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Slope Storage
Slope Power Reservoirs contain a portion of their Storage in the wedge created by the sloping water surface. The following user method calls to additional methods that perform the mass balance calculations in Slope Power Reservoirs for all dispatch methods.
* None
This is the default method in the Slope Storage category. It performs no calculations and has no slots associated with it. An error is posted if this method is selected. The user is required to choose Storage Segments.
* Storage Segments
The user has the option of dividing a reservoir into longitudinal segments. This is most useful for large reservoirs and relatively small timesteps, where the propagation of a change in flow takes more than one timestep to travel the length of the reservoir. Reservoir segments are numbered in the upstream direction, with the first segment being the farthest downstream.
Figure 24.3   
The Storage Segments method does not perform any calculations. Instead, this method makes visible the new method category: Slope Storage Coefficients. You then have the option of selecting either the Impulse Response method or Weighting Coefficients method to calculate the segment storage.
The Storage Segments method requires you to specify the number of segments in the reservoir and provide the headwater, backwater, and storage relationships for the Segments in Reservoir that are used by the Slope Storage Coefficient methods to calculate segment storage. Also, you can specify the Segment Storage Adjustment based on the backwater elevation and change in backwater elevation.
See the following topics for details:
Slots Specific to This Method
 Segments in Reservoir
Type: Table
Units: NONE
Description: Number of longitudinal segments in the reservoir
Information: Multiple segments are useful for large reservoirs and relatively small timesteps, where the propagation of a change in flow takes more than one timestep to travel the length of the reservoir. Reservoir segments are numbered in the upstream direction, with the first segment being the farthest downstream.
I/O: Required input
 Profile Storage Table
Type: Table
Units: LENGTH vs. LENGTH vs. VOLUME
Description: Total storage of each segment corresponding to a headwater and a backwater elevation
Information: 3‑D table containing data relating headwater and backwater elevations to segment storage. Each reservoir segment has its own three-column block of data. Data must be entered into these tables in a structured way in order for the three-dimensional table interpolator to work correctly. Headwater must be input in blocks of the same values, increasing down the table. For every headwater elevation block in column 1, backwater values should be listed in increasing order in column 2, with the corresponding segment storage in column 3. Following is a sample table for a one-segment reservoir.
 
Headwater
Backwater
Storage
500
500
800
500
510
805
500
520
810
550
550
900
550
560
905
550
570
910
600
600
1000
600
610
1010
600
620
1020
I/O: Required input
 Segment Storage
Type: Aggregate Series
Units: Volume
Description: This slot holds the storage in each segment of the reservoir. The total storage in the reservoir is equal to the sum of the segment storage (within convergence).
Information: There will be one column for each segment. The number of columns is automatically adjusted at run start.
I/O: Output only
 Segment Storage Adjustment
Type: Table Slot
Units: Length, Length Volume
Description: This 3‑D table will have one 3 column block for each segment in the reservoir. The first column of the block is the upstream elevation of the segment, the second column is the change in elevation from the previous timestep, and the third column is the storage adjustment factor.
Information: The table must have 1 block for each segment. This will be adjusted at run start. It can have NaNs at the bottom of the table. If there is no data in first row for a segment, then no adjustment will be applied to that segment.The correction can be either positive or negative. Following is a sample correction table. The correction for Segment 1 is not applied (that is, always zero), but Segment 2 does have a correction factor.
 
Segment 1
Segment 2
Upstream
Elevation 1 ft
Upstream Elevation Change 1 ft
Storage Adjustment 1 cfs-day
Upstream
Elevation 2
ft
Upstream Elevation Change 2
ft
Storage Adjustment 2 cfs-day
NaN
NaN
NaN
550
-4
10
NaN
NaN
NaN
550
-2
2
NaN
NaN
NaN
550
0
0
NaN
NaN
NaN
550
2
-2
NaN
NaN
NaN
550
4
-11
NaN
NaN
NaN
575
-4
9
NaN
NaN
NaN
575
-2
2
NaN
NaN
NaN
575
0
0
NaN
NaN
NaN
575
2
-3
NaN
NaN
NaN
575
4
-12
I/O: Input only.
Revised: 12/01/2020