discontinuous characteristics of materials, which can be exemplified by the change of state of a material during heating or cooling. In this section, we would like to use several descriptive examples to expose the problem of thermal tasks solution utilizing applied materials with a phase change (PCM) (Gille, T.; at al. 2007, Volle, F. at al. 2010, Shi, L"@cs . . . "Convection and Conduction Heat Transfer - Properties and Numerical Modeling-Simulation of Phase Change Material" . . "Z(MSM0021630513), Z(MSM0021630516)" . "[03FBDEB71782]" . "RIV/00216305:26220/11:PU94342!RIV12-MSM-26220___" . "191952" . . "There exists a domain of models that is principially classified into the linear and non-linear fields of modelling. In the field of non-linear modelling, significant progress has been made since the 1960s thanks to the widespread and regularly available computer technology. This dynamic development influenced a large number of problems including the description of physical behaviour of non-trivial tasks. Non-linear models are solved in the material, spatial, and time domains. However, certain non-linear model domains are not sufficiently developed or regularly used for analysis of the more simple tasks. This group includes task models using non-linear discontinuous characteristics of materials, which can be exemplified by the change of state of a material during heating or cooling. In this section, we would like to use several descriptive examples to expose the problem of thermal tasks solution utilizing applied materials with a phase change (PCM) (Gille, T.; at al. 2007, Volle, F. at al. 2010, Shi, L"@en . . . "28"^^ . "There exists a domain of models that is principially classified into the linear and non-linear fields of modelling. In the field of non-linear modelling, significant progress has been made since the 1960s thanks to the widespread and regularly available computer technology. This dynamic development influenced a large number of problems including the description of physical behaviour of non-trivial tasks. Non-linear models are solved in the material, spatial, and time domains. However, certain non-linear model domains are not sufficiently developed or regularly used for analysis of the more simple tasks. This group includes task models using non-linear discontinuous characteristics of materials, which can be exemplified by the change of state of a material during heating or cooling. In this section, we would like to use several descriptive examples to expose the problem of thermal tasks solution utilizing applied materials with a phase change (PCM) (Gille, T.; at al. 2007, Volle, F. at al. 2010, Shi, L" .