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Attachment 6.2 -Appendices H- Noise Analysis_Revised
Noise Analysis for the Eastlake Behavioral Health Hospital Project Chula Vista, California Prepared for Acadia Health Care 6100 Tower Circle #1000 Franklin, TN 37067 Prepared by RECON Environmental, Inc. 1927 Fifth Avenue San Diego, CA 92101 P 619.308.9333 RECON Number 9434 March 21, 2019 Revised: May 4, 2021 Jessica Fleming, Environmental Specialist Noise, Air Quality, GHG Noise Analysis Eastlake Behavioral Health Hospital Project i TABLE OF CONTENTS Acronyms.................................................................................................................... iii Executive Summary ................................................................................................... 1 1.0 Introduction ..................................................................................................... 3 1.1 Project Description ............................................................................................. 3 1.2 Fundamentals of Noise ....................................................................................... 3 2.0 Applicable Noise Standards .......................................................................... 7 2.1 General Plan ....................................................................................................... 7 2.2 City of Chula Vista Noise Control Ordinance .................................................... 9 2.3 California Green Building Standards Code – Environmental Comfort .......... 10 3.0 Existing Conditions....................................................................................... 10 4.0 Analysis Methodology ................................................................................... 12 4.1 Construction Noise Analysis ............................................................................ 12 4.2 Traffic Noise Analysis ...................................................................................... 14 4.3 On-site Generated Noise Analysis ................................................................... 15 5.0 Future Acoustical Environment and Impacts......................................... 17 5.1 Construction Noise ........................................................................................... 17 5.2 Traffic Noise ..................................................................................................... 19 5.3 On-site Generated Noise .................................................................................. 22 6.0 Conclusions ..................................................................................................... 25 6.1 Construction Noise ........................................................................................... 25 6.2 Traffic Noise ..................................................................................................... 26 6.3 On-site Generated Noise .................................................................................. 26 7.0 References Cited ............................................................................................ 27 FIGURES 1: Regional Location .......................................................................................................... 4 2: Project Location on Aerial Photograph ......................................................................... 5 3: Site Plan ........................................................................................................................ 6 4: Noise Measurement Locations .....................................................................................11 5: Construction Noise Contours .......................................................................................18 6: Vehicle Traffic Noise Contours ....................................................................................20 7: On-site Generated Noise Contours ..............................................................................23 Noise Analysis Eastlake Behavioral Health Hospital Project ii TABLE OF CONTENTS (cont.) TABLES 1: Exterior Land Use/Noise Compatibility Guidelines..................................................... 8 2: City of Chula Vista Exterior Noise Limits ................................................................... 9 3: Noise Measurements ....................................................................................................12 4: 15-minute Traffic Counts .............................................................................................12 5: Typical Construction Equipment Noise Levels ...........................................................13 6: Traffic Parameters .......................................................................................................14 7: Future Vehicle Traffic Parameters ..............................................................................15 8: Construction Noise Levels ...........................................................................................19 9: Future Vehicle Traffic Noise Levels ............................................................................21 10: Traffic Noise Level with and without Project and Ambient Noise Increases .............22 11: Heating, Ventilation, and Air Conditioning Noise Levels at Adjacent Properties .....25 ATTACHMENTS 1: Noise Measurement Data 2: SoundPLAN Data – Construction Noise 3: SoundPLAN Data – On-Site Traffic Noise 4: FHWA RD-77-108 – Off-Site Traffic Noise 5: SoundPLAN Data – On-Site Generated Noise Noise Analysis Eastlake Behavioral Health Hospital Project iii Acronyms and Abbreviations ADT average daily traffic CALGreen California Green Building Standards Caltrans California Department of Transportation City City of Chula Vista CNEL community noise equivalent level CVMC Chula Vista Municipal Code dB decibel dB(A) A-weighted decibel FHWA Federal Highway Administration HVAC heating, ventilating, and air conditioning Leq one-hour equivalent noise level Lmax maximum noise level LOS Level of Service Lpw sound power level project Eastlake Behavioral Health Hospital Project Noise Analysis Eastlake Behavioral Health Hospital Project Page 1 Executive Summary The Eastlake Behavioral Health Hospital Project (project) is located at 830 and 831 Showroom Place in the city of Chula Vista, California. The approximately 10.4-acre previously graded project site is currently undeveloped. The project would construct a 120-bed behavioral health facility in a 92,349-square-foot building. This report discusses potential noise impacts from the construction and operation of the project. As part of this assessment, noise levels due to vehicle traffic were calculated and evaluated against City of Chula Vista (City) noise and land use compatibility guidelines. In addition to compatibility, the potential for noise to impact adjacent uses from future on-site sources and construction activity was assessed. A summary of the findings is provided below. Construction Noise Construction activity is regulated by the Chula Vista Municipal Code (CVMC), which prohibits construction and building work in residential zones that would cause noises disturbing to the peace, comfort, and quiet enjoyment of property of any person residing or working in the vicinity between the hours of 10:00 p.m. and 7:00 a.m., Monday through Friday, and between the hours of 10:00 p.m. and 8:00 a.m., Saturday and Sunday. Noise associated with the grading, building, and paving for the project would potentially result in short-term impacts to surrounding residential properties. Construction noise levels would range from 56 to 68 A-weighted decibels equivalent noise level [dB(A) Leq] at the adjacent properties. Although the existing adjacent residences would be exposed to construction noise levels that could be heard above ambient conditions, the exposure would be temporary. Additionally, construction activities would occur only during the hours specified in the CVMC. Because construction activities associated with the project would comply with the applicable regulation for construction, temporary increases in noise levels from construction activities would be less than significant. Traffic Noise On-site Traffic Noise The main sources of vehicle traffic noise at the project site are Hunte Parkway, Fenton Street, Showroom Place, Yosemite Drive, and River Rock Road. Exterior noise levels were modeled at the project site to determine compatibility with City standards. The applicable standards for noise sensitive uses such as the project are an exterior noise level of 65 community noise equivalent level (CNEL) and an interior noise level of 50 CNEL. The project’s exterior useable spaces include the six proposed exterior activity areas and the staff outdoor area. As calculated in this analysis, noise levels at the staff outdoor area and the exterior activity areas would range from 31 to 45 CNEL. Noise levels at the exterior use areas would be compatible with the City’s standard of 65 CNEL. Noise Analysis Eastlake Behavioral Health Hospital Project Page 2 Exterior noise levels at the building façade are projected to range from 38 to 51 CNEL. The interior noise level standard is 50 CNEL. According to the Federal Highway Administration (FHWA), when windows are open, standard construction techniques provide a 10 dB exterior-to-interior noise level reduction (FHWA 2011). Based on these standards, interior noise levels would be reduced to 41 CNEL or less. Therefore, impacts related to on-site traffic noise would be less than significant. Off-site Traffic Noise The additional vehicle trips associated with the project would increase noise levels on nearby roadways. A noise increase of 3 dB or more would be considered significant because 3 dB is the level at which an increase in noise is perceptible to a person. As calculated in this analysis, direct off-site noise level increases due to the project would be 1 dB or less. Therefore, direct off-site noise impacts associated with the project would be less than significant. The total horizon year traffic volumes (year 2035) plus project traffic would increase over the existing condition, ranging from less than 1 dB to 5 dB. However, the project’s contribution to the increase over ambient noise levels would be 1 dB or less. Therefore, the project would result in a less than cumulatively considerable off-site noise level increase, and cumulative traffic noise impacts associated with the project would be less than significant. On-site Generated Noise The primary noise sources on-site would be rooftop heating, ventilating, and air conditioning (HVAC) equipment, an emergency generator, and truck deliveries and loading dock activities. For a worst-case analysis, property line noise levels due to all noise sources were modeled and compared to the most restrictive nighttime CVMC limits. Typical noise levels without the continuous operation of the emergency generator were also modeled. As calculated in this analysis, on-site generated noise levels at the residential property lines would range from 35 to 45 dB(A) Leq with the generator running and 34 to 43 dB(A) Leq without the generator running. Noise levels would not exceed the single family residential CVMC limits. At the commercial property lines, noise levels would range from 40 to 54 dB(A) Leq with the generator running and 39 to 51 dB(A) Leq without the generator running. Noise levels would not exceed the commercial CVMC limits. Therefore, impacts related to on-site generated noise would be less than significant. Noise Analysis Eastlake Behavioral Health Hospital Project Page 3 1.0 Introduction 1.1 Project Description The Eastlake Behavioral Health Hospital Project (project) is located at 830 and 831 Showroom Place in the city of Chula Vista, California, north Fenton Street, west of Hunte Parkway, and east of Lane Avenue. The project site is a previously graded pad in the EastLake Business Center Specific Plan area and is bounded by single-family residential uses to the north and southeast, commercial uses to the west and south. Specifically, the project site sits adjacent to The District at Eastlake, which is nearly fully developed with commercial uses and parking. The project site is surrounded by commercial uses such as restaurants, and family-oriented businesses, providing play areas and classes for adults and children. A number of these businesses include Eastlake Speed Circuit, Crunch Select Gym, Ninja Factory, Sky Zone, Play City, Pride Martial Arts, Kid Ventures, Sylvan Learning Center, Little Artists, DanceArts, and Floaties Swim School. The Eastlake Montessori School is also located within The District at Eastlake. The project site is a previously graded pad in the Eastlake Business Center and is bounded by single-family residential uses to the north and southeast, commercial uses to the west and south, and aA boat and recreational vehicle storage lot to the south. The approximately 10.4-acre project site is currently undeveloped. Figure 1 shows the regional location of the project. Figure 2 shows an aerial photograph of the project and vicinity. The project would construct a 120-bed behavioral health facility in a 92,349-square-foot building with exterior activity areas and a staff outdoor area. Figure 3 shows the proposed site plan. 1.2 Fundamentals of Noise Sound levels are described in units called the decibel (dB). Decibels are measured on a logarithmic scale that quantifies sound intensity in a manner similar to the Richter scale used for earthquake magnitudes. Thus, a doubling of the energy of a noise source, such as doubling of traffic volume, would increase the noise level by 3 dB; a halving of the energy would result in a 3 dB decrease. However, human perception of noise has no simple correlation with acoustical energy. A change in noise levels is generally perceived as follows: 3 A-weighted dB [dB(A)] barely perceptible, 5 dB(A) readily perceptible, and 10 dB(A) perceived as a doubling or halving of noise (California Department of Transportation 2013). In technical terms, sound levels are described as either a “sound power level” or a “sound pressure level,” which while commonly confused, are two distinct characteristics of sound. Both share the same unit of measure, the dB. However, sound power, expressed as Lpw, is the energy converted into sound by the source. As sound energy travels through the air, it creates a sound wave that exerts pressure on receivers such as an eardrum or microphone, the sound pressure level. Sound measurement instruments only measure sound pressure, and limits used in standards are generally sound pressure levels. FIGURE 1 Regional Location kj USMC AIR STATION MIRAMAR USMC AIR STATION MIRAMAR Los Penasquitos Canyon Presv Mission Trails Regional Park Cleveland NF Sutherland Lake Batiquitos Lagoon Lake Hodges El Capitan Reservoir San Vicente Reservoir Loveland Reservoir Sweetwater Reservoir Lower Otay ReservoirSanDieguitoRiver Du lz u ra C r e e k S w e e tw a te r R ive rS a n t a Y s a b e lC r e e k SanDie g u ito Rive r O t a y R i v e rEscondidoCreek Sweetwat e r RiverS a n D ie g o R i v e r Jamul Indian Village Sycuan Reservation Capitan Grande Reservation Barona Reservation Bostonia Casa de Oro-Mount Helix Crest Fairbanks Ranch Granite Hills Harbison Canyon Jamul Lakeside La Presa Ramona Rancho San Diego Rancho Santa Fe San Diego Country Estates Spring Valley Winter Gardens UV163 UV282 UV78 UV905 UV56 UV54 UV75 UV125 UV67 UV94 UV52 §¨¦8 §¨¦805 §¨¦15 §¨¦5 S A N D I E G O C O U N T Y M E X I C O Carlsbad Chula Vista Coronado Del Mar El Cajon Encinitas Escondido Imperial Beach La Mesa Lemon Grove National City Poway San Diego San Marcos Santee Solana Beach kj USMC AIR STATION MIRAMAR USMC AIR STATION MIRAMAR Los Penasquitos Canyon Presv Mission Trails Regional Park Cleveland NF Sutherland Lake Batiquitos Lagoon Lake Hodges El Capitan Reservoir San Vicente Reservoir Loveland Reservoir Sweetwater Reservoir Lower Otay ReservoirSanDieguitoRiver Du lz u ra C r e e k S w e e tw a te r R ive rS a n t a Y s a b e lC r e e k SanDie g u ito Rive r O t a y R i v e rEscondidoCreek Sweetwat e r RiverS a n D ie g o R i v e r Jamul Indian Village Sycuan Reservation Capitan Grande Reservation Barona Reservation Bostonia Casa de Oro-Mount Helix Crest Fairbanks Ranch Granite Hills Harbison Canyon Jamul Lakeside La Presa Ramona Rancho San Diego Rancho Santa Fe San Diego Country Estates Spring Valley Winter Gardens UV163 UV282 UV78 UV905 UV56 UV54 UV75 UV125 UV67 UV94 UV52 §¨¦8 §¨¦805 §¨¦15 §¨¦5 S A N D I E G O C O U N T Y M E X I C O Carlsbad Chula Vista Coronado Del Mar El Cajon Encinitas Escondido Imperial Beach La Mesa Lemon Grove National City Poway San Diego San Marcos Santee Solana Beach 0 5Miles [ M:\JOBS5\9434\common_gis\fig1.mxd 3/18/2019 bma SAN DIEGO RIVERSIDE SAN BERNARDINO ORANGE MEXICO Project Locationkj FIGURE 2 Project Location on Aerial Photograph W INDW ARD WAYSTO N E CAN Y O N R D W ATERLINE W AYSTARBOARD STNORTH VALL E YVI EWDRJETTY LNYOSE M I T E W A YANCHORAGE PL RIVER ROCK RD HITACHI W AYMAST WAY C A TA M A R A N W A Y O TA Y L AKES RD LEEWARD WAY TABLEROCKAVEYOSEMITE D RCREE K S I D E PLFENTON ST E S P E R ANZAPL WI NDCAVEPLBRYCECANYONAVEHAROLDPLSHOW ROOMPLHUNTE PKYW INDW ARD WAYSTO N E CAN Y O N R D W ATERLINE W AYSTARBOARD STNORTH VALL E YVI EWDRJETTY LNYOSE M I T E W A YANCHORAGE PL RIVER ROCK RD HITACHI W AYMAST WAY C A TA M A R A N W A Y O TA Y L AKES RD LEEWARD WAY TABLEROCKAVEYOSEMITE D RCREE K S I D E PLFENTON ST E S P E R ANZAPL WI NDCAVEPLBRYCECANYONAVEHAROLDPLSHOW ROOMPLHUNTE PKYImage Source: Nearmap (Flown February 2019) 0 300Feet [ Project Boundary M:\JOBS5\9434\common_gis\fig2.mxd 3/18/2019 bma FIGURE 3 Site PlanSHOWROOM PLESPERANZA PL RIVER R OC K R D SHOWROOM PLESPERANZA PL RIVER R OC K R D Image Source: Nearmap (Flown February 2019) 0 100Feet [ Site Plan Lines Project Boundary M:\JOBS5\9434\common_gis\fig3_nos.mxd 3/19/2019 bma Noise Analysis Eastlake Behavioral Health Hospital Project Page 7 The human ear is not equally sensitive to all frequencies within the sound spectrum. To accommodate this phenomenon, the A-scale, which approximates the frequency response of the average young ear when listening to most ordinary everyday sounds, was devised. When people make relative judgments of the loudness or annoyance of a sound, their judgments correlate well with the A-scale sound levels of those sounds. Therefore, the “A-weighted” noise scale is used for measurements and standards involving the human perception of noise. Noise levels using A-weighted measurements are designated with the notation dB(A). 1.2.1 Descriptors The impact of noise is not a function of loudness alone. The time of day when noise occurs and the duration of the noise are also important. In addition, most noise that lasts for more than a few seconds is variable in its intensity. Consequently, a variety of noise descriptors has been developed. The noise descriptors used for this study are the equivalent noise level (Leq) and the community noise equivalent level (CNEL). The Leq is the equivalent steady-state noise level in a stated period of time that is calculated by averaging the acoustic energy over a time period; when no period is specified, a 1-hour period is assumed. The CNEL is a 24-hour equivalent sound level. The CNEL calculation applies an additional 5 dB(A) penalty to noise occurring during evening hours, between 7:00 p.m. and 10:00 p.m., and a 10 dB(A) penalty is added to noise occurring during the night, between 10:00 p.m. and 7:00 a.m. These increases for certain times are intended to account for the added sensitivity of humans to noise during the evening and night. 1.2.2 Propagation Sound from a localized source (approximating a “point” source) radiates uniformly outward as it travels away from the source in a spherical pattern, known as geometric spreading. The sound level decreases or drops off at a rate of 6 dB(A) for each doubling of the distance. Traffic noise is not a single, stationary point source of sound. The movement of vehicles makes the source of the sound appear to emanate from a line (line source) rather than a point when viewed over some time interval. The drop-off rate for a line source is 3 dB(A) for each doubling of distance. The propagation of noise is also affected by the intervening ground, known as ground absorption. A hard site (such as parking lots or smooth bodies of water) receives no additional ground attenuation, and the changes in noise levels with distance (drop-off rate) are simply the geometric spreading of the source. A soft site (such as soft dirt, grass, or scattered bushes and trees) provides an additional ground attenuation value of 1.5 dB(A) per doubling of distance. Thus, a point source over a soft site would drop off at 7.5 dB(A) per doubling of distance. Noise Analysis Eastlake Behavioral Health Hospital Project Page 8 2.0 Applicable Noise Standards 2.1 General Plan 2.1.1 Noise/Land Use Compatibility The Environmental Element of the City of Chula Vista (City) General Plan contains applicable noise/land use compatibility guidelines, which are shown in Table 1. As shown, noise sensitive uses such as the project are considered compatible when located in areas where exterior noise levels are 65 CNEL or less (City of Chula Vista 2005). For the project, the City applies this exterior noise level standard at the proposed exterior use areas which include the six proposed exterior activity areas and the staff outdoor area (see Figure 3). Table 1 Exterior Land Use/Noise Compatibility Guidelines Land Use CNEL 50 55 60 65 70 75 Residential Schools, Libraries, Daycare Facilities, Convalescent Homes, Outdoor Use Areas, and Other Similar Uses Considered Noise Sensitive Neighborhood Parks, Playgrounds Offices and Professional Places of Worship (excluding outdoor use areas) Golf Courses Retail and Wholesale Commercial, Restaurants, Movie Theaters Industrial, Manufacturing 2.1.2 Policies The following policies from the City General Plan are relevant to this noise analysis: EE 21.1 Apply the exterior land use-noise compatibility guidelines contained in Table 9-2 of this Environmental Element to new development where applicable and in light of project-specific considerations. (Note: Table 9-2 of the Environmental Element is Table 1 of this report.) EE 21.2 Where applicable, the assessment and mitigation of interior noise levels shall adhere to the applicable requirements of the California Building Code with local amendments and other applicable established City standards. EE 21.3 Promote the use of available technologies in building construction to improve noise attenuation capacities. EE 22.5 Require projects to construct appropriate mitigation measures in order to attenuate existing and projected traffic noise levels in accordance with applicable standards, including the exterior land use/noise compatibility guidelines contained in Table 9-2 of this Environmental Element. Noise Analysis Eastlake Behavioral Health Hospital Project Page 9 2.2 City of Chula Vista Noise Control Ordinance 2.2.1 On-site Generated Noise The Noise Control Ordinance (Chula Vista Municipal Code [CVMC] Chapter 19.68) establishes noise criteria to prevent noise and vibration that may jeopardize the health or welfare of the City’s citizens or degrade their quality of life. CVMC Section 19.68.030 defines exterior noise standards for various receiving land uses. The noise standards are not to be exceeded at the portion of a property used for a particular land use. For nuisance noise, the noise standards cannot be exceeded at any time. Examples of nuisance noise provided in the Noise Control Ordinance include pets in residential neighborhoods, private parties of limited duration, sound amplifiers and musical instruments, and any activities in commercial areas other than permitted uses. For environmental noise, the Leq in any one hour cannot exceed the noise standards. These standards are shown in Table 2. The noise standards in Table 2 do not apply to construction activities. Table 2 City of Chula Vista Exterior Noise Limits Receiving Land Use Category Noise Level [dB(A)]1,2,3 10:00 p.m. to 7:00 a.m. (Weekdays) 7:00 a.m. to 10:00 p.m. (Weekdays) 10:00 p.m. to 8:00 a.m. (Weekends) 8:00 a.m. to 10:00 p.m. (Weekends) All residential (except multiple dwelling) 45 55 Multiple dwelling residential 50 60 Commercial 60 65 Light Industry – I-R and I-L zone 70 70 Heavy Industry – I zone 80 80 SOURCE: CVMC Section 19.68.030 1 Environmental Noise – One-hour equivalent in any hour; Nuisance Noise – not to be exceeded any time 2 According to CVMC Section 19,68,030(b)(2), if the alleged offensive noise contains a steady, audible sound such as a whine, screech or hum, or contains a repetitive impulsive noise such as hammering or riveting, the standard limits shall be reduced by 5 decibels. 3 If the measured ambient level, measured when the alleged noise violation source is not operating, exceeds the standard noise limit, the allowable noise exposure standard shall be the ambient noise level. Section 19.68.060(A) states that “Warning devices necessary for the protection of public safety, as, for example, police, fire and ambulance sirens, and train horns, are exempted from the provisions of this title.” 2.2.2 Construction Noise Construction noise is regulated by CVMC Section 17.24.040, which prohibits construction and building work in residential zones that would cause noises disturbing to the peace, comfort, and quiet enjoyment of property of any person residing or working in the vicinity between the hours of 10:00 p.m. and 7:00 a.m., Monday through Friday, and between the hours of 10:00 p.m. and 8:00 a.m., Saturday and Sunday. Noise Analysis Eastlake Behavioral Health Hospital Project Page 10 2.3 California Green Building Standards Code – Environmental Comfort For nonresidential structures, Title 24, Chapter 12, Section 1207.5 refers to 2016 California Green Building Standards, Chapter 5 – Nonresidential Mandatory Measures, Division 5.5 – Environmental Quality, Section 5.507 – Environmental Comfort, Subsection 5.507.4 – Acoustical Control. Pursuant to these standards, all nonresidential building construction shall employ building assemblies and components that achieve a composite sound transmission class rating of at least 50 or shall otherwise demonstrate that exterior noise shall not result in interior noise environment where noise levels exceed 50 A-weighted equivalent decibels [dB(A) Leq] in occupied areas during any hour of operation (24 California Code of Regulations 1207.5 2016). 3.0 Existing Conditions Existing noise levels in the vicinity of the project site were measured on March 14, 2019, using one Larson-Davis Model LxT, Type 1 Integrating Sound Level Meter, serial number 3827. The following parameters were used: Filter: A-weighted Response: Slow Interval Period 1 minute Time History Period: 5 seconds The meter was calibrated before and after each measurement. The meter was set 5 feet above the ground level for each measurement. Noise measurements were taken to obtain typical ambient noise levels at the project site and in the vicinity. The weather was sunny and warm with a slight breeze, zero to two miles per hour on average. Three 15-minute measurements were taken, as described below. The measurement locations are shown on Figure 4, and detailed data is contained in Attachment 1. Measurement 1 was located at the northeast corner of the project site, approximately 400 feet west of Hunte Parkway and 200 feet northwest of Yosemite Drive. Noise levels were measured for 15 minutes. The main noise source at this location was vehicle traffic Yosemite Drive. Secondary sources of noise included activities at Eastlake Middle School, airplanes, and bird vocalizations. Vehicle traffic on Yosemite Drive was counted during the measurement period. The average measured noise level was 52.4 dB(A) Leq. Measurement 2 was located near the northern project boundary, approximately 130 feet south of River Rock Road. Noise levels were measured for 15 minutes. The main noise source at this location was vehicle traffic on River Rock Road and airplanes. Secondary sources of noise included activities at Eastlake Middle School and bird vocalizations. FIGURE 4 Noise Measurement Locations !( !( !(NORTHVALLEYVIEWDRMAST WAY C R E E K S ID E P LSHOWROOM PLSTARBOARD STESPERA NZA PL YOSEMI TEDRRIVE R R O C K R D 3 1 2 !( !( !(NORTHVALLEYVIEWDRMAST WAY C R E E K S ID E P LSHOWROOM PLSTARBOARD STESPERA NZA PL YOSEMI TEDRRIVE R R O C K R D 3 1 2 Image Source: Nearmap (Flown February 2019) 0 100Feet [ !(Measurement Locations Project Boundary M:\JOBS5\9434\common_gis\fig4_nos.mxd 3/19/2019 bma Noise Analysis Eastlake Behavioral Health Hospital Project Page 12 Vehicle traffic on River Rock Road was counted during the measurement period. The average measured noise level was 48.8 dB(A) Leq. Measurement 3 was located at the southern project boundary at the end of the Showroom Place cul-de-sac. Noise levels were measured for 15 minutes. The main noise source at this location was vehicle traffic on Showroom Place. Secondary sources of noise included a vacuum, an intercom at Eastlake Middle School, airplanes, and bird vocalizations. Vehicle traffic on Showroom Place was counted during the measurement period. The average measured noise level was 46.4 dB(A) Leq. Noise measurements are summarized in Table 3. Traffic counts are summarized in Table 4. Table 3 Noise Measurements Measurement Location Time Noise Sources Leq L90 1 Northeast corner of project site 11:45 a.m.–12:00 p.m. Yosemite Drive 52.4 44.2 2 Northern project boundary 12:19 p.m.–12:34 p.m. River Rock Road 48.8 41.1 3 Southern project boundary at end of Showroom Place 12:53 p.m.–1:08 p.m. Showroom Place 46.4 39.3 L90 = Noise level exceeded 90 percent of the time. Note: Noise measurement data is contained in Attachment 1. Table 4 15-minute Traffic Counts Measurement Roadway Direction Autos Medium Trucks Heavy Trucks Buses Motorcycles 1 Yosemite Drive Southbound 32 0 0 0 0 Northbound 28 0 0 0 0 2 River Rock Road Eastbound 2 0 0 0 0 Westbound 4 0 0 0 0 3 Showroom Place Northbound 11 0 0 0 0 Southbound 13 0 0 0 0 4.0 Analysis Methodology 4.1 Construction Noise Analysis Project construction noise would be generated by diesel engine-driven construction equipment used for demolition, site preparation and grading, building construction, loading, unloading, and placing materials and paving. Diesel engine-driven trucks also would bring materials to the site and remove the soils from excavation. Construction equipment with a diesel engine typically generates maximum noise levels from 70 and 95 dB(A) maximum sound level (Lmax) at a distance of 50 feet (Federal Highway Administration [FHWA] 2006). Table 5 summarizes typical construction equipment noise levels. Noise Analysis Eastlake Behavioral Health Hospital Project Page 13 Table 5 Typical Construction Equipment Noise Levels Equipment Noise Level at 50 Feet [dB(A) Leq] Typical Duty Cycle Auger Drill Rig 85 20% Backhoe 80 40% Blasting 94 1% Chain Saw 85 20% Clam Shovel 93 20% Compactor (ground) 80 20% Compressor (air) 80 40% Concrete Mixer Truck 85 40% Concrete Pump 82 20% Concrete Saw 90 20% Crane (mobile or stationary) 85 20% Dozer 85 40% Dump Truck 84 40% Excavator 85 40% Front End Loader 80 40% Generator (25 kilovolt amps or less) 70 50% Generator (more than 25 kilovolt amps) 82 50% Grader 85 40% Hydra Break Ram 90 10% Impact Pile Driver (diesel or drop) 95 20% In situ Soil Sampling Rig 84 20% Jackhammer 85 20% Mounted Impact Hammer (hoe ram) 90 20% Paver 85 50% Pneumatic Tools 85 50% Pumps 77 50% Rock Drill 85 20% Roller 74 40% Scraper 85 40% Tractor 84 40% Vacuum Excavator (vac-truck) 85 40% Vibratory Concrete Mixer 80 20% Vibratory Pile Driver 95 20% SOURCE: FHWA 2006. dB(A) Leq = A-weighted decibels average noise level Construction equipment would generate maximum noise levels between 70 and 95 dB(A) Lmax at 50 feet from the source when in operation. During excavation, grading, and paving operations, equipment moves to different locations and goes through varying load cycles, and there are breaks for the operators and for non-equipment tasks, such as measurement. Average construction noise levels were calculated for the simultaneous operation of three common pieces of construction equipment: backhoe, excavator, and loader. The usage factors were applied to the maximum noise level at 50 feet for each piece of equipment, and then noise levels were added logarithmically. Hourly average noise levels would be approximately 85 dB(A) Leq at 50 feet from the center of construction activity when assessing three pieces of common construction equipment working simultaneously. Noise Analysis Eastlake Behavioral Health Hospital Project Page 14 4.2 Traffic Noise Analysis 4.2.1 On-Site Traffic Noise Noise generated by future traffic was modeled using SoundPLAN Essential, version 4.1. The SoundPLAN program (Navcon Engineering 2015) uses the FHWA Traffic Noise Model algorithms and reference levels to calculate noise levels at selected receiver locations. The model uses various input parameters, such as projected hourly average traffic rates; vehicle mix, distribution, and speed; roadway lengths and gradients; distances between sources, barriers, and receivers; and shielding provided by intervening terrain, barriers, and structures. Receivers, roadways, and barriers were input into the model using three- dimensional coordinates. The locations of future buildings were obtained from project plans and drawings. Noise levels due to vehicle traffic on the roadways nearest to the project site where modeled. For the purpose of traffic noise compatibility analysis, the noisiest condition is represented as the maximum level of service (LOS) C traffic volume. This condition represents a condition where the maximum number of vehicles are using the roadway at the maximum speed. LOS A and B categories allow full travel speed but do not have as many vehicles, while LOS E and F have a greater number of vehicles, but due to the traffic volume travel at reduced speeds, thus generating less noise. Hunte Parkway is a 4-lane major road with a maximum LOS C capacity of 33,800 average daily traffic (ADT), and Fenton Street is a Class I Collector with a maximum LOS C capacity of 24,800 ADT (City of Chula Vista 2005). Showroom Place, Yosemite Drive, and River Rock Road are not circulation element roadways. Showroom Place is a cul-de-sac that ends at the project site. The total project trip generation of 2,400 ADT was used to model vehicle traffic noise from Showroom Place (Linscott, Law & Greenspan, Engineers 2019). Yosemite Drive and River Rock Road are residential streets. The residential street design volume of 1,200 ADT was used to model vehicle traffic noise from these two roads (City of Chula Vista 2012). A standard vehicle classification mix of 95 percent automobiles, 2 percent medium trucks, 1 percent heavy trucks, 1 percent buses, and 1 percent motorcycles was modeled. Table 6 summarizes the traffic volumes and vehicle classification mixes for the modeled roadways. Table 6 Traffic Parameters Roadway Average Daily Traffic Speed Vehicle Mix (percent) Autos Medium Trucks Heavy Trucks Buses Motorcycles Hunte Parkway 22,800 45 95 2 1 1 1 Fenton Street 24,800 35 95 2 1 1 1 Showroom Place 2,400 25 95 2 1 1 1 Yosemite Drive 1,200 25 95 2 1 1 1 River Rock Road 1,200 25 95 2 1 1 1 Noise Analysis Eastlake Behavioral Health Hospital Project Page 15 4.2.2 Off-site Traffic Noise Off-site traffic noise was modeled using the FHWA Traffic Noise Prediction Model algorithms and reference levels. Traffic noise levels were calculated at 50 feet from the centerline of the affected roadways to determine the noise level increase associated with the project. The model uses various input parameters, such as traffic volumes; vehicle mix, distribution, and speed. The roadways included in the traffic impact analysis are Otay Lakes Road, Eastlake Parkway, Fenton Street, and Hunte Parkway. Traffic noise levels were calculated based on the total average daily traffic volumes on each roadway segment. For modeling purposes, “hard” ground conditions were used for the analysis of future conditions, since a majority of the project area is paved and the hard site provides the most conservative impact assessment. Existing and future (year 2035) traffic volumes with and without the project were obtained from the project traffic impact analysis (Linscott, Law & Greenspan, Engineers 2019). Table 7 summarizes the future traffic volumes for the area roadway segments. Modeled noise levels do not account for shielding provided by intervening barriers and structures. Table 7 Future Vehicle Traffic Parameters Roadway Segment Average Daily Traffic Speed (mph) Existing Existing + Project Year 2035 Year 2035 + Project Otay Lakes Road State Route 125 Northbound Ramps to Eastlake Parkway 43,234 44,842 57,500 59,108 50 Eastlake Parkway to Lane Avenue 29,726 30,950 39,100 40,324 50 Lane Avenue to Fenton Street 19,207 20,431 29,200 30,424 50 Fenton Street to Hunte Parkway 18,747 19,131 29,200 29,584 50 East Hunte Parkway 10,674 10,722 29,300 29,348 50 Eastlake Parkway Fenton Street to Otay Lakes Road 23,249 23,825 27,500 28,076 40 Fenton Street Lane Avenue to Showroom Place 8,202 8,994 12,000 12,792 34 Showroom Place to Otay Lakes Road 6,256 7,864 10,200 11,808 34 Hunte Parkway Otay Lakes Road to Clubhouse Drive 14,911 15,079 19,400 19,568 45 SOURCE: Linscott, Law & Greenspan, Engineers 2019. 4.3 On-site Generated Noise Analysis On-site noise sources on the project site after completion of construction would include rooftop heating, ventilation, and air conditioning (HVAC) equipment, an emergency generator, and truck deliveries and loading dock activities. These sources would have the potential to produce noise in excess of City limits (see Table 2). Noise Analysis Eastlake Behavioral Health Hospital Project Page 16 Noise levels due to on-site sources were modeled using SoundPLAN. The SoundPLAN program models noise propagation following the International Organization for Standardization method ISO 9613-2 – Acoustics, Attenuation of Sound during Propagation Outdoors. The model calculates noise levels at selected receiver locations using input parameter estimates such as total noise generated by each noise source; distances between sources, barriers, and receivers; and shielding provided by intervening structures. 4.3.1 Heating, Ventilation, and Air Conditioning Equipment The HVAC equipment would be located at various locations on the roof of the proposed building. It is not known at this time which manufacturer, brand, or model of unit or units will be selected for use in the project. Typically, a capacity of 1-ton per 340 square feet would be required for large office buildings. This ratio was used to determine the total HVAC capacity required for the project. Based on this ratio, the 92,349-square-foot building would require a capacity of approximately 272 tons. As a conservative analysis, thirty 10-ton units, for a total capacity of 300 tons, were modeled on the roof of the proposed building. Based on review of manufacturer specifications for a sample unit (Trane Model T/YSCE120ED), a representative noise level for a 10-ton unit would be a sound power level of 79 dB. Noise specifications are contained in Attachment 2. All units were modeled at full capacity during the daytime and nighttime hours. 4.3.2 Emergency Generator The emergency generator would be located on the west side of the proposed building within a 16-foot concrete masonry unit wall. The specifications for the Cat C27 diesel generator set that would be used are contained in Attachment 3. Based on these noise specifications, the generator produces a noise level of 75 dB(A) at 23 feet. Continuous operation of the generator would only occur during emergency situations when the facility loses power from the main power grid. However, the generator would be operated periodically for routine testing and maintenance. Property line noise levels were modeled with and without operation of the generator. Modeled noise levels take into account to 16-foot wall that would surround the generator. The generator would also be equipped with a sound blanket, however, noise reduction due to this feature were not taken into account. 4.3.3 Delivery Trucks Two loading docks would be located on the west side of the proposed building. In order to evaluate the truck delivery noise impacts, the analysis utilized reference noise level measurements taken at an Albertson’s Shopping Center in San Diego, California in 2011. The measurements include truck drive-by noise, truck loading/unloading, and truck engine noise. The unmitigated exterior noise levels for truck drive-by noise and truck engine noise were measured at 66.5 dB(A) Leq at a distance of 25 feet from the loading dock. This is equivalent to a sound power level of 92.1 dB(A). Noise Analysis Eastlake Behavioral Health Hospital Project Page 17 The on-site maneuvering associated with the delivery trucks consists of the truck entering the site and backing into the loading dock, idling, loading and unloading, and leaving the site. It is anticipated that the project would receive three to five deliveries per day. Because there are two loading docks, the simultaneous operation of two delivery trucks was modeled. It was assumed that it would take 5 minutes for a truck to enter and leave the project site. During the loading/unloading of the truck, the engine can only idle for a maximum of 5 minutes in compliance with state regulations for air quality. To calculate property line noise levels, trucks were modeled as a line source while entering and leaving the site, and as a point source at each loading dock while idling. 5.0 Future Acoustical Environment and Impacts 5.1 Construction Noise Noise associated with the grading, building, and paving for the project would potentially result in short-term impacts to surrounding residential properties. There are residential uses located north and southeast of the project site. A variety of noise-generating equipment would be used during the construction phase of the project, such as excavators, backhoes, front-end loaders, and concrete saws, along with others. The exact number and pieces of construction equipment required are not known at this time. As discussed, average construction noise levels were calculated. Based on this analysis, hourly average noise levels would be approximately 83 dB(A) Leq at 50 feet from the center of construction activity when assessing three pieces of common construction equipment working simultaneously. Construction noise is considered a point source and would attenuate at approximately 6 dB(A) for every doubling of distance. To reflect the nature of grading and construction activities, equipment was modeled as an area source distributed over the project footprint. Noise levels were modeled at a series of 20 receivers located at the adjacent uses. The results are summarized in Table 8. Modeled receiver locations and construction noise contours are shown in Figure 5. SoundPLAN data is contained in Attachment 4. As shown, construction noise levels would range from 56 to 68 dB(A) Leq at the adjacent uses. Although the existing adjacent residences would be exposed to construction noise levels that could be heard above ambient conditions, the exposure would be temporary. Additionally, construction activities would occur between the hours of 7:00 a.m. and 10:00 p.m. Monday through Friday, and between the hours of 8:00 a.m. and 10:00 p.m. Saturday and Sunday, as specified in the City Construction Noise Ordinance. Because construction activities associated with the project would comply with the applicable regulation for construction, temporary increases in noise levels from construction activities would be less than significant. FIGURE 5 Construction Noise Contours !( !( !( !( !(!(!( !( !( !(!(!( !( !( !( !( !( !( !(!(STARBOARD STN O R T H V A L L E Y VIE WDRMAST WAY WATERLINE WAY WINDWARD WAY C ATAM AR A N WA Y C R E E K S ID E P LHUNTEPKYSHOWROOM PLESPERANZA P L YO S E M I T E D R RIVER ROCK R D 1 2 3 4 5 67 8 9 10 1112 13 14 15 16 17 18 19 20 !( !( !( !( !(!(!( !( !( !(!(!( !( !( !( !( !( !( !(!(STARBOARD STN O R T H V A L L E Y VIE WDRMAST WAY WATERLINE WAY WINDWARD WAY C ATAM AR A N WA Y C R E E K S ID E P LHUNTEPKYSHOWROOM PLESPERANZA P L YO S E M I T E D R RIVER ROCK R D 1 2 3 4 5 67 8 9 10 1112 13 14 15 16 17 18 19 20 Image Source: Nearmap (Flown February 2019) 0 100Feet [Construction Noise 60 dB(A) Leq 65 dB(A) Leq 70 dB(A) Leq 75 dB(A) Leq !(Construction Receivers Project Boundary M:\JOBS5\9434\common_gis\fig5_nos.mxd 3/19/2019 bma Noise Analysis Eastlake Behavioral Health Hospital Project Page 19 Table 8 Construction Noise Levels Receiver Land Use Noise Level [dB(A) Leq] 1 Residential 57 2 Residential 58 3 Residential 57 4 Residential 56 5 Residential 56 6 Residential 58 7 Residential 61 8 Residential 58 9 Residential 57 10 Residential 59 11 Residential 59 12 Residential 58 13 Residential 58 14 Commercial 62 15 Commercial 63 16 Commercial 63 17 Commercial 60 18 Commercial 57 19 Boat/RV Storage 68 20 Commercial 68 5.2 Traffic Noise 5.2.1 On-site Traffic Noise On-site traffic noise contours were developed using the SoundPLAN program. Noise level contours were modeled at the first-floor level. These contours take into account shielding provided by the proposed building and grading, but do not taken in to account shielding due to adjacent buildings and are therefore conservative. Future vehicle traffic noise-level contours are shown in Figure 6. SoundPLAN data are contained in Attachment 5. As discussed in Section 2.1, noise sensitive uses such as the project are considered compatible when located in areas where exterior noise levels are 65 CNEL or less. This standard is applicable at exterior use areas that include the six proposed exterior activity areas and the staff outdoor area. To refine the noise analysis and determine noise levels at exterior use areas and the building façade, exterior noise levels were calculated at a series of receiver locations at the staff outdoor area (Receiver 1), the exterior activity areas (Receivers 2 through 7), and around the proposed building (Receivers 8 through 15). Modeled receiver locations are shown in Figure 6. Table 9 summarizes the projected future noise levels at the 15 modeled receivers. FIGURE 6 Vehicle Traffic Noise Contours !( !(!( !(!(!(!( !(!( !( !( !( !( !( !(BRYCE CANYON AVEESPERANZA P L W ATERLINE W AY RIVER ROCK R D STARBOARD STNORT H V A L L E Y VIE W DRC A TA M A R A N W A Y YOSE M I TE W A Y WINDWARD WAY MAST WAYANCHORAGE PLC R E E K S ID EPLHUNTEPKYSHOWROOMPLYOSE M I T E D R HAROLDPL1 2 3 4567 8 9 10 11 12 13 14 15 !( !(!( !(!(!(!( !(!( !( !( !( !( !( !(BRYCE CANYON AVEESPERANZA P L W ATERLINE W AY RIVER ROCK R D STARBOARD STNORT H V A L L E Y VIE W DRC A TA M A R A N W A Y YOSE M I TE W A Y WINDWARD WAY MAST WAYANCHORAGE PLC R E E K S ID EPLHUNTEPKYSHOWROOMPLYOSE M I T E D R HAROLDPL1 2 3 4567 8 9 10 11 12 13 14 15 Image Source: Nearmap (Flown February 2019) 0 200Feet [Vehicle Traffic Noise 40 CNEL 45 CNEL 50 CNEL 55 CNEL 60 CNEL 65 CNEL !(Receivers Site Plan Lines Project Boundary M:\JOBS5\9434\common_gis\fig6_nos.mxd 3/19/2019 bma Noise Analysis Eastlake Behavioral Health Hospital Project Page 21 Table 9 Future Vehicle Traffic Noise Levels Receiver Location Exterior Noise Level (CNEL) 1 Staff Outdoor Area 41 2 Exterior Activity Area 34 3 Exterior Activity Area 40 4 Exterior Activity Area 45 5 Exterior Activity Area 32 6 Exterior Activity Area 31 7 Exterior Activity Area 36 8 Building Façade 39 9 Building Façade 41 10 Building Façade 50 11 Building Façade 50 12 Building Façade 48 13 Building Façade 51 14 Building Façade 40 15 Building Façade 38 CNEL = community noise equivalent level As shown, noise levels at the staff outdoor area and the exterior activity areas would range from 31 to 45 CNEL. Noise levels at the exterior use areas would be compatible with the City’s standard of 65 CNEL. Exterior noise levels at the building façade are projected to range from 38 to 51 CNEL. The interior noise level standard is 50 CNEL. When windows are open, standard construction techniques provide a 10 dB exterior-to-interior noise level reduction (FHWA 2011). Based on these standards, interior noise levels would be reduced to 41 CNEL or less. Therefore, impacts related to on-site traffic noise would be less than significant. 5.2.2 Off-site Traffic Noise The project would increase traffic volumes on local roadways. However, the project would not substantially alter the vehicle classifications mix on local or regional roadways, nor would the project alter the speed on an existing roadway or create a new roadway. Thus, the primary factor affecting off-site noise levels would be increased traffic volumes. While changes in noise levels would occur along any roadway where project-related traffic occurs, for noise assessment purposes, noise level increases are assumed to be greatest nearest the project site, as this location would represent the greatest concentration of project-related traffic. Traffic noise increases attributable to the project were assessed against a significance threshold of 3 dB, which is the level at which an increase in noise is considered to be barely perceptible (Caltrans 2013). Table 10 presents a conservative assessment of traffic noise levels based on the existing, existing plus project, horizon year (2035), and horizon year (2035) plus project noise levels generated by traffic. Table 10 also summarizes the direct and cumulative traffic noise level increases due to the project. Noise level calculations are contained in Attachment 6. Noise Analysis Eastlake Behavioral Health Hospital Project Page 22 Table 10 Traffic Noise Level with and without Project and Ambient Noise Increases Roadway Segment Existing Existing + Project Direct Increase Year 2035 Year 2035 + Project Direct Increase Cumulative Increase Over Existing Otay Lakes Road State Route 125 Northbound Ramps to Eastlake Parkway 77 77 <1 78 78 <1 1 Eastlake Parkway to Lane Avenue 75 75 <1 75 76 1 1 Lane Avenue to Fenton Street 73 74 1 75 75 <1 2 Fenton Street to Hunte Parkway 73 74 1 75 75 <1 2 East Hunte Parkway 70 70 <1 75 75 <1 5 Eastlake Parkway Fenton Street to Otay Lakes Road 72 72 <1 72 73 1 1 Fenton Street Lane Avenue to Showroom Place 66 66 <1 68 68 <1 2 Showroom Place to Otay Lakes Road 65 66 1 67 68 1 3 Hunte Parkway Otay Lakes Road to Clubhouse Drive 71 71 <1 72 72 <1 1 As shown in Table 10, direct off-site noise level increases due to the project would be 1 dB or less. Therefore, direct off-site noise impacts associated with the project would be less than significant. Similar to direct traffic noise impacts, a cumulative traffic noise impact occurs when the noise level would exceed the applicable standard and a substantial noise level increase compared to existing noise occurs. As shown, the total horizon year (year 2035) plus project increase over the existing condition would range from 1 dB to 5 dB. However, the project’s contribution to the increase over ambient noise levels would be 1 dB or less. Therefore, the project would result in a less than cumulatively considerable off-site noise level increase, and cumulative traffic noise impacts associated with the project would be less than significant. 5.3 On-site Generated Noise The primary noise sources on-site would be HVAC equipment, an emergency generator, and truck deliveries and loading dock activities. Using the on-site noise source parameters discussed in Section 4.3, noise levels were modeled at a series of 20 receivers located at the property line. For a worst-case analysis, noise levels due to all noise sources were modeled and compared to the most restrictive nighttime CVMC limits. Typical noise levels without the continuous operation of the emergency generator were also modeled. Modeled receivers and the locations of the on-site noise sources are shown in Figures 7a and 7b. Figure 7a shows the on-site generated noise contours with operation of the emergency generator, and Figure 7b shows the noise contours without operation of the emergency generator. Modeled data is included in Attachment 7. Future projected noise levels are summarized in Table 11. FIGURE 7a On-Site Generated Noise Contours with Emergency Generator !( !( !( !( !( !( !( !(!(!(!(!( !( !( !( !( !(!(!(!( ! ! ! ! !! ! ! ! ! !d "6"6 MAST WAY WATERLINE WAY WINDWARD WAY C ATAMARA N WAY ESPERANZA PLRIVERROCKRD SHOWROOM PLSTARBOARD ST1 2 3 4 5 6 7 8 9101112 13 14 15 16 17 18 19 20 !( !( !( !( !( !( !( !(!(!(!(!( !( !( !( !( !(!(!(!( ! ! ! ! !! ! ! ! ! !d "6"6 MAST WAY WATERLINE WAY WINDWARD WAY C ATAMARA N WAY ESPERANZA PLRIVERROCKRD SHOWROOM PLSTARBOARD ST1 2 3 4 5 6 7 8 9101112 13 14 15 16 17 18 19 20 Image Source: Nearmap (Flown February 2019) 0 200Feet [On-Site Noise 40 dB(A) Leq 45 dB(A) Leq 50 dB(A) Leq 55 dB(A) Leq 60 dB(A) Leq 65 dB(A) Leq !d Emergency Generator !HVAC "6 Loading Docks Delivery Trucks !(Receivers Site Plan Lines Project Boundary M:\JOBS5\9434\common_gis\fig7a_nos.mxd 3/19/2019 bma Noise Sources FIGURE 7b On-Site Generated Noise Contours without Emergency Generator !( !( !( !( !( !( !( !(!(!(!(!( !( !( !( !( !(!(!(!( ! ! ! ! !! ! ! ! ! "6"6 MAST WAY WATERLINE WAY WINDWARD WAY C ATAMARA N WAY ESPERANZA PLRIVERROCKRD SHOWROOM PLSTARBOARD ST1 2 3 4 5 6 7 8 9101112 13 14 15 16 17 18 19 20 !( !( !( !( !( !( !( !(!(!(!(!( !( !( !( !( !(!(!(!( ! ! ! ! !! ! ! ! ! "6"6 MAST WAY WATERLINE WAY WINDWARD WAY C ATAMARA N WAY ESPERANZA PLRIVERROCKRD SHOWROOM PLSTARBOARD ST1 2 3 4 5 6 7 8 9101112 13 14 15 16 17 18 19 20 Image Source: Nearmap (Flown February 2019) 0 200Feet [On-Site Noise 40 dB(A) Leq 45 dB(A) Leq 50 dB(A) Leq 55 dB(A) Leq 60 dB(A) Leq 65 dB(A) Leq !HVAC "6 Loading Docks Delivery Trucks !(Receivers Site Plan Lines Project Boundary M:\JOBS5\9434\common_gis\fig7b_nos.mxd 3/19/2019 bma Noise Sources Noise Analysis Eastlake Behavioral Health Hospital Project Page 25 Table 11 Heating, Ventilation, and Air Conditioning Noise Levels at Adjacent Properties Receiver Land Use Noise Level [dB(A) Leq] Noise Ordinance Limit Daytime/Nighttime [dB(A) Leq] With Generator Without Generator 1 Residential 38 37 55/45 2 Residential 38 37 55/45 3 Residential 35 34 55/45 4 Residential 40 40 55/45 5 Residential 39 39 55/45 6 Residential 39 38 55/45 7 Residential 40 40 55/45 8 Residential 41 40 55/45 9 Residential 43 43 55/45 10 Residential 43 42 55/45 11 Residential 44 41 55/45 12 Residential 45 40 55/45 13 Commercial 49 42 65/60 14 Commercial 54 47 65/60 15 Commercial 54 51 65/60 16 Commercial 50 48 65/60 17 Boat/RV Storage 44 42 -- 18 Boat/RV Storage 46 46 -- 19 Commercial 45 45 65/60 20 Commercial 40 39 65/60 As shown, on-site generated noise levels at the residential property lines would range from 35 to 45 dB(A) Leq with the generator running and 34 to 43 dB(A) Leq without the generator running. Noise levels would not exceed the single-family residential CVMC limits. At the commercial property lines, noise levels would range from 40 to 54 dB(A) Leq with the generator running and 39 to 51 without the generator running. Noise levels would not exceed the commercial CVMC limits. Therefore, impacts related to on-site generated noise would be less than significant. 6.0 Conclusions 6.1 Construction Noise As shown in Table 8, construction noise levels would range from 56 to 68 dB(A) Leq at the adjacent property lines. Although the existing adjacent residences would be exposed to construction noise levels that could be heard above ambient conditions, the exposure would be temporary. Additionally, construction activities would occur between the hours of 7:00 a.m. and 10:00 p.m. Monday through Friday, and between the hours of 8:00 a.m. and 10:00 p.m. Saturday and Sunday, as specified in the CVMC. Because construction activities associated with the project would comply with the applicable regulation for construction, temporary increases in noise levels from construction activities would be less than significant. Noise Analysis Eastlake Behavioral Health Hospital Project Page 26 6.2 Traffic Noise 6.2.1 On-site Traffic Noise The main sources of vehicle traffic noise at the project site are Hunte Parkway, Fenton Street, Showroom Place, Yosemite Drive, and River Rock Road. The exterior noise level standard for noise sensitive uses such as the project is 65 CNEL. This standard is applicable at exterior use areas which include the six proposed exterior activity areas and the staff outdoor area. As shown in Table 9, noise levels at the staff outdoor area and the exterior activity areas would range from 31 to 45 CNEL. Noise levels at the exterior use areas would be compatible with the City’s standard of 65 CNEL. Exterior noise levels at the building façade are projected to range from 38 to 51 CNEL. The interior noise level standard is 50 CNEL. When windows are open, standard construction techniques provide a 10 dB exterior-to-interior noise level reduction (FHWA 2011). Based on these standards, interior noise levels would be reduced to 41 CNEL or less. Therefore, impacts related to on-site traffic noise would be less than significant. 6.2.2 Off-site Traffic Noise The additional vehicle trips associated with the project would increase noise levels on nearby roadways. A noise increase of 3 dB or more would be considered significant because 3 dB is the level at which an increase in noise is perceptible to a person. As shown in Table 10, direct off-site noise level increases due to the project would be 1 dB or less. Therefore, direct off-site noise impacts associated with the project would be less than significant. The total horizon year (year 2035) plus project increase over the existing condition would range from less than 1 dB to 5 dB. However, the project’s contribution to the increase over ambient noise levels would be 1 dB or less. Therefore, the project would result in a less than cumulatively considerable off-site noise level increase, and cumulative traffic noise impacts associated with the project would be less than significant. 6.3 On-site Generated Noise The primary noise sources on-site would be HVAC equipment, an emergency generator, and truck deliveries and loading dock activities. For a worst-case analysis, property line noise levels due to all noise sources were modeled and compared to the most restrictive nighttime CVMC limits. Typical noise levels without the continuous operation of the emergency generator were also modeled. As shown in Table 11, property line noise levels with and without operation of the emergency generator are not projected to exceed the applicable residential and commercial CVMC limits. Therefore, impacts related to on-site generated noise would be less than significant. Noise Analysis Eastlake Behavioral Health Hospital Project Page 27 7.0 References Cited California Code of Regulations 2016 2016 California Building Code, California Code of Regulations, Title 24, Chapter 12 Interior Environment, Section 1207, Sound Transmission, accessed at http://www.bsc.ca.gov/codes.aspx. California Department of Transportation (Caltrans) 2013 Technical Noise Supplement. November. Chula Vista, City of 2005 Vision 2020 General Plan. Adopted December 13. 2011 City of Chula Vista Subdivision Manual, Section 3: General Design Criteria. Revised March 13, 2012. Federal Highway Administration (FHWA) 2006 Roadway Construction Noise Model. FHWA-HEP-05-054, SOT-VNTSC-FHWA-05- 01. Final Report. January 2006. 2011 Highway Traffic Noise: Analysis and Abatement Guidance. FHWA-HEP-10-025. December 2011. Linscott, Law and Greenspan, Engineers, Inc. 2019 Project Trip Generation and Segment Volume data. Emailed to RECON March 12, 2019. Navcon Engineering, Inc. 2015 SoundPLAN Essential version 4.1. Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENTS Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 1 Noise Measurement Data Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 2 Tran Model T/YSCE120ED Specifications 118 RT-PRC039C-EN Fan Performance \ Table 6. Standard motor & low static drive accessory sheave/fan speed (rpm) Unit Model Number Fan 6 Turns 5 Turns 4 Turns 3 Turns 2 Turns 1 Turn Tons Sheave Open Open Open Open Open Open Closed 5 WSC060ED AK44x3/4" N/A 720 791 861 931 1002 1072 6 WSC072ED AK56x1" N/A 558 612 665 718 772 825 7½ WSC090ED AK57x1" N/A 688 737 787 837 887 N/A 10 WSC120ED AK105X1" N/A 724 776 828 880 932 984 Note:Factory set at 3 turns open. Table 7. Standard motor & high static drive accessory sheave/fan speed (rpm) Unit Model Number Fan 6 Turns 5 Turns 4 Turns 3 Turns 2 Turns 1 Turn Tons Sheave Open Open Open Open Open Open Closed 6 WSC072ED AK56x1" N/A 968 1018 1068 1118 1169 1219 7½ WSC090ED AK57x1" 1053 1091 1129 1166 1204 1242 N/A 10 WSC120ED AK105X1" 1110 1159 1209 1258 1308 1357 N/A Note:Factory set at 3 turns open. Table 8. Oversized motor & high static drive accessory sheave/fan speed (rpm) Unit Model Number Fan 6 Turns 5 Turns 4 Turns 3 Turns 2 Turns 1 Turn Tons Sheave Open Open Open Open Open Open Closed 7½ WSC090ED AK85x1" 1186 1249 1311 1373 1436 N/A N/A Note:Factory set at 3 turns open. Table 9. Outdoor sound power level—dB (ref. 10—2 W) Unit Model Number Octave Center Frequency Overall dBATons 63 125 250 500 1000 2000 4000 8000 5 T/YSC060ED 84 91 79 77 74 71 68 63 80 6 T/YSC072ED 83 90 86 82 79 75 70 63 85 7½T/YSC090ED 83 90 86 83 80 75 71 64 85 8.5 T/YSC102ED 83 89 84 81 77 72 69 62 83 10 T/YSC120ED 83 86 80 77 73 69 66 60 79 Note:Tests follow ARI270-95. Table 10. Outdoor sound power level—dB (ref. 10—12 W) Unit Model Number Octave Center Frequency Overall Tons 63 125 250 500 1000 2000 4000 8000 dBA 5 WSC060ED 84 91 79 77 74 71 68 63 80 6 WSC072ED 83 90 86 82 79 75 70 63 85 7½WSC090ED 83 90 86 83 80 75 71 64 85 10 WSC120ED 83 86 80 77 73 69 66 60 79 Note:Tests follow ARI270-95. Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 3 Cat C27 Diesel Genertor Specifications Standard Features Standby 60 Hz ekW (kVA) Prime 60 Hz ekW (kVA) Standby 60 Hz ekW (kVA) Prime 60 Hz ekW (kVA)Emissions Performance 750 (937)680 (850)800 (1000)725 (906)U.S. EPA Emergency Stationary Use Only (Tier 2) Image shown may not refl ect actual confi guration Bore – mm (in)137.2 (5.4) Stroke – mm (in)152.4 (6.0) Displacement – L (in3)27.03 (1649.47) Compression Ratio 16.5:1 Aspiration TA Fuel System MEUI Governor Type ADEM™ A4 Cat® Diesel Engine • Meets U.S. EPA Emergency Stationary Use Only (Tier 2) emission standards • Reliable performance proven in thousands of applications worldwide Generator Set Package • Accepts 100% block load in one step and meets other NFPA 110 loading requirements • Conforms to ISO 8528-5 G3 load acceptance requirements • Reliability verified through torsional vibration, fuel consumption, oil consumption, transient performance, and endurance testing Alternators • Superior motor starting capability minimizes need for oversizing generator • Designed to match performance and output characteristics of Cat diesel engines Cooling System • Cooling systems available to operate in ambient temperatures up to 50°C (122°F) • Tested to ensure proper generator set cooling EMCP 4 Control Panels • User-friendly interface and navigation • Scalable system to meet a wide range of installation requirements • Expansion modules and site specific programming for specific customer requirements Warranty • 24 months/1000-hour warranty for standby and mission critical ratings • 12 months/unlimited hour warranty for prime and continuous ratings • Extended service protection is available to provide extended coverage options Worldwide Product Support • Cat dealers have over 1,800 dealer branch stores operating in 200 countries • Your local Cat dealer provides extensive post-sale support, including maintenance and repair agreements Financing • Caterpillar offers an array of financial products to help you succeed through financial service excellence • Options include loans, finance lease, operating lease, working capital, and revolving line of credit • Contact your local Cat dealer for availability in your region Cat® C27 Diesel Generator Sets LEHE1213-03 Page 1 of 4 C27 Diesel Generator Sets Electric Power LEHE1213-03 Page 2 of 4 Optional Equipment Engine Air Cleaner ❑ Single element ❑ Dual element ❑ Heavy duty Muffler ❑ Residential grade (25 dB) Starting ❑ Standard batteries ❑ Oversized batteries ❑ Standard electric starter(s) ❑ Jacket water Alternator Output voltage ❑ 208V ❑ 240V ❑ 480V ❑ 600V Temperature Rise (over 40°C ambient) ❑ 150°C ❑ 125°C ❑ 105°C ❑ 80°C Winding type ❑ Random wound Excitation ❑ Internal excitation (IE) Attachments ❑ Anti-condensation heater ❑ Stator and bearing temperature monitoring and protection Power Termination Type ❑ Bus bar ❑ Circuit breaker ❑ 400A ❑ 800A ❑ 1200A ❑ 1600A ❑ 2000A ❑ 2500A ❑ 3000A ❑ UL ❑ IEC ❑ 3-pole ❑ 4-pole ❑ Manually operated ❑ Electrically operated Trip Unit ❑ LSI ❑ LSI-G ❑ LSIG-P Factory Enclosure ❑ Sound attenuated Attachments ❑ Cold weather bundle ❑ DC lighting package ❑ Motorized louvers Fuel Tank ❑ 1000 gal (3785 L) ❑ 2000 gal (7571 L) ❑ 3600 gal (13627 L) Control System Controller ❑ EMCP 4.2B ❑ EMCP 4.3 ❑ EMCP 4.4 Attachments ❑ Local annunciator module ❑ Remote annunciator module ❑ Expansion I/O module ❑ Remote monitoring software Charging ❑ Battery charger – 10A ❑ Battery charger – 20A ❑ Battery charger – 30A Vibration Isolators ❑ Rubber ❑ Spring ❑ Seismic rated Cat Connect Connectivity ❑ Ethernet ❑ Cellular ❑ Satellite Extended Service Options Terms ❑ 2 year (prime) ❑ 3 year ❑ 5 year ❑ 10 year Coverage ❑ Silver ❑ Gold ❑ Platinum ❑ Platinum Plus Ancillary Equipment ❑ Automatic transfer switch (ATS) ❑ Uninterruptible power supply (UPS) ❑ Paralleling switchgear ❑ Paralleling controls Certifications ❑ UL2200 ❑ IBC seismic certification ❑ OSHPD pre-approval ❑ EU Certification of Conformance (CE) ❑ EEC Declaration of Conformity Note: Some options may not be available on all models. Certifi cations may not be available with all model confi gurations. Consult factory for availability. C27 Diesel Generator Sets Electric Power LEHE1213-03 Page 3 of 4 Package Performance Performance Standby Prime Standby Prime Frequency 60 Hz 60 Hz 60 Hz 60 Hz Gen set power rating with fan 750 ekW 680 ekW 800 ekW 725 ekW Gen set power rating with fan @ 0.8 power factor 937 kVA 850 kVA 1000 kVA 906 kVA Emissions EPA ESE (Tier 2)EPA ESE (Tier 2)EPA ESE (Tier 2)EPA ESE (Tier 2) Performance number DM9071-03 DM9073-02 DM7696-02 DM9069-02 Fuel Consumption 100% load with fan – L/hr (gal/hr)202.9 (53.6)187.4 (49.5)216.9 (57.3)199.6 (52.7) 75% load with fan – L/hr (gal/hr)162.4 (42.9)149.6 (39.5)171.7 (45.4)157.8 (41.7) 50% load with fan – L/hr (gal/hr)116.2 (30.7)107.0 (28.3)122.3 (32.3)112.5 (29.7) 25% load with fan – L/hr (gal/hr)70.6 (18.7)66.0 (17.4)73.9 (19.5)69.0 (18.2) Cooling System Radiator air flow restriction (system) – kPa (in. water)0.12 (0.48)0.12 (0.48)0.12 (0.48)0.12 (0.48) Radiator air flow – m3/min (cfm)1200 (42377)1200 (42377)1200 (42377)1200 (42377) Engine coolant capacity – L (gal)55.0 (14.5)55.0 (14.5)55.0 (14.5)55.0 (14.5) Radiator coolant capacity – L (gal)41.0 (10.0)41.0 (10.0)41.0 (10.0)41.0 (10.0) Total coolant capacity – L (gal)96 (24.5)96 (24.5)96 (24.5)96 (24.5) Inlet Air Combustion air inlet flow rate – m3/min (cfm)58.7 (2073.6)56.0 (1977.7)62.8 (2216.4)60.3 (2129.4) Exhaust System Exhaust stack gas temperature – °C (°F)509.3 (948.7)502.5 (936.5)511.4 (952.5)500.6 (933.0) Exhaust gas flow rate – m3/min (cfm)158.9 (5610.2)149.7 (5285.5)170.3 (6011.7)160.7 (5674.4) Exhaust system backpressure (maximum allowable) – kPa (in. water)6.7 (27.0)6.7 (27.0)6.7 (27.0)6.7 (27.0) Heat Rejection Heat rejection to jacket water – kW (Btu/min)324 (18441)307 (17433)330 (18785)320 (18191) Heat rejection to exhaust (total) – kW (Btu/min)738 (41994)693 (39387)796 (45257)741 (42135) Heat rejection to aftercooler – kW (Btu/min)139 (7898)123 (6970)162 (9235)146 (8320) Heat rejection to atmosphere from engine – kW (Btu/min)110 (6249)92 (5238)110 (6240)89 (5074) Heat rejection from alternator – kW (Btu/min)53 (3014)47 (2644)40 (2292)37 (2081) Emissions (Nominal) NOx mg/Nm3 (g/hp-h)2637.1 (5.25)2330.9 (4.68)2580.0 (5.18)2283.7 (4.61) CO mg/Nm3 (g/hp-h)123.9 (0.25)147.4 (0.29)115.1 (0.23)135.6 (0.27) HC mg/Nm3 (g/hp-h)11.2 (0.03)10.9 (0.02)12.5 (0.03)12.2 (0.03) PM mg/Nm3 (g/hp-h)8.8 (0.02)8.8 (0.02)9.7 (0.02)9.0 (0.02) C27 Diesel Generator Sets Electric Power Ratings Defi nitions Standby Output available with varying load for the duration of the interruption of the normal source power. Average power output is 70% of the standby power rating. Typical operation is 200 hours per year, with maximum expected usage of 500 hours per year. Prime Output available with varying load for an unlimited time. Average power output is 70% of the prime power rating. Typical peak demand is 100% of prime rated ekW with 10% overload capability for emergency use for a maximum of 1 hour in 12. Overload operation cannot exceed 25 hours per year. Applicable Codes and Standards AS1359, CSA C22.2 No100-04, UL142, UL489, UL869, UL2200, NFPA37, NFPA70, NFPA99, NFPA110, IBC, IEC60034-1, ISO3046, ISO8528, NEMA MG1-22, NEMA MG1-33, 2014/35/EU, 2006/42/EC, 2014/30/EU. Note: Codes may not be available in all model configurations. Please consult your local Cat dealer for availability. Data Center Applications Tier III/Tier IV compliant per Uptime Institute requirements. ANSI/TIA-942 compliant for Rated-1 through Rated-4 data centers. Fuel Rates Fuel rates are based on fuel oil of 35º API [16°C (60ºF)] gravity having an LHV of 42,780 kJ/kg (18,390 Btu/lb) when used at 29ºC (85ºF) and weighing 838.9 g/liter (7.001 lbs/U.S. gal.) www.cat.com/electricpower ©2017 Caterpillar All rights reserved. Materials and specifications are subject to change without notice. The International System of Units (SI) is used in this publication. CAT, CATERPILLAR, their respective logos, ADEM, “Caterpillar Yellow”, the “Power Edge” trade dress as well as corporate and product identity used herein, are trademarks of Caterpillar and may not be used without permission. C27 PGBG LEHE1213-03 (5-17) Weights and Dimensions Dim “A” mm (in) Dim “B” mm (in) Dim “C” mm (in) Dry Weight kg (lb) 4674 (184.0)1723 (67.8)2162 (85.1)6622 (14,600) Note: For reference only. Do not use for installation design. Contact your local Cat dealer for precise weights and dimensions. A B C LEHE0407-01 ENCLOSURES Image shown may not reflect actual package SOUND ATTENUATED ENCLOSURES FOR C27 and C32 GENERATOR SETS These sound attenuated, factory installed enclosures are designed for safety and aesthetic value. Rugged construction provides weather protection and the ability to withstand exposure to the elements. FEATURES ROBUST/HIGHLY CORROSION RESISTANT CONSTRUCTION Environmentally friendly, polyester powder baked paint in Caterpillar yellow. Zinc plated or stainless steel fasteners 14 gauge steel construction Pitched roof for improved rain ingress protection Critical grade internally mounted muffler/exhaust system Vibration spring isolators 75 dBA at 7m EXCELLENT ACCESS Control panel mounted on left side or right side of package Large cable entry area for ease of installation Left hand or right hand bottom entry access to power cable bus or circuit breaker Double doors on both sides Lube oil and coolant drains piped to exterior of enclosure and terminated drain valves OPTIONS Interior AC lighting system and AC receptacles (interior and exterior) AC distribution box Interior DC lighting system with automatic shutoff timer Cold weather bundle, including motorized louvers (powered closed), back draft dampers and enclosure space heater Yellow (default), white, grey, or beige paint 1000 gal., 2000 gal., 3600 gal. fuel tanks 120 mph wind loading SECURITY AND SAFETY Lockable access doors with standard key utilization Cooling fan and battery charging alternator fully guarded Oil fill and battery can only be reached via lockable access External fuel connections. Externally mounted emergency stop button Designed for spreader-bar lifting to ensure safety Certifications UL Listed Seismic certification per applicable building codes: IBC 2000, IBC 2003, IBC 2006, IBC 2009, IBC 2012 CBC 2007 IBC certifiable for 120 mph wind loading Tested and analyzed in accordance with: ASCE 7-98, ASCE 7-02, ASCE 7-05, ICC-ES AC-156 LEHE0407-01 ENCLOSURES Note: For reference only – do not use for installation design. Please contact your dealer for exact weights and dimensions. Materials and specifications are subject to change without notice. CAT, CATERPILLAR, their respective logos, “Caterpillar Yellow”, the “Power Edge” trade dress as well as corporate and product identity used herein, are trademarks of Caterpillar and may not be used without permission. www.cat-electricpower.com LEHE0407-01 (10/13) ©2013 Caterpillar All rights reserved. mm in mm in mm in kg lbs. Enclosure with sub base 7,010.4 276.0 2,554.1 100.6 2,844.4 112.0 3,500.0 7,716.2 Enclosure with 1000 gal tank base 7,645.4 301.0 2,554.1 100.6 3,213.1 126.5 5,920.0 13,051.4 Enclosure with 2000 gal tank base 7,645.4 301.0 2,554.1 100.6 3,454.4 136.0 6,050.0 13,338.0 Enclosure with 3600 gal tank 9,750.0 383.9 2,554.1 100.6 3,758.8 148.0 7,000.0 15,432.4 *Weight does not include package generator set weight. Weight* NOTE: For reference only - do not use for installation design. Please contact your local dealer for exact weight and dimensions. ENCLOSURE WEIGHTS AND DIMENSIONS Length Width Height ATTACHMENTS Image shown may not reflect actual package SUB BASE FUEL TANK for C27 and C32 ENCLOSURE Diesel Generator Set Dual Wall sub base fuel tanks offer an integrated fuel solution for your Cat® diesel generator set. FEATURES • UL 142 (US) and ULC S601 (Canada) Listed • NFPA 30, 37 and 110 installation compliant • CSA C282-09 and B139-04 installation compliant • Dual wall, secondary containment (minimum of 110% of primary tank capacity) • Tank design provides capacity for thermal expansion of fuel • Direct reading fuel level gauge • Fuel supply dip tube is positioned so as not to pick up fuel sediment • Fuel return and supply dip tubes are separated by an internal baffle to prevent recirculation of heated return fuel • Fuel fill – 101.6 mm (4 in), lockable flip top cap • Primary tank level detection switch in containment basin • Primary and secondary tanks are leak tested at 20.7 kPa (3 psi) minimum • Interior tank surfaces coated with a solvent- based thin-film rust preventative • Heavy gauge steel gussets suitable for lifting package • Gloss black polyester alkyd acrylic enamel exterior paint over epoxy based primer • Primary tanks are equipped with customer connections for remote fuel transfer, return, and vent. Additional ports provided for customer use. • 2” Atmospheric screened vent cap • Lockable 2" raised fuel fill with optional seven gallon spill containment • Leak detection switch • Port for access to containment tank • Removable engine supply and return dip tubes • Fittings for opt fuel levels or auxiliary fuel pump • Excellent stub-up access beneath circuit breaker (within fuel tank) • Emergency vents on primary and secondary tanks are sized in accordance with NFPA 30, external to enclosure. • Compatible with factory enclosures only • Optional installed fuel level indication at the generator set control panel. • Seismic certification per applicable building codes: IBC 2000, IBC 2003, IBC 2006, IBC 2009, CBC 2007 • Tested and analyzed in accordance with: ASCE 7-98, ASCE 7-02, ASCE 7-05, ICC- ES AC-156 • Anchoring details are site specific, and are dependant on many factors such as generator set size, weight, and concrete strength. IBC Certification requires that the anchoring system used is reviewed and approved by a Professional Engineer. LEHE0408-00 ATTACHMENTS ekW kVA SB/PP/CN 1000 gal 2000 gal 3600 gal 1000 1250 SB C32 Low BSFC 14.4 28.8 51.9 910 1138 PP C32 Low BSFC 15.9 31.7 57.1 830 1038 CN C32 Low BSFC 17.4 34.7 62.5 800 1000 SB C27 Low BSFC 17.8 35.5 63.9 725 906 PP C27 Low BSFC 19.3 38.6 69.5 750 938 SB C27 Low BSFC 18.9 37.8 68.1 680 850 PP C27 Low BSF C 20.7 41.3 74.4 ekW kVA SB/PP/CN 1000 gal 2000 gal 3600 gal 1000 1250 SB C32 ESE (Tier 2) 13.9 27.8 50.1 910 1138 PP C32 ESE (Tier 2) 15.2 30.4 54.8 830 1038 CN C32 ESE (Tier 2) 16.3 32.6 58.7 800 1000 SB C27 ESE (Tier 2) 17.5 34.9 62.8 725 906 PP C27 ESE (Tier 2) 19.0 38.0 68.3 750 938 SB C27 ESE (Tier 2) 18.7 37.3 67.2 680 850 PP C27 ESE (Tier 2) 20.2 40.4 72.7 ekW kVA SB/PP/CN 1000 gal 2000 gal 3600 gal 800 640 SB C27 Tier 4 Interim 17.0 34.0 61.1 725 580 PP C27 Tier 4 Interim 18.8 37.6 67.7 Rating Engine Strategy Run Time @ 100% Load (Hrs) Rating Engine Strategy Run Time @ 100% Load (Hrs) Rating Strategy Run Time @ 100% Load (Hrs)Engine Information contained in this publication may be considered confidential. Discretion is recommended when distributing. Materials and specifications are subject to change without notice. CAT, CATERPILLAR, their respective logos, “Caterpillar Yellow,” the “Power Edge” trade dress as well as corporate and product identity used herein, are trademarks of Caterpillar and may not be used without permission. www.Cat-ElectricPower.com ©2013 Caterpillar. LEHE0408-00 (01/13) All Rights Reserved. Printed in U.S.A. Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 4 SoundPLAN Data – Construction Noise 9434 Chula Vista Behavioral Health Project SoundPLAN Data - Construction Level Source name Reference Leq1 Cwall CI CT dB(A)dB(A)dB(A)dB(A) Construction Lw/unit 117 --- Corrections Construction 9434 Chula Vista Behavioral Health Project SoundPLAN Data - Construction Limit Level w/o NP Level w NP Difference Conflict No.X Y Floor Height Leq1 Leq1 Leq1 Leq1 Leq1 m dB(A)dB(A)dB(A)dB dB 1 504334.51 3612987.37 1.Fl 201.45 -56.8 0 -56.8 - 2 504324.77 3613013.62 1.Fl 201.45 -57.7 0 -57.7 - 3 504320.96 3613049.60 1.Fl 200.58 -57.4 0 -57.4 - 4 504328.16 3613078.81 1.Fl 197.64 -56.1 0 -56.1 - 5 504336.63 3613197.35 1.Fl 205.72 -56.4 0 -56.4 - 6 504299.37 3613191.00 1.Fl 207.15 -58.1 0 -58.1 - 7 504263.39 3613193.11 1.Fl 210.70 -60.8 0 -60.8 - 8 504229.52 3613202.43 1.Fl 210.68 -57.9 0 -57.9 - 9 504200.31 3613215.97 1.Fl 210.59 -56.8 0 -56.8 - 10 504137.66 3613250.69 1.Fl 215.47 -59.4 0 -59.4 - 11 504084.74 3613243.91 1.Fl 213.64 -58.9 0 -58.9 - 12 504046.64 3613248.57 1.Fl 212.13 -57.7 0 -57.7 - 13 504022.51 3613221.05 1.Fl 211.20 -57.9 0 -57.9 - 14 504055.53 3613150.78 1.Fl 211.08 -61.9 0 -61.9 - 15 504055.11 3613097.86 1.Fl 210.59 -62.6 0 -62.6 - 16 504053.41 3613030.98 1.Fl 209.98 -62.5 0 -62.5 - 17 504052.14 3612974.25 1.Fl 209.37 -60.3 0 -60.3 - 18 504064.84 3612946.73 1.Fl 209.11 -57.0 0 -57.0 - 19 504131.73 3612970.02 1.Fl 215.64 -68.4 0 -68.4 - 20 504260.85 3612967.48 1.Fl 213.98 -68.3 0 -68.3 - Coordinates in meter Receivers Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 5 SoundPLAN Data – On-site Traffic Noise 9434 Chula Vista Behavioral Health Project SoundPLAN Data - Vehicle Traffic Traffic values Control Constr. Affect. Gradient Station ADT Vehicles type Vehicle name day evening night Speed device Speed veh. Road surface Min / Max km Veh/24h Veh/h Veh/h Veh/h km/h km/h %% Hunte Parkway Traffic direction: In entry direction 0+000 33801 Total -2169 1127 488 - none - - Average (of DGAC and PCC) -0.992753623 0+000 33801 Automobiles -2061 1071 464 72 none - - Average (of DGAC and PCC) -0.992753623 0+000 33801 Medium trucks -43 23 10 72 none - - Average (of DGAC and PCC) -0.992753623 0+000 33801 Heavy trucks -22 11 5 72 none - - Average (of DGAC and PCC) -0.992753623 0+000 33801 Buses -22 11 5 72 none - - Average (of DGAC and PCC) -0.992753623 0+000 33801 Motorcycles -22 11 5 72 none - - Average (of DGAC and PCC) -0.992753623 0+000 33801 Auxiliary vehicle -- - - - none - - Average (of DGAC and PCC) -0.992753623 1+922 - --- - - Fenton Street Traffic direction: In entry direction 0+000 24795 Total -1591 827 358 - none - - Average (of DGAC and PCC) -0.461538462 0+000 24795 Automobiles -1511 786 340 56 none - - Average (of DGAC and PCC) -0.461538462 0+000 24795 Medium trucks -32 17 7 56 none - - Average (of DGAC and PCC) -0.461538462 0+000 24795 Heavy trucks -16 8 4 56 none - - Average (of DGAC and PCC) -0.461538462 0+000 24795 Buses -16 8 4 56 none - - Average (of DGAC and PCC) -0.461538462 0+000 24795 Motorcycles -16 8 4 56 none - - Average (of DGAC and PCC) -0.461538462 0+000 24795 Auxiliary vehicle -- - - - none - - Average (of DGAC and PCC) -0.461538462 0+865 - --- - - Showroom Place Traffic direction: In entry direction 0+000 2403 Total -154 80 35 - none - - Average (of DGAC and PCC) -1.370967742 0+000 2403 Automobiles -146 76 33 40 none - - Average (of DGAC and PCC) -1.370967742 0+000 2403 Medium trucks -3 2 1 40 none - - Average (of DGAC and PCC) -1.370967742 0+000 2403 Heavy trucks -2 1 0 40 none - - Average (of DGAC and PCC) -1.370967742 0+000 2403 Buses -2 1 0 40 none - - Average (of DGAC and PCC) -1.370967742 0+000 2403 Motorcycles -2 1 0 40 none - - Average (of DGAC and PCC) -1.370967742 0+000 2403 Auxiliary vehicle -- - - - none - - Average (of DGAC and PCC) -1.370967742 0+317 - --- - - Yosemite Drive Traffic direction: In entry direction 0+000 1197 Total -77 40 17 - none - - Average (of DGAC and PCC) -0.763157895 0+000 1197 Automobiles -73 38 16 40 none - - Average (of DGAC and PCC) -0.763157895 0+000 1197 Medium trucks -2 1 0 40 none - - Average (of DGAC and PCC) -0.763157895 0+000 1197 Heavy trucks -1 0 0 40 none - - Average (of DGAC and PCC) -0.763157895 0+000 1197 Buses -1 0 0 40 none - - Average (of DGAC and PCC) -0.763157895 0+000 1197 Motorcycles -1 0 0 40 none - - Average (of DGAC and PCC) -0.763157895 0+000 1197 Auxiliary vehicle -- - - - none - - Average (of DGAC and PCC) -0.763157895 0+646 - --- - - River Rock Road Traffic direction: In entry direction 0+000 1197 Total -77 40 17 - none - - Average (of DGAC and PCC) -0.555555556 0+000 1197 Automobiles -73 38 16 40 none - - Average (of DGAC and PCC) -0.555555556 0+000 1197 Medium trucks -2 1 0 40 none - - Average (of DGAC and PCC) -0.555555556 0+000 1197 Heavy trucks -1 0 0 40 none - - Average (of DGAC and PCC) -0.555555556 0+000 1197 Buses -1 0 0 40 none - - Average (of DGAC and PCC) -0.555555556 0+000 1197 Motorcycles -1 0 0 40 none - - Average (of DGAC and PCC) -0.555555556 0+000 1197 Auxiliary vehicle -- - - - none - - Average (of DGAC and PCC) -0.555555556 0+806 - --- - - Road 9434 Chula Vista Behavioral Health Project SoundPLAN Data - Vehicle Traffic Limit Noise Level without NP No. X Y Floor Height Lden Lden m 1 504116.48 3613152.17 1.Fl 219.96 65 41.0 2 504151.67 3613138.70 1.Fl 219.96 65 33.5 3 504224.51 3613137.33 1.Fl 218.34 65 40.0 4 504264.91 3613098.57 1.Fl 217.91 65 44.8 5 504201.14 3613099.67 1.Fl 218.60 65 31.5 6 504171.18 3613100.50 1.Fl 218.95 65 31.2 7 504108.51 3613102.15 1.Fl 218.42 65 35.5 8 504115.38 3613076.58 1.Fl 217.91 - 39.1 9 504185.20 3613066.14 1.Fl 218.01 - 41.3 10 504275.63 3613080.98 1.Fl 217.49 -50.2 11 504270.96 3613112.32 1.Fl 217.91 -49.5 12 504233.30 3613150.80 1.Fl 218.41 -47.8 13 504188.22 3613167.57 1.Fl 220.37 -50.9 14 504142.87 3613153.00 1.Fl 220.29 -40.2 15 504103.56 3613116.71 1.Fl 218.70 -37.8 Coordinates in meter Receivers 9434 Chula Vista Behavioral Health Project SoundPLAN Data - Vehicle Traffic Noise Level without NP Source name Traffic lane Lden 1 1.Fl 41.0 0.0 Fenton Street -33.3 Hunte Parkway -39.8 River Rock Road -30.0 Showroom Place -13.9 Yosemite Drive -9.7 2 1.Fl 33.5 0.0 Fenton Street -27.6 Hunte Parkway -31.1 River Rock Road -25.4 Showroom Place -15.2 Yosemite Drive -10.5 3 1.Fl 40.0 0.0 Fenton Street -26.6 Hunte Parkway -39.7 River Rock Road -17.7 Showroom Place -13.6 Yosemite Drive -14.6 4 1.Fl 44.8 0.0 Fenton Street -26.3 Hunte Parkway -44.7 River Rock Road -14.2 Showroom Place -15.3 Yosemite Drive -23.6 5 1.Fl 31.5 0.0 Fenton Street -26.6 Hunte Parkway -29.4 River Rock Road -14.0 Showroom Place -16.7 Yosemite Drive -11.1 6 1.Fl 31.2 0.0 Fenton Street -27.1 Hunte Parkway -28.6 River Rock Road -15.7 Showroom Place -16.8 Yosemite Drive -11.1 7 1.Fl 35.5 0.0 Fenton Street -34.1 Hunte Parkway -28.4 River Rock Road -24.7 Showroom Place -15.2 Yosemite Drive -9.5 8 1.Fl 39.1 0.0 Fenton Street -38.0 Hunte Parkway -24.9 River Rock Road -12.1 Showroom Place -31.4 Yosemite Drive -6.5 9 1.Fl 41.3 0.0 Fenton Street -36.5 Hunte Parkway -36.4 River Rock Road -9.2 Contributions 9434 Chula Vista Behavioral Health Project SoundPLAN Data - Vehicle Traffic Showroom Place -36.6 Yosemite Drive -20.3 10 1.Fl 50.2 0.0 Fenton Street -27.8 Hunte Parkway -50.1 River Rock Road -12.4 Showroom Place -12.7 Yosemite Drive -34.1 11 1.Fl 49.5 0.0 Fenton Street -22.5 Hunte Parkway -49.5 River Rock Road -18.6 Showroom Place -13.5 Yosemite Drive -29.0 12 1.Fl 47.8 0.0 Fenton Street -22.4 Hunte Parkway -47.8 River Rock Road -27.4 Showroom Place -12.2 Yosemite Drive -17.7 13 1.Fl 50.9 0.0 Fenton Street -22.1 Hunte Parkway -50.7 River Rock Road -34.5 Showroom Place -9.7 Yosemite Drive -9.4 14 1.Fl 40.2 0.0 Fenton Street -30.5 Hunte Parkway -39.3 River Rock Road -29.7 Showroom Place -13.7 Yosemite Drive -3.1 15 1.Fl 37.8 0.0 Fenton Street -36.1 Hunte Parkway -30.6 River Rock Road -28.7 Showroom Place -11.2 Yosemite Drive -3.2 Contributions Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 6 FHWA RD-77-108 – Off-site Traffic Noise 9434 Chula Vista Behavioral Health ProjectFHWA RD-77-108 Off-Site Traffic NoiseRoadway SegmentExistingExisting + Project Difference Near-TermNear-Term + Project DifferenceIncrease Over Existing HorizonHorizon + Project DifferenceIncrease Over Existing1 Otay Lakes Road SR-125 Northbound Ramps to Eastlake Parkway 77 77 0 77 78 0 1 78 78 012 Otay Lakes Road Eastlake Parkway to Lane Avenue757507575017576113 Otay Lakes Road Lane Avenue to Fenton Street737307475027575024 Otay Lakes Road Fenton Street to Hunte Parkway737307475027575025 Otay Lakes Road East of Hunte Parkway707007474047575046 Eastlake Parkway Fenton Street to Otay Lakes Road727207272007273017Fenton Street Lane Avenue to Showroom Place666606767016868028 Fenton Street Showroom Place to Otay Lakes Road656616667126768139 Hunte Parkway Otay Lakes Road to Clubhouse Drive71710717101727201 Data Input SheetProject Name :Chula Vista Behavioral Health ProjectProject Number :9434Surface Refelction:CNELModeled Condition :Existing, Existing + ProjectAssessment Metric:HardPeak ratio to ADT:10.00Traffic Desc. (Peak or ADT) :ADTSegmentRoadwaySegmentTraffic Vol.% Autos %MT % HT Day % Eve % Night %EXISTING1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway43,23450 50 95.00 3.00 2.00 80.00 10.00 10.002Otay Lakes RoadEastlake Parkway to Lane Avenue29,72650 50 95.00 3.00 2.00 80.00 10.00 10.003Otay Lakes RoadLane Avenue to Fenton Street19,20750 50 95.00 3.00 2.00 80.00 10.00 10.004Otay Lakes RoadFenton Street to Hunte Parkway18,74750 50 95.00 3.00 2.00 80.00 10.00 10.005Otay Lakes RoadEast of Hunte Parkway10,67450 50 95.00 3.00 2.00 80.00 10.00 10.006Eastlake ParkwayFenton Street to Otay Lakes Road23,24940 50 95.00 3.00 2.00 80.00 10.00 10.007Fenton StreetLane Avenue to Showroom Place8,20235 50 95.00 3.00 2.00 80.00 10.00 10.008Fenton StreetShowroom Place to Otay Lakes Road6,25635 50 95.00 3.00 2.00 80.00 10.00 10.009Hunte ParkwayOtay Lakes Road to Clubhouse Drive14,91145 50 95.00 3.00 2.00 80.00 10.00 10.00EXISTING + PROJECT1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway44,84250 50 95.00 3.00 2.00 80.00 10.00 10.002Otay Lakes RoadEastlake Parkway to Lane Avenue30,95050 50 95.00 3.00 2.00 80.00 10.00 10.003Otay Lakes RoadLane Avenue to Fenton Street20,43150 50 95.00 3.00 2.00 80.00 10.00 10.004Otay Lakes RoadFenton Street to Hunte Parkway19,13150 50 95.00 3.00 2.00 80.00 10.00 10.005Otay Lakes RoadEast of Hunte Parkway10,72250 50 95.00 3.00 2.00 80.00 10.00 10.006Eastlake ParkwayFenton Street to Otay Lakes Road23,82540 50 95.00 3.00 2.00 80.00 10.00 10.007Fenton StreetLane Avenue to Showroom Place8,99435 50 95.00 3.00 2.00 80.00 10.00 10.008Fenton StreetShowroom Place to Otay Lakes Road7,86435 50 95.00 3.00 2.00 80.00 10.00 10.009Hunte ParkwayOtay Lakes Road to Clubhouse Drive15,07945 50 95.00 3.00 2.00 80.00 10.00 10.00FHWA RD-77-108Traffic Noise Prediction ModelSpeed (Mph)Distance to CLK-Factor Predicted Noise LevelsProject Name :Chula Vista Behavioral Health ProjectProject Number :9434Modeled Condition :Existing, Existing + ProjectAssessment Metric:HardSegmentRoadwaySegmentAuto MT HT Total 75 dB 70 dB 65 dB 60 dB 55 dB 50 dBEXISTING1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway74.7 67.3 69.8 76.5 71 223 706 2,233 7,063 22,3342Otay Lakes RoadEastlake Parkway to Lane Avenue73.1 65.7 68.2 74.9 49 155 489 1,545 4,886 15,4513Otay Lakes RoadLane Avenue to Fenton Street71.2 63.8 66.3 73.0 32 100 315 998 3,155 9,9764Otay Lakes RoadFenton Street to Hunte Parkway71.1 63.7 66.2 72.9 31 97 308 975 3,083 9,7495Otay Lakes RoadEast of Hunte Parkway68.6 61.3 63.7 70.4 17 55 173 548 1,734 5,4826Eastlake ParkwayFenton Street to Otay Lakes Road69.2 63.1 66.2 71.6 23 72 229 723 2,285 7,2277Fenton StreetLane Avenue to Showroom Place63.0 57.7 61.1 65.9 6 19 62 195 615 1,9458Fenton StreetShowroom Place to Otay Lakes Road61.8 56.5 60.0 64.7 5 15 47 148 467 1,4769Hunte ParkwayOtay Lakes Road to Clubhouse Drive68.8 62.0 64.7 70.8 19 60 190 601 1,901 6,011EXISTING + PROJECT1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway74.9 67.5 69.9 76.6 72 229 723 2,285 7,227 22,8542Otay Lakes RoadEastlake Parkway to Lane Avenue73.3 65.9 68.3 75.0 50 158 500 1,581 5,000 15,8113Otay Lakes RoadLane Avenue to Fenton Street71.4 64.1 66.5 73.2 33 104 330 1,045 3,303 10,4464Otay Lakes RoadFenton Street to Hunte Parkway71.2 63.8 66.2 72.9 31 97 308 975 3,083 9,7495Otay Lakes RoadEast of Hunte Parkway68.6 61.3 63.7 70.4 17 55 173 548 1,734 5,4826Eastlake ParkwayFenton Street to Otay Lakes Road69.3 63.2 66.3 71.7 23 74 234 740 2,339 7,3967Fenton StreetLane Avenue to Showroom Place63.4 58.1 61.5 66.3 7 21 67 213 674 2,1338Fenton StreetShowroom Place to Otay Lakes Road62.8 57.5 61.0 65.7 6 19 59 186 587 1,8589Hunte ParkwayOtay Lakes Road to Clubhouse Drive68.8 62.1 64.8 70.9 19 62 195 615 1,945 6,151Noise Levels, dBA HardDistance to Traffic Noise Level Contours, FeetFHWA RD-77-108Traffic Noise Prediction Model Data Input SheetProject Name :Chula Vista Behavioral Health ProjectProject Number :9434Surface Refelction:CNELModeled Condition :Near-Term, Near-Term + Project (2025)Assessment Metric:HardPeak ratio to ADT:10.00Traffic Desc. (Peak or ADT) :ADTSegmentRoadwaySegmentTraffic Vol.% Autos %MT % HT Day % Eve % Night %NEAR-TERM1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway53,10050 50 95.00 3.00 2.00 80.00 10.00 10.002Otay Lakes RoadEastlake Parkway to Lane Avenue32,70050 50 95.00 3.00 2.00 80.00 10.00 10.003Otay Lakes RoadLane Avenue to Fenton Street26,90050 50 95.00 3.00 2.00 80.00 10.00 10.004Otay Lakes RoadFenton Street to Hunte Parkway26,90050 50 95.00 3.00 2.00 80.00 10.00 10.005Otay Lakes RoadEast of Hunte Parkway25,80050 50 95.00 3.00 2.00 80.00 10.00 10.006Eastlake ParkwayFenton Street to Otay Lakes Road24,90040 50 95.00 3.00 2.00 80.00 10.00 10.007Fenton StreetLane Avenue to Showroom Place10,10035 50 95.00 3.00 2.00 80.00 10.00 10.008Fenton StreetShowroom Place to Otay Lakes Road7,70035 50 95.00 3.00 2.00 80.00 10.00 10.009Hunte ParkwayOtay Lakes Road to Clubhouse Drive16,80045 50 95.00 3.00 2.00 80.00 10.00 10.00NEAR-TERM + PROJECT1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway54,70850 50 95.00 3.00 2.00 80.00 10.00 10.002Otay Lakes RoadEastlake Parkway to Lane Avenue33,92450 50 95.00 3.00 2.00 80.00 10.00 10.003Otay Lakes RoadLane Avenue to Fenton Street28,12450 50 95.00 3.00 2.00 80.00 10.00 10.004Otay Lakes RoadFenton Street to Hunte Parkway27,28450 50 95.00 3.00 2.00 80.00 10.00 10.005Otay Lakes RoadEast of Hunte Parkway25,84850 50 95.00 3.00 2.00 80.00 10.00 10.006Eastlake ParkwayFenton Street to Otay Lakes Road25,47640 50 95.00 3.00 2.00 80.00 10.00 10.007Fenton StreetLane Avenue to Showroom Place10,89235 50 95.00 3.00 2.00 80.00 10.00 10.008Fenton StreetShowroom Place to Otay Lakes Road9,30835 50 95.00 3.00 2.00 80.00 10.00 10.009Hunte ParkwayOtay Lakes Road to Clubhouse Drive16,96845 50 95.00 3.00 2.00 80.00 10.00 10.00FHWA RD-77-108Traffic Noise Prediction ModelSpeed (Mph)Distance to CLK-Factor Predicted Noise LevelsProject Name :Chula Vista Behavioral Health ProjectProject Number :9434Modeled Condition :Near-Term, Near-Term + Project (2025)Assessment Metric:HardSegmentRoadwaySegmentAuto MT HT Total 75 dB 70 dB 65 dB 60 dB 55 dB 50 dBNEAR-TERM1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway75.6 68.2 70.7 77.4 87 275 869 2,748 8,689 27,4772Otay Lakes RoadEastlake Parkway to Lane Avenue73.5 66.1 68.6 75.3 54 169 536 1,694 5,358 16,9423Otay Lakes RoadLane Avenue to Fenton Street72.6 65.3 67.7 74.4 44 138 435 1,377 4,355 13,7714Otay Lakes RoadFenton Street to Hunte Parkway72.6 65.3 67.7 74.4 44 138 435 1,377 4,355 13,7715Otay Lakes RoadEast of Hunte Parkway72.5 65.1 67.5 74.2 42 132 416 1,315 4,159 13,1516Eastlake ParkwayFenton Street to Otay Lakes Road69.5 63.4 66.5 71.9 24 77 245 774 2,449 7,7447Fenton StreetLane Avenue to Showroom Place63.9 58.6 62.0 66.8 8 24 76 239 757 2,3938Fenton StreetShowroom Place to Otay Lakes Road62.7 57.4 60.9 65.6 6 18 57 182 574 1,8159Hunte ParkwayOtay Lakes Road to Clubhouse Drive69.3 62.5 65.3 71.3 21 67 213 674 2,133 6,745NEAR-TERM + PROJECT1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway75.7 68.4 70.8 77.5 89 281 889 2,812 8,891 28,1172Otay Lakes RoadEastlake Parkway to Lane Avenue73.6 66.3 68.7 75.4 55 173 548 1,734 5,482 17,3373Otay Lakes RoadLane Avenue to Fenton Street72.8 65.5 67.9 74.6 46 144 456 1,442 4,560 14,4204Otay Lakes RoadFenton Street to Hunte Parkway72.7 65.3 67.8 74.5 45 141 446 1,409 4,456 14,0925Otay Lakes RoadEast of Hunte Parkway72.5 65.1 67.6 74.2 42 132 416 1,315 4,159 13,1516Eastlake ParkwayFenton Street to Otay Lakes Road69.6 63.5 66.6 72.0 25 79 251 792 2,506 7,9247Fenton StreetLane Avenue to Showroom Place64.3 58.9 62.4 67.1 8 26 81 256 811 2,5648Fenton StreetShowroom Place to Otay Lakes Road63.6 58.3 61.7 66.5 7 22 71 223 706 2,2339Hunte ParkwayOtay Lakes Road to Clubhouse Drive69.3 62.6 65.3 71.4 22 69 218 690 2,183 6,902FHWA RD-77-108Traffic Noise Prediction ModelNoise Levels, dBA HardDistance to Traffic Noise Level Contours, Feet Data Input SheetProject Name :Chula Vista Behavioral Health ProjectProject Number :9434Surface Refelction:CNELModeled Condition :Horizon, Horizon + Project (2035)Assessment Metric:HardPeak ratio to ADT:10.00Traffic Desc. (Peak or ADT) :ADTSegmentRoadwaySegmentTraffic Vol.% Autos %MT % HT Day % Eve % Night %HORIZON1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway57,50050 50 95.00 3.00 2.00 80.00 10.00 10.002Otay Lakes RoadEastlake Parkway to Lane Avenue29,10050 50 95.00 3.00 2.00 80.00 10.00 10.003Otay Lakes RoadLane Avenue to Fenton Street29,20050 50 95.00 3.00 2.00 80.00 10.00 10.004Otay Lakes RoadFenton Street to Hunte Parkway29,20050 50 95.00 3.00 2.00 80.00 10.00 10.005Otay Lakes RoadEast of Hunte Parkway29,30050 50 95.00 3.00 2.00 80.00 10.00 10.006Eastlake ParkwayFenton Street to Otay Lakes Road27,50040 50 95.00 3.00 2.00 80.00 10.00 10.007Fenton StreetLane Avenue to Showroom Place12,00035 50 95.00 3.00 2.00 80.00 10.00 10.008Fenton StreetShowroom Place to Otay Lakes Road10,20035 50 95.00 3.00 2.00 80.00 10.00 10.009Hunte ParkwayOtay Lakes Road to Clubhouse Drive19,40045 50 95.00 3.00 2.00 80.00 10.00 10.00HORIZON + PROJECT1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway59,10850 50 95.00 3.00 2.00 80.00 10.00 10.002Otay Lakes RoadEastlake Parkway to Lane Avenue40,32450 50 95.00 3.00 2.00 80.00 10.00 10.003Otay Lakes RoadLane Avenue to Fenton Street30,42450 50 95.00 3.00 2.00 80.00 10.00 10.004Otay Lakes RoadFenton Street to Hunte Parkway29,58450 50 95.00 3.00 2.00 80.00 10.00 10.005Otay Lakes RoadEast of Hunte Parkway29,34850 50 95.00 3.00 2.00 80.00 10.00 10.006Eastlake ParkwayFenton Street to Otay Lakes Road28,07640 50 95.00 3.00 2.00 80.00 10.00 10.007Fenton StreetLane Avenue to Showroom Place12,79235 50 95.00 3.00 2.00 80.00 10.00 10.008Fenton StreetShowroom Place to Otay Lakes Road11,80835 50 95.00 3.00 2.00 80.00 10.00 10.009Hunte ParkwayOtay Lakes Road to Clubhouse Drive19,56845 50 95.00 3.00 2.00 80.00 10.00 10.00FHWA RD-77-108Traffic Noise Prediction ModelSpeed (Mph)Distance to CLK-Factor Predicted Noise LevelsProject Name :Chula Vista Behavioral Health ProjectProject Number :9434Modeled Condition :Horizon, Horizon + Project (2035)Assessment Metric:HardSegmentRoadwaySegmentAuto MT HT Total 75 dB 70 dB 65 dB 60 dB 55 dB 50 dBHORIZON1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway75.9 68.6 71.0 77.7 93 294 931 2,944 9,310 29,4422Otay Lakes RoadEastlake Parkway to Lane Avenue73.0 65.6 68.1 74.8 48 151 477 1,510 4,775 15,1003Otay Lakes RoadLane Avenue to Fenton Street73.0 65.6 68.1 74.8 48 151 477 1,510 4,775 15,1004Otay Lakes RoadFenton Street to Hunte Parkway73.0 65.6 68.1 74.8 48 151 477 1,510 4,775 15,1005Otay Lakes RoadEast of Hunte Parkway73.0 65.7 68.1 74.8 48 151 477 1,510 4,775 15,1006Eastlake ParkwayFenton Street to Otay Lakes Road69.9 63.9 66.9 72.4 27 87 275 869 2,748 8,6897Fenton StreetLane Avenue to Showroom Place64.7 59.4 62.8 67.6 9 29 91 288 910 2,8778Fenton StreetShowroom Place to Otay Lakes Road64.0 58.7 62.1 66.9 8 24 77 245 774 2,4499Hunte ParkwayOtay Lakes Road to Clubhouse Drive69.9 63.1 65.9 72.0 25 79 251 792 2,506 7,924HORIZON + PROJECT1Otay Lakes RoadSR-125 Northbound Ramps to Eastlake Parkway76.1 68.7 71.1 77.8 95 301 953 3,013 9,527 30,1282Otay Lakes RoadEastlake Parkway to Lane Avenue74.4 67.0 69.5 76.2 66 208 659 2,084 6,591 20,8433Otay Lakes RoadLane Avenue to Fenton Street73.2 65.8 68.3 75.0 50 158 500 1,581 5,000 15,8114Otay Lakes RoadFenton Street to Hunte Parkway73.1 65.7 68.1 74.8 48 151 477 1,510 4,775 15,1005Otay Lakes RoadEast of Hunte Parkway73.0 65.7 68.1 74.8 48 151 477 1,510 4,775 15,1006Eastlake ParkwayFenton Street to Otay Lakes Road70.0 64.0 67.0 72.5 28 89 281 889 2,812 8,8917Fenton StreetLane Avenue to Showroom Place65.0 59.6 63.1 67.8 10 30 95 301 953 3,0138Fenton StreetShowroom Place to Otay Lakes Road64.6 59.3 62.7 67.5 9 28 89 281 889 2,8129Hunte ParkwayOtay Lakes Road to Clubhouse Drive69.9 63.2 65.9 72.0 25 79 251 792 2,506 7,924FHWA RD-77-108Traffic Noise Prediction ModelNoise Levels, dBA HardDistance to Traffic Noise Level Contours, Feet Noise Analysis Eastlake Behavioral Health Hospital Project ATTACHMENT 7 SoundPLAN Data – On-site Generated Noise 9434 Chula Vista Behavioral Health Project SoundPLAN Data - On-Site Generated Noise Level Source name Reference With Generator Without Generator Cwall CI CT dB(A)dB(A)dB(A)dB(A)dB(A) HVAC1 Lw/unit 83.8 83.8 --- HVAC2 Lw/unit 83.8 83.8 --- HVAC3 Lw/unit 83.8 83.8 --- HVAC4 Lw/unit 83.8 83.8 --- HVAC5 Lw/unit 83.8 83.8 --- HVAC6 Lw/unit 83.8 83.8 --- HVAC7 Lw/unit 83.8 83.8 --- HVAC8 Lw/unit 83.8 83.8 --- HVAC9 Lw/unit 83.8 83.8 --- HVAC10 Lw/unit 83.8 83.8 --- Loading Dock 1 Lw/unit 81.3 81.3 --- Loading Dock 2 Lw/unit 81.3 81.3 --- Emergency Generator Lw/unit 100.0 ---- Truck Entering Lw/unit 81.3 81.3 --- Truck Exiting Lw/unit 81.3 81.3 --- Corrections Source 9434 Chula Vista Behavioral Health ProjectSoundPLAN Data - On-Site Generated NoiseNo. X Y Floor Height With Generator Without Generator With Generator Without Generator With Generator Without Generator With Generator Without Generator With Generator Without Generatorm1 504295.94 3613003.58 1.Fl 215.52 454538.037.300-38.0-37.3--2 504286.78 3613031.93 1.Fl 216.08 454537.937.000-37.9-37.0--3 504287.38 3613061.95 1.Fl 216.82 454534.533.600-34.5-33.6--4 504288.03 3613094.59 1.Fl 217.33 454539.839.500-39.8-39.5--5 504308.88 3613130.90 1.Fl 218.20 454538.938.500-38.9-38.5--6 504291.68 3613160.26 1.Fl 218.65 454539.038.400-39.0-38.4--7 504254.08 3613171.07 1.Fl 218.58 454540.440.100-40.4-40.1--8 504215.02 3613183.58 1.Fl 218.59 454540.640.100-40.6-40.1--9 504174.25 3613188.48 1.Fl 221.16 454543.242.700-43.2-42.7--10 504145.15 3613189.06 1.Fl 221.33 454543.142.300-43.1-42.3--11 504121.95 3613188.72 1.Fl 219.74 454544.040.800-44.0-40.8--12 504095.57 3613184.47 1.Fl 219.74 454545.340.100-45.3-40.1--13 504084.97 3613147.28 1.Fl 219.13 606049.441.900-49.4-41.9--14 504084.15 3613103.28 1.Fl 218.35 606054.147.000-54.1-47.0--15 504083.70 3613079.44 1.Fl 217.87 606054.451.100-54.4-51.1--16 504082.88 3613035.12 1.Fl 217.30 606050.448.400-50.4-48.4--17 504102.46 3612982.11 1.Fl 216.08--44.241.800-44.2-41.8--18 504177.10 3612980.71 1.Fl 214.85--46.245.700-46.2-45.7--19 504207.41 3612980.14 1.Fl 214.80 606045.145.000-45.1-45.0--20 504257.27 3612979.16 1.Fl 214.27 606039.739.100-39.7-39.1--ConflictdB(A)dB(A)dB(A)dBdBDifferenceCoordinatesin meterLimitLevel w/o NPLevel w NPReceivers 9434 Chula Vista Behavioral Health Project SoundPLAN Data - On-Site Generated Noise Source name With Generator Without Generator With Generator Without Generator 1 1.Fl 38.0 37.3 0.0 0.0 Emergency Generator 29.8 - - - HVAC1 23.6 23.6 - - HVAC2 28.4 28.4 - - HVAC3 25.6 25.6 - - HVAC4 25.2 25.2 - - HVAC5 28.2 28.2 - - HVAC6 31.4 31.4 - - HVAC7 25.1 25.1 - - HVAC8 23.5 23.5 - - HVAC9 23.0 23.0 - - HVAC10 22.1 22.1 - - Loading Dock 1 14.7 14.7 - - Loading Dock 2 13.1 13.1 - - Truck Entering 25.4 25.4 - - Truck Exiting 25.5 25.5 - - 2 1.Fl 37.9 37.0 0.0 0.0 Emergency Generator 30.6 - - - HVAC1 20.8 20.8 - - HVAC2 26.6 26.6 - - HVAC3 25.5 25.5 - - HVAC4 24.6 24.6 - - HVAC5 29.1 29.1 - - HVAC6 31.8 31.8 - - HVAC7 23.6 23.6 - - HVAC8 21.7 21.7 - - HVAC9 19.9 19.9 - - HVAC10 18.9 18.9 - - Loading Dock 1 13.8 13.8 - - Loading Dock 2 13.8 13.8 - - Truck Entering 26.5 26.5 - - Truck Exiting 26.6 26.6 - - 3 1.Fl 34.5 33.6 0.0 0.0 Emergency Generator 27.3 - - - HVAC1 11.1 11.1 - - HVAC2 17.7 17.7 - - HVAC3 17.6 17.6 - - HVAC4 17.6 17.6 - - HVAC5 19.8 19.8 - - HVAC6 30.0 30.0 - - HVAC7 20.3 20.3 - - HVAC8 20.5 20.5 - - HVAC9 15.9 15.9 - - HVAC10 20.0 20.0 - - Loading Dock 1 9.8 9.8 - - Loading Dock 2 8.1 8.1 - - Truck Entering 24.8 24.8 - - Truck Exiting 25.0 25.0 - - 4 1.Fl 39.8 39.5 0.0 0.0 Emergency Generator 28.2 - - - HVAC1 21.8 21.8 - - HVAC2 21.8 21.8 - - HVAC3 23.5 23.5 - - HVAC4 26.3 26.3 - - HVAC5 27.1 27.1 - - HVAC6 30.7 30.7 - - HVAC7 36.8 36.8 - - HVAC8 30.0 30.0 - - HVAC9 22.9 22.9 - - HVAC10 21.7 21.7 - - Loading Dock 1 10.4 10.4 - - Loading Dock 2 8.2 8.2 - - Truck Entering 11.2 11.2 - - Truck Exiting 11.2 11.2 - - 5 1.Fl 38.9 38.5 0.0 0.0 Emergency Generator 28.1 - - - HVAC1 23.4 23.4 - - HVAC2 16.6 16.6 - - HVAC3 24.0 24.0 - - HVAC4 25.1 25.1 - - HVAC5 23.5 23.5 - - HVAC6 32.8 32.8 - - HVAC7 24.2 24.2 - - HVAC8 32.3 32.3 - - HVAC9 30.8 30.8 - - HVAC10 29.5 29.5 - - Loading Dock 1 7.3 7.3 - - Loading Dock 2 6.0 6.0 - - Level w/o NP dB(A) Level w NP dB(A) Contributions 9434 Chula Vista Behavioral Health Project SoundPLAN Data - On-Site Generated Noise Truck Entering 11.9 11.9 - - Truck Exiting 12.1 12.1 - - 6 1.Fl 39.0 38.4 0.0 0.0 Emergency Generator 30.0 - - - HVAC1 24.0 24.0 - - HVAC2 21.2 21.2 - - HVAC3 26.7 26.7 - - HVAC4 27.0 27.0 - - HVAC5 25.9 25.9 - - HVAC6 25.3 25.3 - - HVAC7 29.9 29.9 - - HVAC8 31.7 31.7 - - HVAC9 30.7 30.7 - - HVAC10 30.8 30.8 - - Loading Dock 1 9.2 9.2 - - Loading Dock 2 5.7 5.7 - - Truck Entering 10.6 10.6 - - Truck Exiting 10.8 10.8 - - 7 1.Fl 40.4 40.1 0.0 0.0 Emergency Generator 29.7 - - - HVAC1 22.4 22.4 - - HVAC2 16.9 16.9 - - HVAC3 23.2 23.2 - - HVAC4 23.6 23.6 - - HVAC5 27.8 27.8 - - HVAC6 26.2 26.2 - - HVAC7 30.5 30.5 - - HVAC8 33.0 33.0 - - HVAC9 29.5 29.5 - - HVAC10 36.4 36.4 - - Loading Dock 1 8.0 8.0 - - Loading Dock 2 5.4 5.4 - - Truck Entering 10.2 10.2 - - Truck Exiting 10.4 10.4 - - 8 1.Fl 40.6 40.1 0.0 0.0 Emergency Generator 31.3 - - - HVAC1 24.7 24.7 - - HVAC2 16.9 16.9 - - HVAC3 24.0 24.0 - - HVAC4 25.6 25.6 - - HVAC5 23.8 23.8 - - HVAC6 19.4 19.4 - - HVAC7 21.4 21.4 - - HVAC8 27.3 27.3 - - HVAC9 33.4 33.4 - - HVAC10 37.8 37.8 - - Loading Dock 1 8.4 8.4 - - Loading Dock 2 5.9 5.9 - - Truck Entering 9.0 9.0 - - Truck Exiting 8.8 8.8 - - 9 1.Fl 43.2 42.7 0.0 0.0 Emergency Generator 33.2 - - - HVAC1 31.5 31.5 - - HVAC2 23.8 23.8 - - HVAC3 29.9 29.9 - - HVAC4 31.7 31.7 - - HVAC5 28.2 28.2 - - HVAC6 22.8 22.8 - - HVAC7 24.9 24.9 - - HVAC8 29.2 29.2 - - HVAC9 36.1 36.1 - - HVAC10 39.3 39.3 - - Loading Dock 1 10.8 10.8 - - Loading Dock 2 8.0 8.0 - - Truck Entering 12.5 12.5 - - Truck Exiting 12.4 12.4 - - 10 1.Fl 43.1 42.3 0.0 0.0 Emergency Generator 35.2 - - - HVAC1 33.3 33.3 - - HVAC2 28.8 28.8 - - HVAC3 32.1 32.1 - - HVAC4 34.1 34.1 - - HVAC5 28.1 28.1 - - HVAC6 23.2 23.2 - - HVAC7 25.4 25.4 - - HVAC8 28.7 28.7 - - HVAC9 34.7 34.7 - - HVAC10 36.9 36.9 - - Loading Dock 1 12.0 12.0 - - Loading Dock 2 9.3 9.3 - - Truck Entering 14.6 14.6 - - Contributions 9434 Chula Vista Behavioral Health Project SoundPLAN Data - On-Site Generated Noise Truck Exiting 14.2 14.2 - - 11 1.Fl 44.0 40.8 0.0 0.0 Emergency Generator 41.2 - - - HVAC1 33.6 33.6 - - HVAC2 27.5 27.5 - - HVAC3 31.5 31.5 - - HVAC4 33.2 33.2 - - HVAC5 28.7 28.7 - - HVAC6 19.7 19.7 - - HVAC7 21.8 21.8 - - HVAC8 26.4 26.4 - - HVAC9 32.3 32.3 - - HVAC10 33.7 33.7 - - Loading Dock 1 12.8 12.8 - - Loading Dock 2 10.5 10.5 - - Truck Entering 17.8 17.8 - - Truck Exiting 16.6 16.6 - - 12 1.Fl 45.3 40.1 0.0 0.0 Emergency Generator 43.8 - - - HVAC1 33.7 33.7 - - HVAC2 27.3 27.3 - - HVAC3 31.0 31.0 - - HVAC4 32.2 32.2 - - HVAC5 28.0 28.0 - - HVAC6 20.7 20.7 - - HVAC7 22.8 22.8 - - HVAC8 25.8 25.8 - - HVAC9 30.5 30.5 - - HVAC10 31.3 31.3 - - Loading Dock 1 20.2 20.2 - - Loading Dock 2 15.9 15.9 - - Truck Entering 23.8 23.8 - - Truck Exiting 21.9 21.9 - - 13 1.Fl 49.4 41.9 0.0 0.0 Emergency Generator 48.5 - - - HVAC1 37.2 37.2 - - HVAC2 26.3 26.3 - - HVAC3 30.9 30.9 - - HVAC4 34.0 34.0 - - HVAC5 26.7 26.7 - - HVAC6 19.7 19.7 - - HVAC7 22.0 22.0 - - HVAC8 27.1 27.1 - - HVAC9 32.2 32.2 - - HVAC10 32.4 32.4 - - Loading Dock 1 25.0 25.0 - - Loading Dock 2 17.4 17.4 - - Truck Entering 29.3 29.3 - - Truck Exiting 25.7 25.7 - - 14 1.Fl 54.1 47.0 0.0 0.0 Emergency Generator 53.1 - - - HVAC1 37.7 37.7 - - HVAC2 30.1 30.1 - - HVAC3 31.5 31.5 - - HVAC4 25.8 25.8 - - HVAC5 23.1 23.1 - - HVAC6 16.7 16.7 - - HVAC7 17.0 17.0 - - HVAC8 17.7 17.7 - - HVAC9 23.6 23.6 - - HVAC10 23.1 23.1 - - Loading Dock 1 40.0 40.0 - - Loading Dock 2 41.1 41.1 - - Truck Entering 41.8 41.8 - - Truck Exiting 35.0 35.0 - - 15 1.Fl 54.4 51.1 0.0 0.0 Emergency Generator 51.6 - - - HVAC1 36.1 36.1 - - HVAC2 38.0 38.0 - - HVAC3 30.5 30.5 - - HVAC4 29.8 29.8 - - HVAC5 31.0 31.0 - - HVAC6 23.5 23.5 - - HVAC7 17.2 17.2 - - HVAC8 16.9 16.9 - - HVAC9 20.8 20.8 - - HVAC10 25.9 25.9 - - Loading Dock 1 45.4 45.4 - - Loading Dock 2 45.5 45.5 - - Truck Entering 44.2 44.2 - - Truck Exiting 42.3 42.3 - - Contributions 9434 Chula Vista Behavioral Health Project SoundPLAN Data - On-Site Generated Noise 16 1.Fl 50.4 48.4 0.0 0.0 Emergency Generator 46.0 - - - HVAC1 32.2 32.2 - - HVAC2 34.9 34.9 - - HVAC3 30.5 30.5 - - HVAC4 30.4 30.4 - - HVAC5 30.3 30.3 - - HVAC6 28.6 28.6 - - HVAC7 25.1 25.1 - - HVAC8 21.4 21.4 - - HVAC9 24.2 24.2 - - HVAC10 24.0 24.0 - - Loading Dock 1 36.8 36.8 - - Loading Dock 2 38.9 38.9 - - Truck Entering 41.8 41.8 - - Truck Exiting 45.0 45.0 - - 17 1.Fl 44.2 41.8 0.0 0.0 Emergency Generator 40.5 - - - HVAC1 28.4 28.4 - - HVAC2 32.2 32.2 - - HVAC3 28.6 28.6 - - HVAC4 27.7 27.7 - - HVAC5 30.3 30.3 - - HVAC6 28.4 28.4 - - HVAC7 25.3 25.3 - - HVAC8 24.5 24.5 - - HVAC9 25.6 25.6 - - HVAC10 24.9 24.9 - - Loading Dock 1 31.9 31.9 - - Loading Dock 2 31.8 31.8 - - Truck Entering 33.7 33.7 - - Truck Exiting 35.0 35.0 - - 18 1.Fl 46.2 45.7 0.0 0.0 Emergency Generator 36.3 - - - HVAC1 27.0 27.0 - - HVAC2 31.6 31.6 - - HVAC3 28.6 28.6 - - HVAC4 26.7 26.7 - - HVAC5 31.7 31.7 - - HVAC6 29.0 29.0 - - HVAC7 26.4 26.4 - - HVAC8 24.9 24.9 - - HVAC9 25.3 25.3 - - HVAC10 25.5 25.5 - - Loading Dock 1 28.0 28.0 - - Loading Dock 2 29.6 29.6 - - Truck Entering 40.2 40.2 - - Truck Exiting 42.6 42.6 - - 19 1.Fl 45.1 45.0 0.0 0.0 Emergency Generator 30.8 - - - HVAC1 26.3 26.3 - - HVAC2 30.7 30.7 - - HVAC3 27.9 27.9 - - HVAC4 26.7 26.7 - - HVAC5 31.3 31.3 - - HVAC6 30.5 30.5 - - HVAC7 25.8 25.8 - - HVAC8 28.1 28.1 - - HVAC9 26.3 26.3 - - HVAC10 25.4 25.4 - - Loading Dock 1 26.2 26.2 - - Loading Dock 2 26.0 26.0 - - Truck Entering 41.4 41.4 - - Truck Exiting 39.9 39.9 - - 20 1.Fl 39.7 39.1 0.0 0.0 Emergency Generator 30.5 - - - HVAC1 24.0 24.0 - - HVAC2 28.8 28.8 - - HVAC3 26.3 26.3 - - HVAC4 25.7 25.7 - - HVAC5 28.3 28.3 - - HVAC6 34.2 34.2 - - HVAC7 25.3 25.3 - - HVAC8 24.7 24.7 - - HVAC9 25.2 25.2 - - HVAC10 24.5 24.5 - - Loading Dock 1 23.7 23.7 - - Loading Dock 2 16.3 16.3 - - Truck Entering 28.8 28.8 - - Truck Exiting 28.8 28.8 - - Contributions