Detail publikace

Spatiotemporal Moisture Field

FUCIMAN, O. MATĚJKA, L.

Originální název

Spatiotemporal Moisture Field

Typ

článek v časopise ve Scopus, Jsc

Jazyk

angličtina

Originální abstrakt

For monitoring capillary moisture conduction, the most important parameter is the moisture conductivity coefficient, which is a material characteristic; however, its use in practical calculations is not very common. For further development in the field of liquid moisture propagation, an automated measuring apparatus has been developed and granted a European patent. Its essence lies in detecting the liquid water content based on a well-known physical phenomenon: electromagnetic radiation in the microwave range. The determination of the spatiotemporal moisture field is the first and fundamental step for describing transportation phenomena. The moisture field thus created allows for the viewing of the moisture conductivity coefficient, which is one of the most important parameters in describing transportation phenomena as a function of moisture. The presence of water in building materials can significantly affect their physical properties, such as mechanical or thermal–technical characteristics. This may lead to unacceptable consequences, which might only manifest after a certain period of time. In the case of multi-layered structures, moisture can transfer from one material to another. Therefore, it is essential to address this process. The advantage of the software solution described by the methodology is the use of an open communication protocol in the form of a synchronized array, which is not common in typical applications of this type. The principle of separating hardware modules is also unusual for devices of this type, as it requires the independent communication of each module with the control software. Mutual communication is handled exclusively at the software level, making it possible to modify, optimize, or parameterize the procedures as needed. Upon closer examination of the wetting curves of various materials, anomalies were revealed in some of their structures. This can be advantageously utilized in the research of newly developed composite materials. The assembled system of measuring instruments, their software integration, and control provide a foundation for the practical application of the described procedures and methods for determining the moisture field of building materials. The parameterization of individual processes, as well as the open access to data, allows for the optimization of the methodology, as materials of entirely different characteristics may require an individual approach, which will certainly contribute to the advancement of science and research in this area. Currently, this work is being followed by further extensive studies, not yet published by the authors, focusing on the application of the described moisture field to evaluate the moisture conductivity coefficient as a function dependent on the material’s mass moisture content. Their application requires specific mathematical and programming approaches due to the significant volume of data involved.

Klíčová slova

monitoring; spatiotemporal moisture field; moisture conductivity coefficient; moisture transfer; measurement

Autoři

FUCIMAN, O.; MATĚJKA, L.

Vydáno

2. 11. 2024

Nakladatel

MDPI

Místo

Switzerland

ISSN

2075-5309

Periodikum

Buildings

Ročník

14

Číslo

11

Stát

Švýcarská konfederace

Strany počet

24

URL

BibTex

@article{BUT193509,
  author="Ondřej {Fuciman} and Libor {Matějka}",
  title="Spatiotemporal Moisture Field",
  journal="Buildings",
  year="2024",
  volume="14",
  number="11",
  pages="24",
  doi="10.3390/buildings14113510",
  issn="2075-5309",
  url="https://www.mdpi.com/2075-5309/14/11/3510"
}