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Derivation of Heat Conductivity from Temperature and Heat Flux Measurements in Soil

Author

Listed:
  • Victor Stepanenko

    (Research Computing Center, Lomonosov Moscow State University, 119234 Moscow, Russia
    Faculty of Geography, Lomonosov Moscow State University, 119234 Moscow, Russia
    Moscow Center of Fundamental and Applied Mathematics, 119234 Moscow, Russia
    Scientific and Educational Centre “Environmental Dynamics and Global Climate Change”, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Irina Repina

    (Research Computing Center, Lomonosov Moscow State University, 119234 Moscow, Russia
    Moscow Center of Fundamental and Applied Mathematics, 119234 Moscow, Russia
    Scientific and Educational Centre “Environmental Dynamics and Global Climate Change”, Yugra State University, 628012 Khanty-Mansiysk, Russia
    A.M.Obukhov Institute of Atmospheric Physics RAS, 119017 Moscow, Russia)

  • Arseniy Artamonov

    (Scientific and Educational Centre “Environmental Dynamics and Global Climate Change”, Yugra State University, 628012 Khanty-Mansiysk, Russia
    A.M.Obukhov Institute of Atmospheric Physics RAS, 119017 Moscow, Russia
    For Irina Repina and Arseniy Artamonov, the primary affiliation is No. 5.)

Abstract

The general inverse problem formulation for a heat conductance equation is adopted for the types of measurement routinely carried out in the soil active layer. The problem solution delivers a constant thermal diffusivity coefficient a 0 (in general, different from true value a ) and respective heat conductivity λ 0 for the layer, located between two temperature sensors and equipped with a temperature or heat flux sensor in the middle. We estimated the error of solution corresponding to systematic shifts in sensor readings and mislocation of sensors in the soil column. This estimation was carried out by a series of numerical experiments using boundary conditions from observations on Mukhrino wetland (Western Siberia, Russia), performed in summer, 2019. Numerical results were corroborated by analytical estimates of inverse problem solution sensitivity derived from classical Fourier law. The main finding states that heat conductivity error due to systematic shifts in temperature measurements become negligible when using long temperature series, whereas the relative error of a is approximately twice the relative error of sensor depth. The error a 0 − a induced by heat flux plate displacement from expected depth is 3–5 times less than the same displacement of thermometers, which makes the requirements for heat flux installation less rigid. However, the relative errors of heat flux observation typical for modern sensors (±15%) cause the uncertainty of a above 15% in absolute value. Comparison of the inverse problem solution to a estimated from in situ moss sampling on Mukhrino wetland proves the feasibility of the method and corroborates the conclusions of the error sensitivity study.

Suggested Citation

  • Victor Stepanenko & Irina Repina & Arseniy Artamonov, 2021. "Derivation of Heat Conductivity from Temperature and Heat Flux Measurements in Soil," Land, MDPI, vol. 10(6), pages 1-12, May.
  • Handle: RePEc:gam:jlands:v:10:y:2021:i:6:p:552-:d:560303
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    Citations

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    Cited by:

    1. Leugim Corteze Romio & Tamires Zimmer & Tiago Bremm & Lidiane Buligon & Dirceu Luis Herdies & Débora Regina Roberti, 2022. "Influence of Different Methods to Estimate the Soil Thermal Properties from Experimental Dataset," Land, MDPI, vol. 11(11), pages 1-17, November.
    2. Naser Valizadeh & Samira Esfandiyari Bayat & Masoud Bijani & Dariush Hayati & Ants-Hannes Viira & Vjekoslav Tanaskovik & Alishir Kurban & Hossein Azadi, 2021. "Understanding Farmers’ Intention towards the Management and Conservation of Wetlands," Land, MDPI, vol. 10(8), pages 1-18, August.

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