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PGA West Signature - The Haciendas TR 36537ADDITIONAL SITES CHRONOLOGY CHRONOLOGY TYPE STAFF NAME ACTION DATE COMPLETION DATE NOTES 1ST PC SUBMITTAL RECEIVED MARY FASANO 2/10/2016 2/11/2016 MARY NETTLES BROUGHT IN REVISIONS FOR HACIENDA PLAN TYPES PHONE CALL JIM JOHNSON 2/18/2016 2/18/2016 CALLED MARY TO INFORM HER THE PLANS ARE READY FOR CORRECTIONS 1ST PC PICKED UP STEPHANIE KHATAMI 2/24/2016 2/24/2016 MARY NETTLES 2ND PC SUBMITTAL RECEIVED KAY HENSEL 3/21/2016 3/21/2016 2ND PLAN CHECK SUBMITTED BY MAIL (REVISIONS). NO STRUCTURAL ELEMENTS TO THESE REVISIONS WERE FOUND. PHONE CALL JIM JOHNSON 4/5/2016 4/5/2016 CALLED MARY TO INFORM HER THAT WERE ADDITIONAL CORRECTIONS. SHE WILL BE IN ON THUR 4/7/16 PHONE CALL JIM JOHNSON 4/25/2016 4/25/2016 CALLED MART TO INFORM HER THE PLANS ARE APPROVED 3RD PC SUBMITTAL RECEIVED JIM JOHNSON 4/25/2016 4/25/2016 Description: PGA SIGNATURE / HACIENDA REVISIONS Status: ARCHIVED Type: TRACT RESIDENTIAL CONSTRUCTION PLAN Status Date: 3/21/2016 Subtype: REVISION Applied: 2/11/2016 Address: SIGNATURE PROJECT Approved: 4/25/2016 City, State, Zip: ,Closed: Project Manager: Expired: Details: CLIENT REVISION DELTA 3 PLANS 1, 2 & 3. THESE PLANS WILL INCORPORATE ALL FIELD REVISIONS AND OPT. MOCK-UPS WILL NOT NEED TO BE UPDATED, NO SQ. FT. CHANGES Printed: Monday, March 20, 2023 8:19:40 AM 1 of 3 Project Details City of La Quinta PROJECT NUMBER BTCP2016-0001 CONTACTS NAME TYPE NAME ADDRESS1 CITY STATE ZIP PHONE FAX EMAIL APPLICANT CALIFORNIA WEST CONSTRUCTION INC 5927 PRIESTLY DRIVE STE 110 CARLSBAD CA 92008 (760)918-6768 mnettles@californiawe stcommunities.com CONTRACTOR CALIFORNIA WEST CONSTRUCTION INC 5927 PRIESTLY DRIVE STE 110 CARLSBAD CA 92008 (760)918-6768 mnettles@californiawe stcommunities.com OWNER RREF II - CWC LAQ, LLC - MARY NETTLES 5927 PRIESTLY DRIVE CARLSBAD CA 92008 (760)918-6768 MNETTLES@CALIFORNI AWESTCOMMUNITIES. COM CONDITIONS INSPECTIONS INSPECTION TYPE INSPECTOR SCHEDULED DATE COMPLETED DATE RESULT REMARKS NOTES REVIEWS FINANCIAL INFORMATION DESCRIPTION ACCOUNT QTY AMOUNT PAID PAID DATE RECEIPT #CHECK #METHOD PAID BY CLTD BY BUILDING STAFF - CITY PER HOUR 101-0000-42600 2.5 $362.50 $362.50 5/3/16 R15237 12411 CHECK RREF II - CWC LAQ, LLC - MARY TSA BUILDING STAFF - CITY PER HOUR 101-0000-42600 2 $290.00 $290.00 5/3/16 R15237 12411 CHECK RREF II - CWC LAQ, LLC - MARY TSA BUILDING STAFF - CITY PER HOUR 101-0000-42600 1 $145.00 $145.00 5/3/16 R15237 12411 CHECK RREF II - CWC LAQ, LLC - MARY TSA Total Paid for BUILDING STAFF - PER HOUR: $797.50 $797.50 TOTALS:$797.50 $797.50 REVIEW TYPE REVIEWER SENT DATE DUE DATE RETURNED DATE STATUS REMARKS NOTES Printed: Monday, March 20, 2023 8:19:40 AM 2 of 3 Project Details City of La Quinta PROJECT NUMBER BTCP2016-0001 ATTACHMENTS Attachment Type CREATED OWNER DESCRIPTION PATHNAME SUBDIR ETRAKIT ENABLED DOC 2/18/2016 JIM JOHNSON SIGNATURE AT PGA WEST HACIENDA REVISIONS.docx SIGNATURE AT PGA WEST HACIENDA REVISIONS.docx 0 DOC 4/7/2016 JIM JOHNSON SIGNATURE AT PGA WEST HACIENDA REVISIONS.docx SIGNATURE AT PGA WEST HACIENDA REVISIONS_1.docx 0 BOND INFORMATION 2ND BLDG NS (2WK)JIM JOHNSON 3/21/2016 4/4/2016 4/5/2016 REVISIONS REQUIRED JIM - WAS THERE ANYTHING IN THIS REVISION SET THAT NEEDED TO GO TO PLANNING? iT LOOKS LIKE NOTHING WAS EVER SENT TO THEM. I DID NOT SEND A SET TO PLANNING. KAY 3RD BLDG NS (2WK)JIM JOHNSON 4/25/2016 5/9/2016 4/25/2016 APPROVED BUILDING 1ST JIM JOHNSON 2/10/2016 2/24/2016 2/18/2016 REVISIONS REQUIRED Printed: Monday, March 20, 2023 8:19:40 AM 3 of 3 Project Details City of La Quinta PROJECT NUMBER BTCP2016-0001 COMMUNITY DEVELOPMENT DEPARTMENT 78-495 CALLE TAMPICO L A QUINTA, CALIFORNIA 92253 (760) 777-7125 FAX (760) 777-7011 Residential Plan Check Correction List Page 1 of 6 RESIDENTIAL PLAN CHECK CORRECTION LIST (os) DATE: 2/18/2016 STATUS: FIRST REVIEW PLAN CHECKED BY: JIM JOHNSON TELEPHONE NUMBER: (760) 777-7130 ADDRESS: SIGNATURE PGA WEST DESCRIPTION: PLANS REVISIONS APPLICANT: PREF 11 CWC LA Q PLAN CHECK #: BTCP 2016-0001 This submittal has been checked for compliance with the 2013 California Residential, Mechanical, Electrical, Plumbing, Energy, and Green Building Codes, and the City of La Quinta Municipal Code. APPLICANT: BUILDING DEPARTMENT STAFF: The following items are being returned to you for correction: 3 SETS OF PANS 2 SETS TITLE -24 2 SETS STRUC CALCS THIS CORRECTION LIST DO NOT accept any resubmittal unless ALL of the following items are included: REDLINED SETS 2 NEW REVISED SETS ASSESSORS SET 2 SETS TITLE -24 2 SETS STRUC CALCS THIS CORRECTION LIST / RESPONSES TRUSS CALCS WILL THEY CHANGE ? INSTRUCTIONS TO APPLICANT: 1) Provide a written response to each comment on the following pages, noting specifically where the correction can be found. Responses such as, “Sheet A-3,” or, “Handrails shall be per CBC Section 1003,” are not acceptable. Show or note specifically how compliance with a code requirement is achieved. Responses such as, “Added note 16 on sheet A-3” are appropriate and will help expedite your back check. 2) Corrections may not be made by handwriting on existing drawings. Revise originals and reprint Plans and/or Calculations as necessary. 3) Return all red-marked Plans and/or Calculations with your resubmittal. 4) Each sheet of resubmitted Plans and/or Calculations shall include the preparer’s name and telephone number and shall be wet-signed by the preparer. If the preparer is a licensed architect or engineer, all documents prepared by that licensed individual shall also bear his/her stamp as prescribed by California Business and Professions Code Section 5536. Resubmittals will not be accepted with signatures missing. 5) Return this list, your written responses, and all documents listed above with your resubmittal. Residential Plan Check Correction List Page 2 of 6 SECTION A - GENERAL 1) Number all sheets in Plans sequentially, or provide a Sheet Index. 2) Sheet Index does not reflect actual sheets in Plans. Reconcile. 3) Provide on each sheet of resubmitted Plans and cover sheet of bound Calculations the preparer’s name and telephone number and wet-signature. If the preparer is a licensed architect or engineer, all documents prepared by that licensed individual shall also bear his/her stamp as prescribed by California Business and Professions Code §5536. Resubmittals will not be accepted with signatures missing. SECTION D – MECHANICAL – NOT PROVIDED 1) Provide a complete Mechanical Plan showing the following information: a) Location of each HVAC system; b) Location of each dual-mode automatic-setback thermostat or each thermostatically controlled damper; c) Location and sizes of all supply air ducts and registers in each zone; a) Location and sizes of all return air ducts and registers in each zone. (CMC §113.3) 2) Heating and air-conditioning systems shall be sized, designed and have their equipment selected using the following methods: (CALGreen §4.507.2) a) The heat loss and heat gain is established according to ACCA Manual J, ASHRAE handbooks or other equivalent design software or methods. b) Duct systems are sized according to ACCA 29-D Manual D, ASHRAE handbooks or other equivalent design software or methods. c) Select heating and cooling equipment according to ACCA 36-S Manual S or other equivalent design software or methods. 3) Note on Plans: “All duct and other related air distribution component openings shall be covered with tape, plastic, sheetmetal or other methods acceptable to the enforcing agency to reduce the amount of dust or debris which may collect in the system, at all times of rough installation and during storage on the construction site, until final startup of the heating and cooling equipment.” (CALGreen §4.504.1) 4) Fully specify all HVAC equipment proposed for use. (CMC §113.3) 5) Provide heating equipment capable of maintaining an indoor temperature of 68°F at a point of 3 feet above the floor and 2 feet from exterior walls. (CRC §R303.8) 6) Fully specify system design for Whole-Building (Indoor Air Quality) Ventilation. (CEC §150(o)) The whole- building minimum ventilation rate shall be calculated per the following equation: Qfan = 0.01Afloor + 7.5(Nbr + 1), where Qfan = Fan Flow Rate in CFM, Afloor = CFA in SqFt and Nbr = Number of Bedrooms. 7) Note on Plans: “Controls for the Whole-Building Ventilation system shall be labeled as to identify to the building occupant that the system is intended to operate continuously for Indoor Air Quality.” Informational item: No specific wording is mandated, but the wording needs to make clear what the control is for and the importance of operating the system. 8) Provide mechanical exhaust ventilation at all bathrooms in accordance with following code requirements: (CRC §106.1) See Plan for location(s) not in compliance. a) CRC: §R303.3 City of La Quinta Residential Plan Check Correction List Page 3 of 6 b) Energy: §150(o); §152(a) c) CALGreen: Energy Star; humidistat when NOT part of whole house system (§4.506 (pg. 24)) d) CMC: 50 CFM (Table 4-4 (pg. 70)) 9) Provide mechanical exhaust for kitchen ventilation. Each kitchen is required to have an exhaust fan ducted to the outside with a minimum ventilation rate of 100 CFM. (CEC §150(o)) 10) Note on Plans: “Whole house exhaust fans shall be insulated with louvers or covers which close when the fan is off. Covers or louvers shall have a minimum insulation value of R-4.2.” (CALGreen §4.507.1) 11) Note on Plans: “All HVAC equipment shall be approved prior to installation by nationally recognized standards and evidenced by the listing and label of an approved agency.” (CMC §302.1) 12) Note on Plans: “Appliances designed to be fixed in position shall be securely fastened in place.” (CMC §303.4) 13) Note on Plans: “When more than one HVAC unit is installed in a building, each unit shall be permanently labeled to indicate the area or space served by the unit.” (CMC §303.6) 14) Heating and cooling equipment located in a garage and which generates a glow, spark or flame capable of igniting flammable vapors shall be installed with the pilots and burners or heating elements at least 18 inches above the floor level. (CMC §307.1) 15) Provide permanent, substantial protection for FAU and water heater in garage from vehicle impact. (CMC §307.1) 16) Show on Plans a disconnect adjacent to and in sight of the air conditioning unit. (CMC §308.0) Show required working clearances to disconnect per CEC §110.26(A). 17) Provide a receptacle for service and maintenance within 25 feet of, and on the same level as, the mechanical equipment. (CMC §308.0; CEC §210.63) 18) Note on Plans: “Ducts used for kitchen range ventilation shall be of metal and shall have smooth interior surfaces.” (CMC §504.2) 19) Note on Plans: “Dryer exhaust duct, not less than 4 inches in diameter, shall have a smooth interior surface, a back-draft damper, and shall terminate outside of the building.” (CMC §504.3.1, 504.3.2, 504.3.2.1) 20) Dryer exhaust ducts shall not exceed a total combined horizontal and vertical length of 14 feet, including two 90-degree elbows. Two feet shall be deducted for each 90-degree elbow in excess of two. (CMC §504.3.2.2) Provide a detail demonstrating compliance. Otherwise, provide a design (calculations) by a licensed engineer, for consideration as an alternate method of construction. (CMC §105) 21) Justify the method of providing combustion air for gas utilizing appliance in accordance with CMC Chapter 7. Provide combustion air calculations and details demonstrating compliance on Plans. 22) Specify size and location of combustion air vents and/or ducts. (CMC §701.9 & 701.10) See Plan for area(s) where needed. 23) If combustion air is taken from outside, combustion air openings shall be covered with corrosion-resistant screen. Screens shall not be smaller than ¼-inch mesh. (CMC §701.9(B)) Provide notes and/or details demonstrating compliance. City of La Quinta Residential Plan Check Correction List Page 4 of 6 24) Note on Plans: “Not more than one appliance shall be connected to a single vent unless calculations showing conformance to CMC Chapter 8 are first submitted to and approved by the Building & Safety Department.” 25) Gas furnaces installed in a bedroom or bathroom shall comply with CMC §904 for self-closing doors and gaskets. See Plan for area(s) not in compliance. 26) Note on Plans: “Mechanical equipment supported directly by the ground shall be isolated from the ground by a level concrete slab extending not less than three (3) inches above the adjoining ground level.” (CMC §1106.2) 27) Provide clear working space in accordance with the appliance listing or not less than thirty (30) inches in depth, width, and height. (CMC §304.0) 28) Per CMC §904.11 for furnaces mounted in attic, provide notes and/or details on the Plans demonstrating the following: a) An access opening and passageway large enough to remove the largest piece of equipment, but not less than thirty (30) inches by twenty-two (22) inches; b) An unobstructed passageway which: i) Is large enough to remove the largest piece of equipment but not less than thirty (30) inches high; ii) If less than 6 feet high, is no more than twenty (20) feet in length when measured along the center line of the passageway from the access opening to the equipment; iii) Has continuous solid flooring not less than twenty-four (24) inches wide throughout its length. c) A level work platform not less than thirty (30) inches by thirty (30) inches in front of the service side of the appliance. 29) Provide a permanent electric outlet and lighting fixture at or near the furnace in attic. Locate switch at access opening. (CMC §904.11.5) 30) Provide detail showing support of roof or attic mounted equipment. (CMC §113.3) 31) Provide a framing section through mechanical appliance space in attic or under floor. (CMC §113.3) 32) Show thirty (30) inch clearance above range or cooktop to unprotected combustible material, or twenty-four (24) inch clearance to metal ventilating hood. (CMC §916.1(B), §916.2(B)) 33) Provide a schematic piping plan showing all fuel burning appliances and their fuel demand. Show pipe lengths and sizes. (CMC §1309.1) 34) Show on Plans how fireplace obtains combustion air. (See CMC Chapter 7 and CA Energy Code Subchapter 7 for requirements.) SECTION F – PLUMBING, NOT PROVIDED 1) Provide roof drains at each low point of the roof. Roof drains shall be sized and discharged in accordance with California Plumbing Code (CPC) Chapter 11. Show calculations to justify the size and number of drains provided. Assume 2 inches of rainfall per hour. See Plans for area(s) not in compliance. 2) Provide an access panel (12” x 12” minimum) to bathtub trap connection, if a slip joint connection is utilized. (CPC §404.2) 3) Note on Plans: “Hot-mopped shower pan shall be inspected upon completion of hot-mopping and shall be City of La Quinta Residential Plan Check Correction List Page 5 of 6 filled with water for inspection.” (CPC §411.8.1) 4) Water heaters which are installed in a bedroom or bathroom (or closet within a bedroom or bathroom) shall comply with CPC §505.1. Show all required features on Plans. 5) Provide combustion air for water heater in accordance with CPC §507. Provide calculations to justify the selected method. 6) Specify on Plans the size and location of combustion air vents. (CPC §507) 7) Note on Plans: “Provide a non-removable backflow prevention device on all exterior hose bibs.” (CPC §603.4.7) 8) Note on Plans: “Provide pressure regulator for water service where static pressure exceeds 80 psi.” (CPC §608.2) 9) Note on Plans: “Provide a combination pressure and temperature relief valve at all water heaters, set to open at not more than 150 psi. Drain pipe shall extend to outside of building and terminate not more than 2 feet nor less than 6 inches above the ground and point downward with the end unobstructed. Any other termination location shall require approval by the Building Official.” (CPC §608.3, 608.4, 608.5) 10) Provide a schematic piping plan (see Figure 12-2 for an example) showing all fuel burning appliances and their fuel demand. Show pipe lengths and sizes. (CPC Chapter 12 and Tables) 11) No gas piping shall be installed in or on the ground under any building or structure unless installed in gastight conduit, including piping under covered patios. Show location and provide detail of pipe and conduit installation. (CPC §1211.1.6) 12) Provide a schematic drainage piping plan showing all fixtures (and fixture unit counts), waste and vent sizes, and cleanout locations. (CPC Chapter 7 and Tables 7-3 through 7-6) SECTION G – ENERGY EFFICIENCY 1) Specify the following information from Energy Calculations at each glazed opening (window, door, skylight) PLEASE VARIFY WINDOWS SIZE AND ORIENTATION ON PLANS AND TITLE 24 .ALL PLANS. a) Area of glazing (in square feet) b) Required U-factor c) Energy Calculation Fenestration Number 2) Areas and orientations of glazing on Plans do not match those in Energy Calculations. Reconcile Plans and Calculations. See Floor Plan for area(s) not in compliance. When requested information is provided, a comprehensive review will be performed. SECTION K - MISCELLANEOUS COMMENTS 1) Red marks on Plans, even if not specifically mentioned in this list, indicate items needing correction. Revise Plans as necessary and provide written response, noting where correction can be found. END CORRECTION LIST City of La Quinta Residential Plan Check Correction List Page 6 of 6 As further information is provided and reviewed, additional corrections may be required. COMMUNITY DEVELOPMENT DEPARTMENT 78-495 CALLE TAMPICO L A QUINTA, CALIFORNIA 92253 (760) 777-7125 FAX (760) 777-7011 Residential Plan Check Correction List Page 1 of 2 RESIDENTIAL PLAN CHECK CORRECTION LIST (os) DATE: 4/5/2016 STATUS: FIRST REVIEW PLAN CHECKED BY: JIM JOHNSON TELEPHONE NUMBER: (760) 777-7130 ADDRESS: SIGNATURE PGA WEST DESCRIPTION: PLANS REVISIONS APPLICANT: PREF 11 CWC LA Q PLAN CHECK #: BTCP 2016-0001 This submittal has been checked for compliance with the 2013 California Residential, Mechanical, Electrical, Plumbing, Energy, and Green Building Codes, and the City of La Quinta Municipal Code. APPLICANT: BUILDING DEPARTMENT STAFF: The following items are being returned to you for correction: 3 SETS OF PANS 2 SETS TITLE -24 2 SETS STRUC CALCS THIS CORRECTION LIST DO NOT accept any resubmittal unless ALL of the following items are included: REDLINED SETS 2 NEW REVISED SETS ASSESSORS SET 2 SETS TITLE -24 2 SETS STRUC CALCS THIS CORRECTION LIST / RESPONSES INSTRUCTIONS TO APPLICANT: 1) Provide a written response to each comment on the following pages, noting specifically where the correction can be found. Responses such as, “Sheet A-3,” or, “Handrails shall be per CBC Section 1003,” are not acceptable. Show or note specifically how compliance with a code requirement is achieved. Responses such as, “Added note 16 on sheet A-3” are appropriate and will help expedite your back check. 2) Corrections may not be made by handwriting on existing drawings. Revise originals and reprint Plans and/or Calculations as necessary. 3) Return all red-marked Plans and/or Calculations with your resubmittal. 4) Each sheet of resubmitted Plans and/or Calculations shall include the preparer’s name and telephone number and shall be wet-signed by the preparer. If the preparer is a licensed architect or engineer, all documents prepared by that licensed individual shall also bear his/her stamp as prescribed by California Business and Professions Code Section 5536. Resubmittals will not be accepted with signatures missing. 5) Return this list, your written responses, and all documents listed above with your resubmittal. Residential Plan Check Correction List Page 2 of 2 SECTION A - GENERAL 1) Number all sheets in Plans sequentially, or provide a Sheet Index. 2) Sheet Index does not reflect actual sheets in Plans. Reconcile. 3) Provide on each sheet of resubmitted Plans and cover sheet of bound Calculations the preparer’s name and telephone number and wet-signature. If the preparer is a licensed architect or engineer, all documents prepared by that licensed individual shall also bear his/her stamp as prescribed by California Business and Professions Code §5536. Resubmittals will not be accepted with signatures missing. PLUMBING, MECH PLANS NOT SIGNED SECTION F – PLUMBING, NOT COMPLETE 1) Provide roof drains at each low point of the roof. Roof drains shall be sized and discharged in accordance with California Plumbing Code (CPC) Chapter 11. Show calculations to justify the size and number of drains provided. Assume 2 inches of rainfall per hour. See Plans for area(s) not in compliance. 2) Provide an access panel (12” x 12” minimum) to bathtub trap connection, if a slip joint connection is utilized. (CPC §404.2) 3) Note on Plans: “Hot-mopped shower pan shall be inspected upon completion of hot-mopping and shall be filled with water for inspection.” (CPC §411.8.1) 4) Note on Plans: “Provide a non-removable backflow prevention device on all exterior hose bibs.” (CPC §603.4.7) 5) Note on Plans: “Provide pressure regulator for water service where static pressure exceeds 80 psi.” (CPC §608.2) 6) Note on Plans: “Provide a combination pressure and temperature relief valve at all water heaters, set to open at not more than 150 psi. Drain pipe shall extend to outside of building and terminate not more than 2 feet nor less than 6 inches above the ground and point downward with the end unobstructed. Any other termination location shall require approval by the Building Official.” (CPC §608.3, 608.4, 608.5) 7) Provide a schematic drainage piping plan showing all fixtures (and fixture unit counts), waste and vent sizes, and cleanout locations. (CPC Chapter 7 and Tables 7-3 through 7-6) SECTION G – GREEN CODES 1) PROVIDE A TABLE ON PLANS THAT CONTAINS THE FIXTURE TYPE AND FLOW RATES. SECTION K - MISCELLANEOUS COMMENTS 1) Red marks on Plans, even if not specifically mentioned in this list, indicate items needing correction. Revise Plans as necessary and provide written response, noting where correction can be found. END CORRECTION LIST As further information is provided and reviewed, additional corrections may be required. EsGil Corporation y In (Partnership with Government for Bui(ding Safety DATE: 7/30/2014 ❑ APPLICANT ❑ JURIS. JURISDICTION: City of La Quinta ❑ PLAN REVIEWER ❑ FILE PLAN CHECK NO.: 14-542, 544, 547, 549 SET: II PROJECT ADDRESS: 56140 PGA Blvd. PROJECT NAME: The Haciendas at PGA West 4- Models ❑ 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: ® 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: ) Email: Fax #: Mail Telephone Fax In Person ® REMARKS: Provide a letter from the soils engineer confirming that the foundation plan, grading plan and specifications have been reviewed and that it has been determined that the recommendations in the soils report are properly incorporated into the construction documents. By: David Yao Enclosures: EsGil Corporation RE D ❑ GA ❑ EJ ❑ MB ❑ PC 7/23 JUL 3 1 2014 CITY OF LA QUINTA COMMUNITY DEVELOPMENT 9320 Chesapeake Drive, Suite 208 ♦ San Diego, California 92123 ♦ (858) 560-1468 ♦ Fax (858) 560-1576 Offices located in Irvine & Palm Desert P L A N N E R S I E N G I N E E R S I S U R V E Y O R S October 1, 2014 City of La Quinta Engineering Development 78-495 Calle Tampico La Quinta, CA 92253 Tract No. 36537-1 Rough Grading Verification To Whom It May Concern: We have checked the area referenced below with a field survey dated June 4, 2014, and find it to be in conformance with the approved rough grading plan dated March 31, 2014: Lot/Building No. Plan Elevation As -built Elevation Variation 2 488.6 488.6 None 3 488.3 488.3 None 58 488.6 488.6 None 59 488.9 489.0 0.11 93 492.5 492.5 None Bldg. 28 491.5 491.5 None Also, lettered lots "A" and "Q," which are variable sloped lots, were also in conformance. Stanley C. MorseLR.C.E. 20596 Iq VESS/Qa License expires 9-30-15 14 �! TC:ir lb G:\860\00\cer-r\RG Models.doc No. 20596 r" m o* P. 9-30-15 *� On- q�F OF CALAF Stanley G. Morse J.R. "Skip" Schultz 17320 Redhill Avenue Suite 350 Irvine, CA 92614 VOICE: 949.251.8821 FAX: 949-251-0516 www.mdsconsulting.net 44& Lreskeart Lane, FallbrooK LA 0028 phone 7&0-473-/25F www.Idn4onsulting.net fax vo-wf-4f43 April 24, 2014 Mike Lake California West Communities 5927 Priestly Drive, Ste. 103 Carlsbad, CA 92008 Subject: PGA West (Tract 36357) Interior Noise Assessment City of La Quinta Dear Mr. Lake: The firm of Ldn Consulting, Inc. is pleased to submit the following interior noise impact analysis for the proposed PGA West (Tract 36357) residential development in the City of La Quinta, CA. The purpose of the survey is to determine the estimated interior noise levels within the residential structures of proposed buildings and residential units of the proposed PGA West project. This analysis will recommend mitigation measures for compliance with the California Code of Regulations Title 24 and the City of La Quinta guidelines and requirements for interior noise. PROJECT LOCATION/DESCRIPTION The proposed site is located on approximately 42 acres and includes 130 single-family detached units, 100 single-family attached units, and a clubhouse/recreation center within the existing PGA West Community. The project consists of three (3) different products which include a total of twenty (20) different floor plans. The proposed project is located along PGA Boulevard between Avenue 54 and Avenue 58 in the City of La Quinta, CA. The existing site conditions are characterized as undeveloped, previously disturbed land from grading activities and the establishment of temporary uses. The project vicinity can be seen in Figur - _ roject site configuration is provided in Figure 2 on Page 3. �`'� '�--_,�_ A (jut 1-y MAY 01. 2014 i _.. CST =. O UCTION COMMYN!I�� Y t3� , 1-4 T _ 4/24/2014JJAD West Int or iV01se 4 Mr. Mike Lake Ldly 40nff im California West Communities 446 Greoleourt Lane, FallbrooK GA 92020 5927 Priestly Drive, Ste. 103 phone 7G0-4N-120 Carlsbad, CA 92008 Fax 7Go-Gs9-407 Figure 1: Project Vicinity Map 1 . Caache la Vdey, st Classic Ctub i p Fringe -Toed C Lizard Rreserve �I At '[ RIM* SkAl ITS Uri , ---4%v*zq Awn w 33.! • - 'a , 4, _, .• �w +r �4Lillr i1tP eT y(7AI1 A..4.. �-y ti � i�tL �.. L �G oual> AafA°� 'l l' t x -:1tsw y , CigfmiuiVP4 a Gln- GnIf Clu6Ar Ilena'Laan o+ r� ' ' t . \_'i . ' ftcd,,iYirpNl J#W"% .1I Etc�l lVrrer C r ,s. ��. _ A,c1 �A -- AM 44. � - - Im Usert, _ n iIit,A e ?l we IRrrld+n,J�I�, 911 �. ' � '�•' � !� �111 ` Ltt r L7rC�tfeor�Hlvd 111 �� A iiy 1 `. � A 48 M o it t- � Ye 4_8.. Ei Evum r3:Ctiab, r r wf + ftx2rtuaRi, 40;arc Cvacs+ell� �'. * , . • G'llle Ip!t pi u,. ".! , 4.t'rcrre hi rgGect to f. a. La Fycutt , 3 I1I Y f" I'he h9atfl�ec� l Iu f� y(j 3 � S?�4� I ,\iE7WC ti7 •..R`Y.. #`. K C -1 t .M �' r • ' •.,� m� l a -�'� r t' '-_:16if1 A'tY? R y IF r� ;66 tHY JJ A�f• "�� 'din� �' therm �,Yom YYeasko f s, LaSeeafItai4k 'LMere CourP€' c t'heim Air t pmrt �tr1 - t . aQtll c j aElth;.ve ! Ho i Aft ALI.Is C unref:CluhIn = `" fi4111 A,a ' i o. 4/24/2014 I QUINT r L 1�ccc�rry��SAFETY FCM DATE 2_�- 1}1�02 PGA West Interior, Noise 4 Mr. Mike Lake "IF Im California West Communities 5927 Priestly Drive, Ste. 103 44,crestwart Line, Fallbrook 4A 0028 Carlsbad, CA 92008 phone xo-475r-ms�r Fax Vo-wf-403 4/24/2014 01 R Figure 1-2: Project Site Plan J RUN If 6da-61 a- 'CO z w PA �-L) taw WfE z wz W19 . r-111 I Cuc ' I lT16N 3 Lt! .:— �13-1-1-2-42% A West Interior Nc Mr. Mike Lake California West Communities 5927 Priestly Drive, Ste. 103 Carlsbad, CA 92008 ACOUSTICAL FUNDAMENTALS wig /ems, 44G rresteourt Lane, FallbrooK GA Oa2o phone VV-OF-1253 Fax Vo-GBf-00 Noise is defined as unwanted or annoying sound which interferes with or disrupts normal activities. Exposure to high noise levels has been demonstrated to cause hearing loss. The individual human response to environmental noise is based on the sensitivity of that individual, the type of noise that occurs and when the noise occurs. Sound is measured on a logarithmic scale consisting of sound pressure levels known as a decibel (dB). The sounds heard by humans typically do not consist of a single frequency but of a broadband of frequencies having different sound pressure levels. The method for evaluating all the frequencies of the sound is to apply an A -weighting to reflect how the human ear responds to the different sound levels at different frequencies. The A -weighted sound level adequately describes the instantaneous noise whereas the equivalent sound level depicted as Leq represents a steady sound level containing the same total acoustical energy as the actual fluctuating sound level over a given time interval. The Community Noise Equivalent Level (CNEL) is the 24 hour A -weighted average for sound, with corrections for evening and nighttime hours. The corrections require an addition of 5 decibels to sound levels in the evening hours between 7 p.m. and 10 p.m. and an addition of 10 decibels to sound levels at nighttime hours between 10 p.m. and 7 a.m. These additions are made to account for the increased sensitivity during the evening and nighttime hours when sound appears louder. CNEL values do not represent the actual sound level heard at any particular time, but rather represents the total sound exposure. Additionally, Sound Transmission Class (or STC) is an integer rating of how well airborne sound is attenuated by a building partition. STC is widely used to rate interior partitions, ceilings/floors, doors, windows and exterior wall configurations (see ASTM International Classification E413 and E90). The STC number is derived from tested sound attenuation values found at the 1/3 octave band frequencies. These transmission -loss (TL) values are then plotted and compared to a standard reference contour. Acoustical engineers fit these values to the appropriate TL Curve to determine a single STC value found at 500 Hertz. STC is roughly the decibel reduction in noise a partition can provide, abbreviated 'dB'. If an 85 dB sound on one side of a wall is reduced to 50 c said to have an STC of 35. This number does not apr because the STC value is derived from a curve -fit I frequencies. Any partition will have less TL at lower frequ 4/24/2014 4 other side, that partition is om)lthLe tested 1/3° octav& band incies. For ,example,'a-wall with -'an CTION DATE - _.�.,1__r12=02 PNQ We Interior Noi Mr. Mike Lake L4W h= California West Communities 44G Gresteourt Lane, Fallbromv GA f2o2s 5927 Priestly Drive, Ste. 103 phone 7Go-Or-i25� Carlsbad, CA 92008 Fax Vo-Gsf-403 STC of 35 may provide over 40 dB of attenuation at 3000 Hz but only 15 dB of attenuation at 125 Hz. INTERIOR NOISE STANDARDS California's Title 24 Noise Standards In 1974, the California Commission on Housing and Community Development adopted noise insulation standards for multi -family residential buildings (Title 24, Part 2, California Code of Regulations or CCR). CCR Title 24 establishes standards, based on the U.S. Department of Housing and Urban Development (HUD) requirements, for interior room noise (attributable to outside noise sources). The regulations also specify that acoustical studies must be prepared whenever a multi -family residential or motel/hotel building or structure is proposed to be located near an existing or adopted freeway route, expressway, parkway, major street, thoroughfare, rail line, rapid transit line, or industrial noise source, and where such noise sources create an exterior CNEL (or Ldn) of 60 dBA or greater. Such acoustical analysis must demonstrate that the residence has been designed to limit intruding noise to an interior CNEL (or Ldn) of at least 45 dBA. City of La Quinta Noise Standards The City of La Quinta has adopted interior and exterior noise standards as part of the General Plan Noise Element for assessing the compatibility of land uses with transportation related noise impacts. For noise sensitive residential land uses, the City has adopted an exterior noise level goal of 65 dBA CNEL for the outdoor living areas and requires an interior noise level of less than 45 dBA CNEL. In the context of this noise analysis, the noise impacts associated with the project are controlled by the City noise element. ANALYSIS PROCEDURES Exterior Noise Levels The primary source of noise impacts to the project site will be vehicular noise from adjacent PGA Boulevard. Based on the future traffic projections along these roadways, portions of the site will experience worst -case unmitigated exterior noise levels as high as 64 dBA CNEL for the building facades (Source: Eden Rock at PGA West Noise Assessment = Impact Sciences dated November 2007). This worst -case noise level of 64 dBA CNEL was utilized foi allLip b 67ed resi ental �ilt(_C��ya;C G �i'Y� dA dwelling units. SAFETY DEPT. �RVD CON FOl i S7-f_3UCT10N [DATE —3112BOy PGA-West4/24/2014 5 terior Noise _y Mr. Mike Lake Lder 4wmd##YA IBA California West Communities 44G Gresteourt Lane, FallbrooK GA f2000 5927 Priestly Drive, Ste. 103 phone 7Go-473-mo Carlsbad, CA 92008 Fax 7Go-Gsf-00 Interior Noise Levels The methodology used to determine the resultant interior noise levels is based upon the exterior noise level minus the sound transmission loss as identified in the American Society of Testing and Materials (ASTM) guidelines: E413 &E90. Standard building construction will provide a noise reduction of approximately 12-15 dBA with a windows open conditions and minimum 20 dBA noise reduction with the windows closed. The exterior noise levels at the proposed structures calculated in terms of dBA are converted to the six octave band sound pressure levels between: 125 Hertz - 4000 Hertz. Acoustical modeling of the proposed project dwelling units was performed in accordance with the above guidelines and included combining the transmission loss for each of the building components that will reduce the interior noise levels. Building components typically include the windows, exterior doors, and exterior walls. The total noise reduction is dependent upon the transmission loss of each building component, their subsequent surface area, quality of the building/construction materials, a building fagade and angle correction. The interior noise level is also dependent on the acoustical energy absorbed within the room based upon the Noise Reduction Coefficients (NRC). NRC is a scalar representation of the amount of sound energy absorbed upon striking a particular surface and the arithmetic value average of sound absorption coefficients indicating a material's ability to absorb sound. The absorption coefficients for individual surface areas such as carpet, drywall and furnishings are used to calculate the interior room effects. The calculated building noise reduction includes both the room absorption characteristics and the transmission loss from the exterior wall assembly. The interior noise reduction calculations were performed using Ldn's interior noise model. The model converts the exterior sound level to octave band frequencies and accounts for the transmission loss, correction factors and room absorption. The floor plans used for this analysis were provided by Bassenian Lagoni Architects dated April, 2014. The following construction details were utilized for each of the building assemblies to determine the noise reduction characteristics: Exterior walls and roof assemblies must have a Sound Transmission Class (STC) rating of 46 or better. Exterior walls with this rating consist of 2"x 4" studs or larger, spaced 16" o.c. with R-13 insulation minimum and an exterior surface of 7/8" cement plaster (stucco). Interior wall and I k ; l�- , ^-----a ceiling surfaces shall be at least 1/2 thick gypsum or plaster€€ G Roof�assernblies-should-havrye-ayy M �A nji gyp;, p a d ..�1�� I� A minimum of 1/2" sheathing, R-19 insulation and sealed to Prevent f noise leaks. -Exteri.o_r entry doors should be of solid core construction having a minim&n, -STC� rating : -,FOR 60 Class 4/24/2014 6 DATE �_ 13112- 0 PGA West Interior N tse Mr. Mike Lake Ldev 4dff California West Communities 44G Lresteourt Lane, Fallbroo9 GA f=o 5927 Priestly Drive, Ste. 103 phone 7Go-473-i25� Carlsbad, CA 92008 Fax Vo-GSf-00 assemblies should be dual -glazed and acoustical sealant applied around the exterior edges. The window assemblies are generally the weakest noise reducing component but are the most convenient and cost effective elements to change if additional attenuation is needed. The STC ratings for the glass assemblies was calculated in the interior noise model and provided in the findings below. Bathrooms, kitchens, closets and corridors are not required to meet the 45 dBA CNEL standard and therefore were not modeled. All living areas where lower noise levels are essential for conversation and sleep should have carpeting installed; this includes bedrooms, living rooms and dining rooms. These rooms and were modeled to determine the interior noise reductions. If the modeled interior noise levels were found to be higher than 45 dBA CNEL in the living areas with the minimum assembly requirements described above additional modeling was performed to determine the minimum STC rating for the glass assemblies to further reduce interior noise levels below the acceptable interior threshold of 45 dBA CNEL. FINDINGS The worst -case exterior noise levels were determined to be 64 dBA CNEL. Basic calculations show that a windows open condition will only reduce the interior noise levels 12-15 dBA CNEL and not provide adequate interior noise mitigation. To meet the 45 dBA CNEL interior noise standard, an overall minimum interior noise level reduction of 19 dBA CNEL is needed for the proposed project. Therefore a closed window condition is required to reduce interior noise levels to comply with CCR Title 24 and City of La Quinta requirements. The windows closed condition requires that mechanical ventilation is installed to move air within the structure and control temperatures. The mechanical ventilation must meet the jurisdictional requirements for these dwelling units. The worst case building facade noise level was calculated to be 64 dBA CNEL. The necessary Sound Transmission Class (STC) ratings and transmission losses for all assemblies to reduce the interior noise levels at or below the 45 dBA CNEL standard are provided in Table 1 on the following page. Each sensitive room for all twenty proposed floor plans was modeled. The modeled results are provided as an attachment to this report. LA FA FOR C01- DArE ----�� 4/24/2014 7 13112=02 �(' lll! st Interior Noise Mr. Mike Lake California West Communities 5927 Priestly Drive, Ste. 103 Carlsbad, CA 92008 "ee 4 adff#a$ /ems. 44G Gresteourt Lane FallbrooK 4A VMS phone 7Go-473-125'3 Fax 7Go-W-4943 Table 1: Sound Transmission Class Ratings Assembly STC Octave Band Transmission Loss (Hz) Ratings 125 250 500 1000 2000 4000 Interior noise levels will be at or below 45 dBA CNEL and no noise impacts are anticipated and no additional noise reductions are required for any units of the PGA West residential project with the incorporation of the STC ratings provided in Table 1. If you have any questions, please do not hesitate to contact me at (760) 473-1253. Sincerely, Ldn Consulting, Inc. \Vt\ Jeremy Louden, Principal Attachments: Interior Noise Model Calculations 4/24/2014 8 � TA SAFETY LEFT. i-CR CON rT/ �� O �N DATE 13T-02 PGA West Interior NJc NOISEINTERIOR CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: Master Project # 13-112 Frequency (Hz,) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission Loss (n) 0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency (Hz-) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 396 46 27 42 44 46 49 54 Windows Milgard 84 26 21 17 25 32 37 38 Fixed Window Milgard 28 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 1 0 26 1 16 1 14 1 23 1 30 1 36 1 26 Room Absorption (RA) Absorption Coefficients Interior Frequency (Hz-) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 L. 5Lj 0.93 1.18 0.87 -Noise Reduction 125 250 500 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -21.8 -21.8 -21.8 -21.8 -21.8 -21.8 Noise Level Increase for Defects and Exposed Surface Area 17.8 17.8 17.8 17.8 17.8 17.8 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 24.5 Building Facade Noise Level (dBA CNEL) 64.0 .Resultant Interior Noise Level (dBA CNEL) 40 Ft A _ � C'U'LD'.ki, ) C, & C,! F[ AN T'r DpT FOR I "4 / ___ j h C01�is,`j =�.0 L DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: Dining Project # 13-112 Frequency (Hz) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (M) Exterior Frequency q cy (Hz•) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 480 46 27 42 44 46 49 54 Windows Milgard 95 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door I Milgard 1 24 1 26 1 16 1 141 23 1 30 1 36 1 26 Room Absorption (RA) Absorption Coefficients Interior Frequency (Hz) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 1 10.07 1 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 500 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area L22.4 -22.4 -22.4-22.4 -22.4 -22.4 Noise Level Increase for Defects and Exposed Surface Area 17.8 17.8 17.8 1 17.8 17.8 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure Building Fagade Noise Level (dBA CNEL) 24.7 64.0 Resultant Interior Noise Level .: C¢i 'IUILDII,;G LA Ql�Ei°,ITA & SIA�=eTy DEpT o R ED sT6UCTION DATE -_ BY J INTERIOR NOISE CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: Greatroom Exterior Levels Project # 13-112 -Noise Frequency (Hz-) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dS) Exterior Frequency (Hz-) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 756 46 27 42 44 46 49 54 Windows Milgard 63 26 21 17 25 32 37 38 Fixed Window Milgard 16 26 17 16 22 31 35 27 Glass Doors Milgard 200 26 16 19 22 30 31 28 French Door J Milgard 0 26 16 14 23 30 36 26 Room Absorption (RA) Absorption Coefficients Interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 . 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 125 250 1 500 1 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -26.2 -26.2 -26.2 -26.2 -26.2 -26.2 Noise Level Increase for Defects and Exposed Surface Area 19.1 19.1 19.1 19.1 19.1 19.1 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 23.2 Building Fagade Noise Level (dBA CNEL)-Resultant 64.0 Interior Noise Level (dBA CNEL) 41 '•a ��,a A CCU AJSTPIUC�i®N DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 2 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: lCasita Exterior Noise Levels Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission Loss (TZ) 0.0 53.0 57.7 1 60.5 62.8 59.7 54.0 Transmission Loss (ds) Exterior Frequency q cy (Hz) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 504 46 27 42 44 46 49 54 Windows Milgard 50 26 21 17 25 32 37 38 Fixed Window Milgard 30 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 23 26 16 14 23 30 36 26 Room Absorption (RA) Absorption Coefficients Interior Frequency q cy (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 1 0.87 Noise Rediiction 125 250 500 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -22.6 -22.6 -22.6 -22.6 -22.6 -22.6 Noise Level Increase for Defects and Exposed Surface Area 18.6 18.6 18.6 18.6 18.6 18.6 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 24.4 Building Fagade Noise Level (dBA CNEL)i.R.esultant 64.0 Inte-ri-or Noise Level (dBA CNEL) 40 lzp rloiq DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 2 & 4 Room Type: Master Exterior Noise Levels Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 Transmission Loss (TE) 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency q cy (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 564 46 27 42 44 46 49 54 Windows Milgard 36 26 21 17 25 32 37 38 Fixed Window Milgard 12 26 17 16 22 31 35 27 Glass Doors Milgard 96 26 16 19 22 30 31 28 French Door Milgard 0 26 16 14 23 30 36 26 Room Absorption Absorption Coefcients Interior Frequency q cy (HZ) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) Nolse Reduction 0.8 0.56 0.54 0.59 0.93 1.18 0.87 125 1 250 1 500 1 100-1 2000 4000 Noise Reduction from Absorption based upon Floor Area -23.0 -23.0 -23.0 -23.0 -23.0 -23.0 Noise Level Increase for Defects and Exposed Surface Area 18.7 18.7 18.7 18.7 18.7 18.7 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 22.9 Building Fagade Noise Level (dBA CNEL) 64.0 .Resultant Interior Noise Level .: .A QUINTq v4, -EiY DEFT. 6 �'EYf7 A R,,, CONSTRUCTION DATE -�_ BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level i Date: 4/23/14 Arch Plan: 2 & 4 Room Type: Great Exterior Noise Levels Project # 13-112 Frequency (Hz) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Facade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission Loss (TO 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (d5) Exterior Frequency (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 963 46 27 42 44 46 49 54 Windows Milgard 84 26 21 17 25 32 37 38 Fixed Window Milgard 24 26 17 16 22 31 35 27 Glass Doors Milgard 224 26 16 19 22 30 31 28 French Door Milgard 0 26 16 14 23 30 36 26 • .. Absorption Coefficients Interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.1. 1.18 0.87 Noise Reduction 125 1 250 1 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -26.2 -26.2 -26.2 -26.2 -26.2 -26.2 Noise Level Increase for Defects and Exposed Surface Area 19.4 19.4 19.4 19.4 19.4 19.4 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 22.5 Building Facade Noise Level (dBA CNEL) 64.0 'Resultant Interior Noise Level (dBA CNEL) 41 CITY c�F LA QU i TA DEFT. ' =0i3 CONSTfIDCTION DATE �--- BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Estates Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 2 Date: 4/23/14 Arch Plan: 2 & 4 Room Type: JJr Suite Exterior Noise e vels Project # 13-112 Frequency ft.) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission Loss (TL) 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency q cy (Hz-) Assembly Source Area 5TC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 504 46 27 42 44 46 49 54 Windows Milgard 48 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 24 1 26 16 14 23 30 36 26 Room Absorption (RA) Absorption Coefflcienfs Interior Frequency q cy (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 125 250 500 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -22.7 -22.7 -22.7 722.7 22.7 -22.7 Noise Level Increase for Defects and Exposed Surface Area 17.6 17.6 17.6 17.6 17.6 17.6 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 26.2 Building Fagade Noise Level (dBA CNEL) 64.0 Resultant Interior Noise Level-(dBA CNEL) 38 C171 or- LA QUINTA '-)VD FOR CONS i RUCTION DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Haciendas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: Master Exterlor Noise Levels Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 ZOOO 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission ' 0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dS) Exterior Frequency (Hz) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 473 46 27 42 44 46 49 54 Windows Milgard 75 26 21 17 25 32 37 38 Fixed Window Milgard 27 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 1 24 26 16 14 1 23 1 30 1 36 1 26 Room Absorption (RA) - Absorption Coefficients Interior Frequency (Hz,) Characteristics Source NRC 125 250 500 1000 1 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall I Netwell 0.07 0.09 0.08 0.05 0.03 0.09Overall Absorption Factor (Furnished Room) 0.8 0.56 0.59 0.93 LO.O 0.87 Noise Reduction 125 150 500 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -21.7 -21.7 -21.7 -21.7 -21.7 -21.7 Noise Level Increase for Defects and Exposed Surface Area 18.7 18.7 18.7 18.7 18.7 18.7 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 23.1 Building Fagade Noise Level (dBA CNEL) 64.0 Resultant Interior Noise Level-(dBA CNEL) 41 IT I e, SAIFFEly DEP-r. FOR CANS -I f; JC t7ON DATE BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Haciendas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: Great/Dining Exterior. Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and FaSade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission I 0.0 53.0 57.7 60.51 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency q cy (Hz,) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 720 46 27 42 44 46 49 54 Windows Milgard 64 26 21 17 25 32 37 38 Fixed Window Milgard 16 26 17 16 22 31 35 27 Glass Doors Milgard 128 26 16 19 22 30 31 28 French Door Milgard 0 26 16 14 23 30 36 26 Room Absorption (RA) Absorption Coefficients Interior Frequency q cy (Hz-) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall I Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 1 0.54 1 0.59 0.93 1.18 0.87 Noise Reduction 125 250 1 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -26.3 -26.3 -26.3 -26.3 -26.3 -26.3 Noise Level Increase for Defects and Exposed Surface Area 19.0 19.0 19.0 19.0 19.0 19.0 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 24.8 Building FaSade Noise Level (dBA CNEL) Resultant Interiolr Noise Level .: 64.0 C)Fi _ CONS viclUCI-ION DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Haciendas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 2 Date: 4/23/14 Arch Plan: 1 & 3 Room Type: Master 2 Exterior Noise Levels Project # 13-112 Frequency (Hz,) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission Loss (TL) 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency (Hz.) Assembly Source Area 57117 125 250 500 1000 2000 4000 Stucco NBS W-50-71 315 46 27 42 44 46 49 54 Windows Milgard 8 26 21 17 25 32 37 38 Fixed Window Milgard 12 26 17 16 22 31 35 27 Glass Doors Milgard 96 26 16 19 22 30 31 28 French Door JMilgard 1 0 26 16 1 1 23 1 30 36 26 Room Absorption (RA) Absorption Coefficients Interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 1 0.09 1 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 125 1 250 1 500 1 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -23.1 -23.1 -23.1 -23.1 -23.1 -23.1 Noise Level Increase for Defects and Exposed Surface Area 18.1 1 18.1 18.1 18.1 18.1 18.1 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure Building Fagade Noise Level (dBA CNEL) 23.6 64.0 d:CNEL) - .0 BUILDIIC �� uINTn� & 13,^.F-C EP T13UC DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Haciendas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 2 & 4 Room Type: Great/Dining Project # 13-112 Frequency (Hz) dBA CNEL 125 250 500 1000 I 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Facade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission / 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency q cy (Hz.) Assembly Source Area 5TC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 650 46 27 42 44 46 49 54 Windows Milgard 174 26 21 17 25 32 37 38 Fixed Window Milgard 54 26 17 16 22 31 35 27 Glass Doors Milgard 96 26 16 19 22 30 31 28 French Door Milgard 1 0 1 26 1 16 1__.LJ.1 23 11 30 136 1 26 !-Room Absorption (RA) Absorption Coefficients Interior Frequency q cY (Hz) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 1 0.59 1 0.93 1.18 0.87 -Noise Reduction .1 250 500 1 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -24.8 -24.8 -24.8 -24.8 -24.8 -24.8 Noise Level Increase for Defects and Exposed Surface Area 19.4 19.4 19.4 19.4 19.4 19.4 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 22.1 Building Facade Noise Level (dBA CNEL) 64.0 Resultant Interior Noise Level (dBA CNEL) 42 CITY OF LA QUINTA BUILDING & SAFETY DEFT Fo P PROVED CONSTRUCTION DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Haciendas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 2 & 4 Room Type: Master Exterior Noise Levels Project # 13-112 Frequency (Hz) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Facade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 Transmission 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 300 46 27 42 44 46 49 54 Windows Milgard 20 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 72 26 16 19 22 30 31 28 French Door Milgard 0 26 16 14 23 1 30 1 36 1 26 Room Absorption Absorption Coefficients interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 j 0.59 0.93 1.18 0.87 Noise Reduction 125 250 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -22.0 -22.0 -22.0 -22.0 -22.0 -22.0 Noise Level Increase for Defects and Exposed Surface Area 17.5 17.5 17.5 17.5 17.5 17.5 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 23.8 Building Facade Noise Level (dBA CNEL) 64.Resultant Interior Noise Level (dBA CNEQ 40 T 0 f_ 13jJjL®i,,; /5i UINTA Fp �� DEP7; OONSTt,3J�Ti ON DATE By r INTERIOR NOISE CALCULATIONS Project Name: PGA West Haciendas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 2 & 4 Room Type: Bedroom 3 Exterior Noise Levels Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dS) Exterior Frequency q cy (Hz) Assembly Source Area STC 125 250 SOO 1000 2000 4000 Stucco NBS W-50-71 342 46 27 42 44 46 49 54 Windows Milgard 28 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 35 26 16 14 23 30 36 26 Room Absorption (RA) Absorption Coefficients Interior Frequency q cy (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 1 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 125 250 500 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -22.1 -22.1 -22.1 -22.1 -22.1 -22.1 Noise Level Increase for Defects and Exposed Surface Area 17.4 17.4 17.4 17.4 17.4 17.4 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 25.8 Building Fagade Noise Level (dBA CNEL) 64.0 Resultant Interio .: eurc_ cis°car&. QUINTA SAFE Y FOR CQI\'S-FR DATE By INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 2 Room Type: IMaster Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Facade 3 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission 0 53.0 57.7 1 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency q cy (Hz,) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 117 46 27 42 44 46 49 54 Windows Milgard 0 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 64 26 16 19 22 30 31 28 French Door J Milgard 10 26 16 1 14 1 23 1 30 1 36 1 26 Room Absorption (RA) I Absorption Coefficients Interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) Noise Reduction 0.8 0.56 0.54 0.59 0.93 1 1.18 1 0.87 125 250 500 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -21.0 -21.0 -21.0 -21.0 -21.0 -21.0 Noise Level Increase for Defects and Exposed Surface Area 15.9 15.9 15.9 15.9 15.9 15.9 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 24.1 Building Fagade Noise Level (dBA CNEL) 64.0 .Resultant Interior Noise Level (dBA CNEL) .0 CITY OF LA QUIN BUILUNG �. SPT. VED O C.C7PqT RUCT10N DATE INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 1 & 2 Room Type: Great/Dining Exterior Noise Levels Project # 13-112 - Frequency (Hz) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 Transmission Loss (7L) 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (M) Exterior Frequency q cy (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 315 46 27 42 44 46 49 54 Windows Milgard 41 26 21 17 25 32 37 38 Fixed Window Milgard 33 26 17 16 22 31 35 27 Glass Doors Milgard 64 26 16 19 22 30 31 28 French Door Milgard 0 1 26 11 16 14 1 23 30 36 26 Room Absorption (RA) Absorption Coefficients Interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 1 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 1 0.54 0.59 1 0.93 1 1.18 r 0.87 Noise Reduction 125 1 250 1 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -25.0 -25.0 -25.0 -25.0 -25.0 -25.0 Noise Level Increase for Defects and Exposed Surface Area 18.7 18.7 18.7 18.7 18.7 18.7 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 25.3 Building Fagade Noise Level (dBA CNEL) Interior Noise Level (dBA CNEL) .0 64Resultant 39 CITY OF I -A QUINTA BLii_Dia\:RC 3*-E--TY DEFT. FOR C®NSTF;UCTiOiV DATE -INTERIOR N61SE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 2 Date: 4/23/14 Arch Plan: 1 & 2 Room Type: Loft I Project # 13-112 Frequency (Hz) dBA CNEL 125 1 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Facade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 Transmission Loss (Tt) 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 117 46 27 42 44 46 49 54 Windows Milgard 0 26 21 17 25 32 37 38 Fixed Window Milgard 10 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 0 1 26 16 14 23 30 1 36 1 26 Room Absorption (RA) Absorption Coefficients Interior Frequency q cy (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall I Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 125 250 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -22.7 -22.7 -22.7 -22.7 -22.7 -22.7 Noise Level Increase for Defects and Exposed Surface Area 14.9 14.9 14.9 14.9 14.9 14.9 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 33.2 Building Facade Noise Level (dBA CNEL) 64.0 ,Resultant Interior No-ise Level (dBA CNEL) 31 \ QUIN A BU!LDi:°,:ia & SAFE TY DEFT. = P b e" D FOR CONSTRUCTION DATE B�, INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 2 Date: 4/23/14 Arch Plan: 1 & 2 Room Type: Bedroom 3 Project # 13-112 Frequency (Hz) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 Transmission Loss (Tt) 0.0 53.0 57.7 60.5 6208 59.7 54.0 Transmission Loss (M) Exterior Frequency (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 225 46 27 42 44 46 49 54 Windows Milgard 27 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 0 26 16 14 23 30 36 26 Room Absorption Absorption Coe>Hcients Interior Frequency (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) Reduction 0.8 0.56 1 0.54 1 0.59 1 0.93 1 1.18 1 0.87 Noise 225 250 500 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -20.7 -20.7 -20.7 -20.7 -20.7 -20.7 Noise Level Increase for Defects and Exposed Surface Area 15.8 15.8 15.8 15.8 15.8 15.8 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 30.1 Building Facade Noise Level (dBA CNEL) 64.0 Resultant Interior Noise Level (dBA CNEL) 34 CITY OFF LA QUINTA BUIC_DI,v'G & SAFETY DEPT. APPROVED FOR CONSTRUCTION DATE BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 3 & 4 Room Type: Master Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dS) Exterior Frequency (Hz.) Assembly Source Area 5TC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 234 46 27 42 44 46 49 54 Windows Milgard 16 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 72 26 16 14 23 30 1 36 1 26 ,Room Absorption Coefficients Frequency (Hz.) Interior Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 1 0.8 0.56 0.54 0.59 0.93 1.18 1 0.87 Noise Reduction 125 250 500 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -21.0 -21.0 -21.0 -21.0 -21.0 -21.0 Noise Level Increase for Defects and Exposed Surface Area 17.3 17.3 17.3 17.3 17.3 17.3 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 22.9 Building Facade Noise Level (dBA CNEL) 64.0 Resultant Interior Noise Level (dBA CNEL) 41 i CITY CIF [A QUINTA BUILDII�t( cl 13AFETY DEPT. FUR CONSTRUCTION DATE BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 3 & 4 Room Type: lGreatroom I Project # 13-112 Frequency (Hz) dBA CNEL i25 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 Transmission Loss (n) 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency q cy (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 135 46 27 42 44 46 49 54 Windows Milgard 17 26 21 17 25 32 37 38 Fixed Window Milgard 27 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 24 26 16 11.1 23 1 30 1 36 1 26 Room Absorption (RA) Absorption Coefficients Interior Frequency q cy (Hz) Characteristics Source NRC 125 250 500 1000 1 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall I Netwell 0.07 1 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 -Noise Reduction 125 1 250 1 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -22.6 -22.6 -22.6 -22.6 -22.6 -22.6 Noise Level Increase for Defects and Exposed Surface Area 17.9 17.9 17.9 17.9 17.9 17.9 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 25.9 Building Fagade Noise Level (dBA CNEL) 64.0 'Resultant Interior Noise Level (dBA CNEL) 38 CITY OF QUINTA BUILDING & SAFETY DEPT. AP'IV'ED FOR CONSTRICTION DATE BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 1 Date: 4/23/14 Arch Plan: 3 & 4 Room Type: Dining Project # 13-112 Frequency (Hz.) dBA CNEL 125 250 500 1000 1 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) Transmission I 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Fre uen q cy (Hz.) Assembly Source Area STC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 108 46 27 42 44 46 49 54 Windows Milgard 0 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 60 26 16 19 22 30 31 28 French Door Milgard 0 26 1 16 1 14 23 1 30 36 26 Room Absorption (RA) Absorption Coefficienis Interior Frequency q cy (Hz.) Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 1 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) Reduction 0.8 0.56 0.54 0.59 1 0.93 1,1.18 0.87 ,Noise 125 250 500 1 1000 1 2000 4000 Noise Reduction from Absorption based upon Floor Area -19.5 -19.5 -19.5 -19.5 -19.5 -19.5 Noise Level Increase for Defects and Exposed Surface Area 15.8 15.8 15.8 15.8 15.8 15.8 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 22.9 Building FaSacle Noise Level (dBA CNEL) 64.0 Result -ant Interior Noise Level (dBA CNEL) - 41 '�- c.. _.4r �i'.DCPT. T "WED T=RUCTION DATE BY INTERIOR NOISE CALCULATIONS Project Name: PGA West Villas Ldn Consulting, Inc. Building or Lot(s) ALL Floor Level 2 Date: 4/23/14 Arch Plan: 3 & 4 Room Type: Bedroom 3 Project # 13-112 Frequency (Hz) dBA CNEL 125 250 500 1000 2000 4000 Exterior Noise Level (Traffic Spectrum) 64.0 50.0 54.7 57.5 59.8 56.7 51.0 Correction for Angle and Fagade 3.0 53.0 57.7 60.5 62.8 59.7 54.0 Reflect Correction (+3 for hard floors, 0 for carpet) 1 0.0 53.0 57.7 60.5 62.8 59.7 54.0 Transmission Loss (dB) Exterior Frequency (Hz.) Assembly Source Area 5TC 125 250 500 1000 2000 4000 Stucco NBS W-50-71 234 46 27 42 44 '46 49 54 Windows Milgard 16 26 21 17 25 32 37 38 Fixed Window Milgard 0 26 17 16 22 31 35 27 Glass Doors Milgard 0 26 16 19 22 30 31 28 French Door Milgard 48 26 16 14 23 30 36 26 Room A bsorptlon Absorption Coefficients Frequency (Hz) Interior Characteristics Source NRC 125 250 500 1000 2000 4000 Carpet Army TM 5-805-4 0.28 0.15 0.17 0.12 0.32 0.52 0.30 Furnishings Army TM 5-805-4 0.45 0.32 0.29 0.42 0.58 0.60 0.48 Drywall Netwell 0.07 0.09 0.08 0.05 0.03 0.06 0.09 Overall Absorption Factor (Furnished Room) 0.8 0.56 0.54 0.59 0.93 1.18 0.87 Noise Reduction 125 250 SOO 1000 2000 4000 Noise Reduction from Absorption based upon Floor Area -21.0 -21.0 -21.0 -21.0 -21.0 -21.0 Noise Level Increase for Defects and Exposed Surface Area 17.2 17.2 17.2 17.2 17.2 17.2 Overall Reduction from Tranmission Loss + Room Absorption - Surface Exposure 24.3 Building Fagade Noise Level (dBA CNEL) 1 64.0 Resuftant Interior Noise Level (dBA CNEL) 40 UNTA '-AFETY DEPT. F a :; u S FR6CTION DA i E