CC - Item 3A - Attachment G - Appendix E - Strathmore and Garvey Noise Report 11.2.22
NOISE IMPACT ANALYSIS
STRATHMORE AND GARVEY MIXED-USE PROJECT
CITY OF ROSEMEAD, CALIFORNIA
Prepared by:
Sara Friedman Gerrick
Giroux & Associates
Prepared for:
Phil Martin
Phil Martin & Associates
Date:
November 2, 2022
Project No.: P22-033 N
1
Strathmore and Garvey, Rosemead N
PROJECT DESCRIPTION
The 1.21-acre Project site is located at the northwest corner of Strathmore Avenue and Garvey
Avenue in the City of Rosemead. The site is currently developed with retail and outdoor storage uses.
The Project involves redevelopment with a seven-story mixed-use structure comprised of 93
apartment dwelling units, 6,040 sf of retail space, 12,801 sf of office space with 208 parking spaces
provided on lower levels. The Project is anticipated to be operational by 2024.
NOISE SETTING
Sound is mechanical energy transmitted by pressure waves in a compressible medium such as air.
Noise is generally considered to be unwanted sound. Sound is characterized by various parameters
that describe the rate of oscillation of sound waves, the distance between successive troughs or crests,
the speed of propagation, and the pressure level or energy content of a given sound. In particular, the
sound pressure level has become the most common descriptor used to characterize the loudness of an
ambient sound level.
The decibel (dBA) scale is used to quantify sound pressure levels. Although decibels are most
commonly associated with sound, "dB" is a generic descriptor that is equal to ten times the logarithmic
ratio of any physical parameter versus some reference quantity. For sound, the reference level is the
faintest sound detectable by a young person with good auditory acuity.
Since the human ear is not equally sensitive to all sound frequencies within the entire auditory
spectrum, human response is factored into sound descriptions by weighting sounds within the range
of maximum human sensitivity more heavily in a process called “A-weighting,” written as dB(A).
Any further reference in this discussion to decibels written as "dBA" should be understood to be
A-weighted.
Time variations in noise exposure are typically expressed in terms of a steady-state energy level equal
to the energy content of the time varying period (called LEQ), or alternately, as a statistical description
of the sound pressure level that is exceeded over some fraction of a given observation period. Finally,
because community receptors are more sensitive to unwanted noise intrusion during the evening and
at night, state law requires that, for planning purposes, an artificial dB increment be added to quiet
time noise levels in a 24-hour noise descriptor called the Ldn (day-night) or the Community Noise
Equivalent Level (CNEL). The CNEL metric has gradually replaced the Ldn factor, but the two
descriptors are essentially identical.
CNEL-based standards are generally applied to transportation-related sources because local
jurisdictions are pre-empted from exercising direct noise control over vehicles on public streets,
aircraft, trains, etc. The City of Rosemead therefore regulates the noise exposure of the receiving
property through land use controls.
For “stationary” noise sources, or noise sources emanating from private property, such as a parking
structure, the City does have legal authority to establish noise performance standards designed to not
adversely impact adjoining uses. These standards are typically articulated in the jurisdictional
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Municipal Code. These standards recognize the varying noise sensitivity of both transmitting and
receiving land uses. The property line noise performance standards are normally structured according
to land use and time-of-day.
NOISE COMPATIBILITY GUIDELINES
The City of Rosemead considers noise compatibility standards in evaluating land use projects. A
proposed land use must be shown to be compatible with the ambient noise environment, particularly
for noise sources over which direct City control is preempted by other agencies. Such sources include
vehicle traffic on public streets, aircraft or trains. Since the City cannot regulate the noise level from
the source, it exercises its land use decision authority to ensure that noise/land use incompatibility is
minimized.
Table 1 shows the noise/land use compatibility guideline for the City of Rosemead, as contained in
the Noise Element of the General Plan. The City of Rosemead considers noise exposures for
residential/transient lodging use to be “normally acceptable” if the maximum exterior noise level is
60 dBA CNEL or less. Exterior residential noise levels of up to 70 dBA CNEL are allowed if a noise
analysis is conducted to identify possible noise reduction measures. Noise levels above 70 dBA
CNEL are considered normally unacceptable except in unusual circumstances for residences. These
standards apply to outdoor recreational use at backyards, patios or balconies.
Because retail/commercial/office uses are not occupied on a 24-hour basis, the exterior noise exposure
standard for less sensitive land uses is generally less stringent. Unless commercial Projects include
noise-sensitive uses such as outdoor dining, noise exposure is generally not considered a commercial
facility siting constraint for typical Project area noise exposures.
An interior CNEL of 45 dB is mandated by the State of California Noise Insulation Standards (CCR,
Title 24, Part 6, Section T25-28) for multiple family dwellings and hotel and motel rooms. In 1988,
the State Building Standards Commission expanded that standard to include all habitable rooms in
residential use, included single-family dwelling units. Since normal noise attenuation within
residential structures with closed windows is 25-30A dB, an exterior noise exposure of 70-75 dBA
CNEL allows the interior standard to be met without any specialized structural attenuation (dual
paned windows, etc.), but with closed windows and fresh air supply systems or air conditioning in
order to maintain a comfortable living environment.
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Figure 1
City of Rosemead Noise Compatibility Guidelines
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NOISE STANDARDS
For noise generated on one property affecting an adjacent use, the City of Rosemead limits the amount
of noise crossing the boundary between the two uses. There are residential uses abutting the site to the
west and to the east. The noise standards described below must be met at these uses.
For regulated on-site sources of noise generation, the Rosemead noise ordinance prescribes limits that
are considered an acceptable exposure for residential uses in proximity to regulated noise sources. The
L50 metric used in the Rosemead noise ordinance is the level exceeded for 50% of the measurement
period of thirty minutes in an hour. One-half of all readings may exceed this average standard with
larger excursions from the average allowed for progressively shorter periods. The larger the deviation,
the shorter the allowed duration up to a never-to-exceed 20 dB increase above the 50th percentile
standard.
The City’s L50 noise standard for residential uses is 60 dB during the day (7 a.m. – 10 p.m.), and 45 dB
at night (10 p.m. – 7 a.m.). For commercial uses the L50 standard is 65 dB during the day (7 a.m. – 10
p.m.), and 60 dB at night (10 p.m. – 7 a.m.). These noise standards for residential and commercial uses
are shown in Table 1. In the event that the ambient noise level exceeds any of the noise standards, the
standards shall be increased to reflect the ambient noise level.
In accordance with Section 8.36.030 of the Municipal Code, noise associated with construction related
activities is restricted between the hours of 8:00 p.m. and 7:00 a.m. on weekdays, including Saturday, or
at any time on Sunday or a federal holiday.
Table 1
ROSEMEAD NOISE ORDINANCE LIMITS
(Exterior Noise Level not to be Exceeded)
Residential Use Commercial Use
Maximum Allowable
Duration of Exceedance
7 AM to 10
PM
(Daytime)
10 PM to 7
AM
(Nighttime)
7 AM to 10 PM
(Daytime)
10 PM to 7 AM
(Nighttime)
30 minutes/Hour (L50) 60 dB 45 dB 65 dB 60 dB
15 minutes/Hour (L25) 65 dB 50 dB 70 dB 65 dB
5 minutes/Hour (L8) 70 dB 55 dB 75 dB 70 dB
1 minute/Hour (L1) 75 dB 60 dB 80 dB 75 dB
Never (Lmax) 80 dB 65 dB 85 dB 80 dB
Source: Municipal Code Section 8.36.060
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BASELINE NOISE LEVELS
Short term on-site noise measurements were made to document baseline levels in the Project area.
These help to serve as a basis for projecting future noise exposure from the Project upon the
surrounding community and noise from the community on the Project. Noise measurements were
conducted on Monday, September 19, 2022, at approximately 11 a.m., at the three locations indicated
below and shown in Figure 2.
Measured Noise Levels (dBA)
Site
No. Location Leq Lmin Lmax
1 60-feet to Garvey Ave centerline 70 64 79
2 Along Strathmore on-site 64 58 71
3 Nearest home to the north 62 52 65
The City of Rosemead considers CNELS of up to 70 dBA to be conditionally acceptable for
residential use with the requirement of a noise analysis. Noise levels of up to 75 dB CNEL are
considered to be conditionally acceptable for commercial use. However, unless commercial Projects
include noise-sensitive uses such as outdoor dining, exterior noise exposure is generally not
considered a commercial facility siting constraint.
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Figure 2
Noise Meter Locations
Meter 1
Meter 2
Meter 3
Strathmore and Garvey, Rosemead N 7
NOISE IMPACTS
IMPACT SIGNIFICANCE CRITERIA
Noise impacts are considered significant if they result in:
a. Generation of a substantial temporary or permanent increase in ambient noise levels in the
vicinity of the Project in excess of standards established in the local general plan or noise
ordinance, or applicable standards of other agencies.
b. Generation of excessive groundborne vibration or groundborne noise levels.
c. For a Project located within the vicinity of a private airstrip or an airport land use plan or,
where such a plan has not been adopted, within two miles of a public airport or public use
airport, would the Project expose people residing or working in the Project area to excessive
noise levels.
Three characteristic noise sources are typically identified with land use intensification such as that
proposed for the development of the proposed mixed-use Project. Construction activities, especially
heavy equipment, will create short-term noise increases near the site. Such impacts would be
important for any nearby noise-sensitive receptors, such as existing residential uses. Upon
completion, Project-related traffic will cause an incremental increase in area-wide noise levels
throughout the Project area. Traffic noise impacts are generally analyzed both to ensure that the
Project does not adversely impact the acoustic environment of the surrounding community, as well
as to ensure that the Project site is not exposed to an unacceptable level of noise resulting from the
ambient noise environment acting on the Project. Finally, the Project analysis examines operational
noise on adjacent receptors. There are no airports within proximity to the Project.
The term "substantial increase" is not defined by any responsible agency. The limits of perceptibility
by ambient grade instrumentation (sound meters) or by humans in a laboratory environment is around
1.5 dB. Under ambient conditions, people generally do not perceive that noise has clearly changed
until there is a 3 dB difference. A threshold of 3 dB is commonly used to define "substantial
increase." An increase of +3 dBA CNEL in traffic noise would be consistent a significant impact if
the General Plan noise threshold for residential use were also to be exceeded.
SENSITIVE USES
Garvey Avenue bounds the site to the south and Strathmore Avenue bounds the site to the east. There
is a pharmacy to the west of the site along Garvey Avenue. To the north of the pharmacy are single
story homes accessed from Brighton Street. Not including accessory structures, most residences have
a 70-foot setback but there is one home immediately adjacent to the site (Home 1) with a small parking
lot to the east, which will remain. This home is approximately 10-feet to the shared property line and
approximately 16 feet to the closest building façade including the planned landscaping strip.
Strathmore and Garvey, Rosemead N 8
There is a residence which is not a part of the project on the NE corner of the site at Strathmore
Avenue and Virginia Street (Home 2). There is a planned 10-foot-wide landscaping strip adjacent to
the home which, in additional to the Project setback affords an approximate 13-foot separation
distance. This home will be closest to the utility room and the hallway for several live/work units.
To the north of the site across Virginia Street are residential uses. These homes are more than 80-feet
to the project perimeter. The Project plans an access point on the south side of Virginia Street which
could impact these uses. But this location has a much larger setback than the other homes immediately
adjacent to the site and therefore were not evaluated. Figure 3 shows the location of the two sensitive
uses immediately adjacent to the site.
Figure 3
Location of Closest Sensitive Uses
CONSTRUCTION NOISE IMPACTS
The Project site is located at the corner of Garvey Avenue and Strathmore Avenue in the City of
Rosemead. For this analysis, a noise impact is considered potentially significant if construction
activities extended beyond ordinance time limits for construction or construction-related noise levels
exceed the ordinance noise level standards unless technically infeasible to do so. Construction noise
levels will vary at any given receptor and are dependent on the construction phase, equipment type,
duration of use, distance between the noise source and receptor, and the presence or absence of
barriers between the noise source and receptor.
Home 1
Home 2
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The City of Rosemead limits construction activities to the hours of 7:00 a.m. and 8:00 p.m. on
weekdays and Saturdays. For a numerical noise standard, the 65 dBA Leq for stationary noise was
increased by the maximum allowable 20 dBA noise level for a not to exceed noise level of 85 dBA
at any residential property line.
The exact construction schedule for the proposed development is not known at this time. Construction
activities proposed for similar projects typically include grading, construction of the building shells,
interior finishing, paving and landscaping. Construction equipment such as bulldozers, backhoes,
loaders, and assorted other hand tools and professional grade equipment would likely be used
In 2006, the Federal Highway Administration (FHWA) published the Roadway Construction Noise
Model that includes a national database of construction equipment reference noise emissions levels.
The database provides an acoustical usage factor to estimate the fraction of time each piece of
construction equipment is operating at full power during a construction phase. The usage factor is a
key input variable that is used to calculate the average Leq noise levels.
Table 2 shows a probable construction fleet and provides the associated noise levels at a reference
distance of 50 feet. The table identifies highest (Lmax) noise levels associated with each type of
equipment identified for use along with the extent of equipment usage (usage factor), which is
represented as Leq. Table 3 then adjusts this noise level for distance to the closest sensitive receptor.
The table is organized by construction activity and equipment associated with each activity
Quantitatively, the primary noise prediction equation is expressed as follows for the hourly average
noise level (Leq) at distance D between the source and receiver (dBA):
Leq = Lmax @ 50’ – 20 log (D/50’) + 10log (U.F%/100) – I.L.(bar)
Where:
Lmax @ 50’ is the published reference noise level at 50 feet
U.F.% is the usage factor for full power operation per hour
I.L.(bar) is the insertion loss for intervening barriers
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Table 2
Construction Equipment Noise Levels
Phase Name Equipment Usage
Factor1
Measured Noise
@ 50 feet (dBA)
Cumulative Noise
@ 50 feet (dBA)
Demolition Dozer 40% 82 78
Loader/Backhoe 37% 78 74
Grading
Dozer 40% 82 78
Grader 40% 85 81
Loader/Backhoe 37% 78 74
Building
Construction
Forklift 20% 75 68
Loader/Backhoe 37% 78 74
Crane 16% 81 73
Welder 46% 74 71
Paving
Paver 50% 77 74
Paving Equip 40% 76 72
Roller 38% 80 76
Loader/Backhoe 37% 78 74
Source: FHWA’s Roadway Construction Noise Model, 2006
1. Estimates the fraction of time each piece of equipment is operating at full power during a construction operation
Construction generated noise levels drop off or increase at a rate of about 6 dBA per doubling of
distance between the source and receptor. Shielding by buildings or terrain often results in lower
construction noise levels at distant receptors. The potential for construction-related noise to adversely
affect nearby residential receptors would depend on the location and proximity of construction
activities to these receptors. For this project, since there are adjacent sensitive uses closer than 50-
feet, the adjusted noise levels at each receptor will be higher than those shown in Table 2.
Table 3 adjusts the expected maximal construction noise level from a reference distance of 50 feet to
the actual distance separation unique to the nearest residential receptors identified for analysis. There
is a planned 6-foot masonry wall along project perimeters adjacent to residential neighborhoods. The
calculations show a 4 dBA credit for the wall. The two evaluated homes are adjacent to landscaping
strips, therefore paving equipment noise was not calculated.
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Table 3
Construction Noise Exposure at Adjoining Receptor
(dBA Leq)
Phase Name Equipment Home 1 Home 2
Demo Dozer 88 86
Loader/Backhoe 84 82
Grading
Dozer 88 86
Grader 91 89
Loader/Backhoe 84 82
Building
Construction
Forklift 70 76
Loader/Backhoe 76 82
Crane 75 81
Welder 73 79
Paving
Paver na na
Paving Equip na na
Roller na na
Loader/Backhoe na na
Home 1: W of site, homes taking access from Brighton, N of alley
Home 2: NE corner of site, Virginia/Strathmore
As seen in Table 3, the adjacent homes could be exposed to noise levels in excess of 85 dBA Leq
when dozers or graders operate close to the property line with noise levels of up to 91 dBA for a
grader and 88 for a dozer. However, by 35-feet from the perimeter noise levels would decrease to 81
dBA for the dozer and 84 dBA for the grader.
Therefore, the following measure is recommended:
• Any dozer or grader shall not operate closer than 35 feet along the western perimeter and the
NE corner of the site. Any grading should be accomplished with quieter equipment such as a
loader/backhoe.
In addition, given the proximity of adjacent residential uses, the following recommended measures
are recommended:
• All construction equipment shall be equipped with mufflers and other suitable noise
attenuation devices (e.g., engine shields).
• Grading and construction contractors shall use quieter equipment as opposed to noisier
equipment (such as rubber-tired equipment rather than track equipment), to the maximum
extent feasible.
• If feasible, electric hook-ups shall be provided to avoid the use of generators. If electric service
is determined to be infeasible for the site, only whisper-quiet generators shall be used (i.e.,
inverter generators capable of providing variable load.
• Use electric air compressors and similar power tools rather than diesel equipment, where
feasible.
• Locate staging area, generators and stationary construction equipment as far from the adjacent
residential structures as feasible.
Strathmore and Garvey, Rosemead N 12
• Construction-related equipment, including heavy-duty equipment, motor vehicles, and
portable equipment, shall be turned off when not in use for more than 5 minutes.
• Post a sign in a readily visible location at the Project site that indicates the dates and duration
of construction activities, as well as provide a telephone number where residents can enquire
about the construction process and register complaints to an assigned construction noise
disturbance coordinator
With inclusion of these measures, construction noise impacts from the Project would be reduced to
less than significant level.
CONSTRUCTION ACTIVITY VIBRATION
Construction activities generate ground-borne vibration when heavy equipment travels over unpaved
surfaces or when it is engaged in soil movement. The effects of ground-borne vibration include
discernible movement of building floors, rattling of windows, shaking of items on shelves or hanging
on walls, and rumbling sounds. Vibration related problems generally occur due to resonances in the
structural components of a building because structures amplify groundborne vibration. Within the
“soft” sedimentary surfaces of much of Southern California, ground vibration is quickly damped out.
Groundborne vibration is almost never annoying to people who are outdoors (FTA 2006).
Groundborne vibrations from construction activities rarely reach levels that can damage structures.
Because vibration is typically not an issue, very few jurisdictions have adopted vibration significance
thresholds. Vibration thresholds have been adopted for major public works construction Projects, but
these relate mostly to structural protection (cracking foundations or stucco) rather than to human
annoyance.
A vibration descriptor commonly used to determine structural damage is the peak particle velocity
(ppv) which is defined as the maximum instantaneous positive or negative peak of the vibration
signal, usually measured in in/sec. The range of such vibration is as follows in Table 4:
Table 4
Human Response To Transient Vibration
Average Human Response ppv (in/sec)
Severe 2.00
0 Strongly perceptible 0.90
0 Distinctly perceptible 0.24
0 Barely perceptible 0.03
5 Source: Caltrans Transportation and Construction Vibration Guidance Manual, 2013.
Over the years, numerous vibration criteria and standards have been suggested by researchers,
organizations, and governmental agencies. As shown in Table 5, according to Caltrans and the FTA,
the threshold for structural vibration damage for modern structures is 0.5 in/sec for intermittent
sources, which include impact pile drivers, pogo-stick compactors, crack-and-seat equipment,
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vibratory pile drivers, and vibratory compaction equipment. Older, typically historical residential
structures have a 0.3 in/sec threshold. Below this level there is virtually no risk of building damage.
Table 5
FTA and Caltrans Guideline Vibration Damage Potential Threshold Criteria
Building Type PPV (in/sec)
FTA Criteria
Reinforced concrete, steel or timber (no plaster) 0.5
Engineered concrete and masonry (no plaster) 0.3
Non-engineered timber and masonry buildings 0.2
Buildings extremely susceptible to vibration damage 0.12
Caltrans Criteria
Modern industrial/commercial buildings 0.5
New residential structures 0.5
Older residential structures 0.3
Historic old buildings 0.25
Fragile Buildings 0.1
Extremely fragile ruins, ancient monuments 0.08
To be conservative, the damage threshold of 0.3 in/sec for older residential structures was used in this
analysis. The predicted vibration levels generated by construction equipment anticipated for use are
shown below in Table 6.
Table 6
Estimated Vibration Levels During Project Construction
Equipment PPV
at 10 ft (in/sec)
PPV
at 15 ft (in/sec)
PPV
at 25 ft (in/sec)
PPV
at 40 ft (in/sec)
PPV
at 50 ft (in/sec)
Large Bulldozer 0.352 0.191 0.089 0.044 0.031
Loaded trucks 0.300 0.163 0.076 0.037 0.027
Jackhammer 0.138 0.075 0.035 0.017 0.012
Small Bulldozer 0.012 0.006 0.003 0.001 <0.001
Source: FHWA Transit Noise and Vibration Impact Assessment
The calculation to determine PPV at a given distance is:
PPVdistance = PPVref*(25/D)^1.5
Where:
PPVdistance = the peak particle velocity in inches/second of the equipment adjusted for
distance,
PPVref = the reference vibration level in inches/second at 25 feet, and
D = the distance from the equipment to the receiver.
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As seen in Table 6, the predicted vibration levels generated by construction equipment such as a
large bulldozer could be above levels that could create structural damage of older residential
structures (i.e., 0.3 in/sec) if the dozer were to operate closer than 15-feet to the property line.
Large bulldozers will not likely operate directly at the shared property line. Regardless, any fine
grading at the property line should be performed with small bulldozers which are seen above to have
much less vibration potential. Therefore, to ensure adequate vibration protection the following
mitigation measure is recommended:
• Only small bulldozers shall be permitted to operate within 35 feet of the nearest off-site
structures.
Since a dozer or grader noise can exceed the adopted construction noise thresholds, it is already
recommended that dozers or graders operate no closer than 35 feet to the western perimeter or NE
corner. Construction activity vibration impacts are judged as less-than-significant with this limitation.
OFF-SITE PROJECT-RELATED VEHICULAR NOISE IMPACTS
Long-term noise concerns from the residential and commercial uses at the Project site can be derived
from vehicular operations on Project area roadways. These concerns were addressed using the
California specific vehicle noise curves (CALVENO) in the federal roadway noise model (the FHWA
Highway Traffic Noise Prediction Model, FHWA-RD-77-108). The model calculates the Leq noise
level for a reference set of input conditions, and then makes a series of adjustments for site-specific
traffic volumes, distances, speeds, or noise barriers.
Table 7 summarizes the 24-hour CNEL level at 50 feet from the roadway centerline along 11 roadway
segments. Four traffic scenarios were evaluated: existing conditions and future conditions “with
Project” and “without Project”. The data used for the analysis was provided in the traffic report
prepared by Ganddini Group, Inc. for this Project.
As shown in Table 7, Project implementation in either the opening year or future year does little to
change the traffic noise environment on larger roadways such as Garvey Avenue or San Gabriel
Boulevard. Because the area is mostly built out, addition of Project traffic to arterial roadways causes
minimal impact.
However, Strathmore Avenue and Virginia Street are currently exposed to very low traffic volumes
such that the addition of Project traffic is potentially significant as it causes an exceedance of the
+3dBA threshold as shown in Table 8. Because current traffic volumes even with Project traffic are
so low, so are the associated CNELs. As shown in Table 9, on the roadway segments that experience
the largest Project related traffic noise increases of +3.1 dBA to +6.8 dBA, total future CNELs
including Project traffic are less than 52 dBA which is much less than the recommended significance
guideline of 60-70 dBA CNEL for residential uses.
Therefore, Project traffic noise increases are less-than-significant.
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Table 7
Traffic Noise Impact Analysis
(dBA CNEL at 50 feet from centerline)
Segment Existing No
Project
Existing
With Project
Future No
Project
Future With
Project
Virginia St/ E of Strathmore 44.9 48.7 44.9 48.7
Strathmore/ Virginia to Site Entrance 44.9 48.7 46.3 49.4
Site Entrance to Garvey 44.9 51.7 44.9 51.7
S of Garvey 52.1 52.1 52.1 52.1
Garvey/ W of Brighton 70.6 70.7 71.1 71.2
Brighton-Strathmore 70.7 70.8 71.2 71.2
E of Strathmore 70.7 70.8 71.2 71.3
W of San Gabriel 71.2 71.2 71.6 71.7
E of San Gabriel 70.9 70.9 71.3 71.4
San Gabriel/ N of Garvey 71.6 71.6 72.1 72.1
S of Garvey 71.8 71.8 72.1 72.1
Table 8
Project Impact
(dBA CNEL at 50 feet from centerline)
Segment Existing Impact Future Impact
Virginia St/ E of Strathmore 3.8 3.8
Strathmore/ Virginia to Site Entrance 3.8 3.1
Site Entrance to Garvey 6.8 6.8
S of Garvey 0.0 0.0
Garvey/ W of Brighton 0.1 0.1
Brighton-Strathmore 0.1 0.0
E of Strathmore 0.1 0.1
W of San Gabriel 0.0 0.1
E of San Gabriel 0.0 0.1
San Gabriel/ N of Garvey 0.0 0.0
S of Garvey 0.0 0.0
*bolded entries are in exceedance of the +3 dBA traffic noise increase threshold
Table 9
CNEL for Segments Exceeding +3 dBA Threshold
(dBA CNEL at 50 feet from centerline)
Segment
Existing
Project Impact/
CNEL
Future
Project Impact/
CNEL
Virginia St/ E of Strathmore 3.8 / 48.7 3.8 / 48.7
Strathmore/ Virginia to Site Entrance 3.8 / 48.7 3.1 / 49.4
Site Entrance to Garvey 6.8 / 51.7 6.8 / 51.7
Strathmore and Garvey, Rosemead N 16
SITE OPERATIONAL VEHICULAR NOISE
There are three site entrance/exit points. Vehicle access is proposed at Strathmore Avenue, Virginia
Street, and a public alley connecting to Brighton Street at the west side of the property. Most of the
Project traffic is expected to utilize the Strathmore Avenue entrance (60%). The Virginia Street
entrance is expected to handle 35% of the Project traffic and the Brighton Street public alley access
5%.
The traffic analysis shows a peak AM hour of 62 vehicular entries or exits and the peak PM hour to
include 74 vehicular entries or exits. Table 10 provides the calculated number of vehicles and
associated noise levels for each entrance based on the PM peak hour traffic volume as it is higher than
the AM peak hour.
Table 10
Peak Hour Traffic Noise at Site Access Points
Entrance Point Number of Vehicles Associated Noise Level
Strathmore Entrance 44 47 dBA Leq
Virginia St Entrance 26 44 dBA Leq
Alley Access 4 36 dBA Leq
The homes west of the site will be exposed to traffic noise from the alley access drive aisle. This
entrance is expected to incur a peak hour noise level of 36 dBA Leq. Homes across Virginia Street
will be exposed to traffic noise from the Virginia Street entrance with a peak hour noise level of 44
dBA Leq. No sensitive uses are impacted by the Strathmore Avenue entrance.
The City of Rosemead Noise Ordinance limits noise from a private property adjacent to a residential
use to not exceed 60 dBA Leq at the property line from 7 AM to 10 PM which is when peak hour
traffic would occur. Therefore, the Project peak hourly traffic entering or leaving the site would not
exceed the daytime noise standards. The nocturnal noise standard is 45 dBA Leq, but as shown in
Table 10, even peak hour noise levels won’t exceed 44 dBA Leq at the Virginia Street entrance.
Additionally, the observed ambient noise levels were higher than those provided above. Therefore, it
is likely that Project traffic will not be audible over background noise levels.
MECHANICAL EQUIPMENT NOISE
The operation of mechanical equipment typical for developments like the Project, such as, air
conditioners, fans, and related equipment may generate audible noise levels. For this Project, the
mechanical equipment is located on the rooftop and will be shielded from nearby land uses to
attenuate noise and avoid conflicts with adjacent uses. Project plans show a requirement for adequate
screening. Most of the roof top units are interior to the roof, and not near the edge.
The Project would install mechanical equipment that would generate characteristic noise levels for
the type of equipment, consistent with applicable regulatory requirements and with adequate
Strathmore and Garvey, Rosemead N 17
screening. Therefore, operation of mechanical equipment would not exceed the City’s thresholds of
significance, and impacts would be less than significant.
ON-SITE TRAFFIC NOISE EXPOSURE
Although the site is bound by Garvey Avenue and Strathmore Avenue only Garvey traffic could cause
on-site residential uses to be exposed to high noise levels. Along the Garvey frontage, the first three
levels are either commercial use or parking lot use. Residential uses are on levels 4-7. The balconies
are primarily recessed within the building façade and are therefore shielded from directional noise. It
is not expected that residential balconies would observe exterior traffic noise levels of above 70 dBA
CNEL. Most residential recreational space is provided by the two courtyards, and the two community
decks which are setback from the roadway, or interior to the site. Private balconies comprise only
17% of the site open space and the percentage of those decks that have a line-of-sight to Garvey
Avenue is even less.
Strathmore and Garvey, Rosemead N 18
CONCLUSIONS
Short-term construction noise intrusion shall be mitigated by compliance with the City of Rosemead
Noise Ordinance. The allowed hours of construction are from 7 a.m. to 8 p.m. Monday through
Saturday. However, given the proximity of adjacent residential uses, the following measures are
recommended. With inclusion of these measures, construction noise impacts from the Project would
be reduced to less than significant level.
• Any large dozer or grader shall not operate closer than 35 feet to the property lines adjoining
residential uses. A small dozer would be acceptable.
• All construction equipment shall be equipped with mufflers and other suitable noise
attenuation devices (e.g., engine shields).
• Grading and construction contractors shall use quieter equipment as opposed to noisier
equipment (such as rubber-tired equipment rather than track equipment), to the maximum
extent feasible.
• If feasible, electric hook-ups shall be provided to avoid the use of generators. If electric service
is determined to be infeasible for the site, only whisper-quiet generators shall be used (i.e.,
inverter generators capable of providing variable load.
• Use electric air compressors and similar power tools rather than diesel equipment, where
feasible.
• Locate staging area, generators and stationary construction equipment as far from the adjacent
residential structures as feasible.
• Construction-related equipment, including heavy-duty equipment, motor vehicles, and
portable equipment, shall be turned off when not in use for more than 5 minutes.
• Post a sign in a readily visible location at the Project site that indicates the dates and duration
of construction activities, as well as provide a telephone number where residents can enquire
about the construction process and register complaints to an assigned construction noise
disturbance coordinator
In the abundance of caution, to ensure adequate vibration protection a dozer or grader will operate at
least 25 feet from the property line. Therefore, the following mitigation measure is recommended:
• Only small bulldozers shall be permitted to operate within 25 feet of the nearest off-site
structures
Project-related off-site traffic noise changes on existing streets are less than significant.
There are three site access points, at Strathmore Avenue, Virginia Street, and a public alley connecting
to Brighton. There are no sensitive uses adjacent to the Strathmore access point. Even peak hour
traffic is less than 44 dBA Leq at the Virginia Street entrance which is less than the daytime noise
threshold of 60 dBA Leq. If the peak hour daytime noise level is less than the 45 dBA Leq nocturnal
threshold it can be assumed that nighttime noise levels would be much lower.
Strathmore and Garvey, Rosemead N 19
Rooftop mechanical equipment shall provide adequate screening to ensure noise levels do not exceed
the daytime noise standard at any adjacent sensitive use of 60 dBA Leq and nighttime standard of 45
dBA Leq.
The Project is not expected to exceed the City of Rosemead noise standards at any residential property
line.