pile design
DESCRIPTION
Shore Pile DesignTRANSCRIPT
![Page 1: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/1.jpg)
DESIGN OF SHORE PILE WITHOUT BRACING (WITHOUT SURCHARGE PRESSURE)
= 12 ft
Free height = 26 ft
O''
h = 51 fth1 = 39 ft
Pa
D = 25 ft Pw
Pp
0
soil pressure soil pressure water pressure= 12268 psf = 1500.21 psf = 2402.4 psf
hw
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INPUT DATA
Length of free end H = 26 ft
Embedment length D = 24.5 ft , eqn = 4
Angle of internal friction (above dredge line) = 33 deg
Angle of internal friction (below dredge line) = 36 deg
Dia of pile = 20 inch
Spacing of pile = 2.5 ft
Unit wt of soil (Wet) y = 130
Unit wt of soil (Dry) y' = 100.77
Unit wt of water = 62.4
Depth water table from EGL = 12 ft
Factor of safety = 1.5
φ1
φ2
lb/ft3
lb/ft3
yw lb/ft3
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CALCULATION
Active earth pressure coeff = Ka = 0.295
Passive earth pressure coeff = Kp = 3.85
Active soil pressure = Ka x y' x h = 1500 psf
Water pressure = x h1 = 2402.4 psf
Passive earth pressure = kp x y x D = 12268 psf
Pa = 37.88 kip/ft of width
Pw = 46.246 kip/ft of width
Pp = 150.28 kip/ft of width
Taking moment about O
Assuming D= 24.50 ft
Mo = 4 ≈ 0
If FS = 1.5
then D = 29.4 ft
Total length of pile = 55.4 ft
yw
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26 ft10.0 kip 14 ft
6.12 kip
O''
moment about O'' = 116 kip-ft
Total length of pile = 52 ft
dia of pile = 20 in
As = 5.56 sq. in
Use 12 - 20 mm dia bar
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DESIGN OF SHORE PILE WITHOUT BRACING (WITH SURCHARGE PRESSURE)
= 12 ft
Free height = 26 ft
O'' 30 ft Ps
h = 53 fth1 = 41 ft
Pa
D = 27 ft Pw
Pp
o
soil pressure soil pressure water pressure surcharge pressure= 13345 psf = 1564.08 psf = 2536.56 psf = 353.76 psf
hw
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INPUT DATA
Length of free end H = 26 ft
Embedment length D = 26.65 ft , eqn = 1
Angle of internal friction (above dredge line) = 33 deg
Angle of internal friction (below dredge line) = 36 deg
No. of storey of building adjacent to the boundary = 6 storied
Assumed load per floor of this building (DL+LL) w = 200 psf
Dia of pile = 24 inch
Spacing of pile = 2.5 ft
Unit wt of soil (Wet) y = 130
Unit wt of soil (Dry) y' = 100.77
Unit wt of water = 62.4
Depth water table from EGL = 12 ft
Factor of safety = 1.5
φ1
φ2
lb/ft3
lb/ft3
yw lb/ft3
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CALCULATION
Active earth pressure coeff = Ka = 0.295
Passive earth pressure coeff = Kp = 3.85
Surcharge pressure = Ka x 200 x 6 = 353.76 psf
Active soil pressure = Ka x y' x h = 1564 psf
Water pressure = x h1 = 2537 psf
Passive earth pressure = kp x y x D = 13345 psf
Pa = 41.174 kip/ft of width
Pw = 51.556 kip/ft of width
Ps = 10.613 kip/ft of width
Pp = 177.82 kip/ft of width
Taking moment about O
Assuming D= 26.65 ft
Mo = 1 ≈ 0
If FS = 1.5
then D = 31.98 ft
Total length of pile = 57.98 ft
yw
![Page 8: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/8.jpg)
5 kip14 ft
2.9 kip 2 ft0.12 kip
O''
moment about O'' = 48 kip-ft 111.18
Total length of pile = 57 ft
dia of pile = 24 in
As = 10.54 sq. in
Use 20 - 20 mm dia bar
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DESIGN OF BRACED SHORE PILE (WITH SURCHARGE PRESSURE)
12 ft
O R = 12 ft
Free height = 26 ft
O''30 ft
h = 36.5 fth1 = 25 ft
Pa
D = 11 ft Pw
Pp
soil pressure soil pressure water pressure surcharge pressure= 5257.76 psf = 1084.31 psf = 1528.8 psf = 353.76
hw
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INPUT DATA
Length of free end H = 26 ft
Embedment length D = 10.5 ft , eqn = 2
Angle of internal friction (for free end portion) = 33 deg
Angle of internal friction (for embedment portion) = 36 deg
No. of storey of building close to the boundary = 6 storied
Assumed load per floor of this building (DL+LL) w = 200 psf
Dia of pile = 20 inch
Spacing of pile = 2 ft
Depth of bracing from EGL = 12 ft
Spacing of bracing = 8 ft
Unit wt of soil (Wet) y = 130
Unit wt of soil (Dry) y' = 100.77
Unit wt of water = 62.4
Depth water table from EGL = 12 ft
Factor of safety = 2
CALCULATION
φ1
φ2
lb/ft3
lb/ft3
yw lb/ft3
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Active earth pressure coeff = Ka = 0.295
Passive earth pressure coeff = Kp = 3.852
Surcharge pressure = Ka x 200 x 6 = 353.76 psf
Active soil pressure = Ka x y' x h = 1084 psf
Water pressure = x h1 = 1528.8 psf
Passive earth pressure = kp x y x D = 5258 psf
Pa = 19.789 kip/ft of width
Pw = 18.728 kip/ft of width
Ps = 10.613 kip/ft of width
Pp = 27.603 kip/ft of width
Taking moment about O
Assuming D= 10.50 ft
Mo = 2 ≈ 0
If FS = 2
then D = 14.7 ft
Total length of pile = 40.7 ft
now R/ 8 = 21.526 kip
R = 172.21 kip
yw
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12 ft21.53 kip
9.2 kip26 ft
14 ft 10.0 kip 14 ft6.12 kip
O''
moment about O'' = -66 kip-ft
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Ps
surcharge pressure353.76 psf
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DESIGN OF BRACED SHORE PILE (By free end method) (CONSIDERING SURCHARGE PRESSURE)[Teng, Page 380]
12 ft
O R = 12 ft
Free height = 26 ft 5.33 ft14 Pa
h1 = 14 ft 9.3 ft 15 ft22 ft soil pressure
O'' = 772 psf Pw30 ft
h = 37 ft = 2.0 ft Pa'water pressure= 873.6 psf
D = 11 ftD1 = 9 ft
Pp
soil pressure= 3071.35 psf
hw
h2
![Page 18: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/18.jpg)
For Granuar Soil
INPUT DATA
Length of free end H = 26 ft
D1 = 9 ft , eqn = -24
Angle of internal friction (above dredge line) = 33 deg
Angle of internal friction (below dredge line) = 36 deg
No. of storey of building close to the boundary = 6 storied
Assumed load per floor of this building (DL+LL) w = 200 psf
Dia of pile = 20 inch
Spacing of pile = 2.25 ft
Depth of bracing from EGL = 12 ft
Spacing of bracing = 20 ft
Unit wt of soil (Wet) above dredge line y = 130
Unit wt of soil (Dry) above dredge line y' = 100.77
Unit wt of water = 62.4
Unit wt of soil (Dry) below dredge line = 95
Depth water table from EGL = 12 ft
Factor of safety = 2
φ1
φ2
lb/ft3
lb/ft3
yw lb/ft3
yb' lb/ft3
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CALCULATION
Active earth pressure coeff. (above dredge line) = Ka = 0.295
Active earth pressure coeff. (below dredge line) = = 0.260
Passive earth pressure coeff (below dredge line) = Kp = 3.852
Surcharge pressure = Ka x 200 x 6 = 353.76 psf
Active soil pressure = Ka x y' x h = 772.38 psf (above dredge line)
Active soil pressure = x x h = 680.2 psf (below dredge line)
Water pressure = x h1 = 873.6 psf
= x = 341.26 psf
= 680.2 psf
= = 1.99 ft
Passive earth pressure = x D1 = 3071 psf
Pa = 10.041 kip/ft of width
Pa' = 0.6779 kip/ft of width
Pw = 6.1152 kip/ft of width
Ps = 10.613 kip/ft of width
Pp = 13.821 kip/ft of width
Taking moment about O
Kba
Kba y
b'
yw
pp-p
ay
b' (kp-k
ba)
pa'
h2
pa' /
(pp-p
a)
(pp-p
a)
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Assuming D= 10.99 ft
Mo = -24 ≈ 0
If FS = 2
then effective D = 15.39 ft
Total length of pile = 41.39 ft
Given length = 45 ft
now R/ 20 = = 13.626 kip
Reaction per bracing R = 354.27 kip
(increase 30%)
Maximum moment
Ka = 0.29513.63 kip 12 ft
= 0.260x= 19.5 ft 19.5 ft
7.5 579 psf 7.5 ft Kp = 3.852
26 ft y' = 100.7714 ft 10.0 kip 14 ft 468 psf 354 psf
= 62.4
= 95
Let us assume point of zero shear i.e. point of maximum moment at x below EGL
Kba
lb/ft3
yw lb/ft3
yb' lb/ft3
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let x = 19.5 ft
equn = -0.6756
Maximum moment = 6.165
Moment at 27 ft from EGL
12 ft Ka = 0.29513.63 kip
= 0.260
Kp = 3.8529.55 kip
27 ft y' = 100.77015 ft 10.8 kip 15 ft
7.02 kip = 62.400
1 ft = 95.000O''
dredge line 354 psfpoint of maximum moment
moment about O'' = 14 kip-ft/ft width
Negative moment per pile = 31 kip-ft
Ultimate moment = 1.5*85 = 47 kip-ft
Kba
lb/ft3
yw lb/ft3
yb' lb/ft3
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Designing as a circular column from STAAD-Pro,
As = 5.78 sq. inch --- Use 12-20 mm dia
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Ps
surcharge pressure= 353.76 psf
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DESIGN OF BRACED SHORE PILE (By free end method) (CONSIDERING SURCHARGE PRESSURE)[Teng, Page 380]
4 ftR 4 ft R 6 ft
O 12 ft
H = 26 ft22 ft
22 ft 14 ft
h = 37.8 ft 30 ft
O''
Y = 2.66 ft
D 11.76 ftD1= 9.1 ft
For Granuar Soil
![Page 30: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/30.jpg)
INPUT DATA
Length of free end H = 26 ft
Depth of passive pressure D1 = 9.101 ft , eqn = 56
No. of storey of building close to the boundary = 6 storied
Assumed load per floor of this building (DL+LL) w = 200 psf
Assumed depth of isolated footing of this building = 6 ft
Assumed depth of influence of surcharge pressure (5xB) = 30 ft (assuming B = 6 ft)
Dia of pile = 20 inch
Spacing of pile = 2.25 ft
Depth of bracing from EGL = 4 ft
Spacing of bracing = 20 ft
Depth water table from EGL = 12 ft
Angle of internal friction (above dredge line) = 30 deg
Angle of internal friction (below dredge line) = 35 deg
Unit wt of soil (Wet) above dredge line y = 125
Unit wt of soil (Dry) above dredge line y' = 120
Unit wt of water = 62.4
Unit wt of soil (Dry) below dredge line = 95
φ1
φ2
lb/ft3
lb/ft3
yw lb/ft3
yb' lb/ft3
![Page 31: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/31.jpg)
Factor of safety (F.S.) = 2
CALCULATION
Active earth pressure coeff. (above dredge line) = Ka = 0.333
Active earth pressure coeff. (below dredge line) = Ka' = 0.271
Passive earth pressure coeff (below dredge line) = Kp = 3.690
Calculation of Earth pressure
4 ft R 480 psf120 x 12 = 1440 12 ft
x 0.33 = 480 psf (dry)125 x 14 = 1750
x0.33 = 583 psf (wet) 22 ft
3190 14 ftx 0.27 = 864 psf
583 psf
= x (kp-ka') = 324.82 psf
Y = 864 325 = 2.66 ftY = 2.66 ft
Surcharge pressure = 0.33 x 200 x 6 = 400.0 psf 864.458 psf
= 325 D1
surcharge pressure= 400.00 psf
pp'-p
a' y
b'
pp'-p
a'
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CALCULATION OF EMBEDMENT DEPTH
Taking moment about bracing level
4 ft R 12 ft2880 #
2880 x 4 = 11520 ft-lb 8 ft
6720 x 15 = 100800 ft-lb22 ft 14 ft
4083.3 x 17.3 = 70777.8 ft-lb 6720 #
1150.3 x 22.9 = 26327.1 ft-lb X ft 4083.33 #
12000 x 17 = 204000 ft-lb413424.885 ft-lb
26834 # Y = 2.66 ft 1150.3 #
Now,
Pp = 0.5 x 325 x
= Pp x X = 413424.89 D1 = 9.1 ft
By trial D1 = 9.101 ft
= 56 ≈ 0
Therefore total embedment required, D = 11.76 ft
For F.S. = 2
D = 11.76 x 1.4 = 16.5 ft
Therefore minimum pile length required, = 42.5 ft
Provided length of pile = 45 ft O.K.
Pp = 13452.2 #
D12
equn
equn
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nowR = T/ 20 = 26834 - 13452.224 = 13381.4 #
(30% increment for bracing & wale design) 13381.4 x 1.3 = 17395.84 #
Reaction per bracing, T = 17.40 x 20 = 348 kip (Use for bracing & wale design)
Calculation Maximum Momentz
Let the point of zero shear be at z below water level 4 ft R 480 psf= 0.33 x 125 z 12 ft= 41.7 z
Then is
z ft
13381.41 = 2880 + 480 z + 400.00 ( z + 6 ) + 0.5 x 41.7 22 ft14 ft
By trial z = 7.775 ft583 psf
= 0 ≈ 0
Maximum Moment 2.66 ft864.458 psf
2880 x 11.8 = 33912 ft-lb
480 x 7.78 = 3732 x 3.89 = 14508.2 ft-lb
325 9.1 ft
0.5 x 41.7 x = 1259.4 x 2.59 = 3263.91 ft-lb
400.00 x 13.8 = 5510 x 6.89 = 37950.1 ft-lb89634 ft-lb
surcharge pressure13381 x 15.8 = 211091 ft-lb 2956.21 psf = 400.00 psf
Maximum moment = 121457 ft-lb= 121 kip-ft
equn
z2
equn
z2
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Negative moment per pile = 273 kip-ft
Ultimate moment= 273.28 x 1.5 = 410 kip-ft
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6 ft
30 ft
surcharge pressure
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6 ft
30 ft
12000 #
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6 ft
30 ft
surcharge pressure
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DESIGN OF BRACED SHORE PILE (By free end method) (WITH SURCHARGE PRESSURE)[Teng, Page 380]
4 ft R1
O = 12 ft12 ft
Free height = 26 ft R2 13.3 ft22 Pa
h1 = 14 ft 17.3 ft 15 ft30.5 ft soil pressure
O'' = 772 psf Pw30 ft
h = 38 ft = 2.2 ft Pa'water pressure= 873.6 psf
D = 12 ftD1 = 9.4 ft
Pp
soil pressure= 2924.55 psf
hw
h2
![Page 46: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/46.jpg)
For Granuar Soil
INPUT DATA
Length of free end H = 26 ft
D1 = 9.4 ft , eqn = -2
Angle of internal friction (above dredge line) = 33 deg
Angle of internal friction (below dredge line) = 36 deg
No. of storey of building close to the boundary = 6 storied
Assumed load per floor of this building (DL+LL) w = 200 psf
Dia of pile = 20 inch
Spacing of pile = 2.25 ft
Depth of 1st layer bracing from EGL = 4 ft
Depth of 2nd layer bracing from EGL = 12 ft
Spacing of bracing = 20 ft
Unit wt of soil (Wet) above dredge line y = 130
Unit wt of soil (Dry) above dredge line y' = 100.77
Unit wt of water = 62.4
Unit wt of soil (Dry) below dredge line = 86.61
Depth water table from EGL = 12 ft
φ1
φ2
lb/ft3
lb/ft3
yw lb/ft3
yb' lb/ft3
![Page 47: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/47.jpg)
Factor of safety = 2
CALCULATION
Active earth pressure coeff. (above dredge line) = Ka = 0.295
Active earth pressure coeff. (below dredge line) = = 0.260
Passive earth pressure coeff (below dredge line) = Kp = 3.852
Surcharge pressure = Ka x 200 x 6 = 353.76 psf
Active soil pressure = Ka x y' x h = 772.38 psf (above dredge line)
Active soil pressure = x x h = 680.2 psf (below dredge line)
Water pressure = x h1 = 873.6 psf
= x = 311.12 psf
= 680.2 psf
= = 2.19 ft
Passive earth pressure = x D1 = 2925 psf
Pa = 10.041 kip/ft of width
Pa' = 0.7436 kip/ft of width
Pw = 6.1152 kip/ft of width
Ps = 10.613 kip/ft of width
Pp = 13.745 kip/ft of width
Kba
Kba y
b'
yw
pp-p
ay
b' (kp-k
ba)
pa'
h2
pa' /
(pp-p
a)
(pp-p
a)
![Page 48: Pile Design](https://reader034.vdocuments.net/reader034/viewer/2022042423/577cc3c01a28aba7119705ff/html5/thumbnails/48.jpg)
Taking moment about O
Assuming D= 11.59 ft
Mo = -2 ≈ 0
If FS = 2
then D = 16.221 ft
Total length of pile = 42.221 ft
now R/ 20 = = 13.767 kip
R = 275.34 kip
(increase 30%)
4 ft13.77 kip
x= 16.9 ft 16.9 ft501 psf 12.9 ft
9.2 kip26 ft
22 ft 10.0 kip 14 ft 804 psf 354 psf6.12 kip
O''
Let us assume point of zero shear i.e. point of maximum moment at x below EGL
let x = 16.88 ft
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equn = -1.115 kip
Maximum moment = -80.89 k-ft
moment about O'' = -68 kip-ft
= ###
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Ps
surcharge pressure= 353.76 psf
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Design of bracing
U channel size = 10 in4 in
Compressive stress = 18 ksi
Area of U-channel = 8.8 sq. in.
capacity of bracing = 2*8.8*40 = 316.8 kip
Length of bracing = 44 ft
Wt of U-channel = 30 lb/ft
Load per each temporary column = 2.64 kip
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D = 6.875 ft
212701.5 212836.8
-135.3346