schmidt.stability: Calculate the Schmidt stability
In GLEON/rLakeAnalyzer: Lake Physics Tools
Description
Usage
Arguments
Value
References
See Also
Examples
View source: R/schmidt.stability.R
Description
Schmidt stability, or the resistance to mechanical mixing due to the
potential energy inherent in the stratification of the water column.
Schmidt stability was first defined by Schmidt (1928) and later modified by
Hutchinson (1957). This stability index was formalized by Idso (1973) to
reduce the effects of lake volume on the calculation (resulting in a mixing
energy requirement per unit area).
Usage
1
schmidt.stability(wtr, depths, bthA, bthD, sal = 0)
Arguments
wtr
a numeric vector of water temperature in degrees C
depths
a numeric vector corresponding to the depths (in m) of the wtr
measurements
bthA
a numeric vector of cross sectional areas (m^2) corresponding to
bthD depths
bthD
a numeric vector of depths (m) which correspond to areal
measures in bthA
sal
a numeric vector of salinity in Practical Salinity Scale units
Value
a numeric vector of Schmidt stability (J/m^2)
References
Schmidt, W., 1928. Ueber Temperatur and
Stabilitaetsverhaltnisse von Seen. Geo- graphiska Annaler 10, 145-177.
Hutchinson, G.E., 1957. A Treatise on Limnology, vol. 1. John Wiley &
Sons, Inc., New York.
Idso, S.B., 1973. On the concept of lake stability. Limnology and
Oceanography 18, 681-683.
See Also
ts.schmidt.stability lake.number
wedderburn.number
Examples
1
2
3
4
5
6
7
8
GLEON/rLakeAnalyzer documentation built on May 3, 2021, 1:32 p.m.
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Description Usage Arguments Value References See Also Examples
View source: R/schmidt.stability.R
Description
Schmidt stability, or the resistance to mechanical mixing due to the potential energy inherent in the stratification of the water column.
Schmidt stability was first defined by Schmidt (1928) and later modified by Hutchinson (1957). This stability index was formalized by Idso (1973) to reduce the effects of lake volume on the calculation (resulting in a mixing energy requirement per unit area).
Usage
1 | schmidt.stability(wtr, depths, bthA, bthD, sal = 0)
|
Arguments
wtr |
a numeric vector of water temperature in degrees C |
depths |
a numeric vector corresponding to the depths (in m) of the wtr measurements |
bthA |
a numeric vector of cross sectional areas (m^2) corresponding to bthD depths |
bthD |
a numeric vector of depths (m) which correspond to areal measures in bthA |
sal |
a numeric vector of salinity in Practical Salinity Scale units |
Value
a numeric vector of Schmidt stability (J/m^2)
References
Schmidt, W., 1928. Ueber Temperatur and Stabilitaetsverhaltnisse von Seen. Geo- graphiska Annaler 10, 145-177.
Hutchinson, G.E., 1957. A Treatise on Limnology, vol. 1. John Wiley & Sons, Inc., New York.
Idso, S.B., 1973. On the concept of lake stability. Limnology and Oceanography 18, 681-683.
See Also
ts.schmidt.stability lake.number
wedderburn.number
Examples
1 2 3 4 5 6 7 8 |
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