HomeMy WebLinkAboutPIP 95-09; Homes for Industry Lot 40; Planned Industrial Permit (PIP) (9)ACOUSTECH CONSULTANTS
REPOW NO. 1295-P33
Acoustical Analysis Report for
Two Proposed Buildings on Lots 39 & 40
Airport Business Center, Carlsbad
Lot 39 - MS95/05~UD95/0~1P95/08
Lot 40 - CT95/04/PUD95/03/PIP95/09
December 18, 1995
Prepared For:
Mr. Dennis Glaser
St. Georges Holdings
2223 Avenida de la Playa
La Jolla, California 92037
For Submittal To:
City of Carlsbad
Planning Department
2075 Las Palms Drive
Carlsbad, California 92009-1576
Prepared By:
Gary W. Hicks
Acoustech Consultants
Certified Acoustical Consultant - San Diego County
ST
Report Number 1295-P33 December 18,1995
1.0 BACKGROUND
1
1.1 Purpose
This report provides an evaluation of the interior noise levels expected for two
proposed industrial buildings to be located adjacent to McClellan-Palomar
Airport in the Airport Business Center
1.2 Requirements
SANDAG has reviewed proposals for manufacturing buildings on lots 39 and 40
and determined that the lots are within the Carlsbad Airport Center Specific.
Plan. The projected 75 dBA Community Noise Equivalent Level (CNEL) noise
contour for McClellan-Palomar Airport is forecasted to increase and cover
portions of these lots. The buildings proposed for construction within the 75 dBA
CNEL contour should be attenuated to an interior noise level of 50 dBA CNEL.
1.3 Mitigation
Interior noise levels will be estimated based upon the proposed construction. If
the 50 dBA CNEL limit is not achievable with standard construction,
construction improvements will be recommended which will reduce interior
noise levels no higher than 50 dBA CNEL.
2.0 DESCRIPTION OF SITE AND BUILDINGS
2.1 Site Location
The proposed site is adjacent to the airport in the business center, north of
Kellogg Avenue. Figure 2.1 illustrates the site plan and CNEL contours.
2.2 Existing Site Noise Conditions
SANDAG has determined that airport traffic will result in a Community Noise
Equivalent Level (CNEL) of between 70 and 75 dBA. A worst-case CNEL of
75 dBA will be assumed.
2.3 Building Characteristics
The "large" building has a square footage of 10,OOO square feet while the
"small" building is approximately 5OOO square feet. Both buildings consist of
tilt-up concrete walls and an offidreception area with glass front. Key noise
transmission features include the mf, a roll-up access door, and windows.
Table 1 below provides the building elements and relevant areas.
10731 Old Saybrook Drive, San Dm, California 92129 Telephone & Fax (619) 672-2043
Report Number 1295433 December 18,1995
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Table 1
Areas & STC's of Building Elements (Before Upgrades)
Building Element Estimated STC Areas, ft2 B1 B2
(1) Roll-up Door (standad) 15 AccessDoor (standad) 26 (2) Fixed Glass (office &walls) 27 (3) Roof 29 Concrete (4"-57 46
168 168 21 21
47 1 576
5029 9987 5180 7501
(1) Est. 24 ga. sheet metal, minimal gasket (2) Fixed 1/4" thick single pane
(3) 2"x6" joists; rooftop 38" plywood with paper and waterproof coating
Building elements which have the greatest impact on sound transmission, in
descending order are:
1. roll-up door
2. roof
3. windows
The roll-up door, though small in area, generally provides poor sound insulation
due to leakage at the perimeter. A higher-quality "cold weather" door may be
required. The large area of the roof results in substantial noise transmission.
3.0 INTERIOR NOISE ESTIMATION METHODOLOGY
3.1 Prediction Technique
To estimate the interior noise in the building, we assume that the roof and
exterior walls may receive up to 75 dBA CNEL. The interior noise (Li,) can be
determined by:
where Lout = the octave band exterior noise levels (total 75 dBA CNEL)
TL = the octave band transmission loss of the individual building elements
S = the surfam area of the various building elements A = the room absorption in Sabins
In practice, the composite transmission loss (TLJ for the building exterior
elements is calculated based upon the individual transmission loss and areas.
10731 Old Saybrook Drive, San -0, California 92129 Telephone 81 Fax (619) 672-2043
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Report Number 1295433 December 18,1995
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To calculate the composite transmission loss of a multi-element wall, the
following equations are employed:
where TL, is the transmission loss of the multi-element wall or roof in dB.
zc is the composite wall or roof transmission coefficient.
S,,S2, -ST are the areas of individual wall or roof elements.
zl, z2, -- zn are the sound transmission coefficients of the individual
elements.
ST = total wall or roof area; S, +S2 --- Sn
The terms zl, z2, -- zn can be calculated from the element STC values or from
octave-band single element transmission loss values by solving the equation:
= l/antilog,, [STC/lO]
OR, = t l/antiiog,o [Tu101
The details of the wall composite transmission loss calculations must be
performed for exterior partitions which include elements other than bare stucco.
3.2 Noise Spectrum and Transmission Loss
The exterior noise due to aircraft must reflect both nearby and distant aircraft.
The 75 dBA CNEL is estimated to consist of the following octave band levels:
Octave Band CF Est. Linear Spectrum Est. A-Wtd Spectrum
125
250
500
1000
2000
4Ooo
81)
78
70
66
64
62
64
68 67
66
65
63
10731 Old Saybrook Drive, San Diego, CdRmia 92129 Telephone & Fax (619) 672-2043
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Report Number 1295-P33 December 18,1995
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The transmission loss of standard and upgraded building elements is as follows:
Table 2
Transmission Loss of Building Elements
Octave Band TL (dB) - Item
(1) Roll-up door (std)
(2) Roll-up door (special)
Access door
(3) Fixed window, 3/16"
(4) Fixed window, 114"
(5) Tilt-up concrete wall, 4" thick
(6) Standard roof
(7) Enhanced roof
- 125 - 2s - 500
10 12 15
13 17 17
19 21 24
19 19 23
22 25 27
42 42 45
15 22 27
30 37 42
- 1006
16.5
20
26
27
31
52
32
46
- 2000
18
33
26
26
23
57
35
49
- 4Ooo
20
36
30
28
31
62
30
52
Est. STC
15
.* 22
26
25
27
52
29
44
(1) Assumes 1" air gap on sides and bottom (2% area), 24 ga sheet metal (2) Assumes gasket material top and sides, 24 ga sheet metal; est. STC = 22 (3) (4) Aluminum frame, sealed, single pane windows (5) Solid concrete wall, Harris HB Noise Control, Fig. 31-14 (6) 5/8" plywood over 2"x6" joists, est. (7) 5/23" plywood over 2"x6" joists, R-19 insulation, 38" gypboard on resilient channels (Cal. HB 2.1.2.2.1.2, degraded at LF for 6" v. 8" joists)
4.0 BUILDING INTERIOR NOISE LIMITS
Appendix A provides the calculation details for determining the interior noise
levels in the building. The estimated values are averages; certain locations
within the building may be slightly higher or lower than predicted. Table 3
below provides a summary of results.
10731 Old Saybrook Drive, San Diego, Cdifmii 92129 Telephone & Fax (619) 672-2043
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Report Number 1295P33 December 18,1995
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Table 3 Predicted Interior Noise Levels
Building Features
Small-5000ft~ standard roll-up door
(StatldWtl) with air gaps std roof
Small upgrade roll-up door
(UPgndL.) with seals upgraded roof (seebelow)
Large- I 0,000 ft' standard roll-up door
(SmdTd) with air gaps
Large upgrade roll-up door (qm-~) with seals
std roof
upgraded roof (seebelow)
Predicted Interior Noise JCNEL)
58.3
48.9
60.9
50.0
Required Interior Noise JCNEL) PasslFaiI
50 Fail
50 Pass
50 Fail
50 Pass
Our findings based upon the analysis are as follows:
1. The roll-up door and roof design have the greatest affect on the interior
noise levels.
2. Whdows and standard doors have only a small affect on the overall interior noise levels in the building.
3. Standard 1/4" or similar, single glazed, fixed windows are sufficient to
meet average interior noise levels.
4. Upgraded roll-up doors and substantially upgraded roofs are required to
comply with the 50 dBA CNEL limit.
5. The roll-up door should have no visible air gaps. A cold weather, high-
qr~al itv door is required. Alternatively, a special custom edge seal for a
standard door will be necessary.
6. The standard roof construction must be upgraded to include R-19 batt
insulation between joists and 5/8" gypsum board on 1/2" resilient channels
attached to the joists and spaced 24" O.C.
7. We recommend a layer of R-19 batt insulation be placed above the
office/entry dropped ceiling.
10731 Old Saybrook Drive. San Dqo, California 92129 Telephone & Fax (619) 672-2043