The heat conductivity mechanism of the IR heating propagation for surfaces decontamination in protected ground

E3S Web of Conferences Pub Date : 2023-01-01 DOI:10.1051/e3sconf/202339001003

Irina G. Pospelova, P. Dorodov, Ivan V. Vozmishchev, I. Vladykin, Ivan M. Novosyolov

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Abstract

Modern greenhouses usually have flat concrete surfaces with communications for subsurface and above surface heating. It is proposed to disinfect surfaces with infrared radiation. We solve the corresponding heat equation. Field tests of the temperature field in protected ground have been performed to verify the mathematical model validity and to determine the empiric coefficients. The numerical investigation of the solution when the quantity of the Fourier series terms changes from 100 to 200 gives the heating time τ = 15 …16 min. Using these theoretical and experimental investigations one may conclude that the sufficient heating of a surface at the depth up to 5 cm needs a relatively long time of 15 …16 min and the surface will be strongly overheated during this time. We recommend using infrared heating for the decontamination purposes, but only in the case of thin layers of the ground or of the surface. The temperature necessary for the surface contamination and elimination of different pathogenic microorganisms, fungi, rots etc. emerging in the protected ground is achieved at a relatively small-time interval of 30…40 c. We think that the infrared radiation is a powerful and advanced method of sanitation of thin layers and surfaces.

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保护地表面去污红外热传播的导热机理

现代温室通常有平坦的混凝土表面，用于地下和地表上的供暖。建议用红外辐射对表面进行消毒。我们解出相应的热方程。为验证数学模型的有效性和确定经验系数，对保护地的温度场进行了现场试验。当傅里叶级数项的数量从100变化到200时，对解的数值研究给出了加热时间τ = 15…16分钟。利用这些理论和实验研究，可以得出结论，表面在深度达5厘米处的充分加热需要相对较长的15…16分钟，并且在此期间表面将强烈过热。我们建议使用红外线加热来净化，但只适用于地面或表面的薄层。在相对较短的时间间隔(30 ~ 40℃)内，可以达到清除保护地表面污染和消除不同病原微生物、真菌、腐烂物等所需的温度。我们认为红外辐射是一种强大而先进的薄层和表面卫生方法。

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来源期刊

E3S Web of Conferences Energy-Energy (all)

CiteScore

0.90

自引率

0.00%

发文量

1133

期刊介绍： E3S Web of Conferences is an Open Access publication series dedicated to archiving conference proceedings in all areas related to Environment, Energy and Earth Sciences. The journal covers the technological and scientific aspects as well as social and economic matters. Major disciplines include: soil sciences, hydrology, oceanography, climatology, geology, geography, energy engineering (production, distribution and storage), renewable energy, sustainable development, natural resources management… E3S Web of Conferences offers a wide range of services from the organization of the submission of conference proceedings to the worldwide dissemination of the conference papers. It provides an efficient archiving solution, ensuring maximum exposure and wide indexing of scientific conference proceedings. Proceedings are published under the scientific responsibility of the conference editors.