Two irrigation canals running north-south are a distance of 200m apart. The eastern canal is at an elevation of 5m and the western canal is at an elevation of 3m. The field between the canals consists of silty loam soils (K=6 m/d) overlying a clay (K=0.01 m/d) confining layer at elevation zero. The maximum water table elevation is 5.5m and the irrigation rate, which results in negligible run-off from the field, is 0.01 m/d. Determine the rate of evapotranspiration from field.
Two irrigation canals running north-south are a distance of 200m apart. The eastern canal is at an elevation of 5m and the western canal is at an elevation of 3m. The field between the canals consists of silty loam soils (K=6 m/d) overlying a clay (K=0.01 m/d) confining layer at elevation zero. The maximum water table elevation is 5.5m and the irrigation rate, which results in negligible run-off from the field, is 0.01 m/d. Determine the rate of evapotranspiration from field.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Two irrigation canals running north-south are a
distance of 200m apart.
The eastern canal is at an elevation of 5m and
the western canal is at
an elevation of 3m. The field between the canals
consists of silty loam
soils (K=6 m/d) overlying a clay (K=0.01 m/d)
confining layer at
elevation zero. The maximum water table
elevation is 5.5m and the
irrigation rate, which results in negligible run-off
from the field, is 0.01
m/d. Determine the rate of evapotranspiration
from field.
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