HomeMy WebLinkAbout1 LEGOLAND DR; ; CB090258; Permit04-01-2009
Page 1
City of Carlsbad
1635 Faraday Av Carlsbad, CA 92008
Commercial/Industrial Permit Permit No: CB090258
Building Inspection Request Line (760) 602-2725
Job Address:
Permit Type:
Parcel No:
Valuation:
Occupancy Group:
Project Title:
04/01/2009
04/01/2009
1 LEGOLAND DR CBAD
COMMIND Sub Type:
2111000900 Lot#:
$350,000.00 Construction Type:
Reference #:
LEGOLAND- BUILD GAMES STRUCT,
COMM
0
5B
Status:
Applied:
Entered By:
ISSUED
02/17/2009
LSM
Plan Approved:
STORAGE BLDG, TREE CLIMB.LADDER CLIMB ATTRACTIONS SITE Issued:
Applicant:
RICHARD APEL
571 -BHYGEIAAVE
ENCINITAS 92024
760 943 0760
Inspect Area:
Plan Check*:
Owner:
LEGOLAND CALIFORNIA L L C <LF> PLAY U S ACQUISI
C/O PROPERTY TAX SERVICE CO
PO BOX 543185
DALLAS TX 75354
Fee Description
Building Permit
Add'l Building Permit Fee
Plan Check
Add'l Plan Check Fee
Plan Check Discount
Green Bldg Standards (SB1473) Fee
Strong Motion Fee
Park Fee
LFM Fee
Bridge Fee
BTD #2 Fee
BTD #3 Fee
Renewal Fee
Add'l Renewal Fee
Other Building Fee
Potable Water Connection Fee
Add'l Potable Water Connection Fee
Reclaimed Water Connection Fee
Add'l Reclaimed Water Connection Fee
BUILDING TOTAL
CFD Payoff Fee
PFF
PFF (CFD Fund)
License Tax
License Tax (CFD Fund)
Traffic Impact Fee
Traffic Impact (CFD Fund)
LFMZ Transportation Fee
Units
ANS
GE
Ext Fee
$1,555.93
$0.00
$1,011.35
$0.00
$0.00
$12.00
$73.50
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$2,652.78
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
City of Carlsbad
1635 Faraday Av Carlsbad, CA 92008
04-01-2009 Commercial/Industrial Permit Permit No: CB090258
Page 2
Fee Description Units Ext Fee
Plumbing Issue Fee
Fixture or Trap
Building Sewer
Roof Drain
Install/Repair Water Line
Water Heater and/or Vent
Gas Piping System
Vacuum Breaker
Other Plumbing Fees
PLUMBING TOTAL
Electric Issue Fee
Single Phase per AMP
Three Phase per AMP
Three Phase 480 Per AMP
Remodel/Alteration per AMP
Remodel Fee
Temporary Service Fee
Test Meter Fee
Other Electrical Fees
ELECTRICAL TOTAL
Mechanical Issue Fee
Install/Furn/Ducts/Heat Pumps Fee
Fireplace Installation Fee
Exhaust Fan Fee
Installation/Relocation Vent Fee
Hood Fee
Boiler/Compressor to 15HP Fee
Other Mechanical Fee
MECHANICAL TOTAL
Master Drainage Fee
Sewer Fee
Redev Parking Fee
Meter Fee
SDCWA Fee
HMP Fee
Additional Fees
TOTAL PERMIT FEES
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$0.00
$2,652.78
Total Fees: $2,652.78 Total Payments To Date: $2,652.78 Balance Due: $0.00
^W&tiSf
1635 Faraday Ave., Carlsbad, CA 92008
760-602-2717 / 2718 / 2719
Fax: 760-602-8558
www.carlsbadca.gov
Building Permit Application
Plan Check No.
Est.Value
Plan Ck. Deposit \ Q\\i
Date
JOB ADDRESS SUITE#/SPACE#/UNIT#-OP
CT/PROJECT tt LOT*
DESCRIPTION OF WORK: /nc/ude Square Feet of
# OF UNITS tt BEDROOMS
Areafs)
# BATHROOMS TENANT BUSINESS NAME CONSTR. TYPE I OCC. GROUP
ATTRA^w/^s
EXISTING USE PROPOSED USE GARAGE (SF)PATIOS (SF)DECKS (SF)
M/A
FIREPLACE
YESD #
AIR CONDITIONING
YES D NOZf
FIRE SPRINKLERS
YES J(f NO D
CONTACT NAM nt Fom Applican APPLI
ADDRESS ADDRESS
CITY STATE ZIP
PHONE
EMAIL <2 EMAIL * Rt)MetfO@
PROPERTY OWNER NAME CONTRACTOR BUS. NAME
ADDRESS ADDRESS
STATE ZIP CITY STATE ZIP
PHONE FAX PHONE FAX
EMAIL
[ARCH/DESIGNER NAME & ADDRESS
EMAIL
STATE LIC.#CITY BUS. LIC.»
such permit to file a signed statement that he itL- basis (or the alleged exemption, fay violation of(Sec. 7031.5 Business and Professions Code: Any City or County which requires a permit to construct, alter; improve, demolish or repair any structure, prior to its issuance, also requires the applicant for su<
""licensed pursuant to the provisions of the Contractor's License Law (Chapter 9, commending with Section 7000 of Division 3 of the Business and Professions Code} or that he is exempt there from, and the
Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars {$500}).
Workers' Compensation Declaration: / hereby affirm under penalty of perjury one of the following declarations:
0 I have and will maintain a certificate of consent to self-insure for workers' compensation as provided by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued.
O I have and will maintain workers' compensation, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. My workers' compensation insurance carrier and policy
number are: Insurance Co. _ Policy No. _ Expiration Date _
This section need not be completed if the permit is for one hundred dollars ($1 00) or less.
n Certificate of Exemption: I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the Workers' Compensation Laws of
California. WARNING: Failure to secure workers' compensation coverage is unlawful, and shall subject an employer to criminal penalties and civil fines up to one hundred thousand dollars (&100,000), in
addition to the cost of compensation, damages as provided for in Section 3706 of the Labor code, interest and attorney's fees.
CONTRACTOR SIGNATURE DATE
I hereby affirm that I am exempt from Contractor's License Law for the following reason;
O I, as owner of the property or my employees with wages as their sole compensation, will do the work and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractor's
License Law does not apply to an owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improvements are not intended or offered for
, sale. If, however, the building or improvement is sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale).
N6 I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of
' property who builds or improves thereon, and contracts for such projects with contractor(s) licensed pursuant to the Contractor's License Law).
n I am exempt under Section Business and Professions Code for this reason:
1.1 personally plan to provide the major labor and materials for construction of the proposed property improvement. CJ Yes d No
2.1 (have / have not) signed an application for a building permit for the proposed work.
3.1 have contracted with the following person (firm) to provide the proposed construction (include name address / phone / contractors' license number):
4.1 plan to provide portions of the work, but I have hired the following person to coordinate, supervise and provide the major work (include name / address / phone / contractors' license number):
5.1 will provide some of the work, but I have contracted (hired) the following persons to provide the work indicated (include name / address / phone / type of work):
^PROPERTY OWNER SIGNATURE
Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention program under Sections 25505,25533 or 25534 of the
Presley-Tanner Hazardous Substance Account Act? a Yes \D No ^
Is the applicant or future building occupant required to obtain a permit fromthe air pollution control district orairnuality management district? O Yes ^Jo
Is the facility to be constructed within 1,000 feet of (he outer boundary of a school site? O Yes ^rWo
IF ANY OF THE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCCUPANCY MAY NOT BE ISSUED UNLESS THE APPLICANT HAS MET OR IS MEETING THE REQUIREMENTS OF THE OFFICE OF
EMERGENCY SERVICES AND THE AIR POLLUTION CONTROL DISTRICT.
I hereby affirm that there is a construction lending agency for the performance of the work this permit is issued (Sec. 3097 (i) Civil Code).
Lender's Name Lender's Address
I certify that I have read the application and state that the above information is correct and that the information on the plans is accurate. I agree to comply with all City ordinances and State laws relating to building construction.
I hereby authorize representative of the City of Carlsbad to enter upon the above mentioned property for inspection purposes. I ALSO AGREE TO SAVE, INDEMNIFY AND KEEP HARMLESS THE CITY OF CARLSBAD
AGAINST ALL LIABILITIES, JUDGMENTS, COSTS AND EXPENSES WHICH MAY IN ANY WAY ACCRUE AGAINST SAID CITY IN CONSEQUENCE OF THE GRANTING OF THIS PERMIT.
OSHA: An OSHA permit is required for excavations over 5'0' deep and demolition or construction of structures over 3 stories in height.
EXPIRATION: Every permit issued by the Building Official under the provisions of this Code shall expire by limitation and become null and void if the building or work authorized by such permit is not commenced within
180 days from the date of such permit or ilthapbuilding 6rV°* authorized by such permit is suspended or abandoned at any time after the work is commenced for a period of 180 days (Section 106.4.4 Uniform Building Code).
^"APPLICANTSSIGNATURE (I (A *~ I/ „__ DATE •"?
City of Carlsbad
Final Building InspectionmMm
Dept: Building Engineering
Plan Check ft
Permit #:
Project Name:
CB090258
LEGOLAND- BUILD
Planning CMWD St Lite <4jj|e
Date: 06/24/2009
Permit Type: COMMIND
GAMES STRUCT, Sub Type: COMM
STORAGE BLDG, TREE CLIMB, LADDER CLIMB ATTRAC
Address:
Contact Person:
Sewer Dist:
Inspected
Bv: CA ^
Inspected
Bv:
Inspected
Bv:
1 LEGOLAND DR
GARY
CA
hr^Q /y
Lot: 0
Phone: 6195209943
Water Dist: CA
Date I I £ /
Inspected: Q. h~i I/ v\ Approved: I/ Disapproved:
Date
Inspected: Approved: Disapproved:
Date
Inspected: Approved: Disapproved:
Comments:
Inspection List
Permit#: CB090258 Type: COMMIND COMM LEGOLAND- BUILD GAMES STRUCT,
STORAGE BLDG, TREE CLIMB.LADDER C
Date Inspection Item
06/24/2009 89
06/24/2009 89
06/12/2009 17
06/12/2009 17
06/09/2009 17
06/09/2009 18
06/09/2009 98
06/04/2009 14
06/04/2009 34
05/13/2009 11
05/04/2009 1 1
04/23/2009 21
04/23/2009 31
04/20/2009 31
Final Combo
Final Combo
Interior Lath/Drywall
Interior Lath/Drywall
Interior Lath/Drywall
Exterior Lath/Drywall
BMP Inspection
Frame/Steel/Bolting/Weldin
Rough Electric
Ftg/Foundation/Piers
Ftg/Foundation/Piers
Underground/Under Floor
Underground/Conduit-Wirin
Underground/Conduit-Wirin
Inspector Act Comments
-
PD
-
TP
PD
PD
PD
PD
PD
PD
PD
TP
TP
PD
Rl
AP
Rl
NR NOINSP
AP
PA
PA
AP
AP
PA GAMES, STORAGE BLDG FTGS.
AP
AP STORM DRAINS
PA CONDUITS
PA TO LIGHTING
Wednesday, June 24, 2009 Page 1 of 1
City of Carlsbad Bldg Inspection Request
For: 06/24/2009
Permit* CB090258
Title: LEGOLAND- BUILD GAMES STRUCT,
Inspector Assignment: PD
Description: STORAGE BLDG, TREE CLIMB,LADDER CLIMB
ATTRACTIONS SITE AREA=8,540, BLDG FLR AREA 979
1 LEGOLAND DR
Lot: 0
Type:COMMIND Sub Type: COMM
Job Address:
Suite:
Location:
APPLICANT RICHARD APEL
Owner. LEGOLAND CALIFORNIA L L C <LF> PLAY U S ACQUISI
Remarks:
Phone: 6195209943
Inspeclpr;
Total Time:
CD Description
19 Final Structural
29 Final Plumbing
39 Final Electrical
49 Final Mechanical
Requested By: GARY
Entered By: CHRISTINE
Act Comments
Comments/Notices/Holds
Associated PCRs/CVs Original PC#
CLOSED O- NOISE FROM FIREWORKS;
Z- BANNER;
Z- CAR DEMO COURSE IN PRK LOT; VIOLATION OF INTENDED USE
ELECTRICAL PLAN FOR COASTER;
LEGOLAND; SPLIT UP GAMES BLDG @ PIRATE SHORE
LOSTKINDOM CLUSTER- REVISE ; RETAINING WALL/ NEW PLUMBING PLAN
LEGOLAND-SEALIFE MISC; REVISIONS
LEGOLAND: EXTERIOR FRAMING &; CALCS-DEFERRED
LEGOLAND: DEF. SUBMITTAL/ELEC; FOR AQUARIUM LIFE SUPPORT SYSTEM
LEGOLAND: DETAILS ON EXTERIOR; STAIRS
LEGOLAND: REVISIONS TO DUNE; RAIDER SLIDE
CV050664
CV060175 CLOSED
CV060295 CLOSED
PCR00224 APPROVED
PCR06076 ISSUED
PCR07206 ISSUED
PCR08010 ISSUED
PCR08041 ISSUED
PCR08042 ISSUED
PCR08057 ISSUED
PCR09059 ISSUED
Inspection History
Date Description Act
06/12/2009 17 Interior Lath/Drywall NR
06/09/2009 17 Interior Lath/Drywall AP
Insp Comments
TP NO INSP
PD
EsGil Corporation
In (Partners/Up -with government for <BuiCd~ing Safety
DATE: March 26, 2009 OAPPLICANT
JURISDICTION: Carlsbad a PLAN REVIEWER
a FILE
PLAN CHECK NO.: 09-258 SET: II
PROJECT ADDRESS: 1 Legoland Dr.
PROJECT NAME: Lego Land
XI The plans transmitted herewith have been corrected where necessary and substantially comply
with the jurisdiction's building codes.
The plans transmitted herewith will substantially comply with the jurisdiction's building codes
when minor deficiencies identified below are resolved and checked by building department staff.
The plans transmitted herewith have significant deficiencies identified on the enclosed check list
and should be corrected and resubmitted for a complete recheck.
The check list transmitted herewith is for your information. The plans are being held at Esgil
Corporation until corrected plans are submitted for recheck.
The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant
contact person.
The applicant's copy of the check list has been sent to:
XI Esgil Corporation staff did not advise the applicant that the plan check has been completed.
Esgil Corporation staff did advise the applicant that the plan check has been completed.
Person contacted: Telephone #:
Date contacted: (by: ) Fax #:
Mail Telephone Fax In Person
REMARKS: Games Structure, Storage Building, Ladder Climb & Coconut Tree Climb
Attractions.
By: Eric Jensen Enclosures:
Esgil Corporation
D GA D MB D EJ LI PC 3/23/09 tmsmtl.dot
9320 Chesapeake Drive, Suite 208 ^ San Diego, California 92123 4 (858)560-1468 + Fax (858) 560-1576
EsGil Corporation
In (Partnership with government for (BuiCtfing Safety
DATE: February 27, 2009
JURISDICTION: Carlsbad a PLAFfREVlEWER
a FILE
PLAN CHECK NO.: 09-258 SET: I
PROJECT ADDRESS: 1 Legoland Dr.
PROJECT NAME: Lego Land
The plans transmitted herewith have been corrected where necessary and substantially comply
with the jurisdiction's building codes.
The plans transmitted herewith will substantially comply with the jurisdiction's building codes
when minor deficiencies identified below are resolved and checked by building department staff.
The plans transmitted herewith have significant deficiencies identified on the enclosed check list
and should be corrected and resubmitted for a complete recheck.
XJ The check list transmitted herewith is for your information. The plans are being held at Esgil
Corporation until corrected plans are submitted for recheck.
The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant
contact person.
XI The applicant's copy of the check list has been sent to:
Richard Apel 571-B Hygeia Ave.~ Encinitas, CA 92024
Also faxed to Chris Romero 760-918-5469
Esgil Corporation staff did not advise the applicant that the plan check has been completed.
Esgil Corporation staff did advise the applicant that the plan check has been completed.
Person contacted: Richard Apel 6< • M) Telephone #: 760-943-0760
Date contacted: 3//X/oa7 (by: **- ) Fax #: same?
Mail -^Telephone ^ Fax In Person
REMARKS: Games Structure, Storage Building, Ladder Climb & Coconut Tree Climb
Attractions.
By: Kurt Culver Enclosures:
Esgil Corporationn GA n MB n EJ n PC 2/20/09
9320 Chesapeake Drive, Suite 208 + San Diego, California 9212? 4- (858)560-1468 * Fax (858) 560-1576
Carlsbad O9-258
February 27, 2009
PLAN REVIEW CORRECTION LIST
COMMERCIAL
PLAN CHECK NO.: O9-258 JURISDICTION: Carlsbad
OCCUPANCY: A-5 USE: Amusement
REMARKS:
DATE PLANS RECEIVED BY DATE PLANS RECEIVED BY
JURISDICTION: ESGIL CORPORATION: 2/20/09
DATE INITIAL PLAN REVIEW PLAN REVIEWER: Kurt Culver
COMPLETED: February 27, 2O09
FOREWORD (PLEASE READ):
This plan review is limited to the technical requirements contained in the International Building
Code, Uniform Plumbing Code, Uniform Mechanical Code, National Electrical Code and state
laws regulating energy conservation, noise attenuation and access for the disabled. This plan
review is based on regulations enforced by the Building Department. You may have other
corrections based on laws and ordinances enforced by the Planning Department, Engineering
Department, Fire Department or other departments. Clearance from those departments may be
required prior to the issuance of a building permit.
Code sections cited are based on th~e 2007 CBC, which adopts the 2006 IBC.
The following items listed need clarification, modification or change. All items must be satisfied
before the plans will be in conformance with the cited codes and regulations. Per Sec. 105.4 of
the 2006 International Building Code, the approval of the plans does not permit the violation of
any state, county or city law.
To speed up the recheck process, please note on this list (or a copy) where each
correction item has been addressed, i.e., plan sheet number, specification section, etc.
Be sure to enclose the marked up list when you submit the revised plans.
Carlsbad O9-258
February 27, 20O9
1. Each sheet of the architectural plans must be signed by a licensed Architect (a
Landscape Architect is not allowed), per State law.
2. See below for electrical items.
3. The jurisdiction has contracted with Esgil Corporation located at 9320 Chesapeake Drive,
Suite 208, San Diego, California 92123; telephone number of 858/560-1468, to perform
the plan review for your project. If you have any questions regarding these plan review
items, please contact Kurt Culver at Esgil Corporation. Thank you.
ELECTRICAL CORRECTIONS
PLAN REVIEWER: Doug Moody
1. Each sheet of the plans must be signed by the person responsible for their preparation.
Business and Professions Code.
2. Please note in the general wiring notes on the plans "AC Cable is not allowed in A
occupancies. Note on plans that an equipment ground conductor is to be installed in all
flexible conduits".
3. Please clarify the emergency lighting panel ERPTC1 is shown to provide circuits 14 and
16 yet the fixtures also show circuit 18? This circuit is not shown in the dimming panel
schedule nor is the lighting load?
4. Please clarify the lighting plans to show the emergency lighting altered indicated in sheet
notes 25, 26 and 28 on sheet E1.4.
5. Please have the document author and the principle designer of the LTG-1-C form sign
the imprinted document.
6. Please have the principle designer check the appropriate box(s) and complete the
Statement of Compliance System Acceptance section of the LTG-1-C part 4 of 4
documents and indicate the person responsible for providing the building inspector the
required forms prior to final inspection.
Note: If you have any questions regarding this Electrical plan review list please contact Doug
Moody at (858) 560-1468. To speed the review process, note on this list (or a copy) where the
corrected items have been addressed on the plans.
Carlsbad O9-258
February 27, 2O09
[DO NOT PAY- THIS IS NOT AN INVOICE]
VALUATION AND PLAN CHECK FEE
JURISDICTION: Carlsbad PLAN CHECK NO.: 09-258
DATE: February 27, 2009PREPARED BY: Kurt Culver
BUILDING ADDRESS: 1 Legoland Dr.
BUILDING OCCUPANCY: TYPE OF CONSTRUCTION:
BUILDING
PORTION
Amusement
Air Conditioning
Fire Sprinklers
TOTAL VALUE
Jurisdiction Code
Blrln Pprmif FPP hv OrHina
AREA
( Sq. Ft.)
cb
Valuation
Multiplier
By Ordinance
i
Reg.
Mod.
VALUE ($)
350,000
350,000
$1,436.25
Plan Check Fee by Ordinance ^
Type of Review: 0 Complete Review
I I Repetitive Fee
^Ti Repeats
Comments:
D Other
,—I Hourly
EsGil Fee
Structural Only
$933.56
$804.30
Sheet 1 of 1
macvalue.doc +
PLANNING/ENGINEERING APPROVALS
PERMIT NUMBER CB090258 DATE 2/18/09
ADDRESS 1 LEGOLAND DRIVE
RESIDENTIAL ADDITION-
MINOR (<17,000.00)
RETAINING WALL
VILLAGE FAIRE
POOL/SPA
TENANT IMPROVEMENT
COMPLETE OFFICE BUILDING
OTHER CD 09-02 APPROVED
PLANNER VAN LYNCH
ENGINEER/
DATE 2/18/09
H:\AD*\™NTER/PUNNING/liNr,INEERIN(l APPROVALS
Carlsbad Fire Department B£.DG.DEPTCGFY
Plan Review Requirements Category: COMMIND , COMM
Date of Report: 04-01 -2009 Reviewed by:
Name:
Address:
RICHARD APEL
571 -B HYGEIA AVE
ENCINITAS
92024
Permit #: CB090258
•eview
clouded",
Job Name: LEGOLAND- BUILD GAMES STRUCT,
Job Address: 1 LEGOLAND DR CBAD
COMPLETE
adequateljcconduct
carefully all
to this office for rev
Conditions:
Cond: CON0003341
[MET]
APPROVED:
THIS PROJECT HAS BEEN REVIEWED AND APPROVED FOR THE PURPOSES OF ISSUANCE OF
BUILDING PERMIT.
THIS APPROVAL IS SUBJECT TO FIELD INSPECTION AND REQUIRED TEST, NOTATIONS HEREON,
CONDITIONS IN
CORRESPONDENCE AND CONFORMANCE WITH ALL APPLICABLE REGULATIONS.
THIS APPROVAL SHALL NOT BE HELD TO PERMIT OR APPROVE THE VIOLATION OF ANY LAW.
Entry: 04/01/2009 By: df Action: AP
Carlsbad Fire Department BLDG. DEPT COPY
Plan Review Requirements Category: COMMIND , COMM
Date of Report: 03-10-2009 Reviewed by: _
Name: RICHARD APEL
Address:
571 -BHYGEIAAVE
ENCINITAS
92024
Permit #: CB090258
Job Name: LEGOLAND- BUILD GAMES STRUCT,
Job Address: 1 LEGOLAND DR CBAD
INCOMPLETE The item you have submitted for review is incomplete. At this time, this office cannot
adequately conduct a review to determine compliance with the applicable codes and/or standards. Please review
carefully all comments attached. Please resubmit the necessary plans and/or specifications, with changes "clouded",
to this office for review and approval.
Conditions:
Cond: CON0003341
[NOT MET]
Please provide the location of the existing fire hydrants on the site plan.
Please indicate the fire department access on the site plan.
Provide the occupant load for the Game Structure.
Entry: 03/10/2009 By: DF Action: CO
C
COMMUNITY FACILITIES DISTRICT No. 1
NON-RESIDENTIAL CERTIFICATE: NON-RESIDENTIAL LAND OWNER, PLEASE
READ THIS OPTION CAREFULLY AND BE SURE YOU THOROUGHLY UNDERSTAND
BEFORE SIGNING. THE OPTION YOU CHOSE WILL AFFECT YOUR PAYMENT OF THE
DEVELOPED SPECIAL TAX ASSESSED ON YOUR PROPERTY. THIS OPTION IS
AVAILABLE ONLY AT THE TIME OF THE FIRST BUILDING PERMIT ISSUANCE.
PROPERTY OWNER SIGNATURE is REQUIRED BEFORE SIGNING. YOUR SIGNATURE is
CONFIRMING THE ACCURACY OF ALL INFORMATION SHOWN.
MERLIN ENTERTAINMENT GROUP
NAME OF OWNER
1 LEGOLAND DR
ADDRESS
76O918-53OO
TELEPHONE
1 LEGOLAND DR
CARLSBAD CA 92O08
PROJECT ADDRESS
CARLSBAD CA 92OO8
CITY, STATE
APN21 I-1OO-O9-OO
ZIP CITY, STATE ZIP
ASSESSOR PARCEL NUMBER(S) OR APN(s) AND LOT NUMBERS(S) IF NOT YET SUBDIVIDED BY COUNTY ASSESSOR
CB09O258
BUILDING PERMIT NUMBER(S)
AS CITED BY ORDINANCE NO. NS-155 AND ADOPTED BY THE CITY OF CARLSBAD, CALIFORNIA,
THE CITY IS AUTHORIZED TO LEVY A SPECIAL TAX IN COMMUNITY FACILITIES DISTRICT NO. 1 . ALL
NON-RESIDENTIAL PROPERTY, UPON THE ISSUANCE OF A BUILDING PERMIT, SHALL HAVE THE
OPTION TO (1) PAY THE SPECIAL DEVELOPMENT TAX ONE TIME OR (2) ASSUME THE
ANNUAL SPECIAL TAX — DEVELOPED PROPERTY FOR A PERIOD NOT TO EXCEED TWENTY-
FIVE (25) YEARS. PLEASE INDICATE YOUR CHOICE BY INITIALIZING THE APPROPRIATE LINE BELOW:
OPTION (1): I ELECT TO PAY THE SPECIAL TAX - ONE TIME NOW. AS A ONE-TIME PAYMENT.
AMOUNT OF ONE-TIME SPECIAL TAX: $ 546.37
OWNER'S INITIALS \~f^>
OPTION (2): I ELECT TO PAY THE SPECIAL DEVELOPMENT TAX ANNUALLY FOR A
PERIOD MOTTO EXCEED TWENTY-FIVE (25) YEARS.
MAXIMUM ANNUAL SPECIAL TAX: $ N/A
OWNER'S INITIALS .
I DO HEREBY CERTIFY UNDER PENALTY OF PERJURY THAT THE UNDERSIGNED IS
THE PROPERTY OWNER OF THE SUBJECT PROPERTY AND THAT I UNDERSTAND
AND WILL COMPLY WITH THE PROVISION AS STATED ABOVE.
OF
TITLE
PRINT NAME DATE
THE CITY OF CARLSBAD HAS NOT INDEPENDENTLY VERIFIED THE INFORMATION SHOWN ABOVE. THEREFORE,WE ACCEPT NO RESPONSIBILITY AS TO THE ACCURACY OR COMPLETENESS OF THIS INFORMATION.
LAND USE COMM IMP. AREA 2 FY 12/21/93
FACTOR .5581 X SQUARE FT. 979 = $546.37
Raenette Abbey
To: Richard Apel
Subject: RE: School Form - CB090257
Thank you for the square footages. ESGIL did not return the PE&M worksheet forCB090257. I have a worksheet for
CB090258 in the folder. If you could send me the worksheet for CB090257?
From: Richard Apel [mailto:rwapel2@cox.net]
Sent: Monday, March 30, 2009 2:38 PM
To: Raenette Abbey
Subject: Re: School Form - CB090257
Raenette:
Ladder Climb = 285 s.f.
Coconut Tree Climb = 197 s.f.
Please note that these are not buildings, if that makes a difference. The ladder climb is a rope ladder that kids climb, with
an inflatable pillow below to catch them if they fall. The Coconut Tree Climb is a group of 3 fake palm trees that kids
climb. You can see photos of these in the drawings.
I submitted the plumbing/elect/mech worksheets for both projects with the second plan check submittal on 3/18/09.
They might have been stapled to our "response to comments" from the other departments (maybe Esgil has them? or
Planning or Engineering?) If you can not find them, let me know and I will submit again.
Thanks,
Richard Apel, ASLA
R. W. Apel Landscape Architects, Inc.
571-B Hygeia Avenue
Leucadia, CA 92024
tel & fax: (760) 943-0760
cell: (760) 807-6564
email: rwapel2@cox.net
CA license 2825
— Original Message —
From: Raenette Abbey
To: Richard Apel
Sent: Monday, March 30, 2009 11:39 AM
Subject: RE: School Form - CB090257
Richard,
Attached are plumbing, electrical and mechanical worksheets for both of the permits that are in plan check now for
Legoland. This data is needed for entrance in to the building permits. Please complete the information and return
them to me as soon as you are able to.
I am starting to work on the school and CFD forms for the other permit, CB090258 (games structure, storage building
etc...) I see on the plans that there is a square footage breakdown for the games structure = 819 sf and the storage
building = 160 sf. I don't see anywhere that lists the square footage for the Coconut Tree Climb—or the Ladder Climb.
Could you do the same for this permit—that you did for the other one? Could you send me a break down of the use
descriptions and square footages?
From: Richard Apel [mailto:rwapel2@cox.net]
Sent: Monday, March 30, 2009 10:43 AM
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STRUCTURAL CALCULATIONS
FOR
LEGOLAND GAME AND STORAGE
ONE LEGO DRIVE
CARLSBAD, CALIFORNIA 92008
(DSI PROJECT NO. 08121.01)
February 12, 2009
TABLE OF CONTENTS
ITEM PAGE
Category A DESIGN CRITERIA A1-A5
Category B COCONUT TREE CLIMB FOUNDATION DESIGN B1-B24
Category C GAME STRUCTURE AND STORAGE BUILDING C1-C2'1
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08P1 01
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DESIGN CRITERIA
Conterminous 48 States
2006 International Building Code
Latitude = 34 1071
Longitude = -117 6484
Spectral Response Accelerations Ss and S1
Ss and S1 = Mapped Spectral Acceleration Values
Site Class B - Fa = 1 0 ,Fv = 1 0
Data are based on a 0 01 deg grid spacing
Period Sa
(sec) (g)
02 1 916 (Ss, Site Class B)
10 0619 (S1, Site Class B)
Conterminous 48 States
2006 International Building Code
Latitude = 34 1071
Longitude = -117 6484
Spectral Response Accelerations SMs and SM1
SMs = Fa x Ss and SM1 = Fv x S1
Site Class D - Fa = 1 0 ,Fv = 1 5
Period Sa
(sec) (g)
02 1916 (SMs, Site Class D)
10 0 929 (SM1, Site Class D)
Fa= 1 0
Fv= 1 5
SMS= 1916
SM1=0619
Ss= 1 916
S, = 0 929
SDS = 1 277
SD1= 0619
SM (max)
Conterminous 48 States
2006 International Building Code
Latitude = 34 1071
Longitude = -117 6484
Design Spectral Response Accelerations SDs and SD1
SDs = 2/3 x SMs and SD1 = 2/3 x SM1
Site Class D - Fa = 1 0 ,Fv = 1 5 SD
Period Sa
(sec) (g)
02 1 277 (SDs, Site Class D)
10 0619 (SD1, Site Class D)
(design)
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760) 966-5355
Fax (760)966-6350
JOB Legoiand
SHEET NO OF
CALCULATED BY Y S DATE 2/09
CHECKED BY DATE
SCALE
DESIGN CRiTERiA
CODE.
2006 Internationa! Building Code (IBC)
2007 California Building Code (CBC)
SEISMIC-
Building Occupancy Category
Seismic Design Category:
'eismic Base Shear1
Fv =
SD1 =
T =
R =
Qo =
Cd =
V = 1 OE =
V = 0 7E =
V w/ p=1 3=
El
D
1 00
1 000
1 5
1 277
0619
0 112
20
20
20
0639
0447
05S1
sec
WIND.
WOOD
Basic Wind Speed •
Exposure :
*W
*W
*W
MPH
(Strength Design)
(ASD)
ASD Setsmic Design Force
(3-sec Gust)
2005 NDS
2x&3x
>3x
Douglas Fir-Larch No 2
Douglas Fir-Larch No 1
FOUNDATION CRITERIA
ALLOWABLE SOIL PRESSURE FOR D+L
FRICTION COEFFICIENT
PASSIVE EARTH PRESSURE
ACTIVE EARTH PRESSURE
AT-REST EARTH PRESSURE
PSF
035
300 PCF
35 PCF
55 PCF
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
' Oceanside, CA 92054
I Tel (760)966-6355
| Fax (760)966-6360
JOB Legoland 0813700
CALCULATED BY Y S 2/09
LATERAL ANALYSIS
This building consists mainly of inverted pendulum posts for shear resistence,
Therefore, per 2005 IBC, for the entire structure, R= 2
Per IBC2006 (1613), ASCE 7-05 Chapter 11,12,13 Seismic Design Criteria
n0= 20 Cd= 20
Soil Site Class D
Method 1 Input Project Zip Code 92008
Response Spectral Ace (0 2 sec) Ss = 125%g = 1 251 g
Response Spectral Ace (1 0 sec) S-, = 47%g = 0 472 g
Site Coefficient Fa = 1 000
Site Coefficient Fv= 1528
Max Considered Earthquake Ace SKS= Fa Ss =1 251 g
Max Considered Earthquake Ace SM1 = Fv Si =0 721 g
@ 5% Damped Design SDS = 2/3(SMS) = 0 834 g
SD1 = 2/3(SM1) = 0 481 g
Method 2 Input the coordinate of project Latitude 34°06'25 58"N
Longitude 117°38'54 12"W
From the Ground Motion Parameter Calculator by USGS
The seismic design parameters are
Ss= 1916 g Fa= 10
S1 = 0619 g Fv= 15
Table 20-3-1, Default =D
Figure 22-1 through 22-14
Figure 22-1 through 22-14
Table 11 4-1
Table 11 4-2
(114-1)
(114-2)
(114-3)
(114-4)
(24° to 50°)
(-125° to-55°)
SMS= 1 916 g
SM1= 0 929 g
SDS= 1 277 g
SD1= 0619 g
Use the seismic parameters from Method 2 to supercede those from Method 1
Seiemic Design Category (SDC) Determination
Building Occupancy Categories II
Seismic Design Category for 0 1 sec D
Seismic Design Category for 1 Osec D
S1 = 0619 <075g
Therefore SDC = D
Table 1-1
Table 11 6-1
Table 11 6-2
Section 11 6 NOT Apply '
Equivalent lateral force procedure
To Determine Period C, =
Building ht Hn =
Cu =
Approx Fundamental period, Ta =
Calculated T shall not exceed <
Per Section 11 6
x= 075002
10
1 4
C,(hn)x
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Section 128
Table12 8-2
ft
forSD1of 0619g
= 0112 TL= S Sec
= 0157 UseT= 0112 sec
Table12 6-1
Figure 22-15
Is Structure Regular & £ 5 stones ' Yes
Response Spectral Ace ( 0 2 sec) Ss = 1 50g
@ 5% Damped Design SDs = %(Fa Ss)
Response Modification Coef R = 2
Over Strength Factor no = 2
Importance factor I = 1 00
Seismic Base Shear V = C,W
= 0010g
0388 sec OKI
Section 12 81 3
Fa = 1 00
(114-3)
Table-12 2-1
Table 11 5-1
R/l
or need not to exceed Cs =
orCs = -SD1T,
T2(R/I)
C5 shall not be less than = Q 01
MmCB= 055,1/R
Use Cs = o 639
=0639
= 2 752 For T < TL
N/A For T > TL
= 0155 ForS->06g
(128-2)
(128-3)
[12 8-4)
(12S-5)
(128-5)
Design Base Shear V = Q 63S W
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12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
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5 854 ft
2371 023 ftM
41 82 256 ftM
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Sy(left)
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13250ft
320 567 ftA3
405 051 ftA3
492 030 ftA3
492 030 ftA3
3 480 ft
Section Properties About Principal Axis
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2371 023 ftM
41 82 256 ftM
0 000 ftM
6553 280 ftM
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DUNN SAVOIE INC.
STRUCTURAL ENGINEERS SHEETN° ^ °F-
908 S Cleveland Street CALCULATED BY DATE
OCEANSIDE, CA 92054
PH (760) 966-6355 FAX (760) 966-6360 CHECKED BY DATE.
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Page 1 of 8
Anchor Calculations
Anchor Designer for ACI 318 (Version 3 6)
Job Name Legoland ^te/Time 2/12/200930338
1) Input
Calculation Method : ACI 318 Appendix D For Cracked
Concrete
Calculation Type Analysis Number of Anchors 4
Anchor 1/2" SET-XP Embedment Depth 8 in
Steel A307GR C
Built-up Grout Pads No
Anchor Layout Dimensions (in)
Cx1 12
Cx2 36
Cy1 36
Cy2 12
Bx1 2
Bx2 2
By1 2
By2 2
Sx1 4
Sy1 4
Concrete Normal weight f c 2500 0 psi
Cracked Concrete Yes *FC v 1 40
_ ., D c|)Fn 13813Condition B ^ Ppsi
Thickness, h 18 in
Supplementary edge reinforcement No
Temperature Range 1 (Maximum 1 10 °F short term and 75 °F long term
temp )
Hole Condition Dry Concrete
Inspection Periodic
Load factor source ACI 318 Section 9 2
Nua 12291 Ib Vuax 1075 Ib
Vuay Olb Mux Olbft
Muy Olb*ft
about blank 2/12/2009
Page 2 of 8
Moderate/high seismic risk or intermediate/high design category No
Sustained Tension No
Anchors only resist wind and/or seismic loads No
Cy2
Cx1 Sx1 Cx2
uay i 2
G~
*
bx2
y1
FOUR ANCHORS
•Nua IS POSmtfE FOR TENSION
AND NEGATIVE FOR COMPRESSION
From C-SAS-2009
Anchor Model = SETXP dQ = 0 5 in
Category = 1 hef = 8 in
hm(n = 18m
cmm = 1 75 in
cac = 24 in
sm,n = 3 In
Ductile = Yes
2) Tension Force on Each Individual Anchor
Anchor #1 Nua1 = 3072 75 Ib
Anchor #2 Nua2 = 3072 75 Ib
Anchor #3 Nua3 = 3072 75 Ib
Anchor #4 Nua4 = 3072 75 Ib
= 0 00 inNx
Ny = 0 00 in
3) Shear Force on Each Individual Anchor
Resultant shear forces in each anchor
Anchor #1 Vua1 = 268 75 Ib (Vug1x = 268 75 Ib , Vua1y = 0 00 Ib )
Anchor #2 Vua2 = 268 75 Ib (Vug2x = 268 75 Ib , Vua2y = 0 00 Ib )
Anchor #3 Vua3 = 268 75 Ib (Vug3x = 268 75 Ib , Vua3y = 0 00 Ib )
about blank 2/12/2009
Page 3 of 8
Anchor #4 Vua4 = 268 75 Ib (Vua4x = 268 75 Ib , Vua4y = 0 00 Ib )
e'Vx = 0 00 in
e'Vy = 0 00 in
4) Steel Strength of Anchor in Tension [Sec. D.5.1]
Nsa = nAsefuta [Eq D'3]
Number of anchors acting in tension, n = 4
Nsa = 8235 Ib (for each individual anchor) [C-SAS-2009]
<j> = 0 75 [D 4 4]
<j)Nsa = 6176 25 Ib (for each individual anchor)
5) Concrete Breakout Strength of Anchor Group in Tension [Sec. D.5 2]
Ncbg = ANc/ANco*ec,N*ed,N^c,N
Number of influencing edges = 0
hef = 8 in
ANco = 576 °° irj
ANc = 784 00 in2
4'ec,Nx = 1 000°
Tec,Ny = 1 000° [Eq D-9]
4'ec N = 1 0000 (Combination of x-axis & y-axis eccentricity factors )
Smallest edge distance, ca min = 12 00 in
Ted N = 1 0000 [Eq D-10 or D-11 ]
Note Cracking shall be controlled per D 5 2 6
¥c N = 1 0000 [Sec D 5 2 6]
'Fcp N = 1 000° lEcl D'12 °r D'13l
Nb=kcV f 'chef
15 =19233 30 Ib [Eq D-7]
kc=17
Ncbg = 2617866lb[Eq D-5]
(|) = 0 65 [D 4 4]
<))Ncbg = 17016 13 Ib (for the anchor group)
6) Adhesive Strength of Anchor Group in Tension [Sec. D.5.3 (AC308 Sec 3.3)]
Tkcr = 1040 psi [C-SAS-2009]
\max,cr=kcrV hefV fc/(n dQ) [Eq D-1
kcr= 17 [C-SAS-2009]
about blank 2/12/2009
Page 4 of 8
hef (unadjusted) = 8 in
\max,cr=153054Psl
Nao = Vr* dohef = 13069 °3 lb
ik uncr = 2422 00 psi for use in [Eq D-16d]
scr Na = 12 924 in [Eq D-16d]
ccr Na = 6 462 in [Eq D-16e]
Nag = ^ANao^a^Na^Na^NaN
ANao = 167 °3 lp2
ANa = 286 43 in2
= 1 000°
= 1 000°
Tec Na = 1 0000 (Combination of x-axis and y-axis eccentricity factors )
Smallest edge distance, ca m|n = 12 00 in
^ed Na = 1 000° fEcl D'161 or D-
^pNa = 1 0000 [Sec D5314]
*g,Na * ^g,Nao+(s/Scr,Na)° 5(1^g,Nao) ^ D-16g]
s = 4 in (largest spacing)
= maxt V n - K V n - 1X\cr\max,cr)1 5- 1 0] [Eq D-16h]
= 1 4399
Nag = 26784 23 lb [Eq D-16b]
<)) = 0 55 [C-SAS-2009]
4>N = 14731 33 lb (for the anchor group)
7) Side Face Blowout of Anchor Group in Tension [Sec. D.5.4]
Concrete side-face blowout strength is only calculated for headed anchors close to an edge,
ca1 < 0 4hef Not applicable in this case
8) Steel Strength of Anchor Group in Shear [Sec D.6.1]
Vsa = nO 6Asefuta [Eq D-20]
Vsa = 4940 00 lb (for each individual anchor) [C-SAS-2009]
(j) = 0 65 [D 4 4]
(j) Vsa = 321 1 00 lb (for each individual anchor)
about blank 2/12/2009
Page 5 of 8
9) Concrete Breakout Strength of Anchor Group in Shear [Sec D.6.2]
Case 1 Half of shear load applied to anchor(s) closest to edge
In x-direction
Vcbgx vcx
Avcx = 936 00 in2
Avcox = 2592 00 in2 [Eq D-23]
¥eCiV = 1 0000 [Eq D-26]
^ed V = ° 800° fEcl °-27 or D
Tc v = 1 4000 [Sec D 6 2 7]
Vbx = 7('e/do)°2^ do^ fc(ca1)1 5 [Eq D-24]
Vbx = 4410501 Ib
Vcbgx= 17838 03 lb[Eq D-22]
(j) = 0 70 [D 4 4]
(|)Vcbgx = 12486 62 Ib (for the anchor group)
In y-direction
Vcbgy = Avcy/AvcoyVi/ec,V^ed,VVI'c,VVby ^ D
Avcy = 61200m2
Avcoy = 648 00 in2 [Eq D-23]
<FeCiV = 1 0000 [Eq D-26]
Ted v = 0 9000 [Eq D-27 or D-28]
TcV= 1 4000 [Sec D627]
D-24]
Vby= 15593 48 Ib
Vcbgy= 18556 24 lb[Eq D-22]
«|> = 0 70 [D 4 4]
(()Vcbgy = 12989 36 Ib (for the anchor group)
Case 2 Total shear load applied to anchor(s) furthest from edge
In x-direction
Vcbgx
Avcx = 936 00 in2
Avcox = 2592 00 in2 [Eq D-23]
TeC]V=10000[Eq D-26]
about blank 2/12/2009
I
'c,V = 1 4000 [Sec D627]
e0d_ °v 'c<cai) [Eq D-24J
= 441050llb
Vcbgx= 17838 03 IbfEq D-22J
= 0 70 f D 4 4J
D.23J
I ^ec.V = 1 0000 [Eq D-26J
%v = 0 8500 [Eq D-27orD-28]
• \v = 1 4000 [Sec D 6 2 7J
* V = 0 ,
= 2400773,5
Vcbgy = 17855 75 IbfEq D-22J
</> = 0 70 [D 4 4]
00
D-23J
ec,v = 1 0000 [Eq D-26J
^V = 1 0000 [Sec D621(C)J
\v= 14000 [Sec D627J
V = WaVdoV
Vbx = 15593 48 /b J
Vcbgx = 20618 04 lb[Eq D-22J
Vcbgy = 2 * Vcbgx fsec D621(C)J
about blank
Mr
Page 7 of 8
Vcbgy = 4123608lb
4> = 0 70 [D 4 4]
(|>Vcbgy = 28865 26 Ib (for the anchor group)
Limit case 2 <|A/cb by parallel to edge strength
Vcbgy = A
Vcy/Avcoy^ec,V^ed,V
Avcy = 61200in2
Avcoy = 648 00 in2 [Eq D-23]
= 1 0000 [Eq D-26]
v= 1 0000 [Sec D62 1(c)]
= 1 4000 [Sec D627]
Vby =15593 48 Ib
Vcbgy = 2061804lb[Eq D-22]
Vcbgx = 2*Vcbgy[SecD621<C»
Vcbgx = 4123608lb
cj> = 0 70 [D 4 4]
(j)Vcbgx = 28865 26 Ib (for the anchor group)
Governing strengths for case 1 are
(|)Vcbx= 12486 62 Ib
(|>Vcby = 12989 36 Ib
Governing strengths for case 2 are
<t>Vcbgx=1248662lb
<!>Vcbgy=1249902lb
10) Concrete Pryout Strength of Anchor Group in Shear [Sec D.6.3]
vcpg = ™n[kcpNag,kcpNcbg] [Eq D-30b]
kcp = 2[Sec D632]
Nag = 26784 23 Ib (from Section (6) of calculations)
Ana = 286 43 in2 (from Section (6) of calculations)
Anga = 286 43 in2 (considering all anchors)
^aq = (Anaa/Ana)N
Nag = 26784 23 Ib (considering all anchors)
Ncbg = 26178 66 Ib (from Section (5) of calculations)
about blank 2/12/2009
Page 8 of 8
P'7
ANc = 784 00 in2 (from Section (5) of calculations)
ANca = 784 00 in2 (considering all anchors)
Ncbg = (ANca/ANc)Ncbg
Ncbg = 26178 66 Ib (considering all anchors)
Vcpg = 52357 33 Ib
<}> = 0 70 [D 4 4]
<|)Vcp = 36650 13 Ib (for the anchor group)
11) Check Demand/Capacity Ratios [Sec. D.7]
Tension
-Steel 04975
- Breakout 0 7223
- Adhesive 0 8343
- Sideface Blowout N/A
Shear
-Steel 00837
- Breakout (case 1) 0 0430
- Breakout (case 2) 0 0861
-Pryout 00293
V Max(0 09) <= 0 2 and T Max(0 83) <= 1 0 [Sec D 7 1]
Interaction check PASS
Use 1/2" diameter A307 GR C SET-XP anchor(s) with 8 in embedment
about blank 2/12/2009
JOB
DUNN SAVOIE INC.
STRUCTURAL ENGINEERS SHEETN° ~ OF
908 S Cleveland Street CALCULATED BY DATE
OCEANSIDE, CA 92054
PH (760)966-6355 FAX (760) 966-6360 CHECKED BY DATE.
Email dsi@surfdsi com
SCALE
2-
PRODUCT 207
Page 1 of 6
Anchor Calculations
Anchor Designer for ACI 318 (Version 3 6)
Job Name Legoland £ate/T,me 2/12/200931221
1) Input
Calculation Method : ACI 318 Appendix D For Cracked
Concrete
Calculation Type Analysis Number of Anchors 1
Anchor 1/2" SET-XP Embedment Depth 8 in
Steel A307GR C
Built-up Grout Pads No
Anchor Layout Dimensions (in)
Cx1 12
Cx2 36
Cy1 36
Cy2 12
Bx1 2
Bx2 2
By1 2
By2 2
Concrete Normal weight f c 2500 0 psi
Cracked Concrete Yes H^ v 1 40
n .. D <|>FD 13813Condition B Ppsi
Thickness, h 18 in
Supplementary edge reinforcement No
Temperature Range 1 (Maximum 110 °F short term and 75 °F long term
temp )
Hole Condition Dry Concrete
Inspection Periodic
Load factor source ACI 318 Section 9 2
Nua 5419 Ib Vuax 538 Ib
Vuay Olb Mux Olb*ft
Muy Olb*ft
Moderate/high seismic risk or intermediate/high design category No
Sustained Tension No
about blank 2/12/2009
Page 2 of 6
Anchors only resist wind and/or seismic loads No
Cx1 Cx2
Cy2
Cy1
V,uay
N,ua
3x2
M,!UX<'
"uax
SINGLE ANCHOR
•Nua 5S POSITIVE FOR TENSION
AND NEGATIVE FOR COM PR ESS ION
From C-SAS-2009
Anchor Model = SETXP dQ = 0 5 in
Category = 1 hef = 8 in
hm|n = 18.n
cm|n = 1 75 in
cac = 24 in
sm,n = 3 In
Ductile = Yes
2) Tension Force on Each Individual Anchor
Anchor #1 Nua1 =5419 00 Ib
e'Nx = 0 00 in
e'Ny = 0 00 in
3) Shear Force on Each Individual Anchor
Resultant shear forces in each anchor
Anchor #1 Vua1 = 538 00 Ib (Vug1x = 538 00 Ib , Vua1y = 0 00 Ib )
e'Vx = 0 00 in
e'Vy = 0 00 in
4) Steel Strength of Anchor in Tension [Sec. D.5.1]
Nsa = nAsefuta ^ D^
Number of anchors acting in tension, n = 1
N.. = 8235 Ib (for a single anchor) [C-SAS-2009]od
((> = 0 75 [D 4 4]
about blank 2/12/2009
Page 3 of 6
(()Nsa = 6176 25 Ib (for a single anchor)
5) Concrete Breakout Strength of Anchor in Tension [Sec. D.5.2]
Ncb = ANc/ANco^ed N^FC NTcp NNb [Eq D-4]
Number of influencing edges = 0
hef = 8 in
ANco = 576 00 in2 [Eq D-6]
ANC = 576 00 in2
Smallest edge distance, c_ mm = 12 00 inw a , rn i n
= 1 000° tEcl D-10 or D-ed N
Note Cracking shall be controlled per D 5 2 6
¥c N = 1 0000 [Sec D 5 2 6]
^ = 1 000° Ecl D'12 or D'1
N = kc V f ' c hef
1 5 = 19233 30 Ib [Eq D-7]c ef
kc=17
Ncb= 19233 30 lb[Eq D-4]
((> = 0 65 [D 4 4]
<|)Ncb = 12501 65 Ib (for a single anchor)
6) Adhesive Strength of Anchor in Tension [Sec D.5.3 (AC308 Sec. 3. 3)]
Tkcr = 1040 psi [C-SAS-2009]
\max,cr=kcrV ^ f c^ dQ) [Eq D-16i]
krr= 17 [C-SAS-2009]cr
hef (unadjusted) = 8 in
\max,cr=153054Psl
Nao = TKcr7i d0hef = 13069 03 Ib [Eq D-16f]
Tk uncr = 2422 00 psi for use in [Eq D-16d]
scrNa=12924in[Eq D-16d]
ccr Na = 6 462 in [Eq D-16e]
ANgo=16703m2[Eq D-16c]
ANg = 167 03 in2
Smallest edge distance, ca mm = 12 00 in
about blank 2/12/2009
Page 4 of 6
Ted Na = 1 0000 [Eq D-161 or D-16m]
ypNa = 1 0000 [Sec D53 14]
Na =13069 03 lb[Eq D-16a]
<|) = 0 55 [C-SAS-2009]
(|)Na = 7187 96 Ib (for a single anchor)
7) Side Face Blowout of Anchor in Tension [Sec. D.5.4]
Concrete side-face blowout strength is only calculated for headed anchors close to an edge,
cg1 < 0 4hef Not applicable in this case
8) Steel Strength of Anchor in Shear [Sec D.6.1]
Vsa = nO 6Asefuta [Eq D-20]
V = 4940 00 Ib (for a single anchor) [C-SAS-2009]oc)
(|> = 0 65 [D 4 4]
((> Vsa = 32 11 00 Ib (for a single anchor)
9) Concrete Breakout Strength of Anchor in Shear [Sec D.6.2]
In x-direction
Vcbx = Avcx/AvcoxV1>ed,V^c,VVbx ^ ^2^
Avcx = 864 00 in2
Avcox = 2592 00 in2 [Eq D-23]
Ted v = 0 8000 [Eq D-27 or D-28]
¥cv= 14000 [Sec D627]
Vbx = 7('e/do)°2^ doV f'c(ca1)1 5 [Eq D-24]
Vbx = 4410501 Ib
Vcbx= 16465 87 lb[Eq D-22]
$ = 0 70 [D 4 4]
(|)Vcbx = 1 1 526 1 1 Ib (for a single anchor)
In y-direction
Vcby
cyAvcy = 540 00 in2
Avcoy = 648 00 m2 [Eq D-23]
Ted v = 0 9000 [Eq D-27 or D-28]
4/= 14000 [Sec D 6 2 7]
about blank 2/12/2009
Page 5 of 6
^3
fc(ca1)15[Eq D-24]
Vby = 15593 48 Ib
Vcby =163731 5 lb[Eq D-21]
<j) = 0 70 [D 4 4]
(j)Vcby = 11461 20 Ib (for a single anchor)
Check parallel to edge condition
Limit <j)Vcb by parallel to edge strength
Vcbx = Avcx/Avcox^ed,V^c,VVbx
Avcx = 54° °° '"2
Vox = 648 °° In2 IE<1 D-23l
Tedv= 1 0000 [Sec D621(c)]
TcV=1 4000 [Sec D627]
Vbx = 7('e/do)°2^ doVfc(ca1)15[Eq D-24]
Vbx =15593 48 Ib
Vcbx=1819239lb[Eq D-22]
Vcby = 2 * Vcbx tSec D621(c)j
Vcby = 36384 78 lb
cj) = 0 70 [D 4 4]
(j)Vcby = 25469 34 Ib (for a single anchor)
Limit <(>Vcbx by parallel to edge strength
Vcby = Avcy/AVcoy
Avcy = 540 00 in2
Avcoy = 648 °° In
Tedv=1 0000 [Sec D621(c)]
M^cV= 1 4000 [Sec D627]
Vby = 7(le/d0)°SI d0^ fc(ca1)15[Eq D-24]
Vby = 15593 48 Ib
Vcby= 1819239lb[Eq D-21]
Vcbx = 2 * Vcby [SeC
Vcbx = 36384 78 Ib
4> = 0 70 [D 4 4]
about blank 2/12/2009
Page 6 of 6
4>Vcbx = 25469 34 Ib (for a single anchor)
Governing strengths are
4A/cbx=1152611 Ib
(|>Vcby= 11461 20 Ib
10) Concrete Pryout Strength of Anchor in Shear [Sec. D.6.3]
Vcp = m,n[kcpNa,kcpNcb] [Eq D-30a]
kcp = 2 [Sec D 6 3 2]
Na = 13069 03 Ib (from Section (6) of calculations)
Ncb = 19233 30 Ib (from Section (5) of calculations)
Vpn = 2613805lbup
(|> = 0 70 [D 4 4]
(|)Vcp = 18296 64 Ib (for a single anchor)
11) Check Demand/Capacity Ratios [Sec. D.7]
Tension
-Steel 08774
-Breakout 04335
-Adhesive 07539
- Sideface Blowout N/A
Shear
-Steel 01675
- Breakout 0 0467
-Pryout 00294
V Max(0 17) <= 0 2 and T Max(0 88) <= 1 0 [Sec D 7 1]
Interaction check PASS
Use 1/2" diameter A307GR C SET-XP anchor(s) with 8 in embedment
about blank 2/12/2009
!p^ M
ri ji. ViB
•j
;
•I
!•
i
!i
— \Dunn Savoie Inc
i Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760) 966-6355
i Fax (760) 966-6360
JOB
SHEET NO
CALCULATED BY
CHECKED BY
SCALE
T FGOl AND
&
YS
JOB*
OF
DATE
DATE
08P1 01
2/09
GAME STRUCTURE AND STORAGE BUILDING
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760) 966-6355
Fax (760) 966-6360
JOB Legoland - Lost Kingdom 8121
SHEET NO OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
DESIGN CRITERIA
CODE
2006 International Building Code (IBC)
2007 California Building Code (CBC)
SEISMIC.
Building Occupancy Category
Seismic Design Category
Fa
Fv
SDS
SDI
T
R
Qo
Cd
Seismic Base Shear
WIND
WOOD-
V=1 OE =
V = 07E =
Games Struct V w/ p=1 3=
Storage Bldg V w/ p=1 3=
Basic Wind Speed =
Exposure =
II
D
1 00
1 000
1 329
0831
0417
0123
1 5
1 5
1 5
0554
0388
0.504
0116
85
C
sec
*W
*W
*W
*w
MPH
(Strength Design)
(ASD)
ASD Seismic Design Force
ASD Seismic Design Force
(3-sec Gust)
2005 NDS
2x&3x
>3x
Douglas Fir-Larch No 2
Douglas Fir-Larch No 1
FOUNDATION CRITERIA
ALLOWABLE SOIL PRESSURE FOR D+L
FRICTION COEFFICIENT
PASSIVE EARTH PRESSURE
ACTIVE EARTH PRESSURE
AT-REST EARTH PRESSURE
2500 PSF
035
250 PCF
60 PCF
65 PCF
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
DESIGN LOADS
ROOF
Games
Structure
DEAD LOADS 1 (osf)
PVC Coated Textile Roof
1/2"Plywd Sheathing
4x6 Rafters @ 24" o c
8x Beams
Batt Insul (0 2xThick )
ME&P
Miscellaneous
I Dead Load
Live Load
50
1 7
25
32
-
1 0
1 1
150
200
412
x slope
factor
1 054
53
1 8
26
reducible
Storage
Building
(psf)
40
1 7
1 5
28
08
1 0
1 2
Tso
20.0
Built-Up w/ Re-Roof
2x8 Roof Joists @ 24" o c
5/8" Gyp
reducible
WALLS
DEAD LOADS
Stucco
Stone Veneer
5/8" Gyp
1/2" Gyp
3/8" Plywood
2x4@16"oc
2x6 @ 16"oc
Batt Insulation
(0 2xThickness)
Miscellaneous
Interior
Partition
(psf)
44
1 7
09
£ Dead Loads! 7.0
Exterior
(Psf)
100
22
1 1
1 7
08
1 2
17.0
Design Loads
£
UJ8
I
II
I
APPROVED BY THE CITY OF SAN DIEGO BUILDING OFFICIAL
SEND
SMEAR C4" 0 C E N
TO SILL f£ BELOW
I
I
; BEARING WALL
I
I
I
i
i
i
i
>, i
CORNER POST
W/ E N. FROM EACH
PLYWD e> W TYP
SCALE 1/4" = l'-0"
I
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\&i
= PRAMIMS FUANf\/ v
PR AM IMG MOTSS
1 SEE LANDSCAPE PLANS FOR DIMENSIONS
5" THK 0-tlN; CONC SLAB W/ «3 « 16" O C
EA WAY AT MID-HT OVER 2" CLEAN SAND
OVER 10 MIL VAPOR BARRIER OVER 2"
CLEAN SAND ON PREPARED GRADE
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
j VERTICAL ANALYSIS |
Level Roof
Members
Games Structure
Mark. ££•-!
W1= (l^^W2=
PI=
P2=
RLeft=
R Right=
V
M
A
allow /2'%^\ &
allow" |— / 1 (x
allow" /^5"
CD= |,^7
Span = \^,^ ft [^Uniform Load TA
LL =
/Y^/iz) = -f^ P|f
plf
= - ft2
= ^ psf
Ibs ._ <~>.
= Ibs -J^ f
= -?7\\ lbs
= ^f^> lbs
lbs > V max = ^2>f lbs
lb*ft > M max = (00^0 lb*ft
m > /\ TL = ,|2-^"Z- in ^se --4^(^^
Grade t?f5-i-
^> I cb'
z^x^.
-**
Mark:
w,=
W2=
PI=
P2=
RLeft=
R Right=
A
allow"
allow"
allow"
CD=
Span = ft Q Uniform Load TA
LL
plf
plf
Ibs
Ibs
Ibs
Ibs
ibs > Vmax= Ibs
lb*ft > Mmax= lb*ft
in > A T| = in Use.
Grade
ft2
= psf
Mark
w1=
W2=
Pi=
P2=
RLeft=
R
L
Right=
V allow=
M allow=
/\allow=
CD=
Span = ft Q Uniform Load TA
LL
plf
plf
Ibs
Ibs
Ibs
Ibs
Ibs > V max = Ibs
lb*ft > Mmax= lb*ft
in > A TI = in Use.
Grade.
ft2
= psf
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
Level Roof
Members
Games Structure
Mark k*~\ Span = )£»• ft
wi= ^*^0feJAl5- - V2,
W2=
Pi=
P2=
R Left= = s)u
RRight= = -40
[] Uniform Load TA= - ft2
11=^^ psf
-^ P^
plf .
Ibs *p-__
Ibs /^ *"]
,ts lbs ' ^ ^
?? Ibs
" allow" 'tt&^ris ^ max "" ^teLS
^ aiiow= 'ZS^^t'Z? 'b*ft > M max = <T^
Aall°w= ,0^5, m > A TL = ,Arf
CD= \ ,#
^ lb*ft
^•^>> in Use- ^4-x^
Grade j^l5;-)^- iJH-Z-
'%'
Mark ^^c?-
W,= flt^^f
W2=
D •••
P2=
R Left=
R Right=
Vaiiow= P5*5^-2
M allow= fc,?-??*:
Aa«ow= ,^-r^
^D= | , i?
Span= 4& ft nuniform Load TA= - ft2
L L = -fc? psf
)/l^/2) = 3r\^ P'f f7
plf j
_ |Ug ^ *L^
lbs ^ &' ^ I5>1
= I f^^ lbs
= ^-^-/"l lbs
j. Ibs > V max = ^4-^c^ lbs
? lb*ft > M max = 2r2£y/2^ lb*ft
in > A TL = tf'ZT'vf^- m '-'s6 ^^ ^ ^
Grade: i?^-^ — i^^-
Mark ^--??
W1=
W2=
P2
= ^s.p)
=
RLeft=
R Right=
y
C™
= ,^-f^
= \ <>,*%>?)(
**)(?= \.<?
Span= !^> ft nUniformLoacl TA= - ft2
LL
plf
P^ ,•
= >f^>fi lbs >
Ibs /K
= •fafZgZr IbS
— ^^"Ty^f lbs
l^c- ^^ \/ — ItM-IDS ^> V max - •fo?'£yS;y> IDS
^, lb*ft > M max =1^57,^ lb*n
m > A TL = ^4,io in Use &
Grade b^"-
= ^s* PSf
L 3 ' uji ^_
T
-^
^*\
Dunn Savoie Inc
Structural Engineers
90S S Cleveland St
Oceanslde, CA 92054
Tel (760)966-6355
jFax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO c-i-OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
Level Roof Games Structure
Members* ^^5^4— -fe=*
Mark s^-A- Span = \& ft Q Uniform Load TA= - ft2
W.,= = plf
W2= = p|f
pi=<V,jz5x2. = sz-HV lbs "'
P2= ' Ibs V
R Left= = |//jg«-=7 Ibs
R Right= = i !?&>&!' Ibs
» allow= &#~fc? ^ max = I (f'S'^ 'bS
M allow= || 2^*^ 'b*^ > M max = <?rti0# lb*ft
Aa»°«= ,^ in > A TL= ,^^7^ in
CD= ,_^
L L = -2i? psf
. +•
'Sp* 'r r
Use K?=VI^
Grade fr*ff^£r\
Mark W^ Span = \&> ft [] Uniform Load TA= - ft2
W1= l^-'r'Ztfi. '5/2-4' I, "5^ = ^-l^7 P'^
W2~ /I&-4- -?i2i(\??} ~ ^^y P''
pt= "l . _ ^ ^ IllJg
P2= = Ibs '
R Left= = ^V5i Ibs
R Right= = 'z--2i!&&> Ibs
\/ — Iho ^^ \/ — Ihov allow" <y^~i^^~s * ^ max ~ '2^>&'S*-
M aiiow= \&&=s5(s lb*ft > M max = | ^ ^-^^ lb*ft
A allow" '$(? m > A TL ~ ^=5^-^ m
CD= j ^
L L = ^ osf
/ -9L-. - V'u- *?' ;
uo, &kl']h 1
Use &&• \"2--
Grade y^-^ %- \
w^
r
Mark:j?--L/> Span = !^ ft nuniform Load TA= ~ ft2
^^7^)fe/^l^) =^l* Ptf
w2= jje^^-yi.^,.^ = ^-^ pif -j
PI= = Ibs
P2= = Ibs V
R Left= = ii02? Ibs
R Right= = \\&^ Ibs
V allow= ^>f^i^ IbS ^> V max = :ig;?s. IbS
Maiiow= ^^^7 lb*ft > Mmax= isi^^ lb*ft
A I. s x* >— in "^ A •= -----7 x^_ in
CD= l,i7
L L = ?/£? psf
ty \ ^5 \
^^-— ^"— -^ 'r ir 1
Use ^i^1
Grade ^f^-i — ^~^
*=/
Dunn Savoie Inc
Structural Engineers
9088 Cleveland St
| Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
Level'
Members
Roof Storage Building
R
i
Mark I&Z.-2.. Span = i^ ft
wi=jf^fc*to = ^
W2= =
PI=
P2=
RLeft= = -^9^
Right= = ^%K?
V — IK ^s~ \/allow" Y2S2?y? IDS ^ max ~ '??^V^
Mallow= ^^X 'b*^ > Mmax= ^^!=
A, allow= .^ti? ln > A TL = xtHl.
[^Uniform Load T A
LL
plf
plf
Ibs
Ibs
Ibs
Ibs
Ibs
* lb*ft -^-^=f^
^ in Use ^y-G*1 <*•
Grade &*T-*
= - ft2
= -24? DSf
^"^^
^«-
Mark.
WT=
W2=
Pi=
P2=
RLeft=
R Right=
V
M
A
allow
allow"
allow"
CD=
Span = ft ]~\ Uniform Load TA
LL
plf
plf
Ibs
Ibs
Ibs
Ibs
Ibs > Vmax= Ibs
lb*ft > Mmax= ib*ft
in > A TI = in Use
Grade
ft2
= DSf
Mark
w,=
W2=
Pi=
P2=
RLeft=
R Right=
V
M
A
allow
allow"
allow"
CD=
Span = ft Q] Uniform Load TA
LL
plf
plf
Ibs
Ibs
Ibs
Ibs
Ibs > Vmax= Ibs
Ibft > Mmax= ib*ft
in > A TI = in Use.
Grade
ft2
= psf
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom 8121
CALCULATED BY SRG 3/08
LATERAL ANALYSIS
This building consists mainly of wood shear panels and hardy panel for shear resistence,
Therefore, per 2006 IBC, for the entire structure, R= 1 5 Q0= 1 5 Cd= 1 5
Per IBC2006 (1613), ASCE 7-05 Chapter 11,12,13 Seismic Design Criteria
Soil Site Class C
Method 1 Input Project Zip Code 92008
Response Spectral Ace (0 2 sec) Ss = 125%g = 1 251 g
Response Spectral Ace (1 0 sec) B! = 47%g = 0 472 g
Site Coefficient Fa = 1 000
Site Coefficient Fv = 1 328
Max Considered Earthquake Ace SMS = Fa Ss =1 251 g
Max Considered Earthquake Ace SMi = Fv S1 =0 627 g
@ 5% Damped Design SDS = 2/3(SMS) = 0 834 g
SD1 = 2/3(SM1) =0418g
Method 2 Input the coordinate of project Latitude 33.1282 degrees
Longitude -117 3094 degrees
From the Ground Motion Parameter Calculator by USGS
The seismic design parameters are
Ss = 1 247 g " Fa = 10
S1 = 0 471 g Fv = 1 329
Table 20-3-1, Default =D
Figure 22-1 through 22-14
Figure 22-1 through 22-14
Table 11 4-1
Table 11 4-2
(114-1)
(114-2)
(114-3)
(11 4-4)
(24° to 50°)
(-125° to -65°)
SMS= 1 247
0626
0831
SM1=
SDS=
SD1=0417
Use the seismic parameters from Method 2 to supercede those from Method 1
Seiemic Design Category (SDC) Determination
Building Occupancy Categories II
Seismic Design Category for 0 1 sec D
Seismic Design Category for 1 Osec D
S1 = 0 471 < 0 75g
Therefore, SDC = D
Equivalent lateral force procedure
To Determine Period Ct =
Building ht Hn =
Approx Fundamental period, Ta =
Calculated T shall not exceed <
Per Section 11 6
Is Structure Regular & < 5 stories ?
Response Spectral Ace ( 0 2 sec) S5 =
@ 5% Damped Design SDS =
Response Modification Coef R =
Over Strength Factor no =
Importance factor I =
Seismic Base Shear V =
002
11 25
1 4
X= 075
Table 1-1
Table 11 6-1
Table 11 6-2
Section 11 6 NOT Apply i
Section 128
Table128-2
C. = -
or need not to exceed, Cs = .
orC5 = -
Cs shall not be less than =
Mm Cs =
Use C5 =
CuTa
T < 0 8Ts
Yes
1 50g
%(Fa Ss)
1 5
1 5
1 00
CSW
SDS
R/l
(R/D T
T2(R/I)
001
0 58,1/R
0554
ft
forSD1of 0417g Table128-1
= 0123 TL= 8 Sec Figure 22-15
= 0172 UseT= 0123 sec
= 08 SD1/SD^ 0 401 sec OKI
Section 128 1 3
». Fa = 1 00
= 0010g
=0554
= 2263
N/A
= 0157
For T < TL
For T > TL
(114-3)
Table-122-1
Table 11 5-1
(128-2)
(12 8-3)
(12 8-4)
(12 8-5)
(12 8-6)
Design Base Shear V = 0 554 W
Contermmous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 33 1282
Longitude = -117 3094
Spectral Response Accelerations Ss and S1
Ss and S1 = Mapped Spectral Acceleration Values
Site Class B- Fa = 1 0,Fv= 1 0
Data are based on a 0 01 deg grid spacing
Period Sa
(sec) (g)
02 1 247 (Ss, Site Class B)
10 0471(81, Site Class B)
Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 33 1282
Longitude = -117 3094
Spectral Response Accelerations SMs and SM1
SMs = FaSs and SM1 = FvS1
Site Class C - Fa = 1 0 ,Fv = 1 329
Period Sa
(sec) (g)
02 1 247 (SMs, Site Class C)
10 0 626 (SM1, Site Class C)
1 Copy USGS output and Paste
atA1
2 Here is the picked up values
SM (max)
Fa= 1 0
Fv = 1 329
Ss = 1 247
Si= 0471
SMS = 1 247
SM1= 0 626
SDS = 0 831
SDi= 0417
Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 33 1282
Longitude = -117 3094
SDs = 2/3 x SMs and SD1 = 2/3 x SM1
Site Class C - Fa = 1 0 ,Fv = 1 329
Period Sa
(sec) (g)
02 0 831 (SDs, Site Class C)
10 0 417 (SD1, Site Class C)
SD (design)
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB
SHEET NO
CALCULATED BY
CHECKED BY
SCALE
Legoland - Lost Kingdom
c\\
SRG
OF
DATE
DATE
3/08
I LATERAL ANALYSIS \Games Structure
Roof
Area of Roof =
Total Weight of Roof = "
Interior Wall Weight = \
Exterior Wall Weight ="
ft2
Total Roof Diaphragm Weight =
Jbs
Jbs
12,,-r-n tbs
Total Diaphragm Weight = W =Ibs
Design Base Shear (Taken from page )
V = ,15^4 W
Therefore V =w =Ibs
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanslde, CA 92054
Tel (760) 966-6355
Fax (760) 966-6360
JOB Legoland - Lost Kingdom
SHEET NO C Y2"OF
CALCULATED BY SRG DATE Mar-08
CHECKED BY DATE
SCALE
[WIND ANALYSIS
Exposure <£•
CB =
Basic Wind Speed = "f^ mph
P = (Ce)(Cq)(q.)(l)
,i?U> atO'-15'
-' at15'-20'
- at 20'-25'
j: at 25'-30'
- at 30'-40'
PI= rp? =
p^ =
p4 =
p.=
t^f DSfatO-15'
osf at 15-20'
psf at 2u'-25'
psf at 25'-30'
psf at 30'-40'
I
If
^•Vf a js^f
Governing Lateral Forces
Roof Level
(N-S) direction
(E-W) direction
Wind Design Seismic Design
-sM^Z- Ibs^ bA^fl Ibs ;
t^f^ft^ Ibs^ (##2?^ Ibs r=
^^jr^f governs
zJ&te**^'^ governs
DUNN SAVOIE INC.
STRUCTURAL ENGINEERS
908 S Cleveland Street
OCEANSIDE, CA 92054
PH (760) 966-6355 FAX (760) 966-6360
Email dsi@surfdsi com
JOB.
SHEET NO .
CALCULATED BY_
CHECKED BY
SCALE
V
H
MS
\-1-'•1
_ji _r»
' A*
I i
1 Af
1 |! !! i
^
X
^rf?,
> ^
- IM
D PRODUCT 207
Dunn Savole Inc
Structural Engineers
908 S Cleveland St.
Oceanslde, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom 8121
PU-
CALCULATED BY SRG 3/08
LATERAL ANALYSIS Storage Building
This building consists mainly of wood shear panels and hardy panel for shear resistence,
Therefore, per 2006 IBC, for the entire structure, R= 6 5 fio= 3 0 Cd = 40
Per IBC2006 (1613), ASCE 7-05 Chapter 11,12,13 Seismic Design Criteria
Soil Site Class C
Method 1 Input Project Zip Code 92008
Response Spectral Ace (0 2 sec) Ss = 125%g = 1 251 g
Response Spectral Ace (1 0 sec) Si = 47%g = 0 472 g
Site Coefficient Fa = 1 000
Site Coefficient Fv = 1 328
Max Considered Earthquake Ace SMS = Fa Ss =1 251 g
Max Considered Earthquake Ace SM1 = Fv S, =0 627 g
@ 5% Damped Design SDS = 2/3(SMS) = 0 834 g
SD1 = 2/3(SM1) =0418g
Method 2
Table 20-3-1, Default = D
Figure 22-1 through 22-14
Figure 22-1 through 22-14
Table 11 4-1
Table 11 4-2
(114-1)
(114-2)
(114-3)
(114-4)
(24° to 50°)
(-125° to-65°)
Input the coordinate of project Latitude 32 1282 degrees
Longitude -117 3094 degrees
From the Ground Motion Parameter Calculator by USGS SMS=
The seismic design parameters are SM1 =
Ss = 1 247 g Fa = 10 SDS=
S1 = 0 471 g Fv = 1 329 SD1=
Use the seismic parameters from Method 2 to supercede those from Method 1
1 247
0626
0831
0417
Seiemic Design Category (SDC) Determination
Building Occupancy Categories II
Seismic Design Category for 0 1 sec D
Seismic Design Category for 1 Osec D
S1 = 0 471 < 0 75g
Therefore, SDC = D
Equivalent lateral force procedure
To Determine Period Ct =
Building ht Hn =
Approx Fundamental period, Ta =
Calculated T shall not exceed <
0 02 x = 0 75
9 ft
14 forSD1of 0417g
C,(hn)x =0104 TL =
CuTa =0145 UseT =
Per Section 116 T < 0 8Ts = 0 8 SD1/SDS =
Is Structure Regular & < 5 stories ?
Response Spectral Ace ( 0 2 sec) S5 =
@ 5% Damped Design SDS =
Response Modification Coef R =
Over Strength Factor no =
Importance factor I =
Seismic Base Shear V =
Yes
50g
Ss)
65
3
1 00
CSW
Fa =
= 0010g
Table 1-1
Table 11 6-1
Table 11 6-2
Section 11 6 NOT Apply '
Section 12 8
Table128-2
Table12 8-1
8 Sec Figure 22-15
0104 sec
0 401 sec OK'
Section 12813
1 00
(11 4-3)
Table-122-1
C. = -R/l
or need not to exceed, Cs =(R/l) T
orCs = -
=0128
= 0617
N/A
ForT<TL
For T > TLT2(R/I)
Cs shall not be less than = o 01
Mm Cs = 0 53^/R = 0 036 For S, > 0 6g
UseCs= 0128
Design Base Shear V= 0128W * f * I 2» * \\<0]A
Table 11 5-1
(12 8-2)
(12 8-3)
(128-4)
(128-5)
(128-6)
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB
SHEET NO
CALCULATED BY
CHECKED BY
SCALE
Legoland - Lost Kingdom
SRG
OF
DATE 3/08
DATE
LATERAL ANALYSIS Storage Building
Roof
Area of Roof = \ /?(\ <J)
Total Weight of Roof =
Interior Wall Weight =
Exterior Wall Weight = \
Total Roof Diaphragm Weight =
.ft2
Ibs
Ibs
Ibs
Ibs
Total Diaphragm Weight = W =Ibs
Design Base Shear (Taken from page )
V = f\\\0 W
Therefore V =W =Ibs
^^^^i^I 1 Structural Engineers
III ill! 908 S Cleveland St
I 1 ^^' 1 1 • Oceanslde, CA 92054
1 I 1 I ! Tel (760) 966-6355
1 I J | i Fax (760)966-6360
JOB Legoland - Lost Kingdom 8121
SHEET NO C '.'J' OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
ASCIE 7-05 Wind Lateral Desian Analysis For Riqid Structures With Flat Roofs
Jirectionallv Independent S
Design Parameters
Building Category =
Importance Factor, 1 =
Basic Wind Speed (3-sec, mph), V =
Exposure Category =
Directionality Factor, Kj =
CD =
Velocity Pressure Exposure
a =
Structure Height (ft)
Kz = 201*(z/z/'" =
Topographic Factor
2-D Ridge
Elevation Change, H =
Crest to Mid-Height, Lh =
Dist from Crest, x =
H/Lh =
K,=
K2 = 1 - (|x|/u.Lh) =
Structure Height (ft)
K3 = e1"*'2"-'" =
K — {1 J. Lf If l^\2_zt - ( I + r\i i\2 "-31 ~
Velocity Pressure
Structure Height (ft)
qz = 0 00256 Kz Kz, K<j V^l co =
Directionallv Dependent
Gust Effect Factor
External Pressure Coefficients
Short Direction
Walls CP =
Design Wind Pressures
Short Direction
Pwalls = Ph Gs Cp =
Structure Height (ft)
Pwalls = PZ Gs Cp =
Ptotai = Pz Gs Cp -qh Gs Cp=
Long Direction
Pwalls = Qh GL CP =
Structure Height (ft)
PWalls = PZ GL Cp =
Piot.i = qzGsCp-qhG«Cp=
Suildmq Elements
Walls Mam-(4)
Walls Corners-(S)
Parapets
Mam Roof Uphft-(l)
Roof uplift at Ends and Peaks-(2)
orage Building
II Top of Roof Elevation 8 ft
100 Top of Parapet Elevation 10ft
85 Max Horizontal Dimension 16ft
C Mm Horizontal Dimension 10 ft
0 85 Parapet Factor Windward 1 5
1 Parapet Factor Leeward -1 0
Coefficient
95
900 ft
8 88888
074 074 074 074 074 074
-
VJ
8 Parapet
0 74 0 78
X 1 2-D Escarp] | 3-D Hill | | ("X" One Box)
10 ft < 15ft Topographic Factor NOT Required
1 ft
0 ft Downwind of Crest' | No | (Yes or No)
050 MAX
0 73 V = 30
1 00 H = 15
8 88888 8 Parapet
030 030 030 030 030 030 030 022
1 00 1 00 1 00 1 00 1 00 1 00 1 00 1 00
8 88888 8 Parapet
1169 1169 1169 1169 1169 1169
Gs = 0 850 GL =
Windward Leeward Long Direction
08 -0 50 Walls CP =
Windward Leeward Leeward Parapet
See Below -497 psf -12 25 psf
8 88888
7 95 7 95 7 95 7 95 7 95 7 95
1292 1292 1292 1292 1292 1292
Windward Leeward Leeward Parapet
See Below -378 psf -12 25 psf
8 88888
795 795 795 795 795 795
1173 1173 1173 1173 1173 1173
(+) GCP (-) GCP GCpl
p= qh[(GCp)-(Gcpl)] EQ6-22 093 -11 -018
p= qh[(GCp)-(Gcp,)] EQ6-22 1 -12 -018
p= qp(GCp-Gcpl) EQ6-24 216 - 0
p= qh[(GCp)-(Gcp,)] EQ6-22 1 -08 018
P= qh[(GCp)-(Gcp,)] EQ6-22 11 -10 018
1169 1225 psf
0850
Windward Leeward
08 -0 38
8 Parapet
795 1838 psf
1292 3063 psf
8 Parapet
795 1838 psf
1173 3063 psf
Force at Highest Elev
14 97 psf
16 13 psf
26 47 psf
1380 psf
14 97 psf
Dunn Savoie Inc
Structural Engineers
90S S Cleveland St
Oceanside, CA 92054
Tel (760) 966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO C OF
CALCULATED BY SRG DATE Mar-08
CHECKED BY DATE
SCALE
[WIND ANALYSIS
Exposure Basic Wind Speed =.mph
1= \.ff
Refer to previous page for wind lateral design forces
tili\
1
i—
Governing Lateral Forces
Roof Level
(N-S) direction
(E-W) direction:
Wind Design Seismic Design
\&0& ]bs? ""/'5H' Ibs
\\TA lbs> -7^-4 Ibs
i^-Hf-llx7 governs
i^iiMp" governs
D5 Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760)966-6355
Fax (760)966-6360
JOB
SHEET NO
CALCULATED BY
CHECKED BY
Legoland - Lost Kingdom
c,\e>
SRG
OF
DATE
DATE
3/08
SCALE
Shear Wall Design | Shear Wall Designs based on ^ 3/8" Struct 1 P V
Wind Governed Design fj 1/2" Struct I P V
Level '^^^
Direction v-4/^-
Lateral Force / Overall Floor Length = v = - \\7^A Plf
Line A
Projection Length = = g? ft
Lateral Load = = ^^ Ibs
Other Loads = = - Ibs
Total Load, T L = = *>t?2r Ibs
Shear Wall Length, L = = \# ft
TL/L= #>(? plf
Use. <^) per Shear Wall Schedule I
Overturning
Shear Panel Length = = \i? ft
OT Moment = 3^2fV> = ^^f ft-|b
Resisting Moment = ,& \\~t(\*f5\(\<i?'')('?>Jy'/2} = A^'A^' ft-lb
Net Moment = " = ^g?"*? ft-lb
Uplift = = ,441 Ibs
<&hUse NO/ per Holdown Anchor Schedule
D Holdowns Not Required
Line ^
Projection Length = = ^ ft
Lateral Load = = *w&. Ibs
Other Loads = = - Ibs
Total Load, T L = = qi?-z, Ibs
Shear Wall Length, L = ^-.tg^z- -f ft
TL/L= =12^ Plf
Use «^y Per Shear Wall Schedule xr/^ v^i-wA^
Overturning = ^-t^-^-f "^^^^nv
Shear Pane! Length = = ^*s=' ft
OT Moment = /^3-/2>/\^ = s&S*,^ ft-lb
Resisting Moment = ,0 ri-r^^Y^^-y^^ = ^"G? ft-lb
Net Moment = ' = -s^rT^> ft-lb
Uplift = = ls>z^ Ibs
Use' x/ Per Holdown Anchor Schedule
D Holdowns Not Required
V
\l
Dunn Savoie Inc
Structural Engineers
908 S Cleveland St
Oceanside, CA 92054
Tel (760) 966-6355
Fax (760)966-6360
JOB Legoland - Lost Kingdom
SHEET NO OF
CALCULATED BY SRG DATE 3/08
CHECKED BY DATE
SCALE
Wind Governed Design
Level "^f^^-
Direction ^//^-f
Lateral Force / Overall Floor Lenqth = v = = \\^A plf
Line /, -2-
Projection Length = = ^ ft
Lateral Load = = ^c^ Ibs
Other Loads = = — Ibs
Total Load, T L = = ^^^ Ibs
Shear Wall Lenqth, L= = \\, ft
TL/L= ?^ plf
Use m^ per Shear Wall Schedule
Overturning
Shear Panel Length = = \\j> ft
OT Moment = *^f5J\i?) = ^u^^ ft-lb
Resisting Moment = f^\\rj!\<^)-h\^\^/^i\(\(^(\^^'/-y^ = \-1.A0A ft-lb
Net Moment = ~~ = ft-lb
Uplift = = - Ibs
Use \/per Holdown Anchor Schedule
0 Holdowns Not Required
Line
Projection Length = = ft
Lateral Load = = Ibs
Other Loads = = Ibs
Total Load, T L = Ibs
Shear Wall Lenqth, L = ft
T L 11 = = plf
Use (~) per Shear Wall Schedule
Overturning
Shear Panel Length = = ft
OT Moment = = ft-lb
Resisting Moment = = ft-lb
Net Moment = = ft-lb
Uplift = = Ibs
Use \/per Holdown Anchor Schedule
D Holdowns Not Required
Title Legoland - Lost Kingdom Job #
Dsgnr srg Date 7 45PM, 21 MAR 08
Description Games Structure & Storage Building
Scope Structural Engineering
Rev 560100User KW 0602938 Ver 5 6 1 25-Oct-2002
(e)19S3-2002 ENERCALC Engineering Software General Footing Analysis & Design Page 1
\\server3\jsers\sgalindo\shared\legoland - to
Description Typ Pad Ftg @ Games Structure
General Information
Allowable Soil Bearing
Short Term Increase
Seismic Zone
Live & Short NOT Combined
fc
Fy
Concrete Weight
Overburden Weight
Calculations are designed to ACI 318-95 and 1997 UBC Requirements |
2,500 0 psf Dimensions
1 330 Width along X-X Axis
4 Length along Y-Y Axis
2,5000 psi
60,000 0 psi
14500 pcf
6000 psf
Footing Thickness
Col Dim Along X-X Axis
Col Dim Along Y-Y Axis
Base Pedestal Height
4500ft
4500ft
1500 in
30 00 in
30 00 in
9 000 in
Mm Steel % 00014
Rebar Center To Edge Distance 3 50 in
Loads |
Applied Vertical Load
Dead Load
Live Load
Short Term Load
Applied Moments
Dead Load
Live Load
Short Term
Applied Shears
Dead Load
Live Load
Short Term
1693k
2257k
k
Creates Rotation about Y-Y Axis
(pressures @ left & right)
k-ft
k-ft
k-ft
Creates Rotation about Y-Y Axis
(pressures @ left & right)
k
k
k
ecc along X-X Axis 0 000 ;n
ecc along Y-Y Axis 0 000 in
Creates Rotation about X-X Axis
(pressures @ top & bot)
k-ft
k-ft
9 654 k-ft
Creates Rotation about X-X Axis
(pressures @ top & bot)
k
k
kmfSSif'.^mmmms^as'sSiUi^y
| Summary |
4 50ft x 4 50ft Footing, 150mThick,
Max Soil Pressure
Allowable
"X1 Ecc, of Resultant
"Y1 Ecc, of Resultant
X-X Mm Stability Ratio
Y-Y Mm Stability Ratio
DL+LL
4699
2,500 0
0 000 in
0 000 in
1 605
No Overturning
w/ Column Support
DL+LL+ST
1,168 9 psf
3,325 0 psf
0 000 in
15961 in
1 500 1
30 00 x 30 00m x 9
MaxMu
Required Steel Area
Shear Stresses
1-Way
2-Way
Caution Y(short)ecc>Widt
Om high
Actual
0495
Vu
0102
1 505
Allowable
k-ft per ft
0 193m2perft
Vn * Phi
85 000 psi
170 000 psi
Footing Design J
Shear Forces
Two-Way Shear
One-Way Shears
Vu @ Left
Vu @ Right
Vu @ Top
Vu @ Bottom
Moments
Mu @ Left
Mu @ Right
Mu @ Top
Mu @ Bottom
ACI 9-1
1 51 psi
-0 10 psi
-0 10 psi
-0 10 psi
-0 10 psi
ACI 9-1
018 k-ft
0 18 k-ft
0 18 k-ft
018k-ft
ACI 9-2
0 97 psi
-010 psi
-0 10 psi
-0 10 psi
-0 10 psi
ACI 9-2
0 06 k-ft
0 06 k-ft
0 49 k-ft
-017 k-ft
ACI 9-3
0 62 psi
-0 07 psi
-0 07 psi
-0 07 psi
-0 07 psi
ACI 9-3
0 04 k-ft
0 04 k-ft
0 32 k-ft
-0 11 k-ft
Vn * Phi
170 00 psi
85 00 psi
85 00 psi
85 00 psi
85 00 psi
Ru / Phi
1 5 psi
1 5 psi
4 2 psi
1 5 psi
As Reo'd
019m2
019m2
0 19m2
019m2
per ft
per ft
per ft
per ft
Title Legoland - Lost Kingdom Job #
Dsgnr srg Date 7 45PM, 21 MAR 08
Description Games Structure & Storage Building
Scope Structural Engineering
Rev 560100
User KW-0602938 Ver 5 6 1 25-Oct-2002(0)1983-2002 ENERCALC Engineering Software General Footing Analysis & Design Page 2
\\server3\users\sgalindo\shared\legQland - lo
Description Typ Pad Ftg @ Games Structure
Soil Pressure Summary
Service Load Soil Pressures Left
DL + LL 469 88
DL + LL + ST 358 42
Factored Load Soil Pressures
ACI Eq 9-1 691 26
ACI Eq 9-2 454 80
ACI Eq 9-3 292 37
Right
46988
35842
691 26
45480
29237
Top
46988
1,16891
691 26
1 ,483 22
95350
Bottom
469 88 psf
0 00 psf
691 26 psf
0 00 psf
0 00 psf
ACI Factors (Per ACI, applied internally to entered loads)
ACI 9-1 & 9-2 DL 1 400
ACI 9-1 & 9-2 LL 1 700
ACI 9-1 & 9-2 ST 1 700
seismic = ST* 1 100
ACI 9-2 Group Factor 0 750
ACI 9-3 Dead Load Factor 0 900
ACI 9-3 Short Term Factor 1 300
UBC 1921 27"1 4" Factor
UBC1921 2 7 "09" Factor
1400
0900
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1
UPDATED GEOTECHNICAL RECOMMENDATIONS
AND GEOTECHNICAL REVIEW
OF GRADING PLANS FOR THE
PROPOSED GAMES STRUCTURE,
STORAGE BUILDING, LADDER CLIMB,
AND COCONUT TREE CLIMB,
LEGOLAND THEME PARK,
CARLSBAD, CALIFORNIA
Prepared for:
LEGOLAND CALIFORNIA
One Lego Drive
Carlsbad, California 92008
Project No. 960151-029
February 13, 2009
Assoc
A LEIGHTON GROUP CO! PA NY,
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I Leighton and Associates, Inc.
A LEIGHTON GROUP COMPANY
_ February 13. 2009
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In accordance with your request and authorization, mis report has been prepared to provide gradingIrecommendations and to provide the foundation and grading plan review relative to the proposed
games structure, storage building, ladder climb, and coconut tree climb located at Legoland
California in Carlsbad, California
Proposed Development
Project No 960151-029
To Legoland California
One Lego Drive
Carlsbad, California 92008
Attention Mr Chris Romero
Subject Updated Geotechmcal Recommendations and Geotechmcal Review of Grading
Plans for the Games Structure, Storage Building, Ladder Climb and Coconut Tree
Climb, Legoland Theme Park, Carlsbad, California
Introduction
Based on our review of the (R W Apel, 2009) grading plans, we understand the site improvements
will include the construction of the game structure, coconut tree climb, ladder climb, storage
building, a retaining wall, landscaping, sidewalks and utilities The proposed structures will be
supported on conventional foundations and mat foundations
Findings and Conclusions
Based on our review of the project as-graded geotechmcal reports (Leighton, 1998), the following
items were noted
• The location of the proposed structure and improvements appears to consist of minor amounts
of undocumented fill associated with utilities and topsoil associated with landscaping activities
These materials are underlain by sandy Quaternary-aged Terrace Deposits
3934 Murphy Canyon Road, Suite B205 a San Diego, CA 92123-4425
858,292.8030 ® Fax 858.292.0771
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960151-029
• The existing topography of the site is gently sloping to the west/southwest Anticipated grade
differences across the proposed improvements appear to be less than 1 to 4 feet Minimal
grading will be required to construct the proposed improvements
• Based on our professional experience on sites in the general vicinity and our review of the
project as-graded report (Leighton, 1998), the on-site soils possess a very low to low expansion
potential and a negligible soluble sulfate content Laboratory testing upon completion of fine
grading operations for the proposed pads is recommended to determine actual expansion
potential of finish grade soil at the site
• Ground water is not considered to be a constraint to the proposed improvements However, if
seepage conditions are encountered during site grading, additional review provided to
determined if subdramage measures are needed
In conclusion, it is our opinion that the proposed game structure, coconut tree climb, ladder climb,
and storage building area located at Legoland California are suitable for it's intended use provided
the recommendations presented herein are incorporated into the design and construction of the
proposed improvements
Recommendations
The following recommendations should be followed during the design and construction of the
proposed improvements We anticipate that earthwork on the site will consist of demolition and
removal of the existing improvements in preparation for construction of the proposed game
structure, coconut tree climb, ladder climb, storage building and associated improvements We
recommend that earthwork on the site be performed in accordance with the following
recommendations, the City of Carlsbad grading requirements, and the General Earthwork and
Grading Specifications of Rough-Grading included in Appendix B In case of conflict, the
following recommendations shall supersede those in Appendix B
1) Site Preparation
We recommend that in the areas of proposed development the surficial soils be removed to a
minimum depth of 12 inches, moisture-conditioned to optimum or above moisture content and
compacted to a minimum 90 percent relative compaction (based on ASTM Test Method
D1557) The areas to receive structural fill or engineered structures should be cleared of
subsurface obstructions, potentially compressible material (such as loose landscaping soils
and undocumented fill) and stripped of vegetation prior to grading Vegetation and debris
should be removed and properly disposed of offsite Holes resulting form removal of buried
obstructions that extend below finish site grades should be replaced with suitable compacted
fill material Areas to receive fill and/or other surface improvements should be scarified to a
-2-Leighton
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960151-029
minimum depth of 12 inches, brought to optimum or above optimum moisture condition, and
recompacted to at least 90 percent relative compaction (based on ASTM Test Method
D1557)
2) Excavations
Excavations of the on-sitc materials may generally be accomplished with conventional heavy-
duty earthwork equipment It is not anticipated that significant quantities of oversized rock (i e .
rock with maximum dimensions greater than 6 inches) will be generated during future grading
However, if oversized rock is encountered, it should be hauled offsite, or placed m non-
structural or landscape areas
Excavation of utility trenches should be performed in accordance with the project plans,
specifications and all applicable OSHA requirements The contractor should be responsible for
providing the "competent person" required by OSHA standards Contractors should be advised
that sandy soils and/or adversely oriented bedrock structures can make excavations particularly
unsafe if not all safety precautions are taken Spoil piles due to the excavation and construction
equipment should be kept away from and on the down slope side of the trench
3) Fill Placement and Compaction
The on-site soils are generally suitable for use as compacted fill provided they are free of
organic material, debris, and rock fragments larger than 6 inches in maximum dimension All
fill soils should be brought to optimum or above optimum moisture conditions and compacted
in uniform lifts to at least 90 percent relative compaction based on the laboratory maximum dry
density (ASTM Test Method D1557) The optimum lift thickness required to produce a
uniformly compacted fill will depend on the type and size of compaction equipment used In
general, fill should be placed in lifts not exceeding 4 to 8 inches in compacted thickness
Placement and compaction of fill should be performed in general accordance with the current
City of Carlsbad grading ordinances, sound construction practices, and the General Earthwork
and Grading Specifications of Rough-Grading presented in Appendix B
4) Removal of Unsuitable Soils
All loose undocumented fill soils, topsoil, and weathered Terrace Deposits should be removed
before placement of additional fill or surficial improvements Removals made in these areas
should extend to competent Terrace Deposits or competent fill soils
-3-
Leighton
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960151-029
5) Foundation Recommendations
The site is suitable for the proposed development The following design parameters may be
used in the design of the structure foundations
Allowable Soil Pressure (Spread)
Allowable Soil Pressure (Mat)
Modulus of Subgrade Reaction
Coefficient of Friction
Passive Pressure (Level Ground)
Active Retaining Pressure
At-Rest Retaining Pressures
Lateral Surcharge (Traffic)
Lateral Surcharge (Uniform Pressure)
3,500 psf
1,500 psf
250 pci
035
300 pst7ft
35 pcf
55 pcf
75 psf
035q
(3,000 psf max)
(level backfill)
(level backfill)
(auto traffic surcharge)
where q is the uniform pressure
Spread footings should be at least 18 inches below the lowest adjacent soil Reinforcement
should be designed by the structural engineer Continuous footings should contain at least four
No 4 bars, top and bottom The allowable pressures may be increased by one-third when
considering loads of short duration such as wind or seismic forces Slabs should be at least 5
inches thick reinforced with No 3 bars at 18 inches on center, each way Slabs designed to cany
structural loads may require increased thickness and reinforcing Slab underlayment should be
designed by the project architect
We recommend a minimum horizontal setback distance from the face of slopes for all structural
footings and settlement-sensitive structures This distance is measured from the outside edge of
the footing, horizontally to the slope face (or to the face of a retaining wall) and should be a
minimum of 7 feet We should note that the soils within the structural setback area possess poor
lateral stability, and improvements (such as retaining walls, sidewalks, fences, pools, pavement,
underground utilities, etc) constructed within this setback area may be subject to lateral
movement and/or differential settlement Foundations should be deepened as needed to attain
an embedment below 1 1 plane from parallel utility trenches
6) Segmental Wall Designs
If segmental walls are utilized, granular soils with a <j>=32° should be provided for wall backfill
Wall designs should include a wall profile that shows all blocks and their relation to planned
geognd Wall design should conform to current NCMA Guidelines
-4-Leighton
1
1 7) Seismic Parameters
960151-029
• '
I We have provided updated seismic design parameters per California Building Code (CBC
2007) The following seismic design parameters have been determined in accordance with
the 2007 CBC and the USGS Ground Motion Parameter Calculator (Version 5 0 9)
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Table 1
2007 CBC Seismic Design Parameters
Site Class
Site Coefficients
C
Fa = 1 0
Fv ~- 1 329
S<= 1 247^
Mapped Spectral Accelerations ri" n ..-,,0
^ | - U H / 1 g
SMS = 1 247gSite Modified Spectral Accelerations SMI = 0 626g
Design Spectral Accelerations " n ASLM = 0417g
1
8) Slab Subgrade Moisture Conditioning
P The slab subgrade soils underlying the conventional foundation system should be presoaked
in accordance with the recommendations presented in Table 2 prior to placement of the
1 moisture barrier and slab concrete The subgrade soil moisture content should be checked by a
representative of Leighton and Associates prior to slab construction
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Table 2
Presoakmg Recommendations Based on Finish Grade Soil
Expansion Potential
Expansion Potential
(CBC 18-I-B)
Very Low to Low
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Presoakmg Recommendations
Optimum moisture content to a depth
of at least 12 inches
4\
• -5-• Leighton
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960151-029
9) Cement Type for Construction
Concrete in direct contact with soil or water that contains a high concentration of soluble
sulfates can be subject to chemical deterioration commonly known as "sulfate attack"' We
anticipate that the on-site soils should possess a negligible potential to attack normal concrete
As a result, the onsite concrete design mix can be designed for a negligible potential of sulfate
attack and follow the recommendations presented in Section 4 2 1 of ACI 318-08 Laboratory
testing of the actual finish grade soils on the lot upon completion of the grading operations
should be performed to confirm the sulfate attack potential
10) Concrete Flatwork
In order to reduce the potential for differential movement or cracking of driveways,
sidewalks, patios, other concrete flat work, 6x6-6/6 welded-wire mesh reinforcement or
No 3 rebar on 18 inch centers, each way, is suggested along with keeping pad grade soils at
a uniform moisture content
1) Control of Surface Water and Drainage Control
Positive drainage of surface water away from structures is very important No water should be
allowed to pond adjacent to buildings Positive drainage may be accomplished by providing
drainage away from structures at a gradient of at least 2 percent for a distance of at least 5
feet, and further maintained by a swale or drainage path at a gradient of at least 1 percent
Have gutters, with properly connected downspouts to appropriate outlets, are recommended to
reduce water infiltration into the subgrade soils
12) Construction Observation and TestinR and Plan Review
The geotechmcal consultant should perform construction observation and testing during the
grading operations, future excavations, and foundation or retaining wall construction at the
site Additionally, footing excavations should be observed and moisture determination tests of
the slab subgrade soils should be performed by the geotechmcal consultant prior to the
pouring of concrete Retaining wall calculations for Keystone wall design should be reviewed
by the geotechmcal consultant prior to construction
-6-Leighton
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960151-029
Foundation and Grading Plan Review
As part of our update evaluation we have reviewed the foundation and grading plans (DSL 2009
and R W Apel. 2009) Based on our review, foundations and the plans have been prepared in
general accordance with the project geotechmcal recommendations with the following comments
• This report should be referenced on the plans
Limitations
The conclusions and recommendations in this report are based in part upon data that were
obtained from a limited number of observations, site visits, excavations, samples, and/or tests
Such information is by necessity incomplete The nature of many sites is such that differing
geotechmcal or geological conditions can occur within small distances and under varying
climatic conditions Changes in subsurface conditions can and do occur over time Therefore, the
findings, conclusions, and recommendations presented in this report can be relied upon only if
Leighton has the opportunity to observe the subsurface conditions during grading and
construction of the project, in order to confirm that our preliminary findings are representative
for the site
If you have any questions regarding our report, please contact this office We appreciate this
opportunity to be of service
Respectfully submitted,
LEIGHTON AND ASSOCIATES, INC
Sean A^CoTorado, GE
Principal Engineer
MikeD Jensen, CEG 2457
Project Geologist CERTIFIED
ENGINEERINGGEOLO
Attachments Appendix A - References
Appendix B - General Earthwork and Grading Specifications
Distribution (2) Addressee
(4) R W Apel Landscape Architects, Attention Richard Apel
(1) Dunn Savoie, Inc , Attention Rliett Savoie
-7-
Leighton
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I APPENDIX A
• REFERENCES
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960151-029
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APPENDIX A
REFERENCES
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American Concrete Institute, 2008, Building Code Requirements for Structural Concrete (ACI 318-
08) and Commentary
• California Building Code (CBC). 2007, California Code of Regional Title 24, Part 2
DSL 2009, Games Structure, Storage Building. Ladder Climb, and Coconut Tree Climb, Sheets S-
• 100, S-l 01, S-200. S-201, S-202, S-300, S-400 dated February 13, 2009
Lcighton and Associates, Inc , 1995, Preliminary Geotechnical Investigation, Lego Family Park and
I Pomte Resorts. Lots 17 and 18 of the Carlsbad Ranch, Carlsbad, California, Project
No 950294-001, dated October 5, 1998
I - —, 1996, Supplemental Geotechnical Investigation, Lego Family Park, Carlsbad, Ranch,
Carlsbad, California, Project No 960151-001, dated July 23, 1996
, 1998, Final As-Graded Report of Rough-Grading, LEGO Family Park, Carlsbad,
California, Project No 960151-003, dated February 10, 1998
• — —, 2004, Geotechnical Investigation, Proposed Dino Island Attraction, Legoland Theme
• Park, Carlsbad, California, Project No 960151 -021, dated February 23, 2004
• —, 2007a, Grading Recommendations and Geotechnical Review of Precise Grading and
Foundation Plans for Proposed Lost Kingdom Attraction, Legoland Theme Park.
Carlsbad, California. Project No 960151 -025, dated October 19, 2007
, 2007b, Update Geotechnical Report, Proposed Adventurer's Attraction,
_ Legoland California, Carlsbad, California, Project No 960151-025, dated
I September 12, 2007 (Revised October 19, 2007)
, 2008a, As-Graded Report of Fine and Post Grading, Lost Kingdom Attraction,
Legoland Theme Park, Carlsbad, California, Project NO 960151-025, dated
February 27, 2008
I . 2008b, Update Geotechnical Letter and Grading Plan Review, Proposed Game
Structure and Storage Buildings, Lost Kingdom Attraction, Legoland Theme Park,
• Carlsbad, California, Project No 960151-025, dated March 26, 2008
R W Apel, 2009, Games Structure, Storage Building, Ladder Climb, and Coconut Tree Climb,
Sheet 5, dated February 2, 2009
A-l
APPENDIX B
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
•FOR ROUGH GRADING
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Leighton and Associates, Inc
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 1 of 6
LEIGHTON AND ASSOCIATES, INC
GENERAL EARTHWORK AND GRADING SPECIFICATIONS FOR ROUGH GRADING
1 0 General
1 1 Intent These General Earthwork and Grading Specifications are for the grading and
earthwork shown on the approved grading plan(s) and/or indicated in the geotechnical
report(s) These Specifications are a part of the recommendations contained in the
geotechnical report(s') In case of conflict, the specific recommendations in the
geotechnical report shall supersede these more general Specifications Observations of the
earthwork by the project Geotechnical Consultant during the course of grading may result
in new or revised recommendations that could supersede these specifications or the
recommendations in the geotechnical report(s)
1 2 The Geotechnical Consultant of Record Prior to commencement of work, the owner shall
employ the Geotechmcal Consultant of Record (Geotechnical Consultant) The
Geotechnical Consultants shall be responsible for reviewing the approved geotechnical
report(s) and accepting the adequacy of the preliminary geotechnical findings, conclusions,
and recommendations prior to the commencement of the grading
Prior to commencement of grading, the Geotechnical Consultant shall review the "work
plan" prepared by the Earthwork Contractor (Contractor) and schedule sufficient personnel
to perform the appropriate level of observation, mapping, and compaction testing
During the grading and earthwork operations, the Geotechnical Consultant shall observe,
map, and document the subsurface exposures to verify the geotechnical design
assumptions If the observed conditions are found to be significantly different than the
interpreted assumptions during the design phase, the Geotechnical Consultant shall inform
the owner, recommend appropriate changes in design to accommodate the observed
conditions, and notify the review agency where required Subsurface areas to be
geotechmcally observed, mapped, elevations recorded, and/or tested include natural ground
after it has been cleared for receiving fill but before fill is placed, bottoms of all "remedial
removal" areas, all key bottoms, and benches made on sloping ground to receive fill
The Geotechnical Consultant shall observe the moisture-conditioning and processing of the
subgrade and fill materials and perform relative compaction testing of fill to determine the
attained level of compaction The Geotechnical Consultant shall provide the test results to
the owner and the Contractor on a routine and frequent basis
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Leighton and Associates, Inc
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 2 of 6
3 TJliLJiMiwo.r!<_Conlr<ictor 'I'he Earthwork Contractor (Contractor) shall be qualified,
experienced, and knowledgeable in earthwork logistics, preparation and processing of
ground to receive fill, moisture-conditioning and processing of fill, and compacting fill
The Contractor shall review and accept the plans, geotechmcal report(s), and these
Specifications prior to commencement of grading The Contractor shall be solely
responsible for performing the grading in accordance with the plans and specifications
The Contractor shall prepare and submit to the owner and the Geotechmcal Consultant a
work plan that indicates the sequence of earthwork grading, the number of "spreads" of
work and the estimated quantities of daily earthwork contemplated for the site prior to
commencement of grading The Contractor shall inform the owner and the Geotechmcal
Consultant of changes in work schedules and updates to the work plan at least 24 hours in
advance of such changes so that appropriate observations and tests can be planned and
accomplished The Contractor shall not assume that the Geotechmcal Consultant is aware
of all grading operations
The Contractor shall have the sole responsibility to provide adequate equipment and
methods to accomplish the earthwork in accordance with the applicable grading codes and
agency ordinances, these Specifications, and the recommendations in the approved
geotechmcal report(s) and grading plan(s) If, in the opinion of the Geotechmcal
Consultant, unsatisfactory conditions, such as unsuitable soil, improper moisture condition,
inadequate compaction, insufficient buttress key size, adverse weather, etc , are resulting in
a quality of work less than required in these specifications, the Geotechmcal Consultant
shall reject the work and may recommend to the owner that construction be stopped until
the conditions are rectified
2 0 Preparation of Areas to be Filled
2 1 Clearing and Grubbing Vegetation, such as brush, grass, roots, and other deleterious
material shall be sufficiently removed and properly disposed of in a method acceptable to
the owner, governing agencies, and the Geotechmcal Consultant
The Geotechmcal Consultant shall evaluate the extent of these removals depending on
specific site conditions Earth fill material shall not contain more than 1 percent of organic
materials (by volume) No fill lift shall contain more than 5 percent of organic matter
Nesting of the organic materials shall not be allowed
If potentially hazardous materials are encountered, the Contractor shall stop work in the
affected area, and a hazardous material specialist shall be informed immediately for proper
evaluation and handling of these materials prior to continuing to work in that area
As presently defined by the State of California, most refined petroleum products (gasoline,
diesel fuel, motor oil, grease, coolant, etc ) have chemical constituents that are considered
to be hazardous waste As such, the indiscriminate dumping or spillage of these fluids
onto the ground may constitute a misdemeanor, punishable by fines and/or imprisonment
and shall not be allowed
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Leighton and Associates, Inc
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 3 of 6
2 2 Processing Existing ground that has been declared satisfactory for support of fill by the
Geoteclinical Consultant shall be scarified to a minimum depth of 6 inches Existing
ground that is not satisfactory shall be overcxcavated as specified in the following section
Scarification shall continue until soils are broken down and free of large clay lumps or
clods and the working surface is reasonably uniform, flat, and free of uneven features that
would inhibit uniform compaction
2 3 Overexcavation In addition to removals and overexcavations recommended in the
approved gcotechmcal report(s) and the grading plan, soft, loose, dry, saturated, spongy,
organic-rich, highly fractured or othenvise unsuitable ground shall be overexcavated to
competent ground as evaluated by the Geoteclinical Consultant during grading
2 4 Benching Where fills are to be placed on ground with slopes steeper than 5 1 (horizontal
to vertical units), the ground shall be stepped or benched Please see the Standard Details
for a graphic illustration The lowest bench or key shall be a minimum of 15 feet wide and
at least 2 feel deep, into competent material as evaluated by the Geotechmcal Consultant
Other benches shall be excavated a minimum height of 4 feet into competent material or as
otherwise recommended by the Geoteclinical Consultant Fill placed on ground sloping
flatter than 5 1 shall also be benched or otherwise overexcavated to provide a flat subgrade
for the fill
2 5 Evaluation/Acceptance of Fill Areas All areas to receive fill, including removal and
processed areas, key bottoms, and benches, shall be observed, mapped, elevations recorded,
and/or tested prior to being accepted by the Geotechmcal Consultant as suitable to receive
fill The Contractor shall obtain a written acceptance from the Geotechmcal Consultant
prior to fill placement A licensed surveyor shall provide the survey control for
determining elevations of processed areas, keys, and benches
3 0 Fill Material
3 1 General Material to be used as fill shall be essentially free of organic matter and other
deleterious substances evaluated and accepted by the Geotechmcal Consultant prior to
placement Soils of poor quality, such as those with unacceptable gradation, high
expansion potential, or low strength shall be placed in areas acceptable to the Geotechmcal
Consultant or mixed with other soils to achieve satisfactory fill material
3 2 Oversize Oversize material defined as rock, or other irreducible material with a maximum
dimension greater than 8 inches, shall not be buried or placed in fill unless location,
materials, and placement methods are specifically accepted by the Geotechmcal Consultant
Placement operations shall be such that nesting of oversized material does not occur and
such that oversize material is completely surrounded by compacted or densified fill
Oversize material shall not be placed within 10 vertical feet of finish grade or within 2 feet
of future utilities or underground construction
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GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 4 of 6
3 3 Import If importing of fill material is required for grading, proposed import material shall
meet the requirements of Section 3 I The potential import source shall he given to the
Geotcchmcal Consultant at least 48 hours (2 working days) before importing begins so that
its suitability can be determined and appropriate tests performed
4 0 Fill Placement and Compaction
4 1 Fill Layers Approved fill material shall be placed in areas prepared to receive fill (per
Section 3 0) in near-horizontal layers not exceeding 8 inches in loose thickness The
Geotcchmcal Consultant may accept thicker layers if testing indicates the grading
procedures can adequately compact the thicker layers Each layer shall be spread evenly
and mixed thoroughly to attain relative uniformity of material and moisture throughout
4 2 l:ill Moisture Conditioning Fill soils shall be watered, dried back, blended, and/or mixed,
as necessary to attain a relatively uniform moisture content at or slightly over optimum
Maximum density and optimum soil moisture content tests shall be performed in
accordance with the American Society of Testing and Materials (ASTM Test Method
D1557-07)
4 3 Compaction of Fill After each layer has been moisture-conditioned, mixed, and evenly-
spread, it shall be uniformly compacted to not less than 90 percent of maximum dry density
(ASTM Test Method Dl 557-07) Compaction equipment shall be adequately sized and be
either specifically designed for soil compaction or of proven reliability to efficiently
achieve the specified level of compaction with uniformity
4 4 Compaction of Fill Slopes In addition to normal compaction procedures specified above,
compaction of slopes shall be accomplished by backrolhng of slopes with sheepsfoot
rollers at increments of 3 to 4 feet in fill elevation, or by other methods producing
satisfactory results acceptable to the Geotechnica! Consultant Upon completion of
grading, relative compaction of the fill, out to the slope face, shall be at least 90 percent of
maximum density per ASTM Test Method Dl 557-07
4 5 Compaction Testing Field tests for moisture content and relative compaction of the fill
soils shall be performed by the Geotechnical Consultant Location and frequency of tests
shall be at the Consultant's discretion based on field conditions encountered Compaction
test locations will not necessarily be selected on a random basis Test locations shall be
selected to verify adequacy of compaction levels in areas that are judged to be prone to
inadequate compaction (such as close to slope faces and at the fill/bedrock benches)
4 6 Frequency of Compaction Testing Tests shall be taken at intervals not exceeding 2 feet in
vertical rise and/or 1,000 cubic yards of compacted fill soils embankment In addition, as a
guideline, at least one test shall be taken on slope faces for each 5,000 square feet of slope
face and/or each 10 feet of vertical height of slope The Contractor shall assure that fill
construction is such that the testing schedule can be accomplished by the Geotechnical
Consultant The Contractor shall stop or slow down the earthwork construction if these
minimum standards are not met
3030 1094
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Leighton and Associates, Inc
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 5 of 6
4 7 Compaction Test Locations The Gcotechmcal Consultant shall document the approximate
elevation and horizontal coordinates of each test location The Contractor shall coordinate
with the project surveyor to assure that sufficient grade stakes are established so that the
Geotechmcal Consultant can determine the test locations with sufficient accuracy At a
minimum, two grade stakes within a hori/.ontal distance of 100 feet and vertically less than
5 feet apart from potential test locations shall be provided
5 0 Subdram Installation
Subdram systems shall be installed in accordance with the approved geotechmcal report(s), the
grading plan, and the Standard Details The Gcoteclimcal Consultant may recommend additional
subdrams and/or changes in subdram extent, location, grade, or material depending on conditions
encountered during grading All subdrams shall be surveyed by a land surveyor/civil engineer for
line and grade after installation and prior to burial Sufficient time should be allowed by the
Contractor for these surveys
6 0 Excavation
Excavations, as well as over-excavation tor remedial purposes, shall be evaluated by the
Geotechmcal Consultant during grading Remedial removal depths shown on geotechmcal plans
are estimates only The actual extent of removal shall be determined by the Geotechmcal
Consultant based on the field evaluation of exposed conditions during grading Where fill-over-cut
slopes are to be graded, the cut portion of the slope shall be made, evaluated, and accepted by the
Geotechmcal Consultant prior to placement of materials for construction of the fill portion of the
slope, unless otherwise recommended by the Geotechmcal Consultant
3030 1094
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Leighton and Associates, Inc
GENERAL EARTHWORK AND GRADING SPECIFICATIONS
Page 6 of 6
7 0 Trench Backfills
7 1 The Contractor shall follow all OHSA and Cal/OSHA requirements for safety of trench
excavations
7 2 All bedding and backfill of utility trenches shall be done in accordance with the applicable
provisions of Standard Specifications of Public Works Construction Bedding material
shall have a Sand Equivalent greater than 30 (SE>30) The bedding shall be placed to 1
foot over the top of the conduit and densificd by jetting Backfill shall be placed and
densified to a minimum of 90 percent of maximum from I foot above the top of the conduit
to the surface
7 3 The jetting of the bedding around the conduits shall be observed by the Geotechnical
Consultant
7 4 The Geotechnical Consultant shall test the trench backfill for relative compaction At least
one test should be made for every 300 feet of trench and 2 feet of fill
7 5 Lift thickness of trench backfill shall not exceed those allowed in the Standard
Specifications of Public Works Construction unless the Contractor can demonstrate to the
Geotechnical Consultant that the fill lift can be compacted to the minimum relative
compaction by his alternative equipment and method
3030 1094
FILL SLOPE
PROJECTED PLANE
1 TO 1 MAXIMUM FROM
TOE OF SLOPE TO
APPROVED GROUND
EXISTING
GROUND SURFACE
BENCH HEIGHT
(4' TYPICAL)
REMOVE
UNSUITABLE
MATERIAL
2' MIN—'
KEY
DEPTH
LOWEST
BENCH
(KEY)
FILL-OVER-CUT SLOPE
EXISTING
GROUND SURFACE
BENCH HEIGHT
(4' TYPICAL)
REMOVE
UNSUITABLE
MATERIAL
CUT-OVER-FILL SLOPE
-CUT FACE
SHALL BE CONSTRUCTED PRIOR
TO FILL PLACEMENT TO ASSURE
ADEQUATE GEOLOGIC CONDITIONS
EXISTING
GROUND
SURFACE
OVERBUILD AND
TRIM BACK
PROJECTED PLANE
1 TO 1 MAXIMUM
FROM TOE OF SLOPE
TO APPROVED GROUND
CUT FACE SHALL BE
CONSTRUCTED PRIOR
TO FILL PLACEMENT
REMOVE
UNSUITABLE
MATERIAL
LBENCH HEIGHT
(4' TYPICAL)
FOR SUBDRAINS SEE
STANDARD DETAIL C
2' MIN—1
KEY
DEPTH
LOWEST
BENCH
(KEY)
BENCHING SHALL BE DONE WHEN SLOPE'S
ANGLE IS EQUAL TO OR GREATER THAN 5 1
MINIMUM BENCH HEIGHT SHALL BE 4 FEET
AND MINIMUM FILL WIDTH SHALL BE 9 FEET
KEYING AND BENCHING
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS A
FINISH GRADE
SLOPE FACE
OVERSIZE ROCK IS LARGER THAN
8 INCHES IN LARGEST DIMENSION
EXCAVATE A TRENCH IN THE COMPACTED
FILL DEEP ENOUGH TO BURY ALL THE
ROCK
BACKFILL WITH GRANULAR SOIL JETTED
OR FLOODED IN PLACE TO FILL ALL THE
VOIDS
DO NOT BURY ROCK WITHIN 10 FEET OF
FINISH GRADE
WINDROW OF BURIED ROCK SHALL BE
PARALLEL TO THE FINISHED SLOPE
GRANULAR MATERIAL TO BE'
DENSIFIED IN PLACE BY
FLOODING OR JETTING
— — — — ^JETTED OR FLOODED — —
GRANULAR MATERIAL
TYPICAL PROFILE ALONG WINDROW
OVERSIZE
ROCK DISPOSAL
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS B
\-EXISTING
GROUND SURFACE
BENCHING
REMOVE
UNSUITABLE
MATERIAL
SUBDRAIN
TRENCH
SEE DETAIL BELOW
CALTRANS CLASS 2 PERMEABLE
OR #2 ROCK (9FT~3/FT) WRAPPED
IN FILTER FABRIC //
FILTER FABRIC
(MIRAFI 140N OR APPROVED
EQUIVALENT)*
6" MIN
COVER
==^-=i*VJ 4" MIN BEDDING
COLLECTOR PIPE SHALL
BE MINIMUM 6" DIAMETER
SCHEDULE 40 PVC PERFORATED
PIPE SEE STANDARD DETAIL D
FOR PIPE SPECIFICATIONS
SUBDRAIN DETAIL
DESIGN FINISH
GRADE
NONPERFORATED 6"0 MIN
6" 0 MIN PIPE
FILTER FABRIC
(MIRAFI 140N OR APPROVED
EQUIVALENT)
CALTRANS CLASS 2 PERMEABLE
OR #2 ROCK (9FT~3/FT) WRAPPED
IN FILTER FABRIC
DETAIL OF CANYON SUBDRAIN OUTLET
CANYON SUBDRAINS
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS C
15' MIN
OUTLET PIPES
4" 0 NONPERFORATED PIPE,
100' MAX OC HORIZONTALLY.
30' MAX 0 C VERTICALLY
BACK CUT
1 1 OR FLATTER
•SEE SUBDRAIN TRENCH
DETAIL
LOWEST SUBDRAIN SHOULD
BE SITUATED AS LOW AS
POSSIBLE TO ALLOW
SUITABLE OUTLET
-KEY DEPTH
(2 MIN )
KEY WIDTH
AS NOTED ON GRADING PLANS
(15' MIN )12' MIN OVERLAP —
FROM THE TOP HOG
RING TIED EVERY
6 FEET
CALTRANS CLASS
PERMEABLE OR #2
ROCK (3 FT3/FT)
WRAPPED IN FILTER
FABRIC
-4" 0
NON-PERFORATED
OUTLET PIPE
PROVIDE POSITIVE
SEAL AT THE
JOINT
T-CONNECTION
FOR COLLECTOR
PIPE TO OUTLET PIPE
6" MIN
COVER
4"0
PERFORATED
PIPE
FILTER FABRIC
ENVELOPE (MIRAFI
140 OR APPROVED
EQUIVALENT)
-4" MIN
BEDDING
SUBDRAIN TRENCH DETAIL
SUBDRAIN INSTALLATION - subdroin collector pipe shall be installed with perforation down or.
unless otherwise designated by the geotechmcal consultant Outlet pipes shall be non-perforoted
pipe The subdram pipe shall have at least 8 perforations uniformly spaced per foot Perforation
shall be 1/4" to 1/2" if drill holes are used All subdram pipes shall have a gradient of at
least 2% towards the outlet
SUBDRAIN PIPE - Subdram pipe shall be ASTM D2751. SDR 235 or ASTM D1527. Schedule 40. or
ASTM 03034, SDR 23 5, Schedule 40 Polyvinyl Chloride Plastic (PVC) pipe
All outlet pipe shall be placed in a trench no wide than twice the subdram pipe Pipe shall be in
soil of SE >/=30 jetted or flooded in place except for the outside 5 feet which shall be native
soil backfill
BUTTRESS OR
REPLACEMENT FILL
SUBDRAINS
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS D
-SOIL BACKFILL, COMPACTED TO
90 PERCENT RELATIVE COMPACTION
BASED ON ASTM 01557
RETAINING WALL— -^
/ALL WATERPROOFING ^^
ER ARCHITECT'S ^^\
PECIFICATIONS \
FINISH GRADE — ^
:-:-:-:-:-:-:-:-:-:-:-:-:€ OMPACTED FIL L"-:-:-:-:-:-:-:-
\
Vffmm
-p........-.-.
, 6" MIN ''OVERLAP
o
o ° -oo
0 0
1' MIN
o • °
• ^ L-* — I
O . * ••
l~^4*
-:-:-: 32" TYP :-:-:-:-:--
.-.-.-:-:-:-: FILTER FABRIC ENVELOPE
X-I-X^-^^MIRAFI 140N OR APPROVED
X^T EQUIVALENT)"
-"-"-"-" ~*,/i" TO 1 1 /9" PI FAM HRAVFI
::::::: ^^4" (MIN ) DIAMETER PERFORATED
'-y^r^^ PVC PIPE (SCHEDULE 40 OR
-:-:-:-: EQUIVALENT) WITH PERFORATIONS:::::::: ORIENTED DOWN AS DEPICTED-:-:-:-:- MINIMUM i PERCENT GRADIENT
"-~-~~~- TH Cl llTAQl T Ol ITl C~T
"^^^ 3" MIN
WALL FOOTING
COMPETENT BEDROCK OR MATERIAL
AS EVALUATED BY THE GEOTECHNICAL
CONSULTANT
NOTE UPON REVIEW BY THE GEOTECHNICAL CONSULTANT,
COMPOSITE DRAINAGE PRODUCTS SUCH AS MIRADRAIN OR
J-DRAIN MAY BE USED AS AN ALTERNATIVE TO GRAVEL OR
CLASS 2 PERMEABLE MATERIAL INSTALLATION SHOULD BE
PERFORMED IN ACCORDANCE WITH MANUFACTURER'S
SPECIFICATIONS
RETAINING WALL
DRAINAGE DETAIL
GENERAL EARTHWORK AND
GRADING SPECIFICATIONS
STANDARD DETAILS E
STORM WATER POLLUTION PREVENTION PLAN
TIER LEVEL 2
Project:
LEGOLAND
LAND OF ADVENTURE
GAMES STRUCTURE & STORAGE
Project Location-
Legoland California, Inc
1 Legoland Drive
Carlsbad, CA 92024
(760)918-5300
Date Prepared:
March 5, 2009
Prepared by.
Hofman Planning and Engineering
3152 Lionshead Avenue
Carlsbad, CA 92010
(760)692-4100
Storm Water Compliance Form
For a Tier 2 Construction SWPPP
I am applying to the City of Carlsbad for one or more the following type of construction permit(s)
D Grading Permit )( Building Permit D Right-of-Way Permit
My project does not meet any of the following criteria for a project that poses a significant threat to
storm water quality
s My project does not include clearing, grading or other ground disturbances resulting in soil
disturbance totaling one or more acres including any associated construction staging, equipment
storage, stockpiling, pavement removal, refueling and maintenance areas, and,
S My project is not part of a phased development plan that will cumulatively result in soil
disturbance totaling one or more acres including any associated construction staging, equipment
storage, stockpiling, pavement removal, refueling and maintenance areas, and,
S My project is not located inside or within 200 feet of an environmentally sensitive area and will not
have a significant potential for contributing pollutants to nearby receiving waters by way of storm
water runoff or non-storm water discharge(s)
My project requires preparation and approval of a Tier 2 Construction Storm Water Pollution
Prevention Plan (SWPPP) because my project meets one or more of the following criteria
demonstrating that the project potentially poses a moderate threat to storm water quality
0 My project requires a grading plan pursuant to the Carlsbad Grading Ordinance (Chapter 1516
of the Carlsbad Municipal Code), and/or,
jfc( My Project will result in 2,500 square feet or more of soils disturbance including any associated
construction staging, stockpiling, pavement removal, equipment storage, refueling and
maintenance areas and, my project meets one or more of the following additional criteria
• Project is located within 200 feet of an environmentally sensitive area or the Pacific Ocean,
• Project's disturbed area is located on a slope with a grade at or exceeding 5 horizontal to 1
vertical,
• Project's disturbed area is located along or within 30 feet of a storm dram inlet, an open
drainage channel or watercourse, and/or
• Project will be initiated during the rainy season or will extend into the rainy season (Oct 1
through April 30)
1 CERTIFY TO THE BEST OF MY KNOWLEDGE THAT THE ABOVE CHECKED STATEMENTS ARE TRUE
AND CORRECT I AM SUBMITTING FOR CITY APPROVAL A TIER 2 CONSTRUCTION SWPPP PREPARED
IN ACCORDANCE WITH THE REQUIREMENTS OF CITY STANDARDS
I UNDERSTAND AND ACKNOWLEDGE THAT I MUST ADHERE TO, AND AT ALL TIMES, COMPLY WITH
THE CITY APPROVED TIER 2 CONSTRUCTION SWPPP THROUGHTOUT THE DURATION OF THE
CONSTRUCTION ACTIVITIES UNTIL THE CONSTRUCTION WORK IS COMPLETE AND APPROVED BY
THE CITY OF CARLSBAD
Owner/Owner's Authorized Agent Information and Signature Box This Box for City Use Only
Address/Location Assessor Parcel Number(s)
evwer/Owner's Authorized Agent Name
fi GOH-AM
r's Authorized Agent Signature
Title
Date
City Concurrence Yess No
By
Date
Project ID
Construction SWPPP Standards and Requirements Rev 6/4/2008
Project Threat Assessment Worksheet
for Determination of Construction SWPPP Tier Level
Project Storm Water Threat Assessment Criteria*
Significant Threat Assessment Criteria
Construction
SWPPP Tier
Level
soil disturbance totaling one or more acres including any associated construction
staging, equipment storage, stockpiling, pavement removal, refueling and
maintenance areas, or,
My project is part of a phased development plan that will cumulatively result in soil
disturbance totaling one or more acres including any associated construction staging,
equipment storage, refueling and maintenance areas, or,
My project is located inside or within 200 feet of an environmentally sensitive area
(see City ESA Proximity map) and has a significant potential for contributing
pollutants to nearby receiving waters by way of storm water runoff or non-storm
water discharge(s)
Tier3
Moderate Threat Assessment Criteria
My project does not meet any of the Significant Threat Assessment Criteria described
above and meets one or more of the following criteria
Q Project requires a grading plan pursuant to the Carlsbad Grading Ordinance (Chapter
1516 of the Carlsbad Municipal Code), or,
Project will result in 2,500 square feet or more of soils disturbance including any
associated construction staging, stockpiling, pavement removal, equipment storage,
refueling and maintenance areas and project meets one or more of the additional
following criteria
• located within 200 feet of an environmentally sensitive area or the Pacific Ocean,
and/or,
• disturbed area is located on a slope with a grade at or exceeding 5 horizontal to 1
vertical, and/or
• disturbed area is located along or within 30 feet of a storm dram inlet, an open
drainage channel or watercourse, and/or
• construction will be initiated during the rainy season or will extend into the rainy
season (Oct 1 through April 30)
Tier 2
Low Threat Assessment Criteria
Q My project does not meet any of the Significant or Moderate Threat criteria, is not an
exempt permit type (see City's list of Permit Types Exempt from Construction
SWPPP requirements) and the project meets one or more of the following criteria
• results in some soil disturbance, and/or
• includes outdoor construction activities (such as roofing, saw cutting, equipment
washing, material stockpiling, vehicle fueling, waste stockpiling)
Tierl
No Threat Project Assessment Criteria
Q My project is in a category of permit types exempt from City Construction SWPPP
requirements (see City's list of Permit Types Exempt from Construction SWPPP
requirements) and/or does not meet any of the High, Moderate or Low Threat criteria
described above
Exempt
* The City Engineer may authorize minor variances from the Storm Water Threat Assessment Criteria
in special circumstances where it can be shown that a lesser or higher Construction SWPPP Tier
Level is warranted in the opinion of the City Engineer
Construction SWPPP Standards and Requirements Rev 6/4/2008
Construction Threat Assessment Worksheet
for Determination of a
Project's Perceived Threat to Storm Water Quality
Construction
SWPPP Tier
Level
Tier 3
Tier 2
Tier 1
Exempt
Construction Threat Assessment Criteria*
Tier 3 - High Construction Threat Assessment Criteria
Q Project site is 50 acres or more and grading will occur during the rainy season
Q Project site is 1 acre or more in size and is located within the Buena Vista or Agua
Hedionda Lagoon watershed, inside or within 200 feet of an environmentally sensitive
area (ESA) or discharges directly to an ESA
G Soil at site is moderately to highly erosive (defined as having a predominance of soils with
USDA-NRCS Erosion factors kf greater than or equal to 0 4)
Q Site slope is 5 to 1 or steeper
Q Construction is initiated during the rainy season or will extend into the rainy season
(Oct 1 through April 30)
Q Owner/contractor received a Storm Water Notice of Violation within past two years
Tier 3 - Medium Construction Threat Assessment Criteria
u All projects not meeting Tier 3 High Construction Threat Assessment Criteria
Tier 2 Hich Construction Threat Assessment Criteria
Q Project is located within the Buena Vista or Agua Hedionda Lagoon watershed, inside
or within 200 feet of an environmentally sensitive area (ESA) or discharges directly to
an ESA
Q Soil at site is moderately to highly erosive (defined as having a predominance of soils
with USDA-NRCS Erosion factors kf greater than or equal to 0 4)
H Site slope is 5 to 1 or steeper
p( Construction is initiated during the rainy season or will extend into the rainy season
(Oct 1 through April 30)
Q Owner/contractor received a Storm Water Notice of Violation within past two years
Q Site results in one half acre or more of soil disturbance
Tier 2 - Medium Construction Threat Assessment Criteria
Q All projects not meeting Tier 2 High Construction Threat Assessment Criteria
Tier I - Medium Inspection Threat Assessment Criteria
Q Project is located within the Buena Vista or Agua Hedionda Lagoon watershed, within
or directly adjacent to an environmentally sensitive area (ESA) or discharges directly to
an ESA
Q Soil at site is moderately to highly erosive (defined as having a predominance of soils
with USDA-NRCS Erosion factors kf greater than or equal to 0 4)
G Site slope is 5 to 1 or steeper
Q Construction is initiated during the rainy season or will extend into the rainy season
(Oct 1 through April 30)
Q Owner/contractor received a Storm Water Notice of Violation within past two years
Q Site results in one half acre or more of soil disturbance
Tier 1 - Low Inspection Threat Assessment Criteria
Q All projects not meeting Tier 1 Medium Construction Threat Assessment Criteria
- Not Applicable -
Perceived
Threat to
Storm Water
Quality
High
Medium
High
Medium
Medium
Low
Exempt II
* The City Engineer may authorize minor variances from the Construction Threat Assessment Criteria in special
circumstances where it can be shown that a lesser or higher amount of storm water compliance inspection is
warranted in the opinion of the City Engineer
Construction SWPPP Standards and Requirements Rev 6/4/2008
Tier 2 Construction SWPPP Site Assessment Form
Project ID CE>
Project Information
Project Name & )x£>r
Project Address/Location,C-A , \t)(?-
Responsible Parties/Contact Information:
Name of Preparer Oo-s>&p?j4- "•£>. Co
Qualification of Preparer (Registration/Certific
Address ty ^0.
City/State/Zip Code
Phone Number %
UoWSHHEAD M
CAf?f-6BAt> CJ-
0. Qtfa.4olG
4-MrM
ation) C^'L GM£riM££j^
^3/60 /o1^
»
V ^ac/o
Name of Owner/Owner's Agent
Address I t-BSOLAMD
-ErJT.
City/State/Zip Code C'ARt-5gAQ
Phone Number 5fOD
Name of Emergency Contact GW$if> f?0
(during construction)
Address ( l&TOt-Q^D |>!JC
M£.£o , o/?- 6f:r A//A/MinP^Aw<i^-
City/State/Zip Code CA&l£&flct) Cfy tfdDOB
Phone Number 7^ 8^(b . Og4Q.
Pagel of 10
Tier 2 Site Assessment l-'orm 3/24/08
Site and Construction ion:
Construction Star
If work begins in
scheduled can be
season U3o
(2^.^ \VjS*~\y )j l^l
V
t Date v22-
ramy season or
altered to avoid
Rk: yJ»U_ -t
? TO Mt^
/• ' / *""_' ;*"
/' 1*^0, FnH Dntr iS^-*4»^
extends into rainy season, explain how project work can be
rainy season impacts or to lessen exposure of site during rainy
5& CoMp»-&TeD QUICK U>f AWD
MMi^ie pAIM \MRAC1- ^
Jr
>^Et> ^
Grading Quantities Cut 44^ CY, Fill lQ> CY, Import
Export 4tf& CY
Any Stockpile Proposed1? 1 ^^ If yes, then estimate quantity
Estimated duration of stockpile _ //• _ Months
Soils types
CY,
CY
Does site contain a preponderance of soils with USDA-NRCS erosion factor kf greater than or
equal to 0 4? HQ
Is a staging area proposed (yes/no)9
If yes, then where is it located9 gr*3-f7M£r
Is concrete washout required (yes/no)9
Where is it located9 QM S/'f^ ,
Any existing site contamination (yes/no)9 N(Q
Where is it located9
Any vehicle storage, maintenance or fueling area proposed (yes/no)9
Where is it located9
Any de-watering operation proposed (yes/no)9
Where is it located9
Any other special operations proposed that may impair water quality (yes/no)9
What and where9
fslO
Page2of 10
Tier 2 Site Assessment form 3/24/08
Watershed Basin project drains to D Buena Vista Lagoon D Agua Hedionda Lagoon
J^Encmas Creek D Batiquitos Lagoon D Pacific Ocean
Is project drainage tributary to a CWA section 303(d) listed water body impaired for sediment
(includes Buena Vista and Agua Hedionda Lagoons) (yes/no) MO
If yes, describe additional controls that will be used on project site to mitigate for sediment
impairments (if any)
Is project inside or within 200 feet of an Environmentally Sensitive Area (yes/no)
If yes, describe additional controls that will be used on project site to mitigate for potential storm
water impacts (if any) _
Are any agency permits required (yes/no)7
Check off permit types required D Army Corps 404 permit
D Regional Board Water Quality 401 Certification D Coastal Commission Certification
D U S Fish and Wildlife Section 7 D Fish and Game Stream Alteration Agreement
D Other list
Page3of 10
Tier 2 Site Assessment Form 3/24/08
List materials that will be used on construction site and their handling and storage requirements
Material
ipOOQ
f£fr?r
CL^rACrvb-TTs- fe
•fcx A^s *!-~rZ: i^*j~ *•=» ' O j *— 'l\
TYP« ccwsrKucnosi
^MSTftu^flpM
If any toxic or hazardc
spill prevention plan r<
If yes, attach spill pre\
Charactenstics/Toxicity
jsioMl2>
Uow
Handling requirements
c
(^Si-tSM"hCMM^5 SR)BED
(t^^4^St^SBB'
^^^^^r^^ o^-j
>us materials are proposed, then a spill prevention plan is required Is a
jquired (yes/no)9 K>O
mention plan
Perceived Threat to Storm Water Quality rating
Using the Construction Threat Assessment Worksheet (attached as Appendix C to Section 3
(Construction SWPPP Standards and Requirements) of the City Storm Water Standards Manual,
determine the projects Perceived Threat to Storm Water Quality rating
The Construction Threat to Storm Water Quality rating for this project is M High D Medium
Signature of PlanJPreparer:
Signature
Print Name
Attachments:
JSC Storm Water Compliance Form - Tier 2
Q Spill Prevention Plan
Hydrology and/or hydraulic study
Sohs and/or geotechmcal report(s)
Other List 6\PfPP
g i
Q
Q
Page4of 10
Tier 2 Site Assessment Form 3/24/08
BMP Selection:
The following tables are provided to help identify and select appropriate site specific BMPs for
the proposed project Review the list of potential site construction activities and site conditions
described along the left hand column of each sheet Then, for each activity or site condition that
is included in the proposed project, pick one or more of the BMPs described at the top of the
form and place an X(s) in the box(es) that form(s) an intersection between the activity/site
condition row and BMP column(s)
All structural (physical facility) BMP's should be shown on the site plan in the Construction
SWPPP drawing set Any proposed no-structural BMP should be noted in the Special Notes on
the Construction SWPPP drawing set
PageS of 10
Tier 2 Site Assessment l-'orm 3/24/08
BMP Description ->
CASQA
Designation ->
Construction
Activity or
Site Condition
Cleared Areas
Flat pad graded areas
Graded slope areas
Trenching/Excavation
Stockpiling
Drilling/Boring
Conduit/Pipe
Installation
Substructure/Pad
Installation
Staging Area
Existing onsite
vegetated areas
Drainage flow onto
site
Drainage flows off of
site
Drainage at top of
slope
Other (list)
Erosion Control BMPs
Scheduling6UJ
^V
V
V
V
V Preservation ofExisting VegetationCNI
oHI
\f
V
V
V Hydraulic MulchCO
6UJ HydroseedingToLU
V Soil Bindersin
6
LU
o135
5
w
<9o
UJ
V Geotextlles & Mats^T0in
V
V Wood MulchingCO
6til
V
V
V
inT3 0)
£|
8jw-* <uQ 0)^ CO
1 §LU a
cr>
6LU Velocity Dissipationo
i
OUJ
(/>
CO
Q
0)Q.O
V)
6
UJ StreambankStabilizationCMT—6LLJ PolyacrylamldeCO
6
LU
Wind
Erosion
BMPs
Wind Erosion ControlLU
V
Page6of 10
Tier 2 Site Assessment l;orm 3/24/08
BMP Description ->
CASQA Designation ->
Construction Activity
Or Site Condition
Cleared Areas
Flat pad graded areas
Graded slope areas
Trenching/Excavation
Stockpiling
Drilling/Boring
Conduit/Pipe Installation
Substructure/Pad Installation
Paving
Staging Area
Existing onsite vegetated areas
Drainage flow onto site
Drainage flows off of site
Drainage at top of slope
Other (list)
Sediment Control BMPs
8
CDU-
ii
CO
5
CO Sediment BasinC\l
UJCO Sediment TrapCO
LLJCO
i
coQ
J£O0)J=O
TLU
CO
in
10>JD
LL.
•9UJ
CO
J
V
J
VV
0)CO
O)CO
CD
"53
1O
«9LUCO
V
J
J
V Street Sweeping andVacuummqIY
LUto Sandbag Barrierop
UJCO
0>
k_t_
COm
0)
COCO
5
•4-*CO
O5
LU
CO Storm Dram InletProtectiono
LUCO
V
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LEGOLAND
EXIST. DETENTION BASIN
Hofman
Planning & Engineering
JOSEPH P. COHAN K.C.E. C5S873 EXP. 06-30-09 DATE
LEGOIAND
CARLSBAD. CALIFORNIA
0
City of Carlsbad
Building Department
CERTIFICATE OF COMPLIANCE
PAYMENT OF SCHOOL FEES OR OTHER MITIGATION
This form must be completed by the City, the applicant, and the appropriate school districts and returned to the City
prior to issuing a building permit The City will not issue any building permit without a completed school fee form
Project Name LEGOLAND GAMES STRUCTURE-COCONUT TREE & LADDER CLIMB
Building Permit
Plan Check Number CB090258
Project Address
APN
Project Applicant
(Owner Name)
Project Description
Building Type
Residential
Second Dwelling Unit
Residential Additions
1 LEGOLAND DR
211-100-09-00
MERLIN ENTERTAINMENT GROUP U.S. HOLDINGS
GAMES BUILDING, STORAGE BUILDING & LADDER CLIMB
ATTRACTION
COMMERCIAL
New Dwelling Units
Square Feet of Living Area in New Dwelling
Square Feet of Living Area in SOU
Net Square Feet New Area
Commercial/Industrial 819 SF GAME STRUCTURE, 160 SF STORAGE BLDG & 2 LADDER CLIMB
ATTRACTIONS Square Feet Floor Area
City Certification of ~ .
Applicant Information Date
^SCHOOL DISTRICTS WITHIN CITY OF CARLSBAD
Carlsbad Unified School District
6225 El Cammo Real
Carlsbad CA 92009 (331-5000)
Vista Unified School District
1234 Arcadia Drive
VislaCA 92083 (726-2170)
San Marcos Unified School District
215MataWay
San Marcos, CA 92069 (290-2649)
Contact Nancy Dolce (By Appt Only)
Encimt.is Union School District
101 South Rancho Santa Fe Rd
Encimtas, CA 92024 (944-4300 ext 166)
San Dieguito Union High School District
710 Encimtas Blvd
Encimtas, CA 92024 (753-6491)
Certification of Applicant/Owners The person executing this declaration ("Owner") certifies under penalty of perjury that (1) the
information provided above is correct and true to the best of the Owner's knowledge, and that the Owner will file an amended
certification of payment and pay the additional fee if Owner requests an increase in the number of dwelling units or square
footage after the building permit is issued or if the initial determination of units or square footage is found to be incorrect, and
that (2) the Owner is the owner/developer of the above described project(s), or that the person executing this declaration is
authorized to sign on behalf of the Ownera - _
Signature
Revised 3/30/2006
Date
SCHOOL DISTRICT SCHOOL FEE CERTIFICATION
(To be completed by the school distnct(s))***********************************************************************
THIS FORM INDICATES THAT THE SCHOOL DISTRICT REQUIREMENTS FOR THE
PROJECT HAVE BEEN OR WILL BE SATISFIED
SCHOOL DISTRICT
The undersigned, being duly authorized by the applicable School District, certifies that the
developer, builder, or owner has satisfied the obligation for school facilities This is to certify that
the applicant listed on page 1 has paid all amounts or completed other applicable school
mitigation determined by the School District The City may issue building permits for this project
SIGNATURE OF AUTHORIZED SCHOOL
DISTRICT OFFICIAL WALTER FREEMAN
ASSISTANT SUPERINTENDENTTITLE CARLSBAD UNIFIED SCHOOL DISTRICT
6225 EL CAMINO REAL
NAME OF SCHOOL DISTRICT CARLSBAD, CA 92009
DATE
PHONE NUMBER
Revised 3/30/2006
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