HomeMy WebLinkAbout310297_Lagoon Sludge Survey Form_20180205Appendix 1. Lagoon Sludge Survey Form
Revised August 2008
A. Farm Permit or DWQ Identification Number
B. Lagoon Identification
C. Person(s) Taking Measurements
D. Date of Measurement
31-297 (Rabon 2483)
Rabon 2483
E. Methods/Devices Used for Measurement of.
Blake Moore/Greer Moore
2/5/2018
a. Distance from the lagoon liquid surface to the top of the sludge layer.
pole with disc
b. Distance from the lagoon liquid surface to the bottom (soil) of the lagoon.
pole
c. Thickness of the sludge layer if making a direct measurement with "core sampler".
F. Lagoon Surface Area (using dimensions at inside top of bank): 0.558 (acres)
(Draw a sketch of the lagoon on a separate sheet, list dimensions, and calculate surface area. The lagoon
may have been built different than designed, so measurements should be made.)
G. Estimate number of sampling points:
a. Less than 1.33 acres: Use 8 points
b. If more than 1.33 ac. acres x 6 = , with maximum of 24.
(Using sketch and dimensions, develop a uniform grid that has the same number of intersections as the
estimated number of sampling points needed. Number the intersection points on the lagoon grid so that data
recorded at each can be easily matched.)
H. Conduct sludge survey and record data on "Sludge Survey Data Sheet" (Appendix 2). Also, at the
location of the pump intake, take measurements of distance from liquid surface to top of sludge
layer and record it on the Data Sheet (last row); this must be least 2.5 ft. when irrigating.
I. At the time of the survey, also measure the distance from the Maximum Liquid Level to the Present Liquid
Level (measure at the lagoon gauge pole): 0.9
J. Determine the distance from the top of bank to the Maximum Liquid Level 1.6
(use lagoon management plan or other lagoon records)
K. Determine the distance from the Maximum Liquid to the Minimum Liquid level: 1.8
(use lagoon management plan or other lagoon records)
L. Calculate the distance from the present liquid surface level to the Minimum Liquid Level 0.9
(Item K Minus Item I, assuming the present liquid level is below the Maximum Liquid Level)
M. Record from the Sludge Survey Data Sheet the distance from the present liquid surface level to the
lagoon bottom (average for all the measurement points) 7.0
N. Record from the Sludge Survey Data Sheet the distance from the present liquid surface level to the top
of the sludge layer (average for all the measurement points): 3.9
0. Record from the Sludge Survey Data Sheet the average thickness of the sludge layer: 3.2
P. Calculate the thickness of the existing Liquid Treatment Zone (item N minus Item L): 3.0
Q. If Item O is greater than Item P, proceed to the Worksheet for Sludge Volume and Treatment Volume.
If Item O is equal to or less than Item P, you do not have to determine volumes.
Completed by: Blake Moore/Greer Moore Date: 2/5/2018
Print Name /Signature
Appendix 2. Sludge Survey Data Sheet* Revised August 2008
Lagoon Identification Rabon 2483
Completed by: Blake Moore/Greer Moore
Print Name
Signature
Date: 2/5/2018
(A)
(B)
(C)
(C)-(B)
Grid Point
Distance from liquid surface
Distance from liquid surface
Thickness of sludge layer
No.
to top of slud a
to lagoon bottom soil
Ft. & in.
Ft. tenths
Ft. & in.
Ft. (tenths)
Ft. & in.
Ft. (tenths)
1
3.75
3.8
7.5
7.5
3.8
2
4.24
4.2
6.75
6.8
2.5
3
3.5
3.5
6.5
6.5
3.0
4
4
4.0
7
7.0
3.0
5
4
4.0
7
7.0
3.0
6
4
4.0
7.25
7.3
3.3
7
3.75
3.8
7
7.0
3.3
8
3.5
3.5
7
7.0
3.5
9
0.0
0.0
0.0
10
0.0
0.0
0.0
11
0.0
0.0
0.0
12
0.0
0.0
0.0
13
0.0
0.0
0.0
14
0.0
0.0
0.0
15
0.0
0.0
0.0
16
0.0
0.0
0.0
17
0.0
0.0
0.0
18
0.0
0.0
0.0
19
0.0
0.0
0.0
20
0.0
0.0
0.0
21
0.0
0.0
0.0
22
0.0
0.0
00
23
0.0
0.0
0.0
24
0.0
0.0
0.0
Number of points with readings
X X
X X
Average of
3.85
7.012
X X
3.175
points
At pump
3.5
N/A
X X X X X X
intake
*All Grid Points and corresponding sludge layer thicknesses must be shown on a sketch attached to this
Sludge Survey Data Sheet.
Appendix 3.,Worksheet for sludge volume and treatment volume Revised August.2008
The average thickness of the sludge layer and the thickness of the existing liquid (sludge -free) treatment zone are determined
from the information on the Lagoon Sludge Survey Form ( Items O and P, respectively). In this example, the average sludge
layer thickness is 2.5 feet and the existing liquid treatment zone is 3.5 feet. If the lagoon has a designed sludge storage volume,
see notes at end of the worksheet. The dimensions of the lagoon as measured and the side slope are needed
for calculations of sludge volume and of total treatment volume..lf the lagoon is a standard geometric shape, the sludge
volume and the treatment volume in the lagoon can be estimated by using standard equations. For approximate volumes
of rectangular lagoons with constant side. slope, calculate length and width at the midpoint of the layer, and multiply by layer
thickness to calculate layer volume, as shown in the example. For irregular shapes, convert the total surface area to a square
or rectangular shape. For exact volumes for lagoons with constant side slope, the "Prismoidal Equations" may be used.
Example
Your Lagoon
I.Average sludge Layer Thickness (T)
2.5
ft.
3.2
ft.
2. Depth of the lagoon from top of bank to bottom soil surface (D)
11
ft.
10.0
ft.
3. Slope = Horizontal/ vertical side slope (S)
3
3.0
4. Length at the top of inside bank (L)
457
ft.
156.0
ft.
5. Width at top inside slope (W)
229
ft.
156.0
ft.
6. Length at midpoint of sludge layer Lm = L-2S(D-(T/2))
398.5
ft.
105.5
ft.
7. Width at midpoint of sludge layer W m= W-2S(D-(T/,2))
170.5
ft.
105.5
ft.
8. Volume of sludge (Vs) Vs=Lm Wm T
169,860
ft3
35,355
ft3
9. Volume in gallons: Vs9 V*7.5 gal./ft3.
1,273,950
gal.
265,165
gal.
10. Thickness of existing liquid tmt. zone (Y)
3.5
ft
3.0
ft
11. Thickness of total treatment zone (Z) Z= T+Y
6
ft
6.2
ft
12. Length at midpoint of total tmt. zone LZ= L-2(S)(D-(Z/2)
409
ft.
114.5
ft.
13. Width at midpoint of total tmt. Zone W, = W-2(S)(D-(Z/2)
181
ft.
114.5
ft.
14. Volume of total treatment zone (Vz) Vz = LZ WZZ
444,174
ft3
80,991
ft3
15. Ratio ( R) of sludge layer volume to total Treatment Volume
R = VsNz
0.38
0.44
If the ratio R exceeds 0.50, than a sludge Plan of Action may be required. Check with DWQ for information
on filing the Plan of Action.
Note: If the lagoon has a designed sludge storage volume (DSSV), subtract that volume from both the volume
of sludge (Vs) (Item 8) and from the volume of total treatment zone (Vz) (Item 14), and take the ratio.
Then, R = (Vs-DSSV) / (Vz - DSSV)
Example: If DSSV = 85,000 ft3, then R _ (169,860 - 85,000) / (447,174 -
85,000) = 84,860 / 362,174 =
0.24.
16. Design sludge storage volume (DSSV)
85,000
17. Ratio (R) of sludge layer volume to treatment volume adjusted
for designed sludge storage volume
0.24
0.44
Appendix 1. Lagoon Sludge Survey Form
Revised August 2008
A. Farm Permit or DWQ Identification Number
31-297 (Rabon 2482)
B. Lagoon Identification Rabon 2482
C. Person(s) Taking Measurements Blake Moore/Greer Moore
D. Date of Measurement 2/5/2018
E. Methods/Devices Used for Measurement of:
a. Distance from the lagoon liquid surface to the top of the sludge layer.
. pole with disc
b. Distance from the lagoon liquid surface to the bottom (soil) of the lagoon.
pole
c. Thickness of the sludge layer if making a direct measurement with "core sampler".
F. Lagoon Surface Area (using dimensions at inside top of bank): 0.574 (acres)
(Draw a sketch of the lagoon on a separate sheet, list dimensions, and calculate surface area. The lagoon
may have been built different than designed, so measurements should be made.)
G. Estimate number of sampling points:
a. Less than 1.33 acres: Use 8 points
b. If more than 1.33 ac. acres x 6 = , with maximum of 24.
(Using sketch and dimensions, develop a uniform grid that has the same number of intersections as the
estimated number of sampling points needed. Number the intersection points on the lagoon grid so that data
recorded at each can be easily matched.)
H. Conduct sludge survey and record data on "Sludge Survey Data Sheet" (Appendix 2). Also, at the
location of the pump intake, take measurements of distance from liquid surface to top of sludge
layer and record it on the Data Sheet (last row); this must be at least 2.5 ft. when irrigating.
I. At the time of the survey, also measure the distance from the Maximum Liquid Level to the Present Liquid
Level (measure at the lagoon gauge pole): 1.0
J. Determine the distance from the top of bank to the Maximum Liquid Level 1.6
(use'lagoon management plan or other lagoon records)
K. Determine the distance from the Maximum Liquid to the Minimum Liquid level: 1.8
(use lagoon management plan or other lagoon records)
L. Calculate the distance from the present liquid surface level to the Minimum Liquid Level 0.8
(Item K Minus Item I; assuming the present liquid level is below the Maximum Liquid Level)
M. Record from the Sludge Survey Data Sheet the distance from the present liquid surface level to the
lagoon bottom (average for all the measurement points) 6.9
N. Record from the Sludge Survey Data Sheet the distance from the present liquid surface level to the top
of the sludge layer (average for all the measurement points): 3.7
O. Record from the Sludge Survey Data Sheet the average thickness of the sludge layer: 3.2
P. Calculate the thickness of the existing Liquid Treatment Zone (item N minus Item L): 2.9
Q. If Item O is greater than Item P, proceed to the Worksheet for Sludge. Volume and Treatment Volume.
If Item O. is equal to or less than Item P, you do not have to determine volumes.
Completed by: _ . Blake Moore/Greer Moore . Date; 2/5/2018
Print Name /Signature
Appendix 2. Sludge Survey Data Sheet' Revised August 2008
Lagoon Identification Rabon 2482
Completed by: Blake Moore/Greer Moore Date: _ 2/5/2018
Print Name
Signature
(A)
(B)
(C)
(C)-(B)
Grid Point
Distance from liquid surface
Distance from liquid surface
Thickness of sludge layer
No.
to top of slud a
to lagoon bottom soil
Ft. & in.
Ft. (tenths)
Ft. & in.
Ft. tenths
Ft. & in.
Ft. (tenths)
1
4.25
4.3
7
7.0
2.8
2
3.75
3.8
7
7.0
3.3
3
3.5
3.5
7
7.0
3.5
4
3.5
3.5
6.25
6.3
2.8
5
3.5
3.5
7.25
7.3
3.8
6
3.75
3.8
7.25
7.3
3.5
7
3.5
3.5
6.5
6.5
3.0
8
3.5
3.5
6.6
6.6
3.1
9
0.0
0.0
0.0
10
0.0
0.0
0.0
11
0.0
0.0
0.0
12
0.0
0.0
0.0
13
0.0
0.0
0.0
14
0.0
0.0
0.0
15
0.0
0.0
0.0
16
0.0
0.0
0.0
17
0.0
0.0
0.0
18
0.0
0.0
0.0
19
0.0
0.0
0.0
20
0.0
0.0
0.0
21
0.0
0.0
0.0
22
0.0
0.0
0.0
23
0.0
0.0
0.0
24
0.0
0.0
0.0
Number of points with readings
X X
X X
Average of
3.675
6.875
X X
3.225
points
At pump
4
N/A
X X X X X X
intake
'All Grid Points and corresponding sludge layer thicknesses must be shown on a sketch attached to this
Sludge Survey Data Sheet.
Appendix 3. Worksheet for sludge volume and treatment volume Revised August 2008
r
The average thickness of the sludge layer and the thickness of the existing liquid (sludge -free) treatment zone are determined
from the information on the Lagoon Sludge Survey Form ( Items 0 and P, respectively). In this example, the average sludge
layer thickness is 2.5 feet and the existing liquid treatment zone is 3.5 feet. If the lagoon has a designed sludge storage volume,
see notes at end of the Worksheet. The dimensions of the lagoon as measured and the side slope are needed
for calculations of sludge volume and of total treatment volume. If the lagoon is a standard geometric shape, the sludge
volume and the treatment volume in the lagoon can be estimated by using standard equations. For approximate volumes
of rectangular lagoons with constant side slope, calculate length and width at the midpoint of the layer, and multiply by layer
thickness to calculate layer volume, as shown in the example. For irregular shapes, convert the total surface area to a square
or rectangular shape. For exact volumes for lagoons with constant side slope, the "Prismoidal Equations" may be used.
Example
Your Lagoon
1. Average sludge Layer Thickness (T)
2.5
ft.
3.2
ft.
2. Depth of the lagoon from top of bank to bottom soil surface (D)
11
ft.
10.0
ft.
3. Slope = Horizontal/ vertical side slope (S)
3
3.0
4. Length at the top of inside bank (L)
457
ft.
170.9
ft.
5. Width at top inside slope (W)
229
ft.
146.5
ft.
6. Length at midpoint of sludge layer L m = L-2S(D-(T/2))
398.5
ft.
120.6
ft.
7. Width at midpoint of sludge layer W m W-2S(D-R/2))
170.5
ft.
96.1
ft.
8. Volume of sludge (Vs) Vs=Lm Wm T
169,860
ft3
37,319
ft3
9. Volume in gallons: Vs9=V'7.5 gal./ft3.
1,273,950
gal.
279,896
gal.
10. Thickness of existing liquid tmt. zone m
3.5
ft
2.9
ft
11. Thickness of total treatment zone (Z) Z= T+Y
6
ft
6.1
• ft
12. Length at midpoint of total tmt. zone LZ= L-2(S)(D-(Z/2)
409
ft.
129.3
ft.
13. Width at midpoinfiof total tmt. Zone W Z = W-2(S)(D-(Z/2)
181
ft.
104.8
ft.
14. Volume of total treatment zone (Vz) Vz = LZWZZ
444,174
ft3
82,931
ft3
15. Ratio ( R ) of sludge layer volume to total Treatment Volume
R = Vs/Vz
0.38
0.45
If the ratio R exceeds 0.50, than a sludge Plan of Action may be required. Check with DWQ for information
on filing the Plan of Action.
Note: If the lagoon has a designed sludge storage volume (DSSV), subtract that volume from both the volume
of sludge (Vs) (Item 8) and from the volume of total treatment zone (Vz) (Item 14), and take the ratio.
Then, R = (Vs-DSSV) / (Vz - DSSV) -
Example: If DSSV = 85,000 ft3, then R = (169,860 - 85,000) / (447,174 - 85,000) 84,860 / 362,174 = 0.24.
16. Design sludge storage volume (DSSV) 85,000
17. Ratio (R) of sludge layer volume to treatment volume adjusted
for designed sludge storage volume 0.24 0.45
Appendix,1. Lagoon Sludge Survey Form
Revised August 2008
A. Farm Permit or DWQ Identification Number
B. Lagoon Identification
31-297 (Rabon 2484)
Rabon 2484
C. Person(s) Taking Measurement's Blake Moore/Greer Moore
D. Date of Measurement 2/5/2018
E. Methods/Devices Used for Measurement of:
a. Distance from the lagoon liquid surface to the top of the sludge layer.
pole with disc
b. Distance from the lagoon liquid surface to the bottom (soil) of the lagoon.
pole
c. Thickness of the sludge layer if making a direct measurement with "core sampler".
F. Lagoon Surface Area (using dimensions at inside top of bank): 0.65 (acres)
(Draw a sketch of the lagoon on a separate sheet, list dimensions, and calculate surface area. The lagoon
may have been built different than designed, so measurements should be made.)
G. Estimate number of sampling points:
a. Less than 1.33 acres: Use 8 points
b. If more than 1.33 ac. acres x 6 = , with maximum of 24.
(Using sketch and dimensions, develop a uniform grid that has the same number of intersections as the
estimated number of sampling points needed. Number the intersection points on the lagoon grid so that data
recorded at each can be easily matched.)
H. Conduct sludge survey and record data on "Sludge Survey Data Sheet" (Appendix 2). Also, at the
location of the pump intake, take measurements of distance from liquid surface to top of sludge
layer and record it on the Data Sheet (last row); this must be at least 2.5 ft. when irrigating.
I. At the time of the survey, also measure the distance from the Maximum Liquid Level to the Present Liquid
Level (measure at the lagoon gauge pole):
J. Determine the distance from the top of bank to the Maximum Liquid Level
(use lagoon management plan or other lagoon records)
K. Determine the distance from the Maximum Liquid to the Minimum Liquid level:
(use lagoon management plan or other lagoon records)
L. Calculate the distance from the present liquid surface level to the Minimum Liquid Level
(Item K Minus Item I, assuming the present liquid level is below the Maximum Liquid Level)
M. Record from the Sludge Survey Data Sheet the distance from the present liquid surface level to the
lagoon bottom (average for all the measurement points)
N. Record from the Sludge Survey Data Sheet the distance from the present liquid surface level to the top
of the sludge layer (average for all the measurement points):
O. Record from the Sludge Survey Data Sheet the average thickness of the sludge layer:
P. Calculate the thickness of the existing Liquid Treatment Zone (item N minus Item L):
Q. If Item O is greater than Item P, proceed to the Worksheet for Sludge Volume and Treatment Volume.
If Item O is equal to or less than Item P, you do not have to determine volumes.
Completed by: Blake Moore/Greer Moore Date:
0.6
1.6
2.0
1.4
9_1
5_1
4.0
3.7
2/5/2018
Print Name /Signature
Apprendix 2. Sludge Survey Data Sheet*
Revised August 2008
Lagoon Identification Rabon 2484
Completed by: Blake Moore/Greer Moore
Print Name
Signature
Date: 2/5/2018
(A)
( B )
(C)
( C ) - ( B )
Grid Point
Distance from liquid surface
Distance from liquid surface
Thickness of sludge layer
No.
to top of slud a
to lagoon bottom (soil)
Ft. & in.
Ft. (tenths)
Ft. & in.
Ft. (tenths)
Ft. & in.
Ft. (tenths)
1
6
6.0
9.25
9.3
3.3
2
5.25
5.3
8.5
8.5
3.3
3
4.5
4.5
9
9.0
4.5
4
4.5
4.5
9
9.0
4.5
5
4.75
4.8
9.25
9.3
4.5
6
5.5
5.5
9.5
9.5
4.0
7
5
5.0
9
9.0
4.0
8
5
5.0
9
9.0
4.0
9
0.0
0.0
0.0
10
0.0
0.0
0.0
11
0.0
0.0
0.0
12
0.0
0.0
0.0
13
0.0
0.0
0.0
14
0.0
0.0
0.0
15
0.0
0.0
0.0
16
0.0
0.0
0.0
17
0.0
0.0
0.0
18
0.0
0.0
0.0
19
0.0
0.0
0.0
20
0.0
0.0
0.0
21
0.0
0.0
0.0
22
0.0
0.0
0.0
23
0.0
0.0
0.0
24
0.0
0.0
0.0
Number of points with readings
X X
X X
Average of
points
5.075
9.075
X X
4.012
At pump
5.25
N/A
X X X X X X
intake
*All Grid Points and corresponding sludge layer thicknesses must be shown on a sketch attached to this
Sludge Survey Data Sheet.
Appendix ,8. Worksheet for sludge volume and treatment volume Revised August 2008
The average thickness of the sludge layer and the thickness of the existing liquid (sludge -free) treatment zone are determined
from the information on the Lagoon Sludge Survey Form ( Items O and P, respectively). In this example, the average sludge
layer thickness is 2.5 feet and the existing liquid treatment zone is 3.5 feet. If the lagoon has a designed sludge storage volume,
see notes at end of the worksheet. The dimensions of the lagoon as measured and the side slope are needed
for calculations of sludge volume and of total treatment volume. If the lagoon is a standard geometric shape, the sludge
volume and the treatment volume in the lagoon can be estimated by using standard equations. For approximate volumes
of rectangular lagoons with constant side slope, calculate length and width at the midpoint of the layer, and multiply by layer
thickness to calculate layer volume, as shown in the example. For irregular shapes, convert the total surface area to a square
or rectangular shape. For exact volumes for lagoons with constant side slope, the "Prismoidal Equations" may be used.
Example
Your Lagoon
1. Average sludge Layer Thickness (T)
2.5
ft.
4.0
ft.
2. Depth of the lagoon from top of bank to bottom soil surface (D)
11
ft.
12.0
ft.
3. Slope = Horizontal/ vertical side slope (S)
3
3.0
4. Length at the top of inside bank (L)
457
ft.
174.0
ft.
5. Width at top inside slope (W)
229
ft.
163.0
ft.
6. Length at midpoint of sludge layer Lm= L-2S(D-(T/2))
398.5
ft.
114.0
ft.
7. Width at midpoint of sludge layer W m W 2S(D-J/2))
170.5
ft.
103.0
ft.
8. Volume of sludge (Vs) Vs=Lm Wm T
169,860
ft3
47,140
ft3
9. Volume in gallons: Vs9=V*7.5 gal./ft3.
1,273,950
gal.
353,552
gal.
10. Thickness of existing liquid tmt. zone (Y)
3.5
ft
3.7
ft
11. Thickness of total treatment zone (2) Z= T+Y
6
ft
7.7
ft
12. Length at midpoint of total tmt. zone LZ= L-2(S)(D-(Z/2)
409
ft.
125.1
ft.
13. Width at midpoint of total tmt. Zone W, = W 2(S)(D-(Z/2)
181
ft.
114.1
ft.
14. Volume of total treatment zone (Vz) Vz = LZ WZZ
444,174
ft3
110,147
ft3
15. Ratio ( R ) of sludge layer volume to total Treatment Volume
R = VsNz
0.38
0.43
If the ratio R exceeds 0.50, than a sludge Plan of Action may be required. Check with DWQ for information
on filing the Plan of Action.
Note: If the lagoon has a designed sludge storage volume (DSSV), subtract that volume from both the volume
of sludge (Vs) (Item 8) and from the volume of total treatment zone (Vz) (Item 14), and take the ratio.
Then, R = (Vs-DSSV) / (Vz - DSSV)
Example: If DSSV = 85,000 ft3, then R = (169,860 - 85,000) / (447,174 - 85,000) = 84,860 / 362,174 = 0.24.
16. Design sludge storage volume (DSSV) 85,000
17. Ratio (R) of sludge layer volume to treatment volume adjusted
fbi designed sludge storage volume 0.24 0.43