2.10.8: Thermal Dissipation Blocks

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Another, less common, approach that uses porous blocks has a heater and temperature sensor embedded within the block. The porous block installation must result in good contact with the soil, allowing water tension in the block to come into equilibrium with the water tension in the surrounding soil. The block is heated by passing current through the heater. The rate of heat dissipation in the block is then measured. The rate of heat dissipation is directly related to the water content in the block, and, since the porous block has a known release curve, the water content of the block is directly related to water potential in the block and soil. An advantage of heat dissipation blocks is that they are sensitive to soil water over a wide range. Unfortunately, the heat dissipation blocks must be individually calibrated and they are considerably more expensive than granular matrix sensors. A potential application of this concept is using heated cables to determine water content at many locations along the cable (Sayde, 2010). Since the heat dissipation occurs in the soil (instead of a block), heat dissipation would be correlated to θ_v instead of Ψ_m. This method is still under development.

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