Compaction formula (Subsidence Overlay): Difference between revisions

The amount of subsidence due to compaction is calculated by the following formula:

${\displaystyle S_{C}=(a_{peat}\cdot p_{x,y}+a_{tl}\cdot tl_{x,y})\cdot log10(t_{days})+a_{h}\cdot \Delta {h}+b_{p}\cdot p_{x,y}+b_{tl}\cdot tl_{x,y}}$

where

• ${\displaystyle S_{C}}$ is the calculated subsidence due to compaction.
• ${\displaystyle p_{x,y}}$ is the peat fraction of the cell at coordinate (x,y)
• ${\displaystyle tl_{x,y}}$ is the top layer thickness of the cell at coordinate (x,y)
• ${\displaystyle \Delta _{h}}$ The height increase as a result of the actions taken during a session, such as the creation of levees.
• ${\displaystyle t_{days}}$ is the number of days in a year times the current year being calculated.
• ${\displaystyle a_{peat}}$ is the first regression constant (0.015853041) for the effect of the peat fraction and time in days.
• ${\displaystyle a_{tl}}$ is the first regression constant (0.006617643) for the top layer thickness and time in days.
• ${\displaystyle a_{h}}$ is a regression constant (0.200468677) for the change in surface height, for example caused by added materials.
• ${\displaystyle b_{peat}}$ is the second regression constant (0.02348519) for the effect of the peat fraction.
• ${\displaystyle b_{tl}}$ is the second regression constant (-0.010061616) for the top layer thickness.

This formula is based on provided expert data in the form of a reference table, indicating the amount of subsidence based on the parameters used in the formula above. The formula's results conform to the reference table to within an average of a tenth of the margin of error of the original table.

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