Detail publikace

Analysis of environmental impacts on thermal conductivity of insulation block from secondary raw materials

Originální název

Analysis of environmental impacts on thermal conductivity of insulation block from secondary raw materials

Anglický název

Analysis of environmental impacts on thermal conductivity of insulation block from secondary raw materials

Jazyk

en

Originální abstrakt

Due to tightening requirements for thermal protection of buildings, the development of new materials with good thermal insulation properties is supported. Correct design of structural details leads to the elimination of thermal bridges and to the improvement of the indoor environment. Thermal conductivity of materials is not constant, is influenced by many factors. In addition to density and bulk density, structure and composition of material, it epends mainly on the humidity and temperature of the material. In the framework of sustainable construction, emphasis is placed on reduction of natural resources consumption, saving of energy and minimization of the harmful effects resulting from the processing of primary raw materials. Also one of the greatest problems of today is waste disposal. The simplest option in terms of technology and economic costs is a landfill. Many materials - in particular waste polymers - subjects to chemical changes very slowly. Therefore there is a support of the efforts to extend the product life cycle through recycling. Thermal insulating blocks made from secondary raw materials, described in this paper, are one of the solutions to this problem.

Anglický abstrakt

Due to tightening requirements for thermal protection of buildings, the development of new materials with good thermal insulation properties is supported. Correct design of structural details leads to the elimination of thermal bridges and to the improvement of the indoor environment. Thermal conductivity of materials is not constant, is influenced by many factors. In addition to density and bulk density, structure and composition of material, it epends mainly on the humidity and temperature of the material. In the framework of sustainable construction, emphasis is placed on reduction of natural resources consumption, saving of energy and minimization of the harmful effects resulting from the processing of primary raw materials. Also one of the greatest problems of today is waste disposal. The simplest option in terms of technology and economic costs is a landfill. Many materials - in particular waste polymers - subjects to chemical changes very slowly. Therefore there is a support of the efforts to extend the product life cycle through recycling. Thermal insulating blocks made from secondary raw materials, described in this paper, are one of the solutions to this problem.

BibTex


@article{BUT97438,
  author="Alena {Kalužová} and Jan {Pěnčík} and Libor {Matějka}",
  title="Analysis of environmental impacts on thermal conductivity of insulation block from secondary raw materials",
  annote="Due to tightening requirements for thermal protection of buildings, the development of new materials with good thermal insulation properties is supported. Correct design of structural details leads to the elimination of thermal bridges and to the improvement of the indoor environment. Thermal conductivity of materials is not constant, is influenced by many factors. In addition to density and bulk density, structure and composition of material, it epends mainly on the humidity and temperature of the material. In the framework of sustainable construction, emphasis is placed on reduction of natural resources consumption, saving of energy and minimization of the harmful effects resulting from the processing of primary raw materials. Also one of the greatest problems of today is waste disposal. The simplest option in terms of technology and economic costs is a landfill. Many materials - in particular waste polymers - subjects to chemical changes very slowly. Therefore there is a support of the efforts to extend the product life cycle through recycling. Thermal insulating blocks made from secondary raw materials, described in this paper, are one of the solutions to this problem.",
  address="Trans Tech Publications",
  chapter="97438",
  institution="Trans Tech Publications",
  number="2013",
  volume="649",
  year="2013",
  month="january",
  pages="223--226",
  publisher="Trans Tech Publications",
  type="journal article - other"
}