HomeMy WebLinkAboutM2022-0031 - Alternative Material & Methods04P,
CITY OF NEWPORT BEACH
COMMUNITY DEVELOPMENT DEPARTMENT
BUILDING DIVISION
100 Civic Center Drive I P.O. Box 1768 l Newport Beach, CA 92658-8915
www.newoortbeachce.00v 1 (949) 644-3200
CASE NO.:
® REQUEST FOR MODIFICATION TO PROVISIONS
OF TITLE 9 (FIRE CODE) OR TITLE 15 (BUILDING CODE)
OF THE NEWPORT BEACH MUNICIPAL CODE
(See Reverse for Basis for Approval) (Fee$297)
❑ REQUEST FOR ALTERNATE MATERIAL
OR METHOD OF CONSTRUCTION
(See Reverse for Basis for Approval) (Fee $297)
For above requests, complete Sections 1, 2 & 3
below by printing in ink or typing.
JOB ADDRESS:
SITE ADDRESS: 440 HARBOR ISLAND DRIVE
Owner EDWARD CONTRERAS
Address 440 HARBOR ISLAND DRIVE
NEWPORT BEACH, CA Zip 92660
Daytime Phone ( )
FOR
Plan Check #
RECEIVED BY
COMMUNITY
DEVELOPMENT
MAR 10 2023
ul)
Occupancy Classification
Awrl
Use of Building ill
# of Units
Project Status
Construction Type
T VB
Verified by
M K
No. of Items
TZ��
Fee due
DISTRIBUTION:
❑ Owner
❑ Plan Check
Petitioner
❑ Inspector
Fire
❑ Other
PETITIONER:
Petitioner PLAMEN PETROV, P.E.
(Petitioner to m arcnaecr or engine!
Address 28161 CASITAS CT.
LAGUNA NIGUEL, CA Zip 92667
Daytime Phone ( 714 ) 717-7542
Email CONSULTING@PMA-BG.COM
HAHBUH S I ANUAHUS. PLEASE SEE SUBMI I I LU SELL 1 8-5 STAMPED AND SIGNED BY THE FOR ON 03/08/23 WITH
3 VUSTIFICATIONIFINDINGS OF EQUIVALENCY: CODE SECTIONS:
HARBOR DESIGN CRITERIA
DUE TO THE ENCOUNTERED HARD LAYER OF STRATA (BEDROCK), THE PILES SECTION A.2(k)3c
COULDN'T BE DRIVEN IN TO THE REQUIRED 15' OF EMBEDMENT PER THE CURRENT CITY STANDARDS. SINCE THE
03-08-23 IS71'-D", WE FIND THE ACHIEVED
Petitioner's \ Position PRINCIPAL AT PMA CONSULTING, INC.
Signature /ii������� CA Professional Lip. # C66947 Date: 03/08/23
FOR STAFF USE ONLY
DEPARTMENT ACTION: In accordance with: ❑ CBC 104.11/CFC 104.9 ACBC 104.10/CFC 104S
(Alternate materials & methods) (CBC Modification)
❑ Concurrence from Fire Code Official is required. ❑ Approved ❑ Disapproved ❑ Written Comments Attached
By: Date
WRequesl (DOES) ssen any fire protection requirements.
equest (DOES (DOES NOT ssen the structural integrity
The Request is: ranted ❑ Denied (See reverse for appeal information)
❑ Granted (Ratification required)
Conditions of Approval:
Signa ition CHIGF at nl rinl r_ nrc(Iq�(� n 3 —ZZ `"ZOZ3
Print Name
APPEAL OF DIVISION ACTION TO THE BUILDING BOARD OF APPEALS (See Reverse)
(Signature, statement of owner or applicant, statement of reasons for appeal and fling fees are required.)
CASHIER RECEIPT NUMBER: Al - ono 92Z15
Forms\motif 07/01/21
STRUCTURAL CALCULATIONS
for
REVISION DELTA 1
Located at:
440 HARBOR ISLAND DRIVE
NEWPORT BEACH, CA 92660
Prepared for:
SWIFT SLIP DOCK & PIER BUILDERS, INC.
6351 INDUSTRY WAY
WESTMINSTER, CA 92683
Prepared by:
PMA CONSULTING, INC.
28161 CASITAS CT.
LAGUNA NIGUEL, CA 92677
JOB #39522SS
MARCH 8, 2023
3/8/23
PMA consulting, Inc.
CONSULTING STRUCTURAL ENGINEERS
28161 CASITAS CT. P (714) 717 - 7512
LAGUNA NIGUEL, CA 92677
1
Dock, Piling & Gangway Repl
440 Harbor Island Drive
Newport Beach, CA 92660
Job: 39522SS
Sheet:
Design: TPP
Steel Piling
Date: 03/08/23
PILE # 1
I he pile design below is based on the requirements of:
"Layout & Design guidelines for Marina Berthing Facilities - Section V - Department of Boating
and Waterways of the State of California - July 2005 edition
"Design Criteria & Standard drawings for Harbor Construction"- City of Newport Beach - 2021 edition
Cut off » 12.0'
.......................
hp = 8.50 It ....
above MLLW Point of application>> 8:§'.................. P ax
(d)min = min [ 15' or (dreq'd penehation + T) ]
(h)cut off = 12 It (pile cutoff height above MLLW)
MLLW
(L)pile = (h)cut off + (h)mud line + (d)min
(h)mudline= 3 ft below MLLW
(h)cut off
(h)mud line
h
Try, Do =
12 in $ Steel Pipe
W/ Fy -
42
ksi
(d)min
Wall (t) =
0.375 in nominal thickness
E =
29000
ksi
I
Wall (t) =
0.349 in design thickness
If Do / t =
32.0 < 3300 / Fy »»
Fb =
0.66
* Fy
33001 Fy =
78.6 »»
Fb =
27.72
ksi Point of Fixity
A =
IT / 4)'(DoA2 - DiA2) & »»
A =
12.8
i02
S =
(n / 32Do)*(Do-4 -DiA4) & »»
S =
36.2
inA3
1 =
(r / 64)*(DoA4 - DiA4) & »»
I =
217
in^4
Pall = ?
mall = rD - 5
= 83527 ft-Ibs
In = (h)mudline + hp + 5' <<< Point of fixity 5' below mudline
16.5 It <<< Arm for flexural capacity calculations
Pall = Mall / h
= 5062 Ibs > Pmax GA. <<< By the flexural capacity of the steel pipe!
tie emoeament (a) = 7
Pmax =
3511 Ibs Lboat =
40
ft
<< Length of Boat
h =
11.5 ft Ld=
42.5
It
<< Length of Dock
Try, b =
12.00 in TEL
164
plf
<< Total Env. Load
DL Freeboard=
1.9
ft
<< Freeboard
Fcurrent=
5
plf
<< Current Load
Fdr=
12
plf
<< Wave Drift Force
Pw=
15
psf
<< Wind Pessure
Pmax =
((TEL*Lboat/2*Ld)-(2*Ld-Lboat) + (Fdr*(Lc1-Lboat)/3) + (Fcurrent*(Ld-Lboat)/3) + (Pw*DLFreeboard*(Ld-Lboat)/3)
section 1807.3.2.1 of CBC
d=A/2*{1+sgrt[1+(4.36*h/A)]}
A = 2.34 * P / (S 1 * b)
&S1=Fp*d/3
Flo = 320 psf <<< Passive soils pressure for bedrock
'er section 1806.3.4, two times increase is permitted,
Fp design= 640 psf (used in design)
'er section 1807.3.2.1, for (d) not over 12' deep,
& S1 <= 2560 psf 1/8" thickness added for
'er 1806.1, 33% permissible increase for transient forces, corrosoin protection
:: S1 = 3413 psf
A = 2.41 ft
dreq'd = 7 ft »»
Pmax =
3511
Ibs & F = 42
ksi
Pile :
12.00
in x 0.500
in thick
(L)pile=
22
ft
Embed =
7
If PILE #
1
Pld Consulting, Inc. Project: Dock, Piling & Gangway Repl Job: 39522SS
CONSULTING STRUCTURAL ENGINEERS 440 Harbor Island Drive Sheet:
2e161 CASITAs cT. P(7t4)in-7542 Newport Beach, CA 92660 Design: TPP
LAGUNA NIGUEL, CA 62677 Steel Piling Date: 03/08/23
PILES # 2 & 3
Design Criteria for Piles supporting Floating Docks
The pile design below is based on the requirements of:
1) "Layout & Design guidelines for Marina Berthing Facilities - Section D" - Department of Boating
and Waterways of the State of California - July 2005 edition
2) "Design Criteria & Standard drawings for Harbor Construction"- City of Newport Beach - 2021 edition
Cut off » 12.0'
............................ .
hp = 8.50 ft above MLLW Point of application>> 8.5' _ P ax r
(d)min = min [ 15' or (dreq'd penetration + S) ]
(h)cut off= 12 it (pile cutoff height above MLLW)
MLLW
(L)pile = (h)cut off + (h)mud line + (d)min
(h)mudline= 6 it below MLLW
off
line
In
Try, Do = 12 in �P Steel Pipe
W/ Fy =
42
ksi
(d)min
Wall (t) = 0.375 in nominal thickness
E =
29000
ksi
I
Wall (t) = 0.349 in design thickness
If Do / t = 32.0 < 3300 / Fy »»
Fb =
0.66
* Fy
3300 / Fy = 78.6 »»
Fb =
27.72
ksi Point of Fixity
A = ('rr / 4)*(Do^2 - DiA2) & »»
A =
12.8
inA2
S = (2r / 32Do)*(DoA4 -DiA4) & »»
S =
36.2
inA3
I = (r / 64)*(DoA4 - Di44) & »»
I =
217
inA4
Pall = ?
man = Fo-s
= 83527 ft-Ibs
In = (h)mudline + hp + 5' <<< Point of fixity 5' below mudline
= 19.5 it <<< Arm for flexural capacity calculations
Pall = Mall / h
= 4283 Ibs > Pmax GA. <<< By the flexural capacity of the steel pipe!
ue empetlment Itll ='t
Pmax =
3511 Ibs
Lboat =
40
ft
<< Length of Boat
h =
14.5 it
Ld=
42.5
ft
<< Length of Dock
Try, b =
12.00 in
TEL
164
off
<< Total Env. Load
DL Freeboard=
1.9
ft
<< Freeboard
Fcurrent=
5
off
<< Current Load
Fdr=
12
plf
<< Wave Drift Force
Pw=
15
psf
<< Wind Pessure
Pmax =
((TEL*Lboat/2*Ld)*(2*Ld-Lboat) + (Fdr*(Ld-Lboat)/3)
+ (Fcarrent*(Ld-Lboat)/3) + (1pw*DLFreeboard*(Ld-Lboat)/3)
section 1807.3.2.1 of CBC
d=Al2*(1+sent [1+(4.36*h/A)]}
A=2.34*P/(S1*b)
&S1=Fp*d/3
Fp = 320 psf <<< Passive soils pressure for bedrock
Per section 1806.3.4, two times increase is permitted,
Flo design= 640 psf (used in design)
Per section 1807.3.2.1, for (d) not over 12' deep,
& S1 <= 2560 psf 1/8" thickness added for
Per 1806.1, 33% permissible increase for transient forces, corrosion protection
:: S1 = 3413 psf
A = 2.41 it
dreq'd = 7 ft »»
Pmax =
3511 Ibs & F = 42 ksi
Pile:
12.00 in x 0.500 in thick
(L)pile =
25 ft
Embed =
7 ft IPILES # 2 & 3
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