Siren Alert Sys:Acoustical Performance Evaluation, Final Rept

ML20005B114
Person / Time
Site:	Crane
Issue date:	05/31/1981
From:	PARSONS, BRINCKERHOFF, QUADA & DOUGLAS, INC.
To:
Shared Package
ML20005B111	List: ML20005B110 ML20005B114 ML20262L593 ML20262L596 ML20262L598 ML20262L600 ML20262L602 ML20262L605
References
RTR-NUREG-0654, RTR-NUREG-654 NUDOCS 8107060322
Download: ML20005B114 (93)
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Text

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1 I

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Three Mile Island Nuclear Generating Station i

Final Report

l Siren Alert System Acoustical Performance Evaluation l

(

prepared for GPU/ Metropolitan Edison Company prepared by Parsons Brinckerhoff Quade & Douglas,Inc.

l May 1981 i

r OCK 0 0

9

THREE MIIE ISLAND NUCLEAR GENERATING STATION I

SIREN ALERT SYSTEM ACOUSTICAL PERFORMANCE EVALUATION FINAL REPORT

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E Prepared for

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GPU/Metroplitan Edison Company Prepared by Parsons Brinckerhoff Quade & Douglas, Inc.

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May, 1981

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TABLE OF CONTENTS Page

1.0 INTRODUCTION

1 2.0 SIREN SYSTEM DESIGN OBJECTIVES 2

3.0 METHODOIDGY 3

4.0 ANALYSIS PROCEDURES 5

4.1 Siren System Description 5

4.1.1 Siren System Components 5

4.1.2 Siren Acoustical Data 5

4.1.3 Siren System and Location 6

4.2 Receptor Grid 7

4.3 Source - Receptor Terrain Feature 7

4.4 Meteorological Conditions 7

5.0 RESULTS 14

6.0 CONCLUSION

S 32 l

7.0 REFERENCI:S 36 l

l l

APPENDIX A.

SIREN EQUIPMENT 38 I

l APPENDIX B.

LABORATORY TEST METHOD OF ACOUSTICAL l

PERFORMANCE OF EMERGENCY SIRENS 42 l

APPENDIX C.

IOCAL CLIMATOLOGICAL DATA AT HARRISBURG, PA.

47

l l

i LIST OF '.? ABLES 1

Tnble Page i

1 List of Sirens as of 5/1/81 8 to 11 2

Averaged Weather Conditions Used in the Model 13 3

Sample Sound Level Outputs at Two Grid Points Due to a Single Siren 15 4

Sample Topographical Output Due to a Single Siren 16 to 20 5

Grid Sound Pressure Levels Due to the Siren System -

Winter Time 22 to 26 6

Grid Sound Pressure Levels Due to the Siren System -

Summer Time 27 to 31 7

Population Densities in 10-mile EPZ by Municipalities 34 to 35 l

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I LIST OF ILLUSTRATIONS Follows Figure Page 1.

Schematic of Analysis Methodology 3

2.

Block Diagram of Outdoor Sound Propagation Model 4

1 3.

Siren Location Map 7

4.

Receptor Grid for SPL Calculation 11 5.

Siren System Sound Level Contours in 10-Mile EPZ -

Susmer Daytime 31 6.

Siren System Sound Level Contours in 10 - Mile EPZ -

Summer Nighttime 31 7.

Siren System Sound Level Contours in 10 - Mile EPZ -

Winter Daytia,a 31 8.

Siren System Sound Level Contours in 10 - Mile EPZ -

Winter Nighttime 31 9.

FEMA CPG-1-17 Figure 1 35

l l

1.0 INTR 000CTION GPU/ Metropolitan Edison Company (GPU/ Meted) has engineered and designed a circn alerting and notification system for the Three Mile Island Nuclear Generating Station (TMI) in compliance with the requirements of the NUREG-i 0654/ FEMA-REP-1, Appendix 3.

To ensure that the siren system meets or exceeds I

i tha acceptable criteria established in Paragraph C Subparagraph 3 of NUREG-i 0654, Appendix 3, the Advanced Technology Department of Parsons Brinckerhoff Quade & Douglas, Inc. is under contract to GPU/ Meted to evaluate the system decign.. This report documen s the process and the results of this evaluation.

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Since the task undertaken deals specifically with the outdoor acoustical performance of the siren system, Paragraph A on Concepts of Operations, P rtgraph B-3 on Public Notification schemes via arrangements with local and ctate agencies, Paragraph C-1 and C-2 on Supporting th-nications and 4

l Notification of Response Organizations, and Paragraph C-4 on Other Systems of NUREG-0654, Appendix 3, are not addressed in this study report. This task I

rcport deals sp6cifically with Paragraphs B-2 on the Siren System coverage and i

C-3 on the Physical Implementation of the Siren System.

Section 2.0 of-this study report sets forth the siren system design objectives.

Stction 3.0 describes the methodology used for analysis of the siren system.

Section 4.0 provides a description of the siren system and the relevant site conditions under consideration. Section 5.0 presents the results of analysis, cnd Section 6.0 summarises the conclusions drawn from the analysis in achieving tha system design objectives. _. _

J 2.0 SIREN SYSTEM DESIGN OBJECTIVES The siren system engineering, design and installation are to achieve the i

following objectives:

O the system shall provide an alerting signal to the population on an area wide basis throughout the plume exposure pathay Emergency Planning i

Zone (EPE) within 15 minutes; I

o the system will assure direct coverage o* essentially 100 percent of the population within 10 miles of the site; l

o to document any arrangements necessary to assure 100 percent coverage j

of the population between 5 and 10 miles from the site within 15 minutest o

the siren system meets the acceptable dissonant sound level described l

in FEMk Publication CPG-1-17, considering such factors such as weather, topography, and demography of the area around the site; and o

the sound levels received by any member of the public will be lower than 123 dBC, the level which may cause discomfort to individuals..-..

i i

1 3.0 METHODOTAGY l

To crrive at an effective analysis methodology to achieve the enumerated objectives, an array of sound sources in an outdoor environment was evaluated i

to determine the sound pressure level distribution throughout a given area under specified weather conditions. This evaluation is a familiar and well-1 studied problem in outdoor sound propagation (Nyberg and Mintzer, 1955 or Lee, 1978). The coverage of population and the adequacy of the siren system can i

th n be easily assessed through an area-population density computation of the spatial sound level distribution.

]

An integral part of the analysis 2ffort is to estimate the resulting sound peccsure level at a receptor location due to a asand source in a real Etnospheric and topographical setting. The factors to be consi N ed are source locztion and characteristics, atmospheric conditions (wind speed, wind direction, wind gradient, temperature and tengerature gradient, relative humidity, and barometric pressure), intervening topographical features between source and l

recrptor (ground type, foliage cover, and terrain features), and receptor location. To perform such a task on an array of sirens over an area of 10 nila radius a computerized procedure is used. The schematic shown in Figure 1 d:picts the process of analysis employed to evaluate the siren system.

i U30 of a cosputerized outdoor sound propagation model, like that developed for this study, is neccessary since use of the typical invr M square law with ctuospheri,: absorption correction for calculating 4 4.1 y assure levels at large distanc+s yielis unrealistically high estiatu s of tr$ propagated sound (Lem, 1976A). Therefore, a cosputerized propagation model (Lee, 1975A) which.

Fl@URE 1. SCHEMATIC OF ANALYSIS METHODOLOGY START

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accounts for tne excess attenuating effects of refraction due to wind and thermal gr adients, ground, natural and man-made obstructions, and vegetation wm developed. The model was field verified earlier employing direct measurement cnd digital cross-spectral techniques (Slutsky and Lee, 1976B), and further ficld verified at an upstate New York power plant (Knoll and Lee,1980). The model and its verificati<n are described in great detail in a two-volume rgport (Lee, 1975B), mode., operation is explained in a user documentation (Lee and Becker, 1980). The block diagram of the model is presented in Figure 2.

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4.0 ANALYSIS PROCEDURES To perform the analysis according to the methodology in Section 3.0, information concerning the siren system and location, the receptor grid system, the tcpographical features, and the atmospheric conditions must be ascertained.

The following subsections provide detailed descriptions for each item.

4.1 Siren System Description 4.1.1 Siren System Components Two types of sirens were selected by GPU/ Meted to meet NUREG-0654, Appendix 3, guidance for siren alert system at TMI:

the Allertor and Cyclone sirens tanufactured by Alerting Communicators of America's (ACA). Technical information cbout these sirens was supplied by the manufacturer and is presented in Appendix A.

Both types of sirens are electrically powered and include radio-activated controls. Sound is generated mechanically by a direct motor-driven rotor chopping an induced air stream. The Cyclone is an omni-directional siren using 3 phase, 220 volt AC power; the Allertor is a rotating directional ciren using single phase power.

4.1.2 Siren Acoustical Data Since outdoor fixed warning sirens traditionally have been used for fire emergencies and civil defense purposes, data on siren acoustical performance -

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l date has been minimal. Most current suppliers of such sirens rate the acoustical output of siren by a single C-weighted sound pressure level (dBC) at 100 fost along the central axis of the siren. The Cyclone and the Allertor are both rated as 125 dBC at 100 feet. Field tests on these sirens have been conducted (e.g. Stone & Webster 1980, Office of Civil Defense 1961, IITRI 1976, Lee,1031). However, the test results were either out-of-date, related to cider models, or far-field measurements thereby rendering them of limited value for the present analysis. Necessary data unavailable from these field tsets include near-field octave band or third-octave band sound pressure 1svals and directivities.

Thio lack of siren acous*:ical led to the development of a laboratory test method for the measurement of acoustical performance of emergency sirens (Appendix B).

The siren manufacturer is required to comply with the test procedure to assure that the siren system to be installed at TMI will meet tha guidance of NUREG-0654, Appendix 3.

4.1.3 Siren System and Location

^

Bassd on an initial evaluation by GPU/ Meted staff using FEMA CPG-1-17 as a guide, a siren system consisting of eighty three 125-dBC sirens was designed.

Tho locations of the planned sirens are shown on USGS map in Figure 3.

The danignations of sirens are as follows:

the prefix alphabet indicates the county;.the suffix alphabet designates the rotational Allector siren, and a blank suffix designates the omnidirectional Cyclone sire. Table 1 provides a complete listing of the planned sirens. Note that sirens Y4 and Y5 are,.... _ _ - _ _ - _ _ _... _ - _. - - _ _ _. _ -.. - _.. _ _ _ _ _ _, _. _ _ _. _ _... _

locIted outside the 10-mile EPZ and outside the southern boundary of the USGS map shown, they are annotated differently in Figure 3 to indicated so.

4.2 Receptor Grid It is necessary to specify the number of receptor points where sound pressure 1svals (SPLa) due to the arrary of sirens are to be calculated. A rectangular 17X17 grid covering the 10-mile EPZ is shown in Figure 4.

A total of 289 recIptor points are used in a spatial interpolation scheme resulting in a fina mesh of over 6000 points covering the 10-mile EPZ for sound pressure lcval distribution.

4.3 Source-Receptor Terrain Feature Using Figures 3 and 4, intervening terrain features between each source-receptor pairs were identified and coded. Primary features of concerns are ground type, foliage, and obstructing terrains along line of sight.

This time consuming process was carried out for 23,987 source-receptor paris.

4.4 Meteorological Conditions i

LocIl climatological data for the area were compiled by the National Climate C:nter. The monthly summary data at Harrisburg, Pennsylvania from January 1978 through October 1980 were examined (Appendix C).

Averaged wind directions, cind speeds, temperatures, relative humidities were derived from hourly observations for two seasons (Summer and Winter) and two time periods (Daytime and Nighttime). -

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l Table 1: List of Sirens as of 5/1/81 County / Siren Designation Type Right-Of-Way Cumberland C1 A11ertor Obtained Cumberland C2 Cyclone Obtained Cumberland C3 Cyclone Obtained Dauphin D1 Cyclone Obtained Dauphin D2 Cyclone Obtained Dauphin D3 A11ertor Obtained Dauphin D4 Cyclone Obtained Dauphin D5 Cyclone Obtained Dauphin D6 Cyclone Obtained Dauphin D7 Cyclone Obtained Dauphin D8 A11ertor Obtained Dauphin D9 Cyclone Dauphin D10 Cyclone Obtained Dauphin D11 Cyclone Dauphin D12 Cyclone i

Dauphin D13 Cyclone

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Dauphin D14 Cyclone Dauphin D15 Cyclone Dauphin D16 A11ertor Dauphin D17 Allertor Obtained Dauphin D1B Cyclone Obtained Dauphin D19 Cyclone Dauphin D20 Cyclone Obtained...

County / Siren Designation Type Right-Of-Way Dauphin D21 Cyclone Dauphin D22 Allertor Obtained P;uphin D23 Cyclone Dauphin D24 Allertor Dauphin D25 Allertor Dauphin D26 Allertor Obtained Dauphin D27' Cyclone Obtained Dauphin D28 Cyclone Dauphin D29 Allertor Obtained Dauphin D30 Cyclone Obtained Lancaster LAl Allertor Lancaster.LA2 Allertor Obtained Lancaster LA3 A11ertor Obtained Lancaster LA4 Allertor Obtained Lancaster LAS Allertor Lancaster LA6 Allertor Obtained i

Lancaster LA7 Cyclone Lancaster LA8 Cyclone Obtained Lancaster LA9 Allertor Obtained Lancaster LA10 Cyclone Obtained Lancaster LAll

'Allertor Obtained Lancaster LA12 Cyclone Obtained Lancaster LA13 Allertor Obtained Lancaster LA14 Cyclone Lancaster LA15 Allertor I. -..

k County / Siren Designation Type Right-0f-Way Lebanon LEl Cyclone Obtained Lebanon LE2 Cyclone Obtained York Y1 Cyclone Obtained York Y2 Allertor Obtained York Y3 Cyclone Obtained York Y4 Cyclone York Y5 Cyclone Obtained York Y6 A11ertor Obtained York Y7 Cyclone Obtained York Y8 Allertor Obtained York Y9 Cyclone Obtained York Y10 Cyclone York Yll Allertor Obtained York Y12 Allertor Obtained York Y13 Cyclone Obtained York Y14 Cyclone Obtained York'Y15 Allertor Obtc1ned York Y16 Cyclone Obtained York Y17 Cyclone Obtained York Yl8 Cyclone Obtained York Y19 Cyclone Obtained York Y20 Cy'.'one Obtained

- York Y21 Allertor York Y22 Cyclone Obtained

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York Y23 Cyclone Obtained York Y24 Allertor York Y25 Cyclone York Y26 Cyclone Obtained York Y27 A11ertor Obtained 4

York Y28 Cyclone Ycck Y29 Cyclone Obtained York Y30 Allertor Obtained York Y31

'Allertor Obtained York Y32 Cyclone Obtained York Y33 Cyclone Obtained l

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Tha meteorological conditions at two elevations (6 and 66 foot levels) thus d rived ar averaged Winter Daytime, Winter Nighttime, Summer Daytime, and Summer Nighttime weather conditions are presented in Table 2.

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i Table 2: Avera9ed Weather Conditior.; Used in the Model I

Meteorological Input Conditions H1 = 2.00 Meters H2 = 19.99 Meters

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l 5.0 RESULTS Pritr to presenting the results of the entire siren system, some intermediate rccults are presented here to illustrate the process which led to the final rctults. Table 3 shows the computed sound pressure levels (A-weighted, C-weighted and octave band center frequency sound pressure levels) at two receptor grid points due to one single.+iren (labelled LA6) for Winter Nighttime and Daytime conditions. For each siren, the sound pressure levels are computed fer the entire 289 grid points whose topographical characteristics with respect to this particular siren (LA6) are shown in Table 4.

After the sound pressure 1sv21s (SPL) at each grid point due to each siren are computed, a combination process described in the following is then employed to derive the resultant sound pressure levels at each grid point due to the entire siren system.

Dua to the voluminous computer printouts generated, the SPL outputs due to Gtch individual siren are bound separately and are not presented herein.

Th2 combination process of individual siren contributions consists of two distinct methods according to the type of siren. When combining two omnidirectional (Cyclone) sirens, the resultant SPL is the usual logrithmic sum of the individual SPLs due to each siren; i.e.

SPL== to Joy (to

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)

WhIn combining the contribution of a directional rotational siren (SPLr) to that of rotational sirens and/or omnidirectional sirens (SPLl) it is more conservative to just use the maximum of the two; i.e. -

SPL = Mat (SPL, SPL1) r this is due to the fact that a particular receptor cannot be assured of the cynchronous reception of signals at all times.

The resulting sound presrure icvels at each of the grid points in Figure 4 due to the siren system are prasented in Tables 5 and 6 corresponding to Winter and Summer conditions.

Th3 resultant SPLs presented in Tables 5 and 6 at 289 grid points covering the 10-mile EPZ are then fed into a surface interpolation, mapping and contouring program which generates a fine mesh of over 6,000 points over the 10-mile EPZ. Weighted least square contours are drawn at 10 dBC increments and presented in Figures 5 to 8 for Summer Daytime, Summer Nighttime, Winter Daytime, and Winter Nighttime averaged conditions. When these contours are overlaid on 7-1/2 minute series USGS map of the 10-mile EPZ, it is readily apparent that this siren system will meet all of the objectives set forth in Section 2.0 i

A numerical integration of areas above 60 dBC resulted in 869,423,100 square n2tsrs for average Summer Daytime condition, 859,427,800 square meters for svarage Summer Nighttime condition, 948,681,700 square meters for average t

Winter Daytime condition, and 950,119,400 square fmeters for average Winter Nighttime condition.._ __j

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22. 2 *>

42 18416.59 121.53 45.72 S CF I 0.0 Na 0.0 0.0

, _.43 17449.95 ll5.R9 25.41 WFi 4.0 NO 0.,0 u.0 44 16668.97 109.66 25.91 SOF I 0.0 YES 3010.00 95.40 41 16101 95 192.91 50.44 Suff 0.0 YES 5334.00 58.d3 46 15776.99 95.77 51.32 SLFI 0.0 YES 3C49.00 71.11

_ _ __ __4 7 15702.3d 83.94 19,h2 SOFT 0.0 YES 3261.36 67.97 48 15095.44 Hl.17 44.20 SOFT 0.9 YES 4612.06 58.dJ 49 16315.79 74.1 7 99.36 SCFI 0.0 YES

$334.00 77.11 Table 4: Sample Topographical Output Due to a Single Siren m

ye 45,tJ.99 14's.20 25.91 HARD 0.0 NU 0.b SS 2?356.63 142a76 S6.19 HARD 0,0 N 0_ __

J.0

_ _ _ Q, 0

$6 20 t:01. 3 4 139.06 S0.29 S ti l 0.0 tiu O.0 0.0

___ _. 'i 7 19332.F0 134,.94 11, 53 S[lF T Q,0

.NO

_Q, 0 00 2

5a 1T968.33 130.39 H2.30 S OF I 0.0 NO 0.0 00

__59 16715.06 125,14

'tl 15 St:r i 0.0 P(Q Q,3

_q, y 60 15663.49 119.11 21.34 SOF1 0.0 NO

0. 0 -

0.0

.. _,Al._ __14.7_.0.07 112 2H 611.3 A SOFT 0.0 Y E.S

__ ___ ) p.1.Q, 9) _ _, _

yh3st_

i 62 14150.22 104.12 106.6n SUFT 0.0 YFS

$496 40 Sd.U3 j

... _ _f.t3 Ill1.ha19

%s61 1Um34 S DEL 0.0 YES LC43, QQ (L,11 1

64 13632.15 911. 2 1

56. 19 SOFI 0.0 Y t.S 45T2.00

$5.fd

___ 65 1 19'll. 0 4 79.3.0 7.4 48 SCFT Q,0 YE3 Jh]3 JJ 71,11 66 14390.8%

71.99 99.06 SCFI 0.0 YES 4114.80 19.20

_ ft7 1511h31 64 13 11.63 SOFT 0.0 ND_

0.0 Q.0 f

6ct 16096.34

$ tl. 2 4 61.06 50fl 0.0 NO 0.0 0.0

_.. 69

__2kij l.li l h 79 23,96 il A.BD Q,Q NO 0 0_ _ _ _

0,0 TO 24642.33 151.72 32.00 HARD 0.0 NO 0.0 0.0 i

0,0

_q,0 i

71_

22690,55 1%,34 A.39

_1!aBlL 0.0

.NO 0.0 0.0 72 21194.98 146.56 1.52 HARD 0.0 NO l

.. _.73 19.5J f. 76 l_41 }l 4 h20 HARD 0.0 N f) _.

0. Q.

.0g 74 17964.91 139.47 50.29 HARJ 0.0 40 0.0 0.0

. _75 16.i37.75 lb.93 56.39 SLFT 0.Q Nt]

0,0 0,0 l

l; 76 15134.32 129.52 44.20 SOFT 0.0 NO 0.0 0.0

_7 7_

119_iah 9 12.],13 10.67 SOFT 0.0 NO 0,0 0.o 18 12951.11 115.66 108.20 50Fi 0.0 YES 3352.80 49.66 I

79 12215.32 101.12 85.34 S g_F T 0.0

,Yf_$_

2987.04 2h30 HD 11780.93 97.73 112.F8 SOFI 0.0 VES 3657.60 2d.35 g

__01_

L 1.6J ], 62 pl 91 111.25 SCFT 0.0 YES 6248,30 46.q3 R2 11925.77 18.20 56.39 SUFT 0.0 NO 0.0 0.0

_ _. 83 12.12J,16 6 9,_1.]

74.68 50f_i 0.0 NO 0.0 0.0 L

84 13342.89 61.03 44.20 SCFI 0.0 NO 0.0 0.0 l

. _P9_

_lii2i J9 54.03 79.25 SCFI 09 NQ 0.0_

60 i

86 256'J6.33 15T.03 27.43 HARD 0.0 NO 0.0 0.0

. _ _.. 01._ __23755.48 156,00 25.91 HA80 0.0 P10

0. p___

0.0 88 21932.99 153.86 2$.91 HARD 0.0 hu 0.0 0.0 i

D_,0 No 0.0_

0.0 j

__. 90 18406.60 148 34 1.52 HARO 0.0 NO 0.0 0.0 a.9 _.

2013 M 2 151.34 25,91 HARG 91_

._Jh727.73

[44.72 1.52 HARD 0.0 NO 0.0 0.0

.., 92 15150 26 140.31 19.81 HARO 0.0 I40 0.0 0.0 9 3_.

13 M2.31 13idl 33,1 0 HARQ 00 NQ_

0. 0._

00 94 12305.34 128.26 10.67 SCFT 0.0 NO 0.0 0.0 0.0 u.0

-95.___ tLill 3L._

129,_13 J2,90 SOFI 0.0 PQ 0.0 0.0

(

96 10309.04 110.42 6n.5P S OF T 0.0 NO 9E_.

9121a22 93,.l?

74 d6

_3CFT 0.0 NO 0.0 0.0 98 96F1.57 81.47 77.T2 SCFT 0.0 NO 0.0 0.0 100 1063 T.f.H 65.27 56.39 SCFI O_,.0 NO 0.0 0.0 i

99 __. 39b5.Q9 75,J4 h.}9 SOFT 00 NO 0.0 0.0 10 L._ ___._11 hlj. 7 4 Sh2 3 44,20 SCFT 0.0 NO 0.0 0.0 102 12831.31 48.15 105.16 SCFT 0.0 NO 0.0 0.0

_104 23010.79 160.5e 80.77 See f 0.0 veS 14874._.2.4 16 2. 4t, l Q )_

2.iSj l,_q0 16?.12 28.96 SCFT 0.0 YES i+,52.32 156.36 lu5..._.2112A.12 _ 150._Li 2iL33

_iDE.i_ __

Qi)

NO 0.0 0,0 106 19262.79 156.60 111.25 SCFI 0.0 YES 12039.60 64.92 107 179M.89 1 & 93 99.06 SQT

__ _ 0.,0 tj0 0.0 0.0 t

108 15652.14 150.T4 92.96 HARD 0.0 YCS H503.92 24.25 109 _.,1J711 f9 144,f 9

_,l.,12 UA3 Q,,_ __

,_0_,Q

_ __ _ _,,,,1{0_

0,0 0.0 llo 123.10.36 141.54 1.52 HARD 0.0 NO 0.0 0.0 11 l__ _ _ _L Q 7'8.1. b 1 1 B.J_9

13. 12 SOFT

__0, q NO___.___._._.___.

O,9 0.0 112 S'.9 5. 0 %

126.24 59.44

' CF I 0.0 NO 0.0 0.0 11 -)

035J. J.1 1 t h10.

e.__, y l S tfj _,_

0,0 NO 0.0 0.0 114 7812.93 101.70 39.62 SLFi 0.0 40 0.0 0.0 e

115 T662.36 86.01 39.10 SCFT 0.0 NO 0.0 0.0 L.__.

---

y.

+

g,

'T

__J1 22422.36 165-63

• 2J8 50:1 rL O YES 14 t 30. 4'l 144 17 l

122 20481.5F 164.02 147.83 S CF I 0.0 YES 14558.48 temi

}23 18555-89 112-31 71 63 SCFT 0.0 YES 7254.24 c4. w l

124 16650,58 120.20 ST.91 SCFI 0.0 NO 0.0 0.0 l

__I25 14773-49 157.51 50-29 SOFI 00 NO 0.0 0.0 126 12936.91 154 16 50.29 SCFI 0.0 NO 0.0-0.0 127 l1160.88 I49.65 1.52 SOFT 0.0 NO 0.J 0.0 128 9479.46 145.50 1.52 S OF I 0.0 NO 0.0 0.0 129 7952.94 134.84 42.67 SLFi 0.0 NO 0.0 0.0 130 6688.18 722.53 51.32 SOFI 0.0 NO 0.0 0.0 131 5857.31 105 7C 35.05 SCFI 0.0 NO 0.0 0.0 132 5654.91 85.6F 30.48 SCFI 0.0 NO 0.0 0.0 133 6143.43 66.61 80.77 SCFT 0.0 NO 0.0 0.0 134 1183.26

$1. T2 10.10 SOFT 0.0 NO 0.0 0.0 135 8516.14 41 11 79.25 SCFT 0.0 NO 0.0 0.0 136 10176.17 33.64 59.44 SCF T 0.0 NO 0.0 0.0 137 23989.22 171.30 44.20 SOFT 0.0 YES 14020.80 52.73 138 22002.77 170.51 71.63 SOFT 0.0 YES ITQ 36.04 125 3 F 139 20021.16 169.56 60.06 SOFT 0.0 YES 14051.28 89.31

~

140 18046.65 163.41 99.06 SCFT 0.0 NO 0.0 0.0

,,141 16091.10 166.96 50.29 SOFT 0.0 NO 0.0 0.J 142 14128.55 165.12 50.29 SOFT 0.0 NO 0.0 0.'U 143 12195.23 162.7C 22.86 SOF T 0.0 NO

0. 0 0.0 144 10292.00 159.36 1.52 S OF T 0.0 NO 0.0 0.0 145 8439.21 154.55 1.52 Hado 0.0 NO 0.0 0.0

~~~

146 66T9.01 14T.11 19.81 H Alt 0 0.0 NO 0.0 OW 147 510d.01 134.76 44.20 SOFT 0.0 YES 3108.96 48.7T 148 1958.27 113.60 73.15 SCF T 0.0 YES 2072.64 7 J~b g

i H

149 3652 10 83.29 54.86 SCFT 0.0 YES 1828.90 6T.ou i

y 150 43FC.52 56.09 44.20 SCFT 0.0 NO 0.0 0.0

_ __ _l R 5740.96 "19.18 10.10 SOFT 0.0 YFS 670.56 22.25 152 7410.10 29.31 ST.91 SCFI 0.0 NO 0.0 0.0

_E3 9217.08 23.17 50.29 SLF1 0.0 NO 0.0 0.0 154 23168.40 116.10 138.68 SCF I 0.0 YES 19415.76 77 11 155

'21761.80 175.74 59.44 SIT T 0.0 YES 13106.40 28.35 156 19756.23 175.31 44.20 SOFT O.0 YES 127I6716 211~35

_, _ _ [57 17752.05 174.78 47.24 SOFT 0.0 YES 11978.64 83.21 15R 15749.78 174.11 99.06 SCFT 0.0 NO 0.0 0.0

_ __ _ _ _ j $ 9 1)]50_,26 111_.15 F1.63 SOFT 0.0 NO 0.0 0.0 160

!!754.89 172.10 80.77 SOF T 0.0 NO 0.0 0.0 f

,___._, _.,161 9 7Adl 170.48 4.57 50FT 0.0 NO 0.0 0.0 162 7789.36 168.03 1.52 SCFi 0.0 NO 0.0 0.0

_...,_.lfp3 _,

58E.34 163.93 51.82 SOFT 0.0 NO 0.0

0. 0_

164 3942.T8 155.81 59.44 SLFT 0.0 YES 3352.80 48.8s 195 2J6),12 L3b_45 4h 20 SOFI O.0 YES 944.88 30,.48 166 s

16TO.82 Ts. e C 65.53 50Fi 0.0 NO 0.0 0.0 l

_16 Z 2924.94 33.5?

62.48 SCFI 0.0 NO J.0 0.0 l

168 4734.23 19.95 68.58 SLF1 0.0 No 0.0 0.0

~

169 6660.62 14.04 50.29 S f'F T 0.0 YES 2743.20 19.2U 170 8626.03 10.79 33.53 SLFI 0.0 YES 27 6.~20 2T3

_ _ _171 2371b 75 1h 96 thd1 SOFT 0.0 YES 18836.64 95.40 1 T2 21705.37 181.05 129.54 SUF T 0.0 YES 1F678.40 95.40 173_

19tm.06 1Ritl5 _ljb 68 SOFT 0.0 NO 0.0 0.0 1

174 17692.84 101.28 111.25 SUFi 0.0 Na 0.0 00

, _.., _. 1J3 11671.73 181.45 67.06 SOFT 0.0 YES 11391 52 28.35 176 13660.79 101.66 41.15 SLFT 0.0 YES 1J363.20 40.24 l

.._ _..._ 177 111tib i l IM.95 12!]118 SUFT 0.0 YES 10C27.92 22.25 178 9639.83 182.36 54.36 SCFT 0.0 NO 0.0 0.0 t

179 763h30 10lde 65,53 SLFT 0 s0 40 0.0 0.0 i

IP0 5622.31 184.04 1.52 SEFT O.0 NO 0.0

• 0.0 e

181 3613.42 196.29 16.I6 SOFI 0.0 YES 2438.40 24.38 i

= - _ _ _ = _

_ _, _ L.8 7 9482.68 35F.32 25.91 SOFT 0.0 NO Oxq_

0.0 188 23855.38 185.80 83.82 S CF I 0,0 YES 16520.13 IF.!!-

169 21834.94 ids,J 1 184.40 SOFT 00 YES 13_0g*d 8 144.J 7 2

190 19836.75 186.9f 102.11 5 0F i 0.0 VES 15 024.a4 e4.92

__ 191 171$1.63 187.76 44.20 SOFT 0.0 YES tl430a00

_ 3 4 d.4 192 15850.68 188.T4 32.00 SCFT 0.0 YES 10058.40 40 54

_ _ _ to3 13P65.72 190.00 47.24

$CFI 0.0 YEL 10210.89 34 44 t

194

!!839.75 191.68 6.10 Suri 0.0 NO 0.0 0.0 195 9328.12 191,34 3,05 SCEI 0.0 NQ_

0,_Q 0,0 196 7991.42 197.54 25 91 S CF T 0.0 NO 0.0 0.0

_.._ _19 7 61DJ.41 203,24 1.52 SCFT 0.0 NO 0,0 g,0 199 4328.29 213.80 1.52 SCFT 0.0 NO 0.0 0.0

_. _,149 2892.78 236.65 38.10 SOFT 0.0 NO

0. 0 0.0 200 2445.46 280.05 38.10 SOFT 0.0 NO 0.0 0.J

. _. _. 201

__Ji26 94 3slh 42,67 SLFJ 0,0 N2 0,_0 _g.Q 202 5059.77 331.58 41.'15 SOff 0.0 YES 6918.96 28.35 j j 2DJ A095.02 33 L16 2.L,34 ELfl n9 YLL_ ___ 204 8809.92 344.14 10.67 SOFI 0.0 NO ^ 71 i1, 92_ _ 22 25 a 0.0 0.0 ._,_, 2QL __2.1121 7 7 190.56 76.20 SOFi 0.0 YES I o)_j M 8 58.83 206 2214 T.21 191.51 102.11 SUFI 00 YES. 16093.44 F1.02 _ _ __2 0 7 ZQ179.99 192 65 61 48 SOFT 0.0 NO 0.0 0.0 208 18222.4T 194.04 62.48 SOFT 0.0 YES 17617.44 40.54 ) . _._2 0 9 162!8,.18 19_). 75 38.10 SOFT 0,0 YES 10363.20 40.54 l 210 14352.46 19T.93 147.83 SOFT 0.0 NO 0.0 0.0 l __.. _ 21 1. _ 17453.95 200.79 56.39 SUFT 0.0 NO 0.0 0.0 212 10597.29 204.65 28.96 SCF T 0.0 N0

0. 0 0.0 j

. _ 213 8000.95 210.11 19,_RI SOff 0,0 N0 ___ 0,0 0,0 j lg 214 7140.48 218.24 41.15 SOFT 0.0 NO 0.0 0.0 W 5699.14 230.86 1.52 _300 T 0.0 NU 0._0 0.0 y _.._ ___2 8 3. 216 4695.24 250.27 22.06 SCFT 4.0 NO 0.0 0.0 j ......_.21I 4440.17 275.51 39.62 SCF T 0.0 NO 0.0 00 218 5047.65 298.89 19.81 SOFT 0.0 NO 0.0 0.0 1 _ _ _ __ 219 6271 85 31.5,20 25.91 SCFT 0.0 YES 6949,_44 34.44 220 7828.61 325.63 35.05 Sufi 0.0 YES 6855.00 28.35 ,_._221 9556.79 312_.45 13.F2 SEFT 0.0 YES 7741,_92 g._2 5 222 24570.07 195.li 67.06 SOFT 0.0 YES 9997.44 52.f3 __2 2.3 22634.67 196.51 62.4R SOFT 0.0 NO 0.0 0.0 224 20T13.17 198.09 19.d1 SCFT 00 YES 10393.68 46.63 . 2 25,_ If SLL B9 199,99 16L 64 SOFT 0.0 NU 60 0.0 226 16935.40 202.32 135.64 SCPT 0.0 YES 16062.96 !!3.69 i _. 227 1121).,_Z 8 295 t2.2 68.58 %[Jf i 0.0 NO 0.0 0.J 228 13301.48 201.91 19.81 S CF.T 0.0 NO 0.0 0.0 2L9_,_ _._11311. 5 2 2U, T 3. 7 62 50FT 0. q _, _,,, _No _ 0.0 0.0 230 9071.27 220.16 50.29 Sor T 0.0 NO 00 0.0 _.. _ _... _.2 31 85_J1,17 22n,at 51.82 0.0 40 0.0 0.0 232 7368.67 240.78 41.15 SCFT 0.0 NO 0.0 0.0 ...._ _ _._ 2 3 L 6623.70 2s6.16 l_,52 SUF1 0.0 NO 0._0 0.0 234 6445.45 273.80 1.52 SCFI 0.0 NU 0.0 u.0 ...__._ 215 $D 18. 03 290.76 1.52 SOFT 0.9 NO 0.0 0.0 236 7820.79 304.68 1.52 S OF I 0.0 NO 0.0 0.0 _ _ _ _. _..237_ _.__.Sllia79 11.5,.14 1.52 SLFT 0.0 YES __ _ 6949.44 48.35 238 10637.69 322.80 4.57 SOFT 0.0 YES 1650.40 22.25 .-. _2 39. __ _ _25111 d 3 122do 64 a _1 SUF 1 0,0 YFS 10393.68 34.44 0 240 21286.26 201.26 18.29 SLFT 0.0 VFS 10353.68 40.03 Y E1, 18867 12 241 21i21 89 2 0_l,2L 77.F2 SQ[i __Q,Q , _. _ YES 17099.28 _ __ 83./1 242 19591.06 205.53 109.20 S OF T 0.0 b3.21 .2M 1IIN32 7m32 SD u!9 SLFJ _ _Q,0_ Yg5 }7038.ll_____. 63.21 j 244 16054.41 2I t. F3 38.10 SLT 1 0.0 NO

0. 0 0.0 l

__ 2 4 h_ ___ li.l'12,J 4 215d3 21.34 S Q,T P,,0 ___fp _, _ _ _ _, _ _,, _ 0,0 O.0 240 12808.34 221.24 47.24 SI FI O.0 NO 0.0 0.0 e i 247 11373.16 227.9) 64.01 50F T 0.0 .9

0. 0 0.0 o

e -wss e WaRU C0 2*M P177.11 24'.43 ?F.06 S CF T 00 NO GO C.o 250 85,0.48 259,37 18.24 SCFI 0.0 NO 020 0.0 25] 6453-76 2T2280 118-17 SOFT n-0 YES ~ 1%154,40 52.73 552 8798.04 286,11 111.45 SLFI 0.0 YE> 10 3Y.Tf 4J3 g53 9543.9h 297.79 164.7R SOFT 0.0 NO 0.0 0.0 254 10631.94 301.43 89.92 5(W I 0.0 YES 7132.32 28.35 255 11961.71 315.10 62.48 SOFI 0.0 YES 20543.52 89.31 256 25915.76 204.79 32.00 SCFI 0.0 YES 10363.20 52 73 257 24088.71 205.T2 68.58 SOFT 0.0 YES 18288.00 52.13 258 22293.47 207.9F 91.44 SOFI 0.0 VES 21396.76 lu).tv M9, 20518.39 210.60 70.10 SOFT O.0 YES 17678.40 119.79 260 IdC34.70 211. 72 $0.29 S LP I 0.0 NO

0. 0 u.o

__261 17197.68 217.44 50.29 SCFT 0.0 NO 0.0 0.0 262 15648.26 221.92 33.53 SCFI 0.0 NO 0.0 0.J ~263 14215.14 227.35 50.29 SOFT 0.0 ND 0.0 0.u 264 12936.92 233.91 30.10 SOFT 0.0 NO 6.~6 0.0 265 11863.93 241.79 33.53 S CF T 0.0 YES 17312.64 34.44 3 266 11056.05 251.02 70.10 SLFi 0.0 YES 16824.96 34.44 j 26T 10ST4.12 261.38 76.20 SOFT 0.0 YES 20086.32 113.69 __268 10463.38 272.34 126.49 SOFI 0.0 YES 18288.00 14T.~T7 269 10735.25 283.13 115.92 SOFT 0.0 YES 18409.92 145.88 4 210 11362.35 293.06 59.44 SOFI 0.0 YES 182f ED4 7731 e 271 12290.41 301.72 27.43 SOFT 0.0 YES 19050.00 28.35 272 1345T.30 309.02 19.81 SCf I 0.0 YTS T315.20 34~~44 273 26790.61 201.F3 68.58 SOF T 0.0 YES 10302.24 52.T3 a' 274 25027.52 200.87 74.68 SOFT 0.0 YES 19624 M IW27 2TS 23304.69 212.34 67.06 SCFI 0.0 YES 15910.56 150.2F 276 216J 1. 81 215.19

56. 59

SOFI, 0.0 YES 17CF8.00 22.25 27T 20021.37 2.9.51 50.29 SOFT 0.0 NO 0.0 0.0 213 18489.71 222.39 19.91 SLFI 0.0 NO 0.0 d.J 279 j 7058,09 226.95 60.96 SCFI 0.0 NO 0.0 0.0 I

280 15753.71 232.31 56.39 SOFT 0.0 NO

0. 0 0.0

. 281 146h 7}. 238.56 36.58 SOFT 0.0 NO 0.0 0.0 t 282 13660.78 245.78 53.34 SCF T 0.0 YES IF190.71 28.35 i Z81 12974.79 253.91 10?.11 SOFT 0.0 Y,F S 16733.52 28.35 284 12566.69 262.75 141.83 S UF i 0.0 YES 20025.36 89.11 285 12473.63 271.96 79.2S SOFI 0.0 YES 19812.00 131.su 286 12702.56 281.07 41.15 SOFT 0.0 YES 18288.00 131.98 287 13216.80 2R o. 64 28,96 S OF T 0.0 YES 19720.55 113.69 200 5041.49 297.40 1.52 SOFI 0.0 YES IJ7 W 20 11.02 f _, _,_ino 150 F L 44 304.20 PS. 34 SOFT 0.0 NO 0.0 0.0 P

• EB6 hwe

.N-NmM 9 [ i \\ m __.___.h -ee------.-_._m----

Table 5: Grid Sound Pressura L vals Due to the Siren System - i Winter Time Point X(II)** Y(it)** Hight (OBC) Day (dBC) Point X(M)** Y(M)** Night (dBC) Day (dBC) '~~ -16062.91"I5514.34 5R.17 57.92 32 .12!00.5_7 ]3502,62 _._ 51.99_. 51.72 ~ i. ~ 2. -14051.25 15514.35 60.21 .60.09 33. 14112.25 13502.63 53.15 52.28 i -'3. - 12 03W5W ~ 1551Xi2 60.05 59.99 34. 16123.92 13502.62 52.24 51.70 4. -10027.89-15514.33 57.99 57.92 35. -16062.93 11490.99 64.30 64.10 ~ h i. ~78'OT6. 2 2 1551T.32 50.60 50.40 36. - 14 05 L, 21_114 9 C. 98 67.12 66.95 6. -6004.55__15514.31 68.75 68.56 37. -12039.56 11490.99 71.90 71.69 - f. -3992.86 15514.32 68.48 68.27._.3.Q,_ ..l_0 0 2.7., 8L. l l'tS C.S q__ 7_0.58 70.30 8. -1981.20 15514.31 69.23 69.06 39. -8016.23 1149C.96 68.75 68.56 i ~-9. 3W.31 15514.32 6TT2 66.'00' 4 0. _ _ ___ _ _._ -6004,56._11490 95 _ _6_9, 0 t _ _. 68.98 t l

10. _

2042.18 15514.31 67._42__ _ 67.30. 42,__ - !S S 1,_2 0___l L4_9 C.._96 3.4 11.. 74.04 41. -3992.87 1149C.96 70.64 70.63 ~ i 11. 4053.87 15514.31 67.05 66.96 l 12. 6065.55 15514.30 66.20 66.10 43. 30.50 1149C.95 75.08 75.01 '2.03

61. 8 8 ___i't, 2_Q_/ 2. l_9_..ll't90.95

_ 72,60 _ ___.72 54 1 13. 8077.23 15514.30 t lb 14, 10088.89 15514.30 56.64 56.47 45. 4053.86 1149C.SS 71.68 71.63 'Y 15. 12100.58 15514'.3'O 52.03 51.78 _ 46..__ _6 065. 54_. _ll!t1C.S/t. .66.08_ 65.98 ~ ~ 16. 14112.25 15514.30 52.35 52.09 47. 8077.21 11490.95 68.00 67.97 17. 16123.93 15514.31 49.24 48.63 48. _10 0 8 8. 8 9.__ l l.4 9 C. S 't __ _ __ 57. 5 3 _67.51 l 60.04 49. 12100.56 1149C.95 51.25 50.20 l 18.~~ -16062.91 13502.69 60.22~~ ~6 4. 8 8 _ 5 0.. _1ft 112, 24 __ Ll e 9 0.S5_______.43. 91 19. -14051.24 13502.68 65.03 _.. t3.29 t 20. -12039.57 13502.66 _68.72,_ _.6,8.59 51. 16123.92 11490.95

41. 71 40.85 21.

-10027.01 13502.64 61.37 61.29 _.52._ __._16062.94___947S.30 46.3b ._ 66.15 22. -d016.23 13502.64 5 6. 2 4._. __.56.14 53. -14051.24 9479.32 71.63 71.44 i 23. -6004.54 13502.64 65.20 6 5.15 _54. _... ___ - 12 0 3 9. 5 8 _.94 7 9. 3 G._ __ _ _ 75. 0 0 _ 74.85 I 24. -3992.98 13502.63 71 10 _ _ 70. 99 55. -10027.89 9479.30 73.32 73.18 25. -1981.21 13502.64 71.53 71.42 5 6.. ._._-- 8 016. 2 0... 9 4 7 9. 3 C..___ 71.90. _.71.77 26. 30.50 13502.64

73. 72 73.60 57.

-6004.54 9479.29 30.71 80.60 27. 2042.18 13502.63 69.16 69.11 58.____ .__-3992.87 9479.28.._ __77.55 77.48 28. 4053.86 1 3 5 0 2. 6.3___ _ __6 9. 9_2_ _. 69.U7 59. -1981.20 9479.27 76.68 76.61 29. 6065.54 13502.63 67.98 67.89 _60. _ ___._ _._30.50. .9479.27 .77.15 77.69 30. 3077.22 13502.62 64.71_. 64.64 61. 2042.19 9479.27 71.87 71.82 31. 10088.88 13502.63 64.01 63.96 62. 4053.85 9479.27 69.15 69.12

• • with respect to Plant Center (Siren D1)

Tabel 5: Grid Sound Pressuro Lcvals Dua to tha Sir:n System - Wint:r Tima Point X.(M)_** Y(M)** Night (dBC) Day (dBC)_ X(M)** Y(M)** Night (dBC) Day (dBC) Point t 63. 6065.54 9479.27 71.19 71.16 ._ 9 9.. 10088.88 5455.51 _.6 6.15. 66.06 ch._ _ 8077.21. 9479 26 66.31 68.09 100. 12100.55 5455.91 64.81 64.71 65. 10088.08 9419.27 62.66 62.o1 .,_101.._ ._ ___14112.24 __5455.91.____ 69.85 __ 69.63 _6 6. _ _.12100.56._ _9h19.27 64.16 64.09 102. 16123.91 5455.91 o5.82 65.75 67. 14112.24 9479.27 62.44 62.23 ._10 3. ___ _ -16062.95.-__.3434.2S __. _',5.40 _.45.34 m6 0, L6.123. 9 ) 94_7S.27 59.94.__ __5S.72 __ 104. -14051.27 3444.28 72.51 72.35 69. -16062.93 1467.64 67.82 67.63 _._10 5. __. -1203S.59_._ 3444.26 ___.13.41 _73.80 _70. _ -14051.25 74 67. 64_.._ _._.72. 02___._ 71. 91_ 106. -10027.91 3444.27 15.20 75.18 71. -12039.58 7467.63 74.98 74.88 ._.101.. __.._ -8016.2.3_..34A4 24_ 1 4. 8 3 _._ _._ 7 4. 8 3. _7 2._ -10027.90 7467.62_ 74.32____.74.27 108. -6004.54 3444.26 71.66 71.63 73. -8016.23 7467.61 76.18 76.12 _ 109. _- _-3992.87_ _3444.25_ __.76.04 ____76.00 __7A. ___ -60_04.14 _.1461.61 __.79.3A _ 79.27. 110. -1981.20 3444.24 79.10 79.07 75. -3992.87 7467.60 78.89 78.82 ___111. 30.A9 344A.24 7 8. 41_ _._ _ __.7 8. 3 7 _.76...._. -1931.20 _7A67.59_ 91.16__ 91.06 112. 2042.17 3444.24 18.71 78.68 77. 30.49 7467.59 79.31 79.26 __1 1.3 4.053.33 3i44.2,4 J7,5tL. 77,55 _ 7 8. _ _ _ _20't 2.18_ ___.7 4 6 7. 59 72.60____72.58 114. 6065.52 3444.24 12. 3 7 72.29 79. 4053.85 7467.59 69.15 69.13 115.__ _ _. 8 0 7 7, 2<0 _3444.24 ___ 68.51 63.38 _. 8 0. _ _ __ .bD6h.5.2..__.7sbl.59 72,.59 ._.72.57 116. 10088.88 3444.23 71.59 71.56 St. 8077.20 7467.59 11.14 70.94 117..__ _ _1210_0.5.6 _ J 444.23 65.53 65.43

82...__.... _. __10 0 9 8. 8 8____7s 6 7. 5 9 __.._ 71. 9 3.

__71.88 118. 14112.23 3444.23 68.99 68.s6 d3. 12100.56 7467.59 66.25 66.18 _._119 ___ ______1612 3_, 91_ J 414._R 3 66.34 66.27 _ 8 7... _._ _- 14 0 "1. 26___5 4 5 5. 96 _ __7 3.1 1.. _ _12. 9 2 120. -16062.95 1432.59 58.44 58.28 88. -12039.58 5455.95 75.15 75.03 .121. _ _ _-14051.27 _ _1.432.60 61.21 61 10 ._8.9._ _ _ _. - 10 02 7.._9 L._.._5 4 'i5. 9,i_. 14.68 . 74.82 122. -12039.59 1432.58 64.58 64.53 90. -8016.22 5455.94 76.54 76.51 .123. __._-10027.91__.1432.58. _ __ 70.61 70.57 _91 -6004.54. 34 5 5.S L._ _79.12_ _ _79.09 124. -8016.23 1432.58 75.21 75.14 92. -3992.87 5455.92 79.03 78.99 _.125.__ __6QQ3,55_. 1432,58 31 83 61.77 _.9 3.. ___ _ _.._ -1981.20___5455.91. _.81.38 ._.81.35 126. -3992.87 1432.58 80.97 80.94 94. 30.49 5455.91

79. 35 79.31

.12 7._ _____-1981.20 1432.56 76.82 76.79 . __9 5._ ._2 u.4 2.17 .._5 4 5 5. 9 L.._ _ _7 7. 0 2 _ _ _7 6. 9 6 _ 128. 30.48 1432.56 75.35 74.84 96. 4053.84 5455.91 79.26 79.23 129.._ 2042.16. 1432.56 78.44 78.35 .._9 7.. _._ _. __6065.52. .5455.91 76.23 76.02 130. 4053.84 1432.56 13.9/ 7L91 98. 8077.20 5455.91 68.15 68.00 131. 6065.52 1432.56 73.45 73.90

• • with respect to Plant Center (Siren D1) 8 i

Tabic 5: Grid Sound Pr:ssuro L:vals Du2 to the Siren System - Winter Time Paint X(!1)** Y(!!)** Night (dBC) Day (dBC) Point X(M)** Y(M)** Night (dBC) Day (dSC) 132. 8077.20 1432.56 72.81 72.66 165. 6065.50 -2590.82 75.49 75.41 133. 10098.88 1432.56 72.75 72.64 166. 8077.19 -2590.83 69.08 69.05 134. 12100.55 1432.56 68.92 68.77 _161 100d8.86 -2590.84 __68.51_ ,_ 66.42 135. 14112.23 1432.5o 68.03 67.98 168. 12100.55 -2590.84 68.16 6R.00 136. 16123.91. 1432.56 67.02 66.91 169. 14112.23 -2590.83 64.25 64.23 137. -16062.95 -579.09 62.76 62.6_9_ 170. 16123.90 -2590.87 62.64 62.48 138. -14051.28 -579.11 65.08 65.02 _171. -16062.96 -4602.44 56.10 56.05 139. -12039.59 -579.09 63.47 63.37 172. -14051.29 -4602.45 63.59 63.54 14 0. -10027.92 -579.10 67.37 6 T.25 _173 ._1293 %_60 -4602._45 ___J3 64.._ ___63.56 141. -8016.23 -579.11 73.50 73.40 174. -10027.93 -4602.45 71.36 71.33 142. -6004.55 -5/9.10 85.11 85.05 .175 -8016.24 -4 6 0 2,4 L._. 72.4 0.. _ 72.30 143. -3992.83 -579.12 82.93 82.91 176. -6004.56 -46d2.47 73.86 73.84 144. -1981.20 -579.11 77.73 77.72 .177. _ -3992.89____46.02.36 _75 48, _ 75.45 145. 30.48 -579.12 96.39 96.88 178. -1981.21 -4602.47 80.57 80.55 146. 2042.16 -579.13 80.84 30.81

_129,

.10. 4J -46q2138 7b,24 __76,21 14 7. 4053.84 -579.13

74. 81 74.75 180.

2042.15 -4602.48 79.66 79.66 148. 6065.51 -579.15 78.45 78.43 _181. 4053._87 -6602.49 96.89__.._.86.84 149 8077.19 -579.15 75.71 75.66 182. 6065.49 -4602.50 80.01 79.94 150. 10088.88 -579.10 79.80 79.72 .183. _8 01.7.18___ r_4 6 02. 5 0_ 15. 9 8_ _ _ 75.93 ~151. 12100.55 -579.19 62.14 62.09 184. 10088.86 -4602.50 69.14 69.10 152. 14112.23 -579.20 68.75 69.69 _185. 12100.55 _ --460'.50 _ ___7.1.12_.____. _ 71.10 153. 16123.91 -579.20 67.17 67.09 186. 14112.22 -4602.52 66.73 66.68 154. -16062.96 -2590.74 64.08 64.85 _18 7. ___ __ 16123.90._ _4602.54_.___64.34__._64.21 155. -14051.28 -259C.76 71.42 71.40 188. -16062.96 -6614.13 59.49 59.34 156. -12039.60 -2590.78 65.97 65.94 _189. r L4.051. 21. _- 6 014.12 _64.55___ 64.47 157. -10027.92 -2590.78 64.03 63.98 190. -12039.60 -6614.14 61.76 61.64 158. -8016.24 -2590.78 72.87 72.80 _19 1. -10027. 13 _.._6613.16 60 13_ 60.46.. 159. -6004.55 -2590.79 76.95 76.91 192. -8016.25 -6614.14 70.23 70.14 160. -3992.88 -2590.79 72.83 73.21 193. -6 0 0 4.5 L._r 6 614.14.__.. 4 8. 00 __ .68.09 161. -1981.21 -259C.79 17.00 76.96 194. -3992.90 -6614.14 78.32 78.27 162. 30.48 -2590.80 78.63 78.62 195.. ___-1981.22 -6614.15 7P.56 78.55 163. 2042.15 -2590.81 83.02 83.00 196. 30.45 -6614.16 74.02 73.95 164. 4053.82 -2590.82 81.37 81.35 197. 2042.13 -6614.16 77.25 77.25 u "with respect to Plant Center (Siren D1)

Table 5: Grid Sound Pressur: Lcvals Dua to the Sir;n System - Winter Tima Paint X(H)** Y(II)** Night (dBC) Day (deC) Point X(M)** Y(It)** N_i.St(d8C) Day (dBC) _. 231.. .2042.12 -10637.52 _. 66.36 . _._ 6 6. 2 9 198. 4053.81 -6614.17 77.84

77. 6 i

232. 4053.82 -10637.52 68.07 67.97 .__199._ _..__ 6065.48_ -6614.18 _ _72.18 72 07 ___233. _6065 52_- LQ63 7.52....

70. 6 2...._ _7 0. 5 4 200.

8077.18 -6614.18 75.77 75.65 234. 8077.15 -10637.55 65.72 65.60 __201._ _ _. _.10 0 8 8. 6 5 _ - 6 614.19. _. 67.86 .67.79 _23 5a__...__._10 08 6. 85... 10 63 7. 54_ ____ _ 6 7.31 67.32 202. 12100.53 -6614.21 65.60 65.60 236. 12100.51 -10637.57 66.37 66.33 .__203. ts112.21. -6614.21

64. 45_

64.42. .237. .1A 112. 21 - LO63 7. 5 5__ __.6 3. 0 6__ _ _ 6 3. 8 2. 204. 16123.69 -6614.21 66.09 65.90 238. 16123.88 -10637.57 60.48 60.37 _205. - 16 06 2.SL - 962 % 60_ __.56. 6 7_._ 56.57. .._23 9. _._ - 16062m98_:12649 18 65.1.0 _... 6bo6 206. -14051.29 -8625.81 S0.45 60.36 240. -14051.31 -12649.16 65.94 65.91 _207. - 12 039.4 L_ -8 625. 8 0 67.83_ _ 67.75 .241. _ _ _-12039.64_ 1264b 15 65.8L 65.78 208. -10027.93 -8625.82 69.02 68.92 242. -10027.96 -12649.16 67.27 67.24 JOL_ _ :S 316. 2.6__ - Sn2 L32 66.J0 66.20 .243.._ - 8 016. 2 9_- 12 64L.16._ 62,88___ 62.82 210. -6004.57 -8625.82 72.28 72.23 244. -6004.59 -12649.18 67.71 67.62 .211 _ _ -3992.S0__-8625.82 _ _82.76 _ 82 67 ._. 24 54 _._ .3992.91_ 12649,19 67..96 68.06 212. -1981.23 -8625.83 16.97 17.03 246. -1981.26 -12649.18 69.14 69.14 . 213. 30.M - 8 62 5 n8h.._ 72.02__. 71 94 30.42 -12649.20 71.48 71.44 214. 2042.12 -8625.64 68.46 69.46 247. 2042.11 -12649.20 72.02 72.05 _2 L L_ 4Q53.32 - abl5 d4___ _.._T 4,15_..._ 7 4.10 248. . 24 9..._. __ _.._ 4 0 5 3, 8 3..- 12 64 9. 2 0._._ 75.00.. 74.88 { 216. 6065.48 -8625.86 73.19 73.14 250. 6065.46 -12649.22 72.57 72.47 ._217.____ 8077.11 -d625.86. 72.90 _ 72 84 _. 2 51...__..... 8 0 7 7 d 5 _ 12 6_4 4 2 3_ 70.13 _. 70.01 218. 10088.84 -8625.87 70.14 70.06 252. 10088.83 -12649.23 68.11 68.10 . _ 219. ___ 12100.52__._18625.88..___._69.11. 69.68 . 253.__ __ _12100.51_--1264 % 25 65.93 65.81 220. 14112.22 -8625.86 64.40 64.39 254. 14112.19 -12649.25 59.67 5 '.'. 5 9 _. 2 ? L. _.. _ _ _. L612 3. 9 L_ .8 6 2 %.6 6___ __ A b i l _____ 6 4. 9 2 __255. 16123.06_-42649.25 57.91 57.79 222. -16062.98 -10637.48 55.49 55.35 256. -16062 99 -14660.82 o2.50 62.95 _223._. - 14 0 51. 3 L - 10 63 7, 4 7. _.. 65 41 65.32 _. 251& __._. _thDSI.J2.._16 6.6C,Ra _ 62.30 62.24 224. -12039.61 -10637.50 68.37 68.35 258 -12039.62 -14660.96 59.09 58.99 .225.____ __-.10027.94 -10637 49 73.d2. 73.7d __2 5 %. _ ._1J027.95 -14666.86 _ _63.82 63.79 226. -8016.27 -10637.49 71.49 71.44 260. -8016.29 -1466C.85 66.37 66.27 . 2 2 7... _._. _._ -6004.61 -1063.7.49 _.6c.33 69 25 .._261. _._-6004.61 -14660.89 . _69. 4 0 _ _ ___. _6 9. 2 5 228. -3992.90 -10637.50 73.31 73.26 262. -3992.94 -14660.86 68.79 68.92 229. __ _. -1981.27 -10637.50 72.06 72.24 263. -19dl.29 -14660.86 10.70 70.67. 230. 30.44 -10637.51 69.32 69.26

• • with respect to Plant Center (Siren DT)

Table 5: Grid Saund Pressura Levels Dua to th2 Siren System - Winter Time l Point X(M)** Y(H)** Night (dBC) Day (dBC) 264. 30.47 -1466C.d8 69.34 69.31 265. 2042.15_-14660.88_ 69.55 6_9.53___ 266. 4053.77 -14660.89 62.34 62.30 267. 6065.47 -14660.89 67.46 67.34 268. 8077.14 -14660.91 48.81 48.71 269. 10088.83 -14660.91 58.89 58.69 270. 12100.50 -1466C.92 44.02 43.90 271. 14112.16 -14660.94 - 42.68 42.82 272. 16123.84 -14660.96 62.26 62.06 273. -16063.00 -16672.52 58.98 58.83 274. - 14051.33 -16672.52 47.41 47.41 275. - 12039.63 -16672.52 56.05 55.87 276. - 10027.96 -16672'53~ "58.63 58.57 177. -8016.27 -16672.54 66.27 66.12 278. -6004.60 -16672.54 75.48 75.27 279. -3992.98 -16672.53 66.12 66.48 280. -1981.28 -16672.54 65.44 65.34 " ~ 231. 30.45 -16672.56 66.24 66.21 282. 2042.12 -16672.56 63.25 63.20 283. 4053.82 -16672.56 60.55 60.47 284. 6065.47 -16672.57 43.94 43.81 285. 8077.17 s16672.57 43.72 43.59 286. 10088.86 -16672.56 42.28 42.10 l 287. 12100.49 -16672.60 41.88 41.87 288. 14112.15 -16672.61 42.16 42.25 289. 16123.85 -16672.61 67.66 67.45 290.

• • with respect to Plant Center (Siren D1)

} l l

Tablo 6: Grid Sound Pressura L vals Du; to tio Siren System - Summer Time Paint X(M)** YlM** Night (dBC) Day (dBC). Point x M ** Y ('t)ww Night (dDC) Day (dBC) 1. -16062.93 155i4.34 51.69 SEIT. 39. 2.25 135J2.63 45.53 51.73 -'4. - 12 CI3 9. 59 1551T.32 ~ ~ ' ~ 61.00 ~~ 61.73 36. -16062.93 1149C.99 65.15 _ 59.71 2. -14051.25 15f14.35 52.44 52.63 35. 16123.92 13502.62 59.22 05.43 3. 16123.85 -16672.61 ~ 58.30 5 9. 2 3 '__ 3 (. -1.4_051 25 1149C.98 69.59 69.69 5. -10027.89 15514.33 42.51 43.10 38. -12039.56 1149C.99 63.44 65.18 6. -8016.22 15514.32 51.72 58.67 39. -10027.R9 11490.99 64.32 62.99 7. -6004.55 15514.31 52.61 62.95 40. -8016.23 1149C.96 63.79 o4.d3 8. -3992.96 15514.32 56.04 68.17 41. -6004.56 11490.95 78.33_,_,78.93 9. -1981.20 15514.31 64.38 65.66 42. -3992.87 1149C.96 70.55 70.79 10. 30.51 15514.32 65.72 66.18 70.31 4L _-1981.20 1149C.96 64.46 _ 67.43 11. 2042. 18 15514.31 47.38 52.27 { 44. 30.50 1149C.95 66.41 12. 4053.87 15514.31 44.51 5 0.10 _ __ 't5, __ 2_042_,19 11.490.95 63.44 _ _65.31 13. 6065.55 15514.30 46.12 54.01 46. 4053.86 11490.95 63.03 66.G9 14. 8077.23 15514.30 52.66 56.76 _ 47 60M. 54 114 9 C_. 94 60,51 _ 69.76 -15. 10088.89 15514.30 45.39 52.63 48. 8077.21 11490.95 67.49 65.43 '16. 12100.58 15514.30 45.12 49.22.. 49, __ _ _10 0 fl8. 8 9__ _114 9 0. 9 4__.._.4 5. 5 6 _ 53.10 17. 14112.25 15514.30 49.30 52.05 50. 12100.56 1149C.95 38.54 42.06 ' li. 16123.93 15514.31 59.16 59.90 __ 51. .___1.4112.24_.11490.95 _ _.39.35_ _._44.03 19. -16062.91 13502.69 65.35 o5.72 52. 16123.92 11490.95 57.90 58.16 20. -14051.24 13502.68 59.08 69.29 _.u 531 _-160M n94 941.9,40_ _ 61.,J5_.____61,91 ,~22. -160'27'.91 0502.64~~~ 62.68 ~63.31 54. -14051.24 9479.32 65.95 66.02 21. -12039.57 13502.66 55.85 56.66 _.55.__ _ _12039.58_. 9479.30 .___67.55__._. 63.61 23. -8016.23 13502.64 64.28 60.95 56. -10027.89 9479.30 67.07 67.40 24. -6004.54 13502.64 66.00 67.23 __ _57. -8016.20._.._9479 30. 67.20.__ _ 66.68 25. -3992.88 13502.63 67.52 66.73 58. -6004.54 9479.29 70.78 11.39 26. -1981.21 13502.64 68.08 69.54 59- -3 992. AI____94 79_.2a 46.03 _70.40_ 27. 30.50 13502.64 65.45 66.02 60. -1981.20 9479.27 12.90 74.13 28. 2042.18 13502.63 60.39 6T.15

61. __ _.___ _ _ 3 0. 5 0 9479.27._

___60.76 70.62 29. 4053.36 13502.63 68.60 71.55 62. 2042.19 9479.21 67.46 59.54 30. 6065.54 13502.63 52.87 54.70 . 6 3. _ __ __ __ 4 0 5 3. 8 5. 9479.27. 69.6a 70.44 31. 8077.22_ 13502.62 51.59 54.34 64. 6065.54 9479.27 o5.14 o6.34 32. 10068.88 13502.63 46.d4 52.13 65. 3077.21 9479.26 60.16 65.12 . 3 3. 12100.57_ 13502.62 45.43 52.29 l ~

• • with respect to Plant Center (Siren D1)

Tablo 6: Grid Sound Pr:ssura L"vals Dua to the Sir n System - Summer Time Paint g* *,, _ '4 7 9. 2 7 Y(M)** Nig_ht(dBC.)_ Day (dBC) Point X(!!)** Y (!!) *

• Night (dBC)

Day _(dB_C)1 _62.06 63.44 9 9.. _ 8077.20 5455.91 _. 69.95 _. 10088.98 66. 69.4 _ 61o _ _. ..__12100.56._ 3479.27__. 55..lb___ 68.05 100. 10088.83 5455.91 65.60 66.67 68. 14112.24 9479.27 67.26 6d.03 _101. _.._ _. 12100.55._ _5455.91._ _.67.61 _ _69.25 _ 6 %_. _16123.S 2__ _ Xt3 % 27 __52,39_ __ 52.33 102. 14112.24 5455.91 57.99 63.37 70. -16062.93 7467.64 59.00 58.68 _10 3. ___ 16123.91 _ 5455.91.__ _39.42 .39.97 i _.11. - 14 351. 25 _7.4.6 7.y. 66.26 _69.54-104. -16062.95 3444.29 64.40 64.77 72. -12039.58 Y'67.63 71.65 71.88 _105. -14051.27_ 3444.28 _.. _ 43.24 61.30 ._7 3. __. -10021.90 74 ftl. 62. 7.1.79 _71.92-106. -12039.59 3444.26 69.58 69.89 74. -8016.23 7467.61 60.77 72.33 _ 1 0 7. _.. - 10 0 2 7. 91 ___3 4 4 4. 27.._...._6 9. 6.3. 69.97 _ 7 5.._. - 6 0 04. 5 4____ 74 6 7. 61__ ____71. 2 8_. . _11. 8 8. 108. -8016.23 3444.26 66.42 59.47 76. -3992.87 7467.60 82.52 83.92 10%._ _-6004.54. 1444.26 .__74.24 74.75 __7 7. ___. _ _ _ -- 19 81. 2 0 7 % 7..59 73,to 75.47 13 d. -3992.87 3444.25 77.83 78.14 78. 30.49 7467.59 69.51 71.46 111.._ _... _.. _19 81. 2 0 ___ 3 4 44. 2 4 77.15 77.46 .75. _____ _ 2042.18___7467,59_____68.32__ _. 68.42 112. 30.49 3444.24 74.79 75.18 4053.85 7467.59 71.85 73.71 .113.,____. _ _ 2.0 4 2.11. __3 46 4. 2 4__ 79,41 k . 80. 81.. _ _____6065.52_ 74o7.59_ 64.64_ _ _65.39 114. 4053.84 3444.24 14.21 _. 7 % 84 74.d2 T 82. 8077.20 7467.59 79.68 72.83 115.. _.6065.52_ 3444.24 70.20 70.93 _ 0 3, _. _ _ 10 0 8 8,J.8._. 7.4h.7_,.5 9 65,53 _70.21 116. 4077.20 3444.24 71.70 71.95 84. 12100.56 7467.59 65.76 67.37 .1 17. _._ __ _. 20088.88 _ 3444.23 63.36 66.15 _. 8 5. _.__..___. 141 12. 2_4__._.7/t b 7. 59 ._6 2.1 1. 64.02 118. 12100.56 3444.23 66.00 o4.45 '8 6. 16123.91 7467.59 50.58 50.57 _119. 14 L12. 2 3 3444.23 60.81 65.73 __ 8 7. _ _ _....- 16 0 6 2. 9 3__ _5 4 5 5. 9 s __ ___ 67. 3 6. _ ___. 6 7. 6 0 120. 16123.91 3444.23 50.04 59.87 88. -14051.26 5455.96 68.96 64.47 .121. ___ __. - 16 0 62, 9 5 1432.59 65.73 66.19 _ _B %_ _ __. __ - 12 01% 5.8 _..__ 3 4 5 5. 9 5___. __._ b 7.3 5__ _ _ _.6 8. 0 8 122. -14051.27 1432.60 64.75-65.22 90. -10027.91 5455.93 70.46 72.22 .12 3. _ -12039.59_. 1432. W_____66.54 62.67 _ 91. __ _ _ __ ___- 6 016, 2 2. ___54 5 5, 94. _. _7.7_. 0 7._ .77.42 124. -10027.91 1432.SJ 71.58 71.80 92. - 6 0 04. ~,4 5455.93 76.78 77.18 12 5. ___ _.__..- 8 01_6.2 3.. _ _.14 3 2. 5 3 79.34 30 10 __.__ 3992.87__5455.92 _._ ._80,24.__ 80.48 126. -6004.55 1432.5d 79.48 79.97 ~ 93 94. -1981.20 5455.91 77.80

78. 't 1 127.

._ _ -3992,87_ 1432,56_ .74.29 74.60 _ 9 5. _.... _ _.3 0. 4 9 __ 5 4 5 5. S 1______ 7 2. 0 9, 7},88 128. -1981.20 1432.5o 72.45 68.72 96. 2042.17 5455.91 65.90 81.41 .129, 30.48 1432.56 63.75 16.6J 97. 4053.84 5455.91 72.38 78.72 130. 2042.16 1432.56 72.4 0 73.12 98. 6065.52 5455.91 72.34 73.05 131. 40'53.84 1432.56

72. 2 c 72.95

• • with respect to Plant Center (Siren D1)

Tablo 6: Grid Sound Pressura Lcvals Dua to the Siren System - Summer Time Paint X(M)** Y(M)** a!aht(dBC) Day (dBC)_ 'X(M)** Y(fi)** Night (dBC) Day (dBC)_ Point 132. 6065.52 1432.56 68.41 71.64 165. 4053.92 -259C.87 73.12 71.48 133. 8077.20 1432.56 69.50 73.67 166. 6065.50 -2590.82 67.54 68.03 ~ '3T. ~~ ~'068.88 1432.56 68.43~ ' ~ ~ ~ 69,75' 167._ ,8077.19_ -2590.83 _ 64.76_ _,65.54 10 ~~ ~ 1 135. 12100.55 1432.56 64.18 65.89 168. 10088.86 -2590.84 68.99 69.79 136. 14112.23 1432.56 64.23 68.31 16.9. _ _ 12100.55 -2590.84 62.64 62.91 137. 16123.91 1432.56 62.57 63.14 170. 14112.23 -2590.83 60.60 61.53 138. -16062.95 -579.09 62.51 o2.66' 171. 16123.90 -2500.87 _ 3 6_. 0 5 _._ 36.39 ~ 139. -14051.28 -579.11 65.51 65.90 172. -16062.96 -4602.44 59.52 60.11 140. -12039.59 -579.09 66.75 67.05.17 3_,. -14051.29 -4602.45 62.13 63.37 14 1. -10027.92 -579.10 70.07 70.46 174. -12039.60 -4602.45 69.34 69.36 142. -8016.23 -579.11 83.13 83.38 .175..__ _ __10027,93_.-4602,35 62.62 __ _63.36 143. -6004.55 -579.10 81.92 82.30 176. -8016.24 -4602.47 70.51 71.08 ~ ~. -3992.88 -579.12 76.26 7e.oS 1/7. _ -._.__-6004.56.._-4602.47 _ _T0.25 _ 70.83 144 145. -1981.20 -579.11 96.40 66.48 178. -3992.89 -4602.46 66.79 66.99 146. 30.48 -579.12 78.64 79.12 17 9,.. .198_l,2.l__ -9602,41 _ 72.76 73.34 147. ~~ 2042.16 -579.13 68.10 67.71 180. 30.47 -4602.48 64./T 66.d1 ~ 148. 4053.84 -579.1 F - ~77.57 - ~~77.98 181. _ .2042,15 _-4602.48 77 1c 63.62 149. 6065.51 -579.15 73.87 74.66 182. 4053.82 -4602.49 76.18 To.96 1507 8077.19 -579.15 78.04-~ 78.82 .183... 6065.49 -4602.50 _ 74.72 75.13 151. 10088.Ea -579.16 60.67 61.30 ld4. 8077.18 -4602.50 67.54 68.16 ~152. 12160. Si5 -579.17 69.38~ ~ ~ ~ ~66.64 .185,. t _0_Q 8.8, 86 _-4 6 02. 5 0

10. 76 70.86

~~ ~ 153.-~ 14112.23 -579.20 67.50 69.41. 186. 12100.55 -4602.50 67.59 68.33 154. 16 i2Y. 91' -579.20 64.70 65.17.181. ____ _14112.22_ -4602,52__ 65.38 66.47 155. -16062.96 -2590.74 S3.33 83.56 168. 16123.90 -4602.54 42.88 43.18 156. -14051.28 -2590.76 71.00 70.57 189.__ _ _ -16062.96._ -6614.13 60.03 63.94 157. -12039.60- -2590.76 61.22 - 63.32 190. -14051.29 -6614.12 60.9d 61.53 i58. -10027'.02 -2590.78 ~ ' ~66.99 66.00 _191.. - - 12 03S6 0. __r6 614.14....__ __6 3,J % _64.52 ~ ~ 159. -8016.24 -2590,78 74.56 74.78 192. -10027.93 -6614.14 68.32 od.14 160. -6004.55 -2590.79 71.04 71.45 193.__.. --8016.25.. -6614.14 ___ 68.99 50.45 161. -3992.88 -2540.7G 68.34 57.37 194. -6004.57 -6614.14 65.87 59.34 162. -1981.21 -259C.79 75.05 63.42.195. __. -3992.90 u614.14 76.73 68.65 163. 30.48 -2590.83 71.11 71.73 196. -1981.22 -6614.15 64.96 70.99 164. 2042.15 -2590.81 66.77 76.78 197. 30.45 -6614.16 75. 0 7 75.22

• • with respect to Plant Center (Siren D1)

Table 6: Grid Sound Pressura Lcv21s Du3 to the Sircn System - Sumer Time Paint X(M)** Y(M)** Night (dBC) Day (dBC) Point X(M)** Y(H)** Night (d8C) Day (dBC) 198. 2042.13 -6614.16 69.01 69.55 .231. 30.44 -10637.51__ o9.11 64.69 . 19 9..__.._ 4053.01__-6616.17 64, 17 64.94 232. 2042.12 -10637.52 64.42 65.uo 200. 6065.48 -6614.lu 72.96 73.87 _233._. _ 4 0 5 3.B2. - 106 3 7. 51..._. 6 5. 5 5. _. 65.12 .201. .8077.18_ --6614.18__ _ _66.94 _.67 68 234. 6065.52 -10637.52 60.9e 64.29 202. 10088.85 -6614.19 65.49 65.99 . 23 5. _. ______8 01.7..15_ -10 6 3 7. 5 5_ __ __6 4. 0 7. _ 64.83 _2034. 121Q0,53 .461.b.21 6 2 d 3 _._ 6 3,.4 9 236.- 10088.85 -10637.54 65.40 66.49 204. 14112.21 -6614.21 65.69 66.22 237. .___.12100,51_r1063 7 57 62 55 63.16 .205.. 16123.89 -661A 21 .36.da 37.56 238. 14112.21 -10637.55 58.86 59.62 206. -16062.97 -8625.80 65.16 65.52 . 2 3 i.;_ ._1612.3,0.4 -1_063.1,57 4 0. 5 3._.. _ _ _ 4 0. o 6 _20 7._ __.-14051.2.9._ -8625.81._ 63.3B _ __.61.01 '40. -16062.98 -12649.19 64.19 e4.43 208. -12C39.61 -8625.80 63.59 64.11 '241. __-14051.31.-12649 16 _ 55.62 56.28 209 _-10921.S.3 _ _962.5.82__ 69.49 __70.08 242. -12039.64 -12649.15 62.32 62.73 210. -8016.26 -8625.82 67.13 62.77 243._ _-10027.96_-12649 16 _ _ _64.49 64.02 ._211.. _ 26004.57___-8623.82 _72. 6L__ 72.72 244. -8016.29 -12649.16 67.06 oT.11 212. -3992.90 -8625.82 74.92 70.05 .245, -6004,59 -12649,.18 65.77 66.50 _213._ -1981.23 -8625.83 _66.88 _ 63.51 246. -3992.91 -12649.19 65.93 64.04 214. 30.45 -8625.84 70.24 70.90 24 7...__ _ _._. 219 81, 2 6 - 12 6 4 9.18____._ T2. 96 _ 70.23 _ 2 1 5... _.._. ._ J. 0 4 2._1 ? - u 62 5._8't. 6%36 30.46 248. 30.42 -12649.20 70.13 6o.61 216. 4053.82 -8625.84 70.36 70.87 _2 49.. __ 2D42.11_-12649 20 _ _ T 1 2 9._ 65.43 ._217. _ ____._6065.43 -8625.86 71.35 _ _ 71.67 250. 4053.83 -12649.20 70.81 66.80 218. 8077.17 -8625.86 68.27 68.63 _251 _4A 6 5,.G 6_- 12 0 <t_9, 22 63.58 '4.12 _219. 10 0 8 8. 84___.862 5. B 7 69.26___ 67.03 252. 8077.15 -12649.23 67.52 67.77 220. 12100.52 -8625.8R 65.45 66.04 1253. ._._,100.88.83 -12649.23_ __ 63.41 63,05 _2 21.. _._._ __. 14112. 2 2_.. _B 6 2.5. 84_ ___6 3 9.L. 4 4. 8 3. 254. 12100.51 -12649.25 57.44 48.96 222. 16123.91 -8625.86 37.44 38.03 _255.__.._..___14112.19 -12649.25 55.14 56.07 223...__ _. -16062.98 -10637 48 _..58.42. __ 46.10 ' 256. 16123.86 -12649.25 48.22 48.34 224. -14051.31 -10637.47 65.50 66.17 t257. -16 % 2.99.-14660,82 _.. 58.92___ 41.49 _ 225. _ ..__- 12 0 3 9. 61..r10 63 7. 5 0_ _ _.7 0. 8 0._. __ 7 0. 9 3 -258. -14051.32 -14660.82 39.06 39.77 226. -10027.94 -10637.49 60.28 60.95 .2 59... _. - 12 039. 62 -146SC. 86 43.72 42.84

,.. 2 2 7.. _ _. _.. -6016.27 -10637.49

61. 3 5..._. _ 55.40 260.

--10027.95 -14660.86 59.51 58.60 l 228. -6004.',1 -10637.49 70.87 71.46 _261. -b016.29 -1466C.85 _ 63.15 65.36 229. -3f>2.90 -10637.50 68.44 61.57 262. -6004.61 -14660.85 66.d6 05.35 230. -1981.27 -10637.50 71.16 6T.28 263. -3992.94 -14660.86 69.33 69.24

• • with respect to Plant Center (Siren D1)

i Table 6: Grid Sound Pressure Levels Due to the Siren System - Sumer Time Poini XM** Y(M)** Night (dBC) Day (dBC) 264. -1981.29 -14660.86 71.06 57.18 265. 30.47 -14660.88 62.03 62.68 266. 2042.15 -14660.88 o6.83 64.81 267. 4053.77 -14660.89 63.19 63.83 268. 6065.47 -14660.89 60.70 61r41 269. 8077.14 -14660.91 60.35 60.85 270. 10088.83 -14660.91 42.55 42.41 ___J71. 12100.50 -14660492 41.28_ 41.21 '272. 14112.16 -14660.94 59.17 59.95 273. 16123.84 -14660.96 43.53 43.69 274. -16063.00 -16672.52 39.75 36.40 275. -14051.33 -16672.52 43.49 44.16 "276. -12039.63 -16672.52 40.66 40.20 l '277. -10027.96 -16672.53 57.74 55.98 278. -8016.27. -16672.54 61.46 63.14 279. -6004.60 -16672.54 63.97 59.54 280. -3992.98 -16672.53 60.53 53.09 281. -1981.28 -16672.54 62.79 56.11 282. 30.45 -16672.56 43.52 3d.55 283. 2042.12 -16672.56 45.39 45.40 284. 4053.82 -16672.56 41.38 40.45 285. 6065.47 -16672.57 41.02 39.33 286. 6077.17 -16672.57 40.87 38.63 287. 10038.36 -16672.56 40.46 40.14 288. 12100.49 -16672.60 40.95 40.90 2 8 9._,. 14112.15.-16672._61_ _64.64 __ 65.30

• • with respect to Plant Center (Siren D1) s s

/Xor-j)r m in9.s Codea' but ins pry 0mafjorfo %//swii$r udjeA ha add // SEE l APERTURE L. CARDS l APERTURE CARD NO# AVAILIBILITY CF HOLD m NUMBERS OF PAGES. N rdttrinT.3 /O @Ch u /

.= I l

6.0 CONCLUSION

S AND RECOMENDATIONS Fr:m the results shown in Figures 5 to 8 and the results of numerical area computation, it is concluded that the alert system as shown in Figure 3 effectively cntures 100 percent area coverage of the entire 10-mile EPZ (an area of 813,688,551 square meters) to a minimum siren sound level of 60 dBC. The 100 percent area coverage ensures 100 percent population coverage within tha 10-mile EPZ. The populatica densities in municipalities within the 10-cile EPZ are tabulated in Table 7. Since the entire 10 mile EPZ is above 60 dBC, those areas with population densities below 2000 persons /mi2 are in compliance with NUREG-0654 requirement which stated that for areas with ' population densities below 2000 persons /mi2 the siren system must be designed to produce a minimum of 60 dBC. For area with population densities above 2000 persons /mi2, NUREG-0654 stated that Figure 1 of CPG-1-17, " Outdoor Warning SyItens Guide" should be used; the figure mentioned is reproduced here as Figure 9, which gives an estimated effective range of 5,500 feet (suburban cnd rural areas) for sirens rated at 125 dBC at 100 feet and mounted over rooftops based roughly on 10 dB drop per doubl!.ng of distance. Interpreted cnother way, the minimum sound level (at 5,500 feet with 10 dB drop per doubling cf distance) required in these areas is 67 dBC. It is seen easily in Figures 5 to 8 that the sound levels in (municipalities) are well above this minimum. Also, field tests conducted to date indicate that nowhere on the ground did the siren sound level exceed 123 dBC. It is therefore concluded that the siren alert system engineered will achieve cll of the design objectives as set forth in Section 2.0. _

Table 7: Population D;nsitics in 10-Mile EPZ by Municipalities 2 (People !i ) 2 MUNICIDALITY 1978 POPULATION M POPULATION DENSITY Dauphin County Middletown 9,653 1.7 5,678 Royalton 1,128 .4 2,820 South Hanover 2,915 11.5 253 Derry 16,979 27.1 627 Conewago 2,162 16.3 133 Londonderry 3,792 22.1 172 Lower Swatara 6,255 12.4 505 Highspire 2,687 .6 4.478 Steelton 6,839 3.3 2,072 Paxtang 2,071 .4 5,178 Swatara 17,985 12.7 1.416 Harrisburg 55,027 7.6 7.240 Lower Paxton 31,885 28.4 1,123 Lancaster County Conoy 2,230 14.2 164 West Donegal 4,363 15.3 285 Elizabethtown 8,643 3.1 2,788 East Donegal 3,691 22.8 167 York County Fairview 11,484 35.5 323 !!ewberry 8,851 30.9 286 Warrington 2,964 Dover 11,445 .4 6,045 Conewago 4,474 24.7 181 Manchester T 7,4 21 16.4 452 Manchester B 3,257 .4 2,305 E. Manchester T 1,992 16.5 1 21 Mount Wolf 1,634 .6 2,723 Springettsbunx 20,090 16.1 1,248 Hellam 1.631 28.1 58 Cumberland County New Cumberland 10,661 1.7 6,271 Lower Allen 13,926 9.9 1,407 Lc.banon County Palmyra 8,073 1.4 5,766 Cleona 2,041 .9 2,267 Mt. Gretna 153 .2 765 Richland 1,052 .6 1,753 Myerstown 3,612 1.0 3,612 Jonestown 1,110 .6 1,850 _

l 2 (People M ) 2 MUNICIPALITY 1978 POPULATION M POPULATION DENSITY Lebanon County (Con't.) Cornwall 1,986

9. 2 216 Annville 4,835 1.7 2,844 Bethel 2,986 35.2 85 Heidelberg 3,443 24.7 139 Jackson 3,986 24.7 161 Millcreek 2,591 21.9 118 N. Annville 2,258 17.5 129 N. Cornwall 3,385 9.4 360 N. Lebanon 6,465 16.1 402 N. Londonderry 4,113 11.2 367 S. Annville 1,886 19.4 97 S. Lebanon 7,470 20.8 359 S. Londonderry 3,786 24.7 153 Union Twp.

3,!05 34.0 91 W. Cornwall 1,309 8.6 152 W. Lebanon 1,023 .4 2,557 e o E,

I R Furthermore, an additional analysis indicates that Sirens LAlS, LE2, and Y13 cro optional. Results indicate that removal of these three sirens will not ,i cffect the effective coverage of 60 dBC, nor would it affect the coverage high density areas within the 10-mile EPZ. i n o e A I.,.

m l 10,000 3 f,,, / A 7000 / /- / / 3000 f/ / 3000 + 0.7 9 e p 0.5 E ~ 1000 / v+ 1 0.3 [f I 700 /

1. Y 300 /

/ r 300 f 0.07 l 0.05 IIII IIII IIII I'll I'll IIll IIll Illl ll'I I'll 100 0.03 90 100 110 120 130 140 RATED OUTPUT OF WARNING DEVICE IN dB(C) AT 100 ft (30m) Figure 1 Effective Ranges of Outdoor Warning Devices As a Function of Their Rated Sound Output in dB(C) at 100 ft (30m) Note: Differences less than 12dB(C) in rated output, and differences less than 115% in range, are not generally significant Figure 9: FEMA CPG-1-17 Figure 1 .. ~.

7.0 REFERENCES

Federal Emergency Managcacr.t Agency. 1980. Outdoor warning systems guide. CPGl-17. IIT Research Institute. 1976. Sound measur m nt of siren. Knoll, W.L. and V.M. Lee. 1980. Model predicts noise impact of power plants and proposed auxiliary facilities. Power Engineering July: 76-79. Lee, V.M. 1978. A unified approach to environmenta' noisa impact assessment. Thesis, New York University. 4 Lee, V.M. 1976A. Sound propagation in a stratified atmosphere and community noise impact analysis, Proceedings of the 1976 International Conference on Noise Control Engineering: 153-156. Lea, V.M. 1975A. Meteorological and topographical effects on community noise impact analysis. National Noise and Vibration Control Conference. Lee, V.M. 1975B. Outdoor sound propagation model and experimental verification. Unpublished. Lee, V.M. and J.C. Becker. 1980. User's guide for the outdoor sound propagation models version 1.1. Unpublished. _-

Lee, V.M. 1980. Report on field testing of an ACA-Cyclone siren. Nyberg, W.L. and D. Mintzer. 1955. Review of sound propagation in the lower atmosphere. WADC Technical Report 54-602. Office of Civil Defense.1961. Acoustical performance of civil defense sirens. Slutsky, S.S. and V.M. Lee. 1976B. Application of digital cross-spectral techniques to outdoor sound propagation.' Acoustical Society of America National Conference. Stone & Webster.1980. Siren test report at Beaver Valley Power Station. Sutton, O.G. 1953. Micrometeorology. McGraw-Hill. U.S. Nuclear Regulatory Conunission.1980. Criteria for preperation and evaluation of radiological emergency response plans and preparedness in support of nuclear power plants. NUREG-0654/ FEMA-REP-1. l.

F-I 1 1 APPENDIX A SIREN EQUIPMEN'2

i ' The CYCLONE sinsu THE MOST POWERFUL NON-DIRECTIONAL SIREN For reliability and tremendot.s sound coverage the CYCLONE has no equal. It is available as a CDI-101 Size F two signal or CDI-107 Size 1F3 three signal model. Operated by a direct drive vertical shaft 50 H.P. motor. Dual non-harmonic tone - 465-698 hz. Sound out-put is rated at 125 DB at 100 feet. l gr i ENCLOSED IN FIBERGLASS FOR j 7'{f /g SUPERIOR WEATHER RESISTANCE / The CYCLONE was designed to answer the need for a super powerful non-rotating siren. It offers protective coverage in difficult cpplications where most smaller sirens prove inadequate. e All sirens are tested before shipment. Long lasting fiberglass housing with through color a impregnation to eliminate painting. Guaranteed - 3 years on siren parts and one year 8 e Sound is restricted to the 3600 horizontal plane on electrical parts. for maximum penetration, o Screened intake and exhausts. c Air intake is below the siren to eliminate accumu. SPECIFICATIONS lation of ice and snow. Weight - 500 lbs. o Ruggedly designed for long, efficient service. Size - 48 high x 60" diameter {- I The ALLERTOR l 51REN ........ _...e-ENCLOSED IN FIBERGLASS FOR SUPERIOR WEATHEll RESISTANCE SPECIFICATIONS: U. S. Government tested - 127 DB at 100 feet Weight - 450 lbs. Dimensions - 5 feet high 3 feet wide 7 feet long lere are some of the reasons for thm Allertor's popularity - A single 10 HP motor produces the sound through direct drive rotor-stator a:.sembly and rotates the sound beam at 3.5 RPM. Maximum sound penetration is achieved by directing the swnd in a beam 100 above horizontal to 150 below horizontal. Direct cc.apling of all sound producing and rotational components means greatly in-creased reliability and freedom from break-downs. No drive belts to slip. Compl*tely enclosed in durable fiberglass to climinate rusting ard painting problems. Unified design allows effective mounting on l pole, roof or parapet. ' Dual tone, nor> harmonic models available in 523-698 hertz or other special frequencies The Allertor has assumed the envied position of and with two or three signal capabilities. leader in its class. It exceeds the output rating re-All sirens are tested before shipment. quirements for CDI-103 Size B and CDI-107 Size Guaranteed - 3 years on siren parts and one 383 sirens. Because of its basic simplicity and proven year on electrical parts. dependability, it has been specified for numerous U. S. Government installations and a multitude of local municipal applications. 200 purchased by U. S. Army Electronics Command under Contract DAAB07-74-0343 for Washington D. C. arwa.

=_ _ _ _ _ _. DECODER SPECIFICATIONS i Model A9 (25-54MHz) Model A10 (148-174MHz) Model A12 (Land Line) Model A13 (450-470MHz) . METHOD OF CONTROL: Radio receiver (in Decoder cabinet) or, op-tionally, a pair of transmission lines from Encoder. POWER SUPPLY: Full wave bridge silicon rectifier supply - 6 watts AC, 1.5 witts DC, maximum, depending on number of functions installed. Regulaiss supply voltages both AC and DC. POWER REQUIREMENTS: 117 VAC or 234 VAC - Both capable of optional 12 VDC operation with battery. FREQUENCY CONTROL: Precision fixed frequency quartz crystals con-trol frequency stability. DUAL CONVER$10N: 10.7 MHz first IF; 455 kHz second IF. SOLID STATE INTEGRATED CIRCUlTS THROUGHOUT: Modular de- ]' sign with separate circuit boards for RF section,455.kHz IF and 10.7 MHz IF, power suppfy, filter switch, decoding function and electronic timers. TONE TRANSMISSION: Minimum - 750 milliseconds first tone followed within 10 milliseconds by a minimum of 250 milliseconds tone on non-adjacent tone channel. l TONE FREQUENCY BANDWlDTH: i2% of tone frequency. l SELECTIVITY: 6 dB. maximum at 7 kHz,60 dB. minimum at 30 kHz. SENSITiv'ITY: 25-54 MHz - 20 dB. quieting at 0.5 uv; 148-174 MHz - 20 dB. quieting 1.0 uv; 450470 MHz - 20 dB. quieting at 1.0 uv. l TONE SENSITIVITY: 25-54 MHz - activation at less than 0.2 uv; 148-174 MHz - activation at less than 0.5 uv; 450-470 MHz - activation at less than 0.5 uv. CABINET: 14 gauge phosphatized steel painted for exterior use, remova.ble interior chassis. i

l V

_m a h D ?.h 'w" ? v ] a . m.cx 4 iAi .nu g '~ g y o 1;e o .c 3 b 2 TONE ENCODER V;& # yt

-A=1m.A 3 l s APPENDIX B LABORATORY TEST METHOD OF ACOUSTICAL PERFORMANCE OF EMERGENCY SIRENS

METHOD FOR THE MEASUREMENT OF ACOUSTICAL PERFORMANCE OF EMERGENCY SIRENS

1.0 Purpose and Scope

The purpose of this document is to establish the acoustical per-formance and method of tests for electronic and electro-mechanical sirens used for meeticg the requirements of NUREG-0654 (FEMA-REP-1) Appendix 3 of November 1980. 2.0 Definitions All acoustical definitions are to be adopted from and consistent with ANSI Sl.1-1960 (R1976). 3.0 Requirements 3.1 General The test siren shall have clear marking for identification which information should be transcribed on the test data sheet. The test siren shall meet general safety requirement, in particular, adequate electrical insulation and grounding should be provided as - required. The input electrical requirements shall be clearly marked or stated which information should be transcribed on the test data sheet. 3.2 Acoustical Performance Information Provided by Manufacturer Any information related to the acoustical performance of the test siren, sound pressure levels at specified distances and directions, frequency spectra, and directivity for the specified modes of operation, provided by the manufacturer shall be trcnscribed on the j test data sheet. 4.0 Test Method 4.1 General The test procedure contained in this section is to be used to deter-mine the conformance of products to the requirements of the purchase specifications. Each producer or distributor who represents his products may utilize statistically based sampling plans which are appropriate for each particular manufacturing process, but shall -A%

i l keep such essential records as are necessary to document his claim that all of the requirements have been met. Additional sampling and testing of the product, as may be agreed upon between purchaser and seller, is not precluded by this section. The acoustic spectrum of a siren varies with time in a complex manner, and it is important that the sound level measurement proce-dures presented in this section are followed without deviation. 4.2 Testing Procedures 4.2.1 Test Sequence The tests shall be conducte'd in the order presented in the paragraphs that follow. 4.2.2 Test Conditions Unless othemise specified, all tests si.all be conducted at ambient atmospheric pressure (approximately 29-21 in of mercurf, or 98 to 0 105 kPa) and room temperature (approximately 65 to 80 F, or 180 to 270C), and at the relative humidity prevailing at the test site. l 4 4.2.3 Test Facility The test facility shall be an anechoic room with wall treatment that absorbs no less thap 99% of the incident acoustic energy generated in the range of 500 Hz to 20 kHz. The anechoic room shall meet the requirements for optimal (measurement) condition indoors in section 3.4.3 of American National Standard Methods for the Measurement of Sound Pressure Levels S1.13-1971 (R1976). Unless othemise specified, the procedures for selection of instrumentation, installation and l operation of the siren, and measurement of the siren sound output shall be as indicated in sections 5, 6, and 8.4 of that standard. 4.2.4 Test Equipment ~ The following equipment is suggested to facilitate testing:

a.. A lightweight test base for mounting the siren. The support for the siren horn or projector shall position the axis of the siren or horn (s) or projector (s) at a height of at least 1.5 m (5.0 ft) above the major surface of the support.

The axial positions shall be detennined to an accuracy of + of a mounting platform of dimensions no_0.50 With the exception greater than the base of the test siren, the test stand shall contain no reflecting sur-faces within 1.5 m (5.0 ft) of the horn (s) or projector (s). Alternatively the siren may be hoisted and suspended in a fixed aligned position. The siren shall remain stationary during the test (disengage rotation mechanisms if necessary). e

l l b. The power supply in use shall be adjustable to provide a voltage at the siren input terminals to within + 10 percent of the specified input. c. The sound level meter or other acoustical measurement instru-mentation system shall meet the requirements of ANSI S1.4-1971 (R1976) Type 1; and d. The octave band filter sets shall meet class II requirements of American National Standard, Specification for Octave, One- . half Octave and One-Third Octave Band Filter Sets Sl.11-1966 (R1976). 4.2.5 Test Records A complete record of all tests will be prepared by the testing facility and maintained for future reference by interested parties. 4.3 Inspection Inspect the siren and any infonnation supplied with the siren by the manufacturer to determine compliance witn the requirements of paragraphs 3.1 through 3.2, inclusive. 4.4 Acoustical Performance Place the siren under test on the support table in an anechoic chamber meeting the requirements of paragraph 2.3 at a height of 2.5 m (8.2 ft) above the support surface. Position the microphones as shown in figures 1 and i. The measuring microphone shall be mounted at a distance of 2.0 m (6.6 ft) from the edge of the siren horn or projector, in line with the siren axis and at the same height as the siren axis. The microphones shall be mounted at normal incidence to the siren axis. The siren shall be located as far from the walls of the anechoic chamber as practicable. There shall be no significant reflecting surfaces within 1.5 m (5.0 ft) of the microphones used for c. ssurement of the generated signal or within 1.5 m (5.0 ft) of the path between the siren or speaker and the microphones. Connect the microphones to a measurement i.istrumentation system that meets the requirements of paragraphs 4.2.4.c and 4.2.4.d and position the siren so that the acoustical axis is aligned with that of the microphone (S = 900, 3 = 00). Q inect the siren to the power supply. ~, ,,n,_. -...- -.. - - -

Use the measurement instrumentation to measure the sound pressure levels in octave band centered frequencies (31.5 Hz to 8000 Hz) 5 seconds after the siren is turned on. Repeat the measurements for all the 63 positions, valid data shall be reported at no 0 fewer than 49 positions (in particular S = 22.50 and 9 = 160.5 maybe' eliminated). This entire measurement represents a complete test of the siren in the steady operation mode. For wailing, high-low, yelp or beating modes of operation, the response characteris-tics of the measurement instrumentation shall be ad, justed to provide a time constant.of 30 seconds. The original test data are to be obtained and recorded to the nearest 0.2 dB. The data shall be recorded in tabular forra as follows. Sound Pressure Levels at 2M in mode. 0_ i 31.5 63, 125 250 500 1000 2000 4000 8000 Hz During the conduct of these tests, technicians and observers shall remain outside the anechoic chamber. During the test period, the air temperature and humidity shall La measured and reported. The test conditions shall be reported with the sound level measurements including a record of complete calibration of the measurement system prior to and upon completion of the testing of each siren. Any changes in sensitivity during the calibration shall be noted and the test shall be regarded as invalid for changes of 1 dB cr greater. 4.5 Optional Additional Measurement Positions Since directivity patterns change with distance, it is advisable to make additional measurements at other distances. However, due to space limitation of the testing facility. 't may not be feasible. It is thus recommended that additional men arements at 8 = 0, 9 = 900, 9 = 112.5 and 5 = 138 at a distance of 4 meters be made and reported as specified in 4.4. w- ,,,,--w_

---

,,.c---,.--.,--,-,.,--.,----n.

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, o 11.25* \\ 22.S* 45' 67'5* O. ]90* ~ ~ ~ -,- - -. _ _ _ o I 112.5* 2.SM 2M s 138 l 160.S* -171,75* ~ i Figure 1. Typical Test Setup inside Anechoic Chamber Vertical Measurement Position

+90* it30 +50* '8 2M v IO* ~ I-30* 1 ,_To* o . -go i l . Figure 2. Typicis'f Test Setu' inside Anechoic Chamber. p Horizontal Measurement Positions.

. _. _ ~ -, - -.... -.- _. _.__.-- - - ~ - -__ i 8 t 4 I I 1 i i i 5 1 s d j J 4 i i 9 1 s 1 4 f J APPENDIX C j LOCAL CLIMATOLOGICAL DATA AT HARRISBURG, PA. t I i 1 + t e

l m Local Climatolo=oical Data r"%, 6 u. ......,,,,,.,,=., MONTHLY

SUMMARY

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= 'L Local Climatological Data (A, va

, f _4 o Captfag Clif 4IR902f e

e MONTHLY

SUMMARY

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7. 4 0.9 21 25 514 07 2

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1. 00 0

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SUMMARY

BY HOURS e g Tarat ros tw neute. Last CCCunetuCE tr poet eastavaflos. Pt3 Cat af 3-i.she tuttavais. aefAa6t3 assWLiant nest f*as 0=t. rasttst mitt ai=0 'Itss est easiest castests ='=0 I TWact 440Unf Cat-#l#Utt entds t* *4 Otettficies aat 14 *Ets f t" pts a ttet a . asa en as tanute cart, se oefts. or ctsstas. fut i en fat sintCfine tu0itafts g; =. g era,s sost setta. g-Sr 254.' wave resi - visratLitt tas =tLE on Lrss. E

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=* = = On 5 29.77 46 44 39 76

• g Je 4

0.4 StGlhaelme Jam.12. 1979. PC'ie Ca f a 33 racst fat stDisal Gra. BLO4., 98 9 79 78 88 4' W . 77 '9 b N j h 3.5 mlLES his GF feet 418P087. Of uta Da ta. INCW0lisG mt a f **tR f f Ptl. k y aat FROM ?>E ata80sf. 13 7 29.74 55 49 42 to 10.8 30 2.2 ee 5 39.91 as en se gi se e 29 ? 3 6 et 6 49.76 d et 45 39 64 6.3 30 2.4 2 21 5 29.77 eel 41 36 fe 6.2 2ty HOURLY PRECIPITATION 1 WATER ECU! VALENT IN INCHES) . _ - we t.c ar i f e- -u i o x a ' r 1 2 1 2 3 4 5 6 I 9 9 i] 11 12 1 2 3 4 5 6 7 8 9 IJ 11 12 3 8 1 2 f f ? ? .01 .03 f .06 .it .se .It .07 16 .02 .05 02 .08 .02 2 3 .It .te .05 7 7 .Os T' f 3 4 4 S S 4 7 f f f f f 6 7 7 7 0 9 9 i f f f it t .03 .02 .03 .02 .03 .08 .02 7 f ? f f 9 to . Il f f .03 .02 7 7 .04 .04 .0t i 18 12 7 12 13 7 f f .0t .01 .00 02 .06 f f f .09 .01 .02 .0t 03 .01 .0t i f i3 la to 15 f f f f f f f .02 .02 15 to f f f 16 17 t7 19 le 19 89 20 1 20 21 28 22 22 23 23 2e f f .02 .04 .09 f 02 .04 .02 .01 24 il 7 7 25 26 7 f ,06 .t? .24 . t6 .02 i i f f .01 .03 26 27 27 28 29 29 f 29 30 e 30 SutSCttpf tte petCTs 92.15 Pte fram imCLv0!=3 anuaL gegaaaf. restrce walling st.05 tuina. SthCLE CCpf! 20 Cruf5 ace PoistiaLT Ca attual l$sut. Twtat 15 a niietowe Cuaest Dr 32.00 rea (Acie 63itta CF SatLa-STStril 1954E Cr 8tBLItaf!G'89. M81 CMitrS paraatt TO OtpastPtsi Ca CD*ERCt. is0aa. SEMO pafMEufs. 02Ctas, am0140u1811173 maf!Cual CLIPATIC Ctnfte, Ftctaat euttains, as>titut mCafw Ca80 Lima 28838 t CtattFT Twaf fielt 11 as OrflClat PUOLitaflat Or twt saf!3 stat CCtas'C A40 af*0 spi.talt scatglstaafice, ah0 Il CCaptLt3 racn stCocos oss r[Lt af fut hafl0=AL CLlatafic Ciufte, asutetut, ac4fu CAA0Lita asset. nOaa hafl0hAL QC(ANIC am0 / (4flR0hPENTAL CAf a aNO k ATP05pk12f C AC7ttu!Sf84f!C'I / IkFCp' Ai!C4 SEAflCE O!RECTCR,16Afl3NAL CLI*taIIC Ctlef(4 USCOM't--40 4 A ~ A SHE V ILL[

• a ra n te

- 500 -h

=- OBSERVATIONS AT 3-HOUR INTERVALS ,c -u.u. ..., = m. u.oom ..a m,,., .u,

g.

m a u =,a

i.

a.. .fi i ;I( i 3 il r Ef liR i

i i i. 3 FI 7 Ei fir i

I E d 3 i!

8 i ii 1 .o o n o, o o o. au o.,n., m o. ~ o.,o n .o o n ,., a o n o o o u .n. ,, orcs n u, o n .n. .n. .o .o o o = ..n. o u, n , o o u a u o a cau,, o,.. a,,...,, o u u o. o o = u o u o n o o .n, .o, o o ,o n = y ., u n u o u u o u n n n .,n - o, o .a. .u n u u n u u u.n.,. o u u u. u u a n - a u .n. .n.. ,cma u .n.

u. n, n.

n .u n u,, n n o n u o ,n,,,.,..,,,,,, .n. o o n o u u o u o o. ,u .o.

u..

o. .n. u o u o , no o o .o ,.,,,.u,,.a o a a u u o n. n n n n u n n a n o o o o u o,, o,. a,nn =.u. u y a o n t oun n. n,,., a a a u .n an.mo nime o o ~ o o o

o.,

u. n, u n u

u o o o i,, so., nun it,., .o. o. u o o u n. u .o, .u, a so .n .o, n o o o n o n u n. .n. ,..e,i n,,,,o,,n,..,,. .o. n n u u u o o o n u o o - o. n. o u o o o o a o. .o. o. u o u n ou., ,,,,o,uu n n o u o n o u i. o u n .ut , o, u o r to ou u n o - o..,-.. n in t.o o u n .n. o.< o u o n o o n .. n.

o. o..

u, u ro a.omo a.u n n o n n n. n. .. o. .n. o o o ,. o n o u...o. o o .u ,...m,..,,,.,,,..,,o u o o o.

o. o.

n u o n. .u.a. n o o o n - o u n o n u.u. n o o o n n o o o u n .. \\ o o n o ..q a u n o o

a..

n...,

.o. .. u o o n n .. n ,u, n..o.u, u,.,. .o. .o o. .o, u,, o u a n .., l,. o, 2 3. mo .o. n. ,u..o. ,u, ~ o u .o.,u, n u .i. 2. 2. 2. 4 o,me,en.= =w n= ,n o o e n o y .. n y v u o. o Io .o..o. o u n m w mo a... mi-o o a o. n o n n n o o n c.o n i. n.o - eu n u. o u n o o a u r.o nu. u,u u,...u. on .,,.o.. n na. o w o,. .p <.. o, u o,. ~ o n u .o. u ni n ., u o. n n .u.. n, t o n n n y u .n. o o = ~u .o .o. .o. enn,n,c,n,. o exo, n,u. . o o n u o u u o u n o o n . o u.

o..

o n n o u ..o o u o u o o

o.,u n

o. n n u n, u.,.

n - u o o y u , yo,.,,u,, n,,,, u,,.,,,,,,,.n,, - n n n n u n u.n o.,, = .o.n.. .o.n. o n .o. o. a =u n. aa. o u n = n n n o y n o u ~,. no ,. o. .o .n. y o u 4 n o .n o u u u n n, ,.o. ,a. .n o o o n n .n. o o o o o o .n .u o. o,.u o..n o. o u,. 4. .. n u..

o. o.

o o.

o..n..

o o o n o o

o. a n n 1

..,, n o, n ..o, u 4 o

o..o

.o. u,.. .o. .u. o o o. o o n

u. n..

o o ,o o o t. . u.o.. o o o u 1 o n o o o, o.,.u.. , o,,

o... o...u.u..,

,., n,.

u...u.,,.

.o.u. ..o. n. .i n o o, o o u .. n o ,o. 1 ,..2. 3 .o. ...,n., o, .,..,.n.,,. o o u.,,. 3., . 2, 2 u o u o n o n o.

u. n..

.n. n. a. o o n n o o n. ,o ., n. o o n ~ n o n m. n. n u o u o n o u o u n u o o u o n .o o. o., a,, o o u n n o u o u o ~ y u o n u ,....2. /n. ~<... n u n n v .. u o u u o o. o o.,., -.o.,un, m.,, o. .o.u u n n n y n n y m u u,. n. n, .n o u n 2. 2., 3

2.,..

2. . 3, 2. ., 2. i. ~ n v n u a n o u o n. u a u .\\ n u n u u n n n n u - n n n i. t. i ooi. n n I r U.S. DEPARTMENT CF CCMMERCE .. caus e,.c.ru.irr i,etan a.,.a a. rets i. NATIONAL CLIMATIC CENTER ..s. ,,.a io, or a,ena .A.==in FEDERAL BUILDING gM-g10 yyr,,a ASHEVILLE, N.C. 2S801 FIRST CLASS 4 .a2A.J 4-4, a e.

=.C'L,fmama Local Climatological Data a.Q,,,an c6.ifu ciff m acar MONTHLY

SUMMARY

g g =- htr gs Os *O e Laf t fuCE 44 '13 ' 8B LO44f fvCE FS ' S t 'na (LEsafica e680vm0s 338 77 sfaecae0 ?!mt v5E0i g a signio .g a es #1475 o casasi u,s .Eaf En f. ts os.. ' a. m TEPotnaftet tief 'l east s,. ou cafts Or a. pet: eifatism iferies wlND suesmi=E O oCCuar.Enct musie ene s-

• M 3

m I, I,I' j ', ",,,,, g n,rs i.e.. W GE G -a .-a . ics nnia. s'c4 8" it a = 2 a g g gg

• ;E ae e Es no ict euits

[ E 3 13 53 8 =an 8L8'- 3= 3= i O A Jt - __33 m o"a st., nuifs s 35 1 m,,,,,, 3 :# 3 s se :e es = n m ".L.

• E A" E'

! =* 8}*5 2y

• 3 53 E.

2 ga e s=ess.,m,as, e E s = = =o .5 w5 a5 e ae = e t E - a se, s ,p g, t 2 3 4 5 6 Ta 79 9 9 10 11 12 1 31 to 15 16 77 19 19 20 2t 22 y I a0 23 32 33 0 0 0 0 29.79 te 2.2 3.6 9 20 270 47 e 6 e c 2 36 2a 30

• F 35 0

i f .2 29.93 30 10.0 e t.2 21 30 225 39 7 5 2 3 a1

• 23 32

+4 33 0 0 0 0 30.ti 30 5.9 6.6 13 30 570 000 0 0 3 e de 27 38 2 27 6 0 0 0 29.7a 26 11.5 ft.0 25 26 44a 32 3 4 4 4 5 54 27 et 5 28 -0 0 0 0 29.56 17 40 4.0 12 23 503 33 5 4 5 4 49 32 41 4 32 24 0 I 8 0 f 0 29.23 04 2.3 5.9 21 20 30 t to 0 6 7 at - 35 42 7 29 23 0 0 0 0 29.at 27 6.4 9.5 15 26 477 84 6 4 7 of 30 39 5 2 24 0 0 f 0 29.75 27 16.8 tF.I 23 57 400 78 6 6 8 3 9 37 - 26 32

• 2 tt 33 0

0 0 0 30.02 24 7.0 7.3 83 Ji 815 20 10 7 9 f 90 52 26 39 5 23 26 0 0 0 0 29.30 le 2.9 39 9 15 390 69 5 5 to m 11 42 35 al 16 32 16 0 0 0 0 0 29.e3 21 E.3 4.5 15 20 522 93 3 2 11 U 12 67e d2 55s 22 42 10 0 t 0 0 .04 0 29.76 19 3.9 5.9 13 2t ?70 64 7 4 12 13 52 34 45 s2 33 20 0 1 0 0 .00 0 29.Fs 03 35 6.5 12 De 0 0 to 10 13 Ui le 43 27 35 2 2B 30 0 0 0 0 29.97 34 II.3 81.4 IF 35 .FI Go a 2 14 C3 85 42 Ji 32 0 '9 33 0 0 0 0 30.30 IF 3.3 3.9 to 20 540 t00 0 0 35 c 16 45 27 36 a 33 29 0 3 9 0 .09 0 29.75 09 1.7 3.0 12 31 270 40 10 9 16 97 42 20 31 =t 4 34 9 0 0 0 29.95 34 15.2 10.0 22 36 518 94 t 2 IF g nt 3t Its 25 7 4 40 0 0 0 0 29.92 25 F.0 9.2 I2 33 479 eo 5 4 te O 19 30 21 26 -5 le 39 0 a O f f 29 05 07 0.2 4.5 13 09 0 0 10 10 19 20 29 21 25e -6 16 40 e 8 Y f f 30.15 C6 7.3 7.0 la 09 0 0 13 to 20 21 35 23 29 ~2 40 44 0 9 7 0 0 30.s? 10 6.7 6.3 to Os 385 69 e 8 21 y 22 42 32 37 4 29 29 0 0 0 f G 29.94 II 2.5 2.6 7 ta ea 2 10 10 22 g.q 23 og 32 a0 9 36 25 0 I e 0 f 0 29.79 09 2.6 2.9 7 10 289 e5 10 to 23 24 Sa 42 de 17 45 17 0 0 0 .ta 0 29.56 Il a.2 45 et 11 0 0 to 10 2e 2 25 50 42 E3 19 43 15 0 1 0 0 .36 0 29.09 25 3.5 10.9 47 24 0 0 9 to 25 Z 26 e5 34 40 10 20 25 0 0 .01 0 29.a6 34 '5.4 15.2 23 30 251 a3 0 7 16 U1 27 42 32 27 7 22 25 0 0 0 0 29.73 25 ft.9 12.5 se 34 35 7 Sa 7 4 27 26 4F 35 et il 24 24 0 0 0 0 29.95 15 83.3 18.1 22 32 513 92 2 a 20 g 29 . Se 34 se is 25 28 0 0 0 0 29.75 33 10.9 11.0 le 36 560 000 0 0 29 - 30 55 31 43 13 21 22 0 0 0 0 29.53 20 a.9 7.s la 34 561 too i I 30 39 47 26 37 7 23 29 0 0 0 02960 60 35 56' 800 0 0 3' 2" 3'e.3.7 w.. 'O se sv. m.t w at : reu p ac e.g mat a _u w= 2 1823 M6 -+ 944 0 eeEn at ta tt n=46 2 27.F7 321 2 di 9 36 251 26 608t5 FG4 ie itG .= ava, a,$. avg. I CEp. ise; OE *. W. paECipita fice SE F. - - i -2 0 4 't : Oa t weissta ves*m ass. are. .3, e 29 2 n6i 5oi ,-nai 0 . Of t=ca 6 -i 6i -!-~ !tm01 sa 6.0 5e

tat g '3 Esit 5404, ICE DELLEIS et%Et Cp cae 5 *C 'al fi'aL

$ ?.S '%cte O coE a tt tf f g 2e =%es a=0 ca*El GaEaftSt DEptu ce Gacwee CF Emias, mas tm fEmp.

• w t * *

't=*. t n e O e;9 rougSE #1 'C*=1 0 SeE c ! * ! ' a f i :4 15<m IEE #EteEf1 f ft PELLiff 04 f ft a*O Caff g 'f iD' i H'i i5"l DE 8 CES.

• E 6 9 f *H Q

.66l 82-i3 i .21 2 T I 2 1. I 3 22 O -ite -697 Ctf a4 9 paart? CAct 9 CLMg 13 i

SUMMARY

BY HCURS e tafetPE F0s fut cents. Last sCCuest=Ct IF noot essEnvaf 0=s ete est af 3-a.0ue tuttavats. I aetaaets nEssL taar near fuma cut. Fas Est alt me=0 sofEss aar Fasfrst Castert0 =i *o I TRACE arevaf SmE-#Ieuft fatuEl hdE4 DIRECfical sat le TE45 h ff =ptea fi. pe

• aL50 Ce an EasLits 94ff, Ca partl.

9F DEGREE $. YkE f alltu ?>t StilECTIC4 lhettartl , M*g ag 'll E 2: ** $8. 7" NEnet F068

• flSif f Li f f if e n!LE Ga Lf ts.

Pf aa Gulf $8 TEE. 2c' E FIEUBE$ FOR ul40 OIRECTIQ4148E freS OF DE-a=f EReces DETECfED stLL St CcastC40 ano g]r,J. oa

y

_* A

• . e' g

'a g a SaEES CLtCEullt FRcn faut scara. 00 s CALM. CMamGt$ la Eurmaaf Cafa a.LL 6E amm0tattD 14 W Gg 3 '1 a. 3

F fE h s' Cafa to COLs. e ano 12-is ans easta en F se fat an=wat sev'ast

• I i

I-On 5 29.76 36 33 25 62 d y"g 3.9 F.5 A

• 3e 9talhsigne Jam.12, 1979. PCPie Data 15 Faen fat Ft0Epat 0FF. GLCG.,

y'

• QQ y y y 58 88 iy' 3'

3 5 MILil hu 0F Tat at#80af. Ofsate cata, lasCtuo t =G int a f wt n if Pts, 48E F#0M fut staP0ef, t) 6 29.77 ad 37 27 5* lt. 33 3.7 _'s a 79 ** as 3, pq e3 9o my 39 Sgih.16 Jtg 2 h $ 71 7 a 3s g 2., .in!5129.76 av Otm P0t'et Caf a MIS 6. DEC.151-414 i 22 3ef 3 41 2'1 80! 'tD, 2? HOURLY PREC!PITATION IWATER ZCUIVALENT IN INCHES) e a.= =%4 E*C N af W. %e EWl'ic a t a "

• E y

1 i 2 3 4 E 6 I 9 9 'O II T2 1 2 3 E 7 9 1 IJ II I2 1 4 l 2 7 i f i f f f 2 3 3 e a 5 5 6 1 7 7 6 7 7 9 7 f 1 1 9 O s 9 10 11 to og 12 f f f f .06 12 83 .03 .03 .03 .05 .0a .02 .03 .01 .07 .II .12 ,12 .09 .03 .02 7 i3 ta ta 1 15 15 IS T .07 .02 i T to IP 17 18 10 99 T T T f f f 39 20 7 7 7 7 ? T T T f f f f f f 1 29 20 21 22 F f f f f 22 23 i T. f f 23 24 f f .02 .02 .02 Y f f f f f f f f f f f f ,01 .07 2a 25 .06 .05 .09 .05 .05 i f f .02 .02 .02 7 26 7 .08 1 25 27 26 - 29 27 29 e 1 29 30 2) D 30 39 SUSSCRIPf!C4 Petttt 93.30 ptR F!aA INClueg45 amieual $;;rpsef, F3st1Gu mattito 38.95 (ITsa. $!4GLE CCpf: 23 Ctuft F04 PCMfMLV !$5LE, 30 Cimf5 Fce P0mfmLf lun=aat. Tyger 's a RIslMun twaaC*CF 53.00 FOR taCis CcDt2 CF 54tLF-173CEED tssuts CF pi.attCattGNS maat CWECES P&f a8(E TO CE94R1Pt%f QF COMMERCt. 4084. SE40 pat?tilf t, catta5, aNU 1400101t$ 70 mailogal CLinaTIC CtufEE, FICEsat SU:LCimG, asp.f f tLLE, h02flt C400L{Na 28901. I Ctef tFf fwaf Tw!$ t$ am CFFIClat PueLICaf!C4 0F.at mafictat CCtaalC ano afM0$7wtalC ACMfmI5fliatt04, ANO 15 COPS'!LE3 F8CM RECO3ics 04 FILE af fut mallouat '. IPallC Ctmita 45btf!LLE. NCafie Coa 0Llus 28908 nOaa. e ers r**~ - [ EWilE3NME'efal CAT A MAfl0 mat CClas!C AMO 4M3 / . ATMOSPHERIC ACfflH$fAAflGli INFCAPATICle SEHICE DIRECTOR. NAfl0hAL CLIP 4flC C[ftf[4 USCOPPl*-h0AA-ASNEv!LLt ei n si e te sco s - - - - - - - - - - - - - - -- -- M - - - - - - - - - - - - -

OBSERVATIONS AT 3-HOUR INTERVALS .f.t. ri m e ;,- . I.0 a wa te .t.60 umme e. 0 gg g* %In g g g* tit e n g g g* sit i te **" I I g= U =. 4 t; .= g 3 % P I d .=. p w M J 5! Y y lj( 2* i 3 E! 5" ej lip) 3 gi ;; i3 51 pg 3 7,i;; = = N Jh I $2 ; i 048 08 048 02 047 03 08 0 wa to 24 M S 2 tot 'O 26 2% 6 0m ts 2e 32 to 04 to 800 80 24 00 0 7 50 10 27 30 S 0 weL 19 Je 30 le er e0 e0 to n 00 0 4 20 F 3i 24 9 0 ut es n as F iso f t$ to 9 ee 6 33 12 6 9 so e6 M 29 9 0' m og 33 29 9 83 9 e6 e0 3s i0 e F M ts M u e6 0 sat as ao n a crit tive i to e iOO 20

s 87 6

4 M es 3e as is O ssa 25 de 29 5 umL as.ee es ensamme l et 9 Vet e6 30 00 0 e t.st IS 34 32 12 0 i.es

1. 1 29 00 0

22 9 to B0 30 00 0 0 ut el 3B 30 13 0 wt rt 27 00 0 Cae 04 Cat OS 048 04 i et of6st is 29 27 4 2 unt IS 33 29 29 et M e Ofut 92 37' 33 at 62 M S Os F t00 IS 33 00 0 0 wt 11 29 26 20 40 00 0 0 sat e6 32 29 Je F2 00 e le( A N(It CF to es s2 32 2e 9 it so so 33 09 9 e is0 s0 33 30 25 72 n S 64 3 tst. It 42 26 20 9

1. 90 7

de De S 10 40 t es 42 3e 32 64 06 e e 70esea00 e3 2m is er at 22 2 wt to 53 to to e6 120 S = e6 4 3e 53 09 e f twue0Essfeem le 4 900 et or 29

1. 2 e waL 19 S4 19 F

to 100 S es 46 el 39 64 00 0 0 SC g, hall 19 2 wit e9 30 23 7 Olwet el 43 la S 40 39 S w 4F eJ M 66-Ce 6 g gg 22 3 set IS M 3e at SS 24 IO 0l6st es si, 19 6 to se S F ee se es e4 esi 3e 9 se salm $4scufst car 0F Set 00 .,av 0, la Fett2Ime sais 00 6' 90 F e7 42 M ' 43 31 to e6 70 et 49 42 33 S4324 at slot IS 38 26 et 43 2e F L Dell 2Lt ee 5 m to 43 37 27 13 3 80 so 40 19 e6 30 2s se 26 89 e wt 11 31 29 It 43 27 e ZL Fe((21me Colllit er 0 wt e1 3e n 2s 62 s e to so is as 37 25 a 2s le s0 iC0 89 30 as 13 et J3 5 $ Inou

1. 0 6 e0 11 es 3e 29 Se 29 7

e tst IS el 34 22 40 28 20 10 to il 34 29 IF 90 29 e $7 $se0M FtLLtf5 13 7 120 tS se se 29 e4 24 13 e 30 t1 44 75 20 3e 24 20 e4 100 IS 37 30 te eJ 23 6 gg trt C97$T ALS 84 4 tst 35 et e6 2e 44 le 4

• Las IS et 33 97 38 29 og 60 So IS 3F 30 99 e4 22 4

la $h0W Sl80mEs1 it 0 m et 44 37 25 47 IF S e ust es u 2e s2 37 3e es e0 to na 37 to 69 as 23 S s,s Secu,gggg saatal 22 0 wt il as 37 Je 4J 29 7 0 ut IS 34 27 ti 3e 29 a2 0 wg 12 M 30 to sei24 4 g ggg a wait Der to 04 st 04, 12 Se e n e6 29 24 to 43 00 0 to so 10 43 37 2e 94 12 4 0 Let to del ao 33 48 17 4 F F04 04 0 m 80 af 29 19 49 00 0 0 wt e9 37 34 2e FO 00 0 2 wt to 488 80 3g 78 17 e IF ICE F00 0F 3 tot le 29 29 19 49 C0 0 e M e 33 38 27 F9 00 0 2 wt 50 4 35 29 3e Fi 83 3 GF $e0480 FCS 10 9 290 to 3F M 3e 79 2 e 3 tot 6 se se 40 M 78 00 0 F 70 F e4 as F6 13 e 83 eLGuine Outf 2'2 SO' SJ 63 3 t.st 49 49 39 23 34 5 3 tas F 97 47 37 4F e 7 tie 6 no 62 e3 SC 09 4 34 Stoisitee Sasia 2.e to e una IS S3 41 22 30 22 a 0 wt t2 59 et 3e 44 0 3 7 ISO e se e4 97 49 tel23 7 gg pL0 mike Sa Cu 14 10 40 e0 et eo as el SS 9 0 wt 89 et de 32 3e 201 13 e6 40 4 see 6e SS de 54423 5 Of SL0uthe $Feaf 22 to 40 et et Je 27 de s2 6 0 ut to 53 e4 33 er 341 F 10 e5 4 w SF' S3 S0 79123 5 a sncet u walt Caf la Oar 14 Cat 15 et set 43 e er de es et e9 3a e a ut F 37 33 25 42 32 10 Olut to 39 27 I F ' 44 00 0 0 095f 04 101 se e sF e4 43 40 00 M S 3 us F 33 29 29 et M 9 Olut se 29 26 IF 48 00 0 or iO si e ar 42 0 M m Oe 80 F 40 se M 30 ai sF 3s iO O wt to 2 n IF FS M e ,, g,,g e6 to 9 2 e af e4 29 3F

1. 9 09 e

3 wt IS 3s 33 as SF 3e 12 0 tot 60 33 30 25 F2 00 0 93 80t 9 e er 39 37 39 84 or 4 e ut et et 3e 2e 89 M IF 0 Lost et 40 33 21 47 17 6 S 29 32 19 as 17 e Diettfical att Tuost ##CM a.. to 10# a F 0 3e 24 es 00 0 0 unau 15 de 33 20 as 32 30 e tsat 's se ICl e S Fw 39 3e l CN TWE vind GLowl, 1408* 3 93 3s 5 0 una iS M 29 17 as M P 0 tat 3.7 C"" aft 3 f u fint 0F OEsatts e n 2e le to is S 22 7] 151 F 29 37 42i2e 7 e ust IS 32 27 17 54 M P 0 wt tel 32 29 28, 44 pS e Fe04 Tout 40efest f.t. 09 1 - 08 0 WL 10 33 4 26 79 00 0 sei 2e F 40 M 24 97 33 22 0 set IS Ji e7 6e 48124 to FCs wElf, tufet OF 0014 ' 049 to Oaf 97 04 le F0s ta$f, le F3e $0ufw, 27 Or e 40 F 3e 33 30 SS 00 0 e wt IO 3 29 09 80 M se 0 es et 2e 97 44 8e120 80 Fwt OtF[Cflom COL 1,P'N I40l = 2 e' GF to 20 F M 33 30 42 GC 0 0 uit 59 et 02 38 36 'S 0 use. e4 28

1. F 02 43123 ft gg7L3 ga(n*

10 to 20 e a 39 37 34 SJ 18 6 0 (9s 59 25 20 01 39 3% e7 2 uma. IS 26 21 Gi 39 27 80 B3 10 sl a se 44 40 M 79 00 0 2 6ot 30 29 22 03 3e M BF & wt il 3e 25 80 el 33 t0 gett0 is (spet15t314 sinoff7 I4 80 25 4 = 4e 40 34 Fe

1. 2 7

I ut 25 28 22 OJ 32 3e IS 9 250 as 3s JJ 02 29 27 8 8,4%,,f,lFL F et tstas Fts swie* IS TO CCH(ef tr to et 9 F. i 40 m e9 M 9 i wt is 2e to 02 M M el F = is 29 n 04 M 20 9 22 9 29 2 F 39 30 M 99 00 0 0 29 Il 23 le 03

• 2 JI 50 10 80 st 29 22 Os se 00i e

oaf et Car ao Oae il et to 80 f4 Je! Je os 42100 0 80 se a se 23 2e e3 as ce 4 10 40 7 29 n to at ee 5 04 to ao 15 29 23 0F 39 $09 5 to ed S las 23 21 19 Fe 04 9 e 40 7 27 2e tS si 13 4 0F to to le is 2e 80 9 09 to 10 to 5 1 29 22 el 54 59 e 10 2S F JF Ja IF 44 09 e to to 21 to 3e 29

1. 9 as 09 e

10 te 5 1 29 23 17 72 04 9 S wt 0 30 24 19 44 12 4 i) le to S See 29 26 20 49 04 10 80 20 0 S at 25 17 43 09 9 e to P 35 30 Jt SF 12 4 14 te Il 2 e 1se 30 af 22 F2 09 De le eO 92 30 J6 tF Se 04 7 e 30 se 3F 32 23 Si 09 4 19 to 12 S se 20 3e to 72 04 e 10 40 0 30 24. 14 et Os 4 e 30 6 m 38 29 2e 44 to 3 2J 10

1. 2 e

se 21 23 le 69 06 9 to SO 9 30 241 to es 06 5 to, 20 7 34 31 21 10 19 4 Sat 22 Sat 23 Oav 24 Of 10 2e F 34 39 29 70f 00 0 to 30 3 LF 3e 3s l 32 FS 6 3* e to 32 2 elf 44 44 de e3f 00 0 04 10 30 F 3e 39 29 F0100 0 es e5 2 0 F 37 25 32 82 00 0 to le 2 41sF 44 43 et esl00 0 0F 10 15 4 ao 33 30 26 FS100 0 to .IS 2 F M 33 3e es ca e to S e inF et 43 as to 09 S is le e6 3 Fee 3s 38 30 79100 e e 9 4 4 F en 40 3e e9 00 0

1. 9 e

0 e# 49 de 83 93 0F e 63 80 29 3 se 40 37 33 FGl s t 5 to 30 2 e e 47 as 40 FF 04 S 10 0 0 t F 4F af 47 000 52 e 96 to 20 e e 4J 38 3J 44109 5 to es 3 a se 44 40 74 09 4 to 0 0 8 F es se de t00 12 4 to 80 20 3 se 80 M 3e 70113 e e 800 e e et et 37 Fe 00 e e6 2 0 2 F 89 49 e9 500' 12 4 j n 10 Je 3 = 29 M 32 75 l 83 e le 25 2 0 F4 45 43 40 83 ft 3 to 3 0 IJ F SJ SJ S2 800i tJ 4 e i Das 2S Dat is Car 27 Se to F t a or 97 94 59 93 12 7 80 29 10 e 43 39 3e Ft M-t0 e vet 19 M' 30 2t SF 33 to Os le 14 3 er 93 18 50 90 00 e e 49 10 e4 39 32 43 M to 2 ut 19 M 30 21 SF M to ) 0F 80 29 5 sier de de eJ FF 23 to S 40 41 43 37 29 54 M 92 10 eo

1. 2 se 33 25 40 3a to F

se 52 11 90 13 to 5 wt 15 43 37 29 Se M 20 9 33 t9 M 30 n e9 30 e 10 10 29 e B3 9 40 F S3 de 43 49 23 IS 4 M 81 47 80 s3 52 M 29 e 39 e'9 42 M 2e 49 M 12 16 e de F 49 43 M 99 27 9 F M es 43 3e

s Se M

10 2 tsa 9 eJ 34 23 er M tt 1 19 10 40 19 47 se 33 54 25 to 4 80 99 39 32 2ei 9R 3e 80 0 wt IS M 30 20 S2 34 II 22 le 35 e2 45 40 33 43 3 It e 36 Il 30 3Ji J3! SS M le 4 wt IS 37 3e 25 S2 3*. to OA' 2e Car 29 Car 30 e 10 49 121 34 33 23 49 34 48 0 tot 10 de 34 23 89 M se clusL s5 ni 291 tel go 27 9 ..s10 40 tJI 3e 33 29 ao is to 0 usaL e6 39 33 24 SS M e2 Olwa. IS 33 's I Ff 12 26 4 c 0F 12 40 to 37 32 24 49 33 to 0 waL to 37 32 24 59 M 30 Olwe. to 25 40 t9 eJ 2e e i le e uit 14 et M 26 59 34 19 0 ust IS 43 30 30 40 D F 0 set eS se 27 2e e2 29 to 13 e wt 29 ee 39 24 42 M e4 0 wt 19 SJ 43 32 87 33 la e wt is 95 a2 25 3 Se to l~ 0 tot es er 34 23 39 35 19 0 tot 19 S3 43 29 40 3t 10 2 tot 99 Se et 2* 30 of 9 ) ,9 e m IS 3e n n SS n e O n IS 4J 34 it ee n e e ws 15 82 3s 28 as n s 22 O ust tw 42 25 22 as JS to Ovy 11 42 33 er M 32 10 0 tst IS 3e 32 28 S0'2e S et 0 ut to M St 23 62 26 6. 0 Ilat 31 64 3 weL 10 33 29 22 6e 23 3 SF 9 tsEL 80 33 29 20 59 25 S ti 9 wt e 39 34 27 42 Os 4 13 0 at 80 es 37 26 er 33 7 to 0 WE IS 44 37 23 40 M F i tt 0 st 92 M 30 29 12 2el e 22 e uma i2 3 27 20

64. 2S e

meaa:Souis F4 79 i2 r U.S. CEPARTMENT CF COMMERCE ae (cuat 0FeCafwitTT teterte M5 Fees asie ten reit NATIONAL CLIMATIC CENTER O.S. OrF ef== or C3,mes sea-8 FEDERAL BUILDING COM-210 w,,g,:a r AsuEviLLE. u.C. 2eso FIRST CLASS J J

C " P-m.am, Local Climatological Data Ng CaptfaL Citt aleP0Af MONTHLY

SUMMARY

c Latt futt a0 ' 8 2 'u. toastfunt f 6 ' 51 'u (Lturies isa0unos 33e FT. sfa=0ase Tint ests, t a57tane wes= s:4751 f._ ctsatt cats staf ate fiets t=en. ave. suf ' TEMPER 6 fuRC 't e.,g ne ce Oa'as of tet percto:Tafice stenen is!ND sumswing 2 rtsf=s occusatect seus pets-s aattsi C l 84,,, ic se =* f g w e g f = saewe tavasa-set g g s, 3 :: W_ 33 gg 3 -2 -E e sct euuats a l l 3 0 7'a'p M-33 13 23 s '*n it.T eiugn 3* 33 3 3s t r1 t s aun 2 2 g g3 gg og 3 g -g y:

• 3

$3, My[,g g g 3 3, 3 S9 g a' y 8 M R 8tU 3m *3 Ea wa is. e.s.t. 2 a& ;=, ge a, e = = e s aa = zz o ,wa,,,,,,, g CD i 2 3 4 5 6 74 79 9 9 10 ti 12 13 14 15 16 17 18 19 20 21 22 o .1 43 19 39 I 19 34 0 0 0 0 29.64 21 I.7 2.9 8 27 489 80 7 5 t 2 37 25 31 1 22 3a 0 0 0 0 0 29.50 35 10.t 10.6 07 34 17 3 to 7 2 3 40 25 33 3 23 32 0 0 0 0 9 29.79 30 6.0 S.3 13 30 35C 62 e e 3 4 '29 23 26 +4 10 39 0 8 0 .09 1.2 29.07 09 7.9 0.1 13 07 0 0 to S 4 5 31 24 29 -2 IF 37 0 8 8 .02 .2 29.55 02 4.4 9.5 12 08 43 95 to 9 5 6 33 e9 26 -a 13 39 0 1 0 0 29.00 01 5.4 6 6 12 01 547 100 7 2 4 F 37 '27 32 2 22 33 0 a 0 0 .02 .3 29.57 89 4.7 8.6 50 22 135 24 10 e 7 ]C 8 37 25 31 1 13 34 0 0 0 0 29.04 33 5.3 7.5 15 34 399 10 6 6 8 3 9 30 59 24 -6 f9 se 0 8 0 .08 .8 29.94 32 2.5

1. 3 7

33 43 0 10 7 9

3 to 32 IIe 22

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1. 6 3.6 9

33 9 2 80 to 25 Z 24 35 20 28 -2 20 37 0 8 0 0 0 29.60 30 9.2 10.5 2T 31 542 97 1 2 26 to 27 33 20 27 -3 17 38 0 0 0 0 29.75 31 6.3 6.6 92 32

• I6 69 4

6 27 29 37 23 30 0 la 35 0 0 0 0 29.73 31 0.9 9.8 15 3t 574 to 2 e 26 r-29 3t 19 25 -6 4 40 0 0 0 0 29.01 31 12.2 12.4 19 3e 526 97 7 6 29 30 29 IF 23 -8 5 42 0 0 0 0 29.92 31 10.9 f t.2 IF 32 493 02 8 8 30 31 2e is 22 -9 5 43 0 f 03 6 29.73 32 It e 81.7 89 3t 503 93 7 7 31 sun se f cf st. f o' at e-ta v at fps 5:e f( mtwr f3f g t 53 4 2 6155 726 'OTO G evp(q Cf cats 93 3 9 27.73133 4 3 4 41 291 35 9'97 FG4 UI 19s avg _ s,s. set. t DE p. sea. r.E p. c15 pattipliatiog

• E '

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SUMMARY

BY HOURS a IIftlt*E FOR fut 40mf2 - Last CCcunetect IF acar castavations pts Caf af 3-mous luftsvals. .,Iaaegg assa rame post fuse Omt. FastEsf RILE #120 s7ttas ast Fasftsf tastlivt3

• 150 7 fasct anDumf Cat-stimuTE faLuts outs Otercrtons sat != fres ff =P0l a ft9C e sLs su as tasLita eart, on safts.

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• 5 a

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g Gata la t0Lt. 4 amo 12-15 aat lasta Ott 7 Sa fut amevat, sumaaf a

8 Ge 6 29.73 35 27 16 61 7.6 3a 4,i St$tseming Jam, 12. 3979. PCP81 Caf a IS FRO't f*E FrotaAL OFF - GLC3.. ?e 9 29 's 79 2a e 62 t ' 32 a1 3.5 mitt 1 tsia CF fut alR#Caf. GYhta Data. INCLUOlmG heatste ifPts. k l Nj$ yy,[0 b b ARE FGCM Tht alaPORT, t) 7 29.72 36 3t 20 54 10.9 35 5.I 's

• 21 'S l'

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• .0ce E Wiwt o f r

3 I 2 ] a 5 6 7 B 9 13 Ii 12 1 2 3 4 5 6 7 il 9 1J lI I2 3 I e 2 2 3 3 a f f f f .01 .02 .01 .03 .01 7 .0: i f e -5 .0 ? .01 i f f f f f 5 6 6 7 7 .01 .01 7 8 9 9 7 f .02 .02 .02 .02 1 7 9 to to It f .01 7 .01 7 T 10 .04 f f f .01 .02 .01 .os .0t f it 12 7 12 93 i .02 .02 ta 53 14 f .0t .01 7 .02 .01 .01 7 08 .01 .02 i f .02 ,03 .0t 15 i 15 I4 16 17 17 le f .00 .0a .07 .06 .01 i f it 19 19 t: 20 20 21 Ji 22 i f i f f 22 23 ? 23 ga T f .05 .01 .0 f f f .0t 2a 25 f f f f f f f f f f .0t i 25 26 4 26 r 27 27 4 29 20 29 29 l 30 3G 31 T' et .0' .0t 1 ? 31 $ve$CatP!!c4 Pitictt 93.30 sta fras INCLtr0th0 aussvat $UPraaf. FCAtiC4 pattlag St.95 (Ifen. $tuGLE CC87: 20 Clmf$ FCs PGefHLT t$$dt, 30 timit FCa 7- . scafulf SJia*aaf. THERE ($ a MluimuM ChaAGECF s3.C0 FCa taCl4 C2 gen CF $4.tLF-$f0CaE0 ISSut$ CF %BLICATIC4$. Part CetCES Paf a9t! T4 CEPaafMtuf GF COPMt#CE, hosa. Stito pat 4mit, G90125, an0 Inoulaits T0 mafionat CLIPaTIC Crutta, Ft0E4at Sultalha, ASMf!LLE NGETH Can0 LINA 2880s. I Ctef!FT Twat THIS Il se CFFIClat PUBLICaf f ts CF fl*t ma!!Cuat CCla4!C aMO ATMCSPl*t4IC acstI41SinaTICE, an0 t$ CCf91Lt3 F#Cft RECORD $ Ca FILE Af fut j nat!$nal CLIMailC Cruf!4 AS4f!LLE, 404fai Can0Line 2960 f. j _ nOaa NaflCNAL CC(A4fC AhD / (MilRCNFtN TC 34fA Ang h AINOSPhtRIC,A09f M$f A4f!CN / - thF024fl04 staVICE O! AECTCR, stAi!Chal CLIMAI!C CEMT[R j USCOPVt**NO A A~Atht v!LLE en.se.ee 500 . u. .M.------

I OBSERVATIONS AT 3-HOUR INTERVALS .I... uwmm w.0 i. esti. umauun .0 v_... uwaum i0 a g g* On t te g= Sit t et g d$ g g

g=

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to 29 7 32 30 25 F2 10 0 0 VM 12 34 29 83 39 33 le II ICE III 07 0 u% 10 13 la Ge 80 00 0 80 89 F 3e 31 27 76 13 6 t west 12 32 25 Se 34 31 e2 GF Ga0uh0 F00 se e um S e 24 24 20 70 le e le 9 i 0 Fee 34 33 31 Of 12 3 2 useL 19 33 26 00 35 33 14 90 SL0ulte Cust 13 e u% 0 34 27 19 GI et to 10 2 0 2 EFie 34 39 34 92 13 e 2 us

1. 1 3e 28 09 at 33 19 gg OLctethe $an0 34 7 250 4

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1. 8 at 2

tr 40 39 37 99 33 5 0 vest il 47 42 39 83 00 8 DMCHMS AM MSE MOR 89 19 29 9 3e 30 22 42 it 0 80 9 3 0 LF 40 39 30 93 34 6 0 wist 85 e3 39 30 60 og r natlCN friE tsimo SLO's,13:01-a 22 80 20 7 33 30 23 47 09 6 ta 5 2 0 #F 40 39 38 93 34 9 0 v% 11 40 35 26 42 34 9 CATED lh IE45 0F CisaEES FIICM 70uf IB0ainF t.g., 09 Gav is Oat e7 Ost se FOR (a5T, 10 F00 SOUTH, 2F St 0 un at 30 33 29 40 Of 5 e 250 te 34 30 to la 19 e so It 9 w e4 37 33 75 'i2 5 FOR tee 57. tufRf 0F 00 tu e4 e u% 7 35 38 23 42 33 S 3 un I6 23 30 23 SF 00 0 e9 8 s = e6 37 33 Ff 12 8 THf OlaECTICu CCLUFee thol-0F 0 v% 7 32 29 23 59 29 0 % v% a2 3S st 23 42 00 0 10 9 2 8 Fw e6 37 34 79 *2 5 Cart 5 CALN* tt 7 i SO tt et 36 29 42 26 8 to 70 F 39 33 23 SS 09 0 to 5 e i3 Fw 40 39 34 94 13 9 93 0 umL tl l.9 a 48 27 39 0F S to 39 8 as 43 3F 27 $3 09 10 10 2 0 0 Fa at 39 37 Se at a gpggg gg ggpgggggg gg ggggg; IS F u% 99 30 22 35 12 e te af 7 a2 3F 39 59 It 7 to 3 0 12 #F u se a0 39 93 00 0 8tJLFIFLY ST I *1510 CONvf 0f 99 9 ISO SS 3F 33 25 62 IJ 4

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• 22 10 250 to 29 33 22 SI 10 e

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es 37 30 et 33 14 e um Il 32 at ts 99 25 4 e ussL 19 2* 22 12 1912' S to 4 100 11 49 37 30 et 3e is F 3e 10 37 32 23 97 27 80 0 un I'S I 34 29 19 Se 20 12 83 19 35 49 43 38 30 64 39 t2 2 West 15 42 34 19 40 33 se 9 l 39 30 ft 39 33 15 te uL s is 3 25 15 41 3F 30 49 33 to 9 u=L 19 42 33 84 29 34 15 0 u% ts as 22 19 35 33 t t1 0 og at 39 33 23 63 33 12 0 uw 19 39 30 t2 34 3e 12 I b% 19 32 26 12 43 23 9 22 7 40 10 37 St. Je S2 29 9 e us IS 33 27 12 82.33 10 0 useL 19 at 24 12 50 00 9 Dat 22 Bat 23 04 2e el F E00 to 29 at 20 09 60 0 to 10 F F 30 33 24 42 l31 0 2 lussL 10 22 17 00 34 12 et e# IO 64 10 32 29 22 47 00 0 te er 7 30 32 20 40127 e 2 iu% 10 20 se el 43 31 is 07 10 25 7 33 30 Je 70 3e e io 47 7 37 3t 21 92 26 5 2 umL 10 s9 IS Of 45 32 la IS 10 35 9 m 39 12 21 90 82 9 te 41 10 3e 33 23 99 24 to 2 b >L 19 28

1. F 03 41 26 15 t3 to 40 F

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1. 2 at 22

'2 te '20 s e u% e6 20 is 02 et 3e is 04 S to to 31 27 59 GI af F to 50 to at 24 12 51 29 5 0 u=L 80 20 16 93 47 31 12 67 10 to le 33 27 13 as 32 It 10 50 10 27 23 to 49 38 7 3 unt to 20 to 03 47 at F to 2 unit it 33 27 to et 33 la e 40 Il 30 24 to 43 32 f t. 80 ile la as 20 Os se 32 to 13 2 un l2 34 29 15 s2 32 ti 10 80 te 38 at. te at 3e t2 9 100 86 29 23 04 37 32 10 is 0 u=6 is n 29 13 a 3 i2 i u% io n 2 Si 29 3i te s u% is 30 2e a n 32 i2 89 e un 19 38 25 to se 3e 4 0 un to 2e 21 44 39 31 it 0 u% 89 23 19 OS se 27 6 22 0 v% st 26 2J 6 52 51 29 4 3 uset 12 23 10 93 e2 31 IS 3 usek 11 24 19 04 42 32 e 049 3e et it te so 23 i, si .2 a F 9e to so to 21

1. F 02

.3 32 e e7 iO 9 2 s it i. eF 39 32 9 it is u% s s me se et e2 n i2 13 0 200 ft 24 22 10 St 33 7 it i ont is 3e 2e of a n it suitas tras a nomfu 19 2 u% IS 27 21 00 39 33 ft 22 3 uset 19 23 et -e t 35134 13 teatessaues F6 to 08 r m U.S. DEPARTMENT CF COM.*ERCE as savat onc0fusin anFttita 70 suet asig Ftu ma NATIONAL CLIMATIC CENTER 0.s. OtPaarmar CF cStecca 4 FEDERAL BUILDING COM-210 t=; Ge=mts ASHEVILLE, N.C. 28801 FIRST CLASS

1,f < f.- 6 Local Climatological Data gg w. c,,,, a m, f 6,. 0., MONTHLY

SUMMARY

e c mf unrun 80

• n '. u ifv0E 76 59 %

attafice I6aav.0,

n.,f.

ifa a fi. na, tasrt.,

a..i s 75 9 Tt OEsaEE Caf5 utafisER TTPES

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45 0 0 0 0 29.73 32 14.9 57.1 JS 32 563 63 4 4 I o 2 24 13 Ji -10 0 de 0 0 0 0 29.03 38 16.8 17.1 20 30 641 800 0 0 2 3 31 13 22 9 3 43 0 0 0 0 29.87 31 83.9 14.1 IF 31 6t3 100 i t J 4 35 19 27 -4 6 30 0 0 0 0 29.95 31 11.9 t2,4 e5 32 6tS 86 5 4 4 5 35 te 27 -4 4 3e 0 0 0 0 29.93 31 0.2 9e is 30 Ele 100 I 1 5 6 26 le 22 9 13 83 0 0 0 10 1.3 29.95 15 2.7 5.8 10 le 221 36 to 9. 6 7 37 22 30 15 35 0 f 0 0 29.62 33

9. 9 9.9 is 34 555 09 7

6 7 6 43 28 38 0 12 34 0 f G 0 30.00 32 8.9 10.5 to 33 59a 95 3 3 8 2 9 35 Il 27 -4 12 38 0 0 0 0 29.80 32 3.3 4.5 8 35 486 79 9 0 9 to J5 to 27 -4 Il 38 0 0 0 0 0 29.57 33 4.3 9.5 14 34 60s 95 t t 10 m II 40 85 28 -3 15 37 0 0 f f 29.40 25 7.8 6.0 18 20 539 46 8 6 41 D 13 s5 at 29 -3 13 37 0 0 .01 .I 29.70 30 10.1 10.8 16 33 403 95 I i t2 to" T3 38 17 2e +3 to 37 0 0 0 0 0 29.95 2, 6.4 7.6 f3 30 636 100 0 0 63 la se 14 32 0 15 33 0 0 0 0 0 29.00 29 5.9 6.e is 31 392 to 7 5 la CD ts 36 30 33 1 19 32 0 0 0 f f 29.73 02 1.6 5.5 9 3t 214 49 to 9 15 to 36 23 30 -2 24 35 0 1 6 e f .te .6 29.24 33 5.3 10.1 20 32 180 17 50 9 16 c 57 at 15 22 -10 7 43 0 7 0 0 29.60 30 12.6 13.1 17 38 6a6 100 4 2 17 7 IO 37 9 23 -10 to 42 0 0 0 0 29.04 27 6.4 6.8 16 26 649 100 a 2 18 O 19 50 16 ' 33 0 IS 32 0 1 8 0 0 0 29.02 12 2.6 4.3 a 19 617 94 7 5 19 20 Soo 20 39 5 23 27 0 l 0 0 0 0 29.5e te 2.5 4,5 to to see 93 6 4 20 21 55 33 aos 11 33 23 0 e 0 .01 0 29.57 33 2.9 6.2 9 33 a no 62 8 8 21 g,3 1.y 22 '4s 33 37 3 32 28 0 23 e f .56 .3 29 55 IO 5,6 4.s 12 17 21 80 10 to 22 23 52 34 43 9 36 22 0 2 0 0 f 0 29.52 30 5.7 6.6 12 30 327 49 to 10 23 24 5t 38 43 9 32 22 0 t 0 0 0 0 29.62 26 7.4 8.1 i9 26 40s 4I e e 24 25 45 21 37 3 22 29 0 4 0 0 0 29.55 32 5.3 6.5 9 33 493 78 7 8 25 2 26 34 21 28 -7 11 37 0 0 0 i f 29.63 34 t2.2 13.5 20 3J 651 97 2 4 26 U1 27 35 23 29 -6 13 36 0 0 f f 29.53 24 9.9 18.4 15 32 tot 15 10 50 27 29 29 16 24 -99 15 41 0 0 0 .03 8 29.50 31 6.7 8.6 14 34 230 34 to 9 29 29 24 it 19e

• t7 2

47 0 0 0 0 29.83 34 13.9 14.4 le 32 474 t00 t i 29 g.- 4 tui M f a t st t a v at varat t2 f as. Fee tE *= r* : 1 sn sm Z e'c f at 6263 SD 3033 0 ta ws 4 0F f a?1 62 2 7.29.7 1351 6 3 9 31 251 32 3Ma FOR 164 147 ave. a va. a es. te_ avs. 01 7 c{ a, pregg ip i t a fige st e. -1 i -- ! - i5atti e a,,,vei as mee'w ave. A ve. p 37.9

2) 3 29 I

-3 2 i e s 67 0 , et tecie 6 a 60 - i - ! -, - --i i s,6 i s 75 5.7 5 i nam 9 'O Enf t $leCd. 4CE #fLLif 5 eva!!E4 0F Da'i T7f aL 72 f4L $ f _9 tW"18 f Gaf n'f st 14 24 8%A5 n=0 t a f E 5 6kf af(57 DEPfm cm saech9 0F Show, pa u pe e rE*f.

• 1 g: ss. 't=*.

3773 f qt esisa=s t astr!p[ ta f u e i sw m. ICE PE._LE tg ter prie.E's cg f tf su0 Da ft a 5 90 ' I i 32 ' i 3} *} ie' !E P. ELP. =tavY FCi 2 56l 22-23 I s.31 6 T I 22 O I 7 25 I G -37 3 ft E *4 9 7 4 4 't f CL O Jc f 9 CL cLf 86 i

SUMMARY

BY HOURS

tafers Fee fit neefs - Last ottimisitisCt IF nest cessavattoes pra Gat af 3-iaue leftarats-l aetea6Es

• E5* f aat stret TNa8 Cut.

FASTE$f alLE uta0 SpilDS amt Fa$fEST CSSERVES

• N f TWaCl aMINef Cast-wihuft f atutt inE.W 91 RECTI 0a5 aaE tu tee 5 I.

ft"*ED a ft'et + aL5a Se as EsaLft2 Daft. CA BatIS, 9F CEGREES. f64 # ultu 114 Otattitce In0tCarts o a ta Ep;J 2hi 7 g. 4 2C $M C MEavT F06:

• vlSIBILiff tre nfLE 04 LES$.

Peau tuST SPff0. FI6uaES FOR ulHO OtaECT!cet aat TEMS OF DE-auf Enoces OETEf fE0 klLL St CasatCTED an0 oz E st % [*~

2 o ". $

04 GREE $ 10CuutSE FEom filut eCETu. 00 e CaLN. Cunests le SL' raaf Omfa uiLL SE ameofafE0 In M G 3 'g E 3 cd * !* 5 3i Cafa to COLS. 4 aa012-t9 amt Sa5E3 De F 88 THE ammuaL SLortaaf aE 01 e 29.7t 27 23 14 64 6.g 30 4.5 StGIh=ING Jan. 12. 1979. PCP4 Caf a 15 Fa0M THE Fgegaat 0FF. BLDG., 9a e 29

• e

'a 73 <a

• 2

=1' 99 3.5 MILES teu 0F f ee( alRP0e f. O fe'EII Cafa, t hCLu0 t hG ut a T*4 R ffpES. k $ f, N 7, il l.[,k,# { gj g aGt TRom Ymt ale 80AT. 13 6 29.70 36 3C 17 46 13.2 31 S.9 E

• 29 67 38 3C

?? 42 'O 9 3e 69 49 4 29.70 32 27 13 46 9.4 31 5.6 22 8 29 72 29 25 se 95 90 30 9 1 HOURLY PRECIPITATION (WATER E00lVALENT IN INCHES) y a.* =^ a t =H *t at P.* wwe twc t w a t 2 1 2 3 4 5. 6 7 9 9 10 1I I2 I 2 3 4 5 6 7 2 3 13 II 12 2 y 6 2' 2 3 4 3 5 8 5 6 f f .02 .01 .02 .02 7 .02 i f f f 6 7 9 8 to 9 tt 10 i f f it 12 i .01 7 12 t3 14 15 .02 f f f 15 i f f f f 15 16 .08 7 7 .02 7 .03 .03 17 19 20 19 21 .0t f 20 28 22 .00 .09 .00 .04 .04 .05 .03 16 7 7 f .00 .02 7 Y f 22 23 I f. I f 23 25 24 26 T. I f 25 26 27 i f f f f f f f 27 ' 20 f f f f f .01 .01 f f f f .0t I i 29 29 29 e $USStalif!Cil Pt!Ctf 93.30 Pit flat thCtuStue atitual suf*aar, FCpt!Gm Pa! Lint 93.95 [Ifaa. StacLE C3Pfl 25 Cinfs fos scufwLf gSSUE 30 Cttf$ FC4 ammual $Upg*a4Y. TWIST il a MINIfeJt CMARGE OF $3.00 F08 taCN 09CE4 0F 5HELF-$f0CIED IStutt CF PuBLICatt041. PME Cl4CES Baf a9LE TO CEPAR1PEuf CF COPPEACE. NCAA. SEND Paf*ENTS. CACEat, au0 in39tatts le maf!Guat CLIPariC CE'Ifte. Ft2EAaL SUILathG. ASM(flLLE. hCRT)I CAROL!4a 28831 I CERf!FT ?tia? Tlef t 11 as CFFIClat puaLICaf!Cs OF THE mall 0 gal CCtantC am0 afMG$PktRIC aCMI4!$fRafl04, a40 t$ C PFILEO FROM RECOROS Cu FILE af fMF mailtual CLleaf!C CtzftR. ashtf!LLE. kCafu CaaCLlua 2380s. nOaa hartenal GCEAlftC 4N0 ' [ tilV1204"filTal QATA AMO ATPOSPhE41C A37ttulSTRAf!D3a INF0A7tATIC!I SERflCE DIRECTOR, hAf!0NAL CLittATIC ([NT[A USCO Pyt--NO A A-- A SHE V !LL E e mes se 500 %fw

i OBSERVATIONS AT 3-HOUR INTERVALS (tSt. fl9ERATW( 6 4 m0 a e f(py(Sa fi,#( F4 40 4 etsa-f(9teaFW

1. '18i0 0.n ts.

ma s-3 n :- g I ;a g 3 n s-ma ua

i:

i; .-. er 4 ;a g

== i: er ag ;a

== l tg,

== ipil 5 gl i i 3 E! F :i lgra

! El i l.g; 5 EI I i

3 E! E F :l i 3 53 7 :i ij= Os, 0, 04, 02 ,, Oa, 02 .1 . v. i. F.e is 02 5.e 7 t t.g mL .e u. . e. s u O vL ...u et n,a e 00 a n t O-3 9= is i. 2 St n O m t t o 40 a 3, e2 0 9 I. F i 4 a n Or a um is es s2 et Se n i2 0 u% is it o -03 e3 32 t3 e um is is o et si 30 se norgs se e um is 2t if te as n 12 e m es 2, tF 00 a 30 20 t u% is 2 20 Os se n is o a 200 is 25 20 Si n 3e it a u=L is 27 21 0 37 3

1. 2 e us es 3:

24 Os n 3 il ct t t t,he,, m.,,e es i um to 20 ai 00 30 n et e us is a n e3 n 30 se m is si Je 64 3s n is us. ce 89 9 usuL el 24 19 -09 JF 32 20 0 9% il 24 89 en 37 33 ss . su 15 24 29 Se 39 30 to 0luseL 22 7 80 IS 20 15 +44 34 32 IS 0 vest og Ja e7 00 40 M 19 15 22 et 93 48 30 II Oav os 0: OS 04, 04 es e um 19 22 80 te 44 38 0 $ usik to 23 90 93 42 29 es e unit se 09 at 09 to 00 0 84 7 et to 22 i9 et s0 30 e e u% to 20 8F Os se so e e um e6 22 80 Os 50 'e WEANER 9 8 97 it n iO 22 ft 0F sa 29 to e us so it es 02 87 20 10 9 ese to 2 50 0F is s s 40 9 30 89 27 23 et 51 32 10 0 uset et 24 25 OS 40 33 12 e ice e 2e 2e s0 99 e9 9 e Teena00

1. 3 5 u%

19 34 27 et 30 34 15 e usek 15 33 29 OS 30 3e e2 80 el 2 5 26 23 to 40 le 5 T Tleuis0 ERST 08191 16 3 usuL 89 n 27 10 39 32 80 0 ussL el 37 20 Os 21 35 0 to e 0 0 S 26 24 20 79 09 6 8 53uan 59 0 u% 'l 29 23 00 as 30 la a um tt 29 23 ca 3e 7 e 10 10 2 5 21 23 et 75 OS 6 a Sg,a l s 22 e usuL il 27 22 04 41 30 13 3 um il 20 23 0F et 22 3 14 30 S S 22 21 se 70 32 e g ggg g Oav OF pat 09 049 09 Z3 FafEZlas aalle ei to 29 16 24 22 se se 2e 9 0 vist 15 29 248 82 99 33 0 $ usuL t2 27 23 si sa 27 e L OSIZZLI et F 60 10 23 2s 16 74 33 9 0 um la 27 23 83 95 33 Is e see 12 24 22 to la n a ZL FBE12128 CA!ZZLE OF et of t0 21 22 59 to 32 e e um et 23 20 82 83 29 4 7 100 12 22 89 09 SF 24 5 SNOM I4 9 100 82 32 27 se le Il 9 2 uset 11 30 25 IS to 3e e2 10 '00 IS 29 2e 11 47 35 3 sp $nes pingig 13 4 u% Il 31 29 IF de 34 80 3 u% IS 17 29 le 39 34 Il 0 100 82 3e 27 42 40 35 S IC ICE CATSTats et S un il 37 30 to 42 33 s0 2 u% tt de 2s 42 30 33 to 10 100 to 35 2F to 35 34 4 Su SWOW SHOMRS 49 9 um 19 34 27 10 37 79 se a waL 15 33 26 le 30 21 S to se 19 38 29 10 48 00 0 SS $20e Gaallis 22 e um IS 31 21 le de

• 4 IO 5 u%

IS 30 24 le 49 2F 5 4 de 85 20 25 19 69 26 3 p gggg Saf to Cav as Das e2 8 "A ll es e um 9 24 22 17 F1 30 e e um 10 23 20 le 17 27 4 0 um 10 25 23 80 75 00 0 F FCE 04 9 u% 10 23 20 12 83 3e e e us8L 80 23 20 10 SF JS F 5 usuL 10 29 26 20 49 32 s2 IF ICE FO4 07 e um to 21 19 to et 35 40 0 un IS 20 to se se 29 3 e um et 24 22 IF 75 29 in CF GROUSE F04 it a u% 15 27 23 e3 94 33 se e um e 31 27 17 to 20 0 3 usek IS 30 2e se e3 34 80 80 SLCuliet CUST B3 e um 15 34 27 s2 e6 34 se it 50 te 3s 29 is se 2s it 0 uset as 23 26 se 3a 29 12 8e SLDIithe Samo is e usik 11 37 29 is 34 3e is a t 00 st 39 3s il 30 20 0 e 4% IS 29 2F 10 35 32 12 gS SLDad!st $160M 99 0 uset IS 21 23 04 3F 24 8 10 et il 31 2e 13 40 22 90 0 9% 15 30 24 09 as at 10 g,LDuf tet Spear O Of 22 0 veil F JS II 09 SJ 2F S I4 47 7 33 30 JS F2 25 0 0 u% IS 26 28 04 de 25 0 ggg g AII "uS T See e3 Dat to Oaf 15 et 0 u% to 22 59 80 se 27 4 0 u% st 23 20 ie 57 OO 0 2 um 0 37 32 22 st 32 0 0 D 04 0 useL to 22 19 10 to 25 4 0 uset il 20 it to SS 00 0 F 40 0 34 29 10 $2 34 9 0F G wmL 4 e 20 if Oe 40 32 t 0 800 il 22 29 12 GS 00 0 0 60 0 33 29 af 12 34 9 UN 10 0 un 0 30 25 44 11 29 40 F 150 0 34 29 sa de 30 a to 40 F 31 29 17 40 30 0 e3 e um is 34 29 92 37 30 s2 7 100 m2 7 n is 20 2s se is 30 se 3s 29 la es as s to e u% 19 39 29 Oe 29 23 le to 45 tt of 34 le 29 20 14 se 30 6 Se 34 10 ft 10 00 9 OmCnous sat 20S12 89 9 u% 39 38 2e et 38 at 3 4 90 0 42 33 le 30 33 9 to n 9 39 30 59 92 le 6 let!CN THE lilho SLCd$. II@l-22 0 um Il as 22 OS 40 00 0 3 um e 38 32 20 40 3e 0 10 30 e so 31 30 2e SF is 9 CATED la Tents CF dis 2EIS FROJt TRIK DGETMs 1.E., 00 Dat es Det et Bat 18 FOR fast le FOR S2 Vill, 27 s Si le 10 a tie 23 30 24 71 12 0 0 u% 10 1e 21 to SS 3 12 0 talk at it 14 se 60 25 5 FOR isElf. Enfat OF 00 la te la et I las 32 30 27 92 09 5 e un i9 22 19 0F 92 31 12 0 unit It se 13 et s0 29 S TM OIRECflas COLUFue tuol-SF to le t 2eF 33 32 29 et 83 5 9 uant 11 10 to es 55 29 10 0 9% IS 13 ft 04 GF 00 0 CATES CaLR* 10 le 3 0 4 SF 34 33 30 et 32 3 4 to et 28 29 10 15 30 es 3 v% 19 27 23 12 53 24 la i3 te le 1 8 34 33 29 ft 12 IJ P 50 il 2F 22 09 er 3t 11 0 200 et 34 27 es 30 27 12 SPEED !$ (IPR (SStB IN EE0TSI It t9 29 0 39 30 19 $2 32 98 9 u% i9 at 22 OS 37 33 83 0 umL 19 30 30 14 37 29 0 FlutflPLT Of 1.1$ TO C0avtAT tt 3 uent se se 26 B3 4F 32 14 e ussL el 22 se 02 42 30 12 0 um 11 29 24 82 49 28 3 NDIM M 22 2 un 4 JF 21 to 69 at so 0 u% IS 20 is 02 el 27 to 0 uust Il 30 24 50 e3 00 0 Ost t9 Set 20 caw 23 et 0 m Il 23 at 54 48 00 0 2 v% 12 34 27 20 64 00 0 4 100 0 35 33 21 79 00 0 64 9 b% tl 29 se il S8 00 0 2 u% e2 24 23 I4 44 04 0 10 35 7 39 37 33 79 30 e 7 e uset et es tF 90 60 00 0 weL S see 29 20 46 Bt 40 0 10 47 7 80 30 34 se 30 S 4.9 0, 9 no n a a9 .n u 0F 9 ne s n is u 0 gi e n is n 4. n u n 'O o 200 0 n u n u e 3 u% si 2 a 43 Os s 4 m i2 u .7 n 9 n e 16 e un to 50 33 l2 2J 19 7 e um S is 42 27 35 19 9 10 el 80 S4 44 32 43 34 5 39 e um 11 et 32 e6 36 10 4 3 um 0 e3 37 29 Se ee 9 F 50 99 de de 30 90 12 9 22 2,m fl 32 27 10 94 la e 2 WM 9 44 34 29 45 23 S 3 ug 90 e2 3F 29 60 18 4 04f 22 Day 23 cat 2e el to 40 to 40 3e 30 et 12 s se 3 0 eF 34 39 33 09 20 e to 40 1 se as 39 n 79 at S $4 10 e a ele 35 33 29 F9 12 7 10 3 3 e F 37 34 3e et 27 4 10 25 7 80 39 39 92 27 7 0F IO le 2 ees 35 33 30 92 e4 4 le 30 e F 39 37 38 92 39 4 to so 1 F 49 30 34 75 27 7 to 10 3 1 0 sur 3s 34 3i 02 09 5 se 40 12 e3 42 40 99 27 80 10 45 6 = at el 31 40 20 13 to e 0 i2 LF 30 34 34 SG 08 9 10 25 82 50 et se 49 30 9 to et t er et 34 as 2e se et le 3 0 or 30 34 3e to 0e F IO 250 le 50 43 39 SF 34 7 7 oc e et e2 32 52 29 to 19 90 9 3 7 34 35 33 49 OS 8 10 30 F el e6 33 63 33 6 3 u% 7 43 a 2e 47 24 4 22 80 4 0 12 LF 37 35 33 01100 0 10 30 w 42 39 34 79 00 0 4 80 7 30 33 28 62 29 6 Da? 29 Set 26 Das 27 ei 30 90 F n n 2e ss n s ie et is n n if 40 Os e to iO4 it 24 2 ie n it s t 37 32 22 is 29 e i0 20 4 = 33 29 2 ei is i2 0 .0 is 2 22 io se it 0 es ie 0 er i0 0 t u 30 n u 2> a 2 m is n 2e is se n se it 0 i2 a at 00 es it

1. 3 it iO w

0 n n n 93 n a s m a n 2e n en at u it 30 2 a n

1. 2 o

24 io is e 110 e6 43 31 22 e3 39 8 2 b% IS 32 27 85 49 34 le 50 30 le 3e 20 84 40 24 9 IS 3 um te se 38 25 37 36 5 e usst 45 32 28 02 at 32 il 10 30 7 34 3e 22 SF 23 'O 19 0 00 19 39 31 17 at 35 7 0 useL st 25 20 00 32 32 98 4 39 0 34 29 20 SF 20 12 22 10 le 10 3S 30 2t SF 30 e un el 24 at 03 e6 30 it 3 unt Il 25 23 04 37 38 12 est 20 049 29 Gi 2 m n a 2i 0. n a n 0 va to i0 ir u 04 a e a I p 2 u= n 2s 3i o so 29 it e = it n is os s2 n e i is n n 2s 22 i2 is n e e m to

1. 2 u

S n n s.0 .it te 32 2 e S 27 28 is si it i i m is it to 0F it u 2 o. in 23 2 0 = 3 27 se le n 3 e m n n it 02 40 n it 8 it

1. 2 2

0 sa n a at u n a e m IS 24

1. 9.O i 37 u er et so 50 e6 27 29 te 49 21 S

O useL is 13 e4 10 27 33 92 i 22 14 42 1 0 5 27 21 10 49 33 12 e u% IS 16 I2 -10 30 33 IS II lI sfarina tras a muru namelssues #a 30 $2 r i U.S. CEPARTMENT CF COMMERCE as roual estcarusin sm:Tra H5"8E ** rrr$ m i NA110NAL CLIMATIC CENTER ' 8 Dmanov 0F cc act x, rEcERAL auiLorna COM-210 N" AShEVILLE.,N.C. 28801 L FIRST CLASS / l _.

Z":.0_,<f..,a Local Climatological Data wQ capitat ciff minoca? sg MONTHLY

SUMMARY

g m c Sr f_ 0..... ,6

5... _.7,0 160_

33. F,.

5f_.0 Y_ . 5,t.. .... 75 I 3 DEsnEt cats mEnfi<a ifrEs saem. aes. 3" saf Costa TEMPERafUAE 'F Sast e5' cs OafEs of ict peEC!Pl;aflos listles Wi!so sunsalut U ftutie$ OCCuRaimC1 seusse MEs-o a gi. g O.r f a$fEST j =. l. 5 Fee.. se tumE a !!,3 5""- u,,,",, a i.. E 4 s a v=reitsan,a, IlI _g 5 35 t2 O - - 2 a ""8* h- (e systsfonn E at an,. 5

• e 2

h 3

s 32 E

y LE 'Eti" 5E 2? e ,gg, 8 d d. g' eamt c F an g t' E 5 25 S= 0; 8; is. a.s.t. X X& . d* g 3 g* g$ 8g g g, i. g) a 2 E 30

a it a Sa j gi"i, 3

E Ea w3 EE a o I 2 3 4 5 6 76 78 8 9 to it 12 13 to 15 to 17 te 19 20 21 22 e 22 F* 15e -2 50 0 t e 0 .06 .6 30.07 33 9.0 10.5 84 33 480 7s 9 7 i 2 27 to 19 +17 3 44 0 t .03 .3 29.92 34 II,9 12.0 i6 Os 613 90 3 4 2 3 41 14 28 e e 37 0 f 0 0 29.74 32 10.9 12.5 le 32 482 100 0 0 3 4 51 14 34 -3 le 3I 0 0 0 0 0 29.67 23 5.0 t 3 02 24 616 90 e 7 a 5 50 34 42 5 37 23 0 1 0 0 19 .2 29.46 22 a.2 0.5 23 30 t el 27 to to 5 6 . 45 32 39 2 19 26 0 0 0 0 29.42 30 0.6 18.9 23 32 595 06 5 6 6 7 54 29 de 6 33 26 0 1 8 4 .01 0 29.75 to 2.5 4.s 9 1t as6 64 4 6 7 0 60s 42 55s 17 at to 0 1 3 8 0 .29 0 29.36 20 6.3 7.9 33 3t 449 65 10 9 8

p.

9 et 30 40 2 26 25 0 0 0 0 29.50 29 11.3 12.8 20 3t 699 800 3 3 9 y 10 54 24 43 2 31 24 0 3 9 0 .t9 0 29.41 16 4.7 5.0 se il Gl4 as 7 5 10 U ft 30 29 34 -5 14 31 0 0 0 0 0 29.42 la I6.5 17.7 24 32 68a 97 3 '3 18 I2 36 20 29 alo 5 36 0 0 0 0 29.93 33 7.4 i0.9 17 33 668 94 5 5 12 13 33 22 20 .12 14 37 0 s a6 4 f.0t 5.2 29.72 II 6.9 10.5 s1 10 0 0 10 10 13 LA 14 3e 29 34 6 27 31 0 1 8 a .23 1.4 29.42 30 13.7 15.0 25 29 350 49 9 9 14 C3 15 45 31 38 -2 sa 27 0 3 0 0 29.90 29 12.9 13.2 19 31 718 100 0 t il c 16 48 24 36 -5 23 29 0 1 0 0 30.04 t9 6.3 6.0 13 10 660 92 2 3 le 3 17 56 36 46 5 43 19 0 1 0 0 00 0 29.45 10 7.2 '.) 13 15 0 0 10 10 17 IS 59 32 46 4 31 59 0 8 0 .09 0 29.61 25 29 605 84 3 4 IS O 89 54 20 42 0 24 23 0 0 0 0 29.97 25 F 4 0.5 s2 17 442 89 5 a 99 20 56 34 45 3 34 20 0 0 0 0 0 29.74 17 4.0 5.9 9 16 564 77 to e 20 2t 56 37 47 4 45 IO O I 9 0 f.00 f 29.06 25 9.4 15.9 25 30 0 0 to e0 21 D 22 de 33 39 -4 24 26 0 0 0 f f 29.43 32 20.5 21.0 27 33 290 39 10 to 22 g 23 56 31 48 0 27 21 0 0 0 0 29.77 33 4.5 7.1 to 35 600 93 0 2 23 24 47 32 40 -4 35 25 0 8 0 38 0 29 55 41 5.5 5.6 10 13 200 27 10 9 24 d-25 51 35 83 -1 35 22 0 1 0 .04 0 29.46 32 7a 10.0 15 30 216 29 to e 25 7 26 47 31 39 -6 27 24 0 0 0 0 29.02 33 9.0 11.5 to 31 566 76 10 e 26 US 27 54 ' 30 43 -2 27 22 0 0 0 0 29.96 06 7 6.3 9 34 733 90 0 1 27 29 54 34 44 -2 33 21 0 1 8 0 .26 02994 15 4.0 9.5 II 20 479 64 to e 29 r-. 29 53 82 40 2 46 17 0 1 0 0 .50 0 29.62 II 6.5 6.9 9 13 0 0 to to 29 30 5e 45 52 6 47 13 0 t 0 0 .04 0 29.50 00 t.6 4.5 to 09 13t 17 30 to 30 3' 47 16 42 -5 39 23 0 9 9 0 .39 0 29 a9 13 '2 0 0 to 'O 3' 3" sta sva t r at 'p at 7 3 f et t r at rta t-E Mw= 70f at 1 ha SW Z I5OS y0 9 739 0 ewef a es 54,1 5 47 7 9 29 661 I I 331 38 1355) FCs 206 699 a v2. a ve. avs. rE p. 6,s _ CE# as. Pettipt f artgg CLP. I- -t-ca tt C6 1 eve!as wes** ave.' 4,4. y 44.5 27.3 36 9 -2.1 55 0 5.07 f eCw

1. F 2 25 t-

-!-{ I222241 66 6 6 4 E ti?g TS Ca'E pie, ICs *ELLif 5 =9m*.E4 at tar f2f at 72 at a f.9 t=N 2 cata1Est !g 2a *m.ps a=0 tafET 64EafEST DEPfm te snouse of 5=0m. ma t heA TE *P. e g!.o;e f f =p_ a??2 0

• *,=c En s M pe.s 2

pee c !al t a r Mg ! 542w. ict PELLE ts fff Pitttf t Et IPf a=0 ta'E y se ' l i 32 ' i 32 ' I ie" CE P. M*. -E a s ? *H 3 I 601 2n 6 6 91 43-'4 4 I i4-0 I 2 23 1 0 46 0 Et t aa 9

1. 4efLf CL2.DY 5 fie af 87 I

SUMMARY

BY HOUR $ a EnfaEME FOR Tht desf4 - La5T OCCl#18DCE IF mat Castaf af!O41 PE8 DAY af 3-dous terERwatt. affaa6gg assafast rest inae out, Fagit5f #ILE etu0 SPitts aat Fa$ft$f CgstNftB of te f ftact A841U87 Omi-ateuft faLut$ unE4 OIRECflCet set In ft#5 ff **t a a ?UDE e o + aL18 su as E&aLIE9 Saft, as Caftl. OF DEEREES. fut f uffis fl.E 0!stECT!3N lhettaft$ /T d. E g y 2$4 y utaff F088 - UttIBILiff 184 ntLa se Last. Pf aa sult sptt2 E O S 85 .3 FitdHES F04 a1140 Stattfl0NS aat ftMS.OF Ot-auf tsa 'l DEftCTED 4tLL Bt Cta#ECTES ass 0 s-J % $~~ a a 3.P 3* S O O4 g" saEEs Ct0Csuts Faca fevE =0afm. Go Cats. C*ausas se summer Safa untL et anmofaits la far

g

y2 at

.-: l =- = 4d omfa to Cots. e a=012-is aaE sasEn em 7 sa feq annuat sumaaf = 01 6 29.66 3q 35 26 66 e.9 30 J.4 - etsingins Jaw. 12. 1979. Pta= ca f a is FeOn f at rtetaat Orr. 9Les., os a 29 a= v 13 2t

== 9 c it ea 3.5 nitts na cF f E arePcat. Of>En caf a, twCtv0 n6.Eafwin ifets, ( jd f y j6 ,[j y y sat Facn thC ainPget. 13 6 29.66 46 40 30 56 ft.e 29 at -(( f (( N '[ h (( CEW PT. MISS. Me. IST. uth0 Oaf a ntSE, mae. p e t.e L 315 f. 3 22 7 29 6 at $6 2a 64 9.9 33 2.3 HOURLY PRECIPITATION IWATER ECU! VALENT IN INCHESI e a* e.8 E 90 N t' -0 A EW *G a f a 1 1 2 3 4 5 6 7 8 8 9 IJ 1} 12 1 2 3 4 5i 6 7 9 9 10 l1 12 3 4 I . GJ .04 .GJ .06 i i 2 02 .01 1 2 3 3 4 a 5 .C5 .05 02 i .02 04 i f 7 7 f .0 i f 5 6 6 7 f .0t i f f 7 0 i f .06 .04 .05 f 12 .02 f e 9 9 10 50 .09 to 11 ti 82 12 13 i f f .04 .04 .04 .05 . C '- .03 .06 .05 .00 .IS .09 15 .08 .03 .04 .06 53 14 .03 .03 .02 .03 .06 .02 .03 .02 .02 .02 is 15 15 16 16 57 f .02 .02 .04 .03 .02 .08 .02 .01 .01 7 i f 17 le i f .03 .44 .02 f te It is 20 20 21 .02 .04 .04 .06 10 60 .06 i .06 56 .02 .29 .se .56 .04 .06 f 2e 22 i f f f f f 22 23 23 24 f f f .02 .02 .03 .05 7 .05 .0t i 24 25 .01 .01 02 f f f f f 25 26 26 27 27 20 .01 .03 .05 .06 .03 ,00 29 29 .t0 42 .07 .05 .44 .04 .03 .04 7 .03 f f 29 30 l 4 f .02 .02 30 I 92[ y .04 .04 07 7 Y f .02 7 ? 02 31 3' 02 Y .02 .02 02 ? ? .02 .04 .02 ? $US$C91Pf!04 991 Cit $3.30 P(A Ytaa !#Cluctut Ahmuat suwi=nat, Fontion PafLING st.95 IIfna. ' INGLE CDPf 25 CtNf5 FOR PCufHLT 1550t, 30 CEnft FCil annual $uppiani, f>tAE 15 4 n!41 MUM CMARCE OF 13.00 F02 taCd 080ER CF SHELF-STOCKED issytt ei Pvet "

• ttus. Pare CWttr5 Paf a6LE T3 GEFaaf7147 0F CC'etACE, h0ne. $E40 PavTuts. CRCERS, ase0 IkQulal S 10 kAfl3AaL CLimaf!C Ct4ft2, FELEAat SUILDIL

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OBSERVATIONS AT 3-HOUR INTERVALS = oua .I re.o.im in a a .tu. umurm .m .I... u.naiu. 3 8 E ;s-y d :;- 3 p ;- l.'u a s e .ua . 4

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a. n.

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• wiiL 29 3F 29 2

34 10 8 32 l see se se 3 .I .i g 3 n 41 39 27 89 3. i. .t ye.t 3 u% 25 e.t .s e B.to ui L 2 33 19 as it s. p 2 . e8 52 le 6, 4 4 us .9 49 38 32 29 22 $PEfD is UPWil.SCD.IN til.fst le 3 us i9 e 3e as 39 9 48 3 M 95 95 u It I. I 6 n 49 3. 2 32 31 et IE.JLf! PLT 87 i 5 I CONVERT ft 1.7 l.e u, 2.9 um ii 83 35 22 43 s. a 3 F to 59 15 to et 9 e u=L il 43 s 3 29 it T fifLES Pt2 iious. 22 SS is sa 3a 20 la n. 7 1 29 9 4 to SS St a O e u% o 27 3 S 27 F .at it .a t 2. .a t 2e O unit il 34 3. 2. 12 3. 9 vii.t .i.f 2 e2 35 25 5. 5 1 G e am 5. 49 49 a I. t. .+ 9 visk 15 32 28 i9 19 27 F F e. U. 4.% 2.t i. 38 34 8 t er 34 g4 ga io. i i. 67 8 u% il 3 3 22 42 24 F S F 39 JS 3 F .9 5 to 9 3 Se to to e.4 t. 12 8 . 9% 12 38 JS es 3. 9 e. F e. 42 3a 99

1. 2 4

8 i 9 M 19 99 SS .I S 13.7 n.. s 2. 33 42 27 37 23 F i. F $4 at n 59 se 9 F I . eF 19 SS SS s.. 9 9 14 2. it et as 33 2 9 5 i 12 of 39 SS 2. 4 29 7 9. de si FI 24 il e.3 S.9 1 se i. iag it 59 4 29 a 2 S to s t n t.. S. e.t 39 44 s. S t 34 Il e3 34 26 41 3 23 n 3 9% t. of 36 2e 4. 2 i. i. 5 II 1 e

• 2 fa 99 6

i. 35 81 al 35 25

$3 U 23 .as 22 .ar 23

t. sat le ei 1

F 5e 39 33 24 o 3. 29 9 S. i. 31 3. 22 18 3: F S vist n. 4 34 3. 62.. 3 F 37 32 32 = t. S.S B.3u%. 2 3t 2. O u% to a n 22 19 33 5 i. 37 34 F .F t. 49 i.7 2.F i t. a 33 I umL to 34 32 24 42 29 6 F 3 39 3 F3 34 32 2 t. 5 34 39 33 22 51 33 i 4 unt is 43 3F 29 10 la IS. 9 B. 4 e se 29 33 13 5 39 il 49 39 27 49 32 i.t 9 unt it Si e3 32 de 34 I. 4 S w 4F 42 34 44 1, 9 18 8 3. It 42 35 2e at 33 v%. 2.2 a.s 1 .e s $5 3 39 n i n a w e4 42 34 se il t e it I. 29 2 Suse 38 33 20 73 3 e is 89 4 2. 44 1 11 8 eis a se e2 89 i.t .t 1 22 18 5. F 38 33 25 SJ 33 i 3 u% 19 43 37 2e le I. i. 2 0 ##

• 4 49 e4 93 9

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1. F 39 29 5

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Oc Tl79 r '; =62 P [ Alic,//T) = 5f.S C = 55 '5 Slo P (day) ~T ' = (s. l mr24 ( ta ic,ar) ( V ' = 9, 3 m,-d' = 7.'7 m c4 ( D A N) , 6.' = / 24W = 776 % (ivise r) H, = 723% (D4 y) Rz = g f = 2 +o c sw 3 (wee r ) c ') = 3oo [ hlw') (DA L/) . 7 6 2, M m m ( tJ is e T) = L 7 6 2. [o / m m .D A lj)

Nov 79 4b t= (yic,,9m) T' = 46.6 f = 5/ " F ( D A y) { = S6, 6 f = $. 9, i m;d (4<6rr) j' 4.2 r"r ' d gM A (op WJ =

3. h,4

= 74 4 Cuic,r0 70% ( DAV ) = m 2SO (wsa)(Misinr) =- 210 (* w) DA y = i%. s (gw] = { 0 5. % 5 ~ fDAg ) = t

Local Climatolo2fDolcal Data ,a, M.. ensissuna, Pt==svLvania CAPITAL CITT 4lAP0af e e MONTHLY

SUMMARY

c sgg e LattfuCE 40 *13 I LDeGifLGE 76

• st 'ta ELEvatt0a asaevner 330 Ff.

Stancans fint asEps ( AlfE i maam at4755 3* Ot6aEE cars statesEn ffet$

suse, nes.

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Sam, 8

g p 3 g asoune Etuiva-ICE +-* e = g = eg gE -2 -E e ses PALLETS

• 3i i

0 5 M. ~ 33 3 : 0 7'a'N [ [ 3 -2 3E 23 NE

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as e a== w cm a ao na e as e m g, O 1 2 3 4 5 6 74 78 8 9 10 ti 12 I? 14 15 16 17 19 19 20 ft 22 8 56 36 44 32 19 0 0 I 0 29.74 10 a6 640 84 2 4 1 2 60 42 SI 3 37 to 0

• 8 0

7 0 29.75 20 3.9 5.2 11 to 6a2 sa 6 4 2 3 43 34 49 1 37 16 0 4 0 0 0 29.76 10 4.6 5.6 to Is 654 e5 4 5 3 4 49 44 57 0 41 9 0 i e 0 10 0 29.29 31 2.5 8.6 20 30 423 55 6 0 4 5 60 42 59 2 25 to 0 0 0 0 29.44 30 17.2 17.4 24 38 653 95 3 4 5 6 66 37 52 3 39 13 0 0 0 0 29.77 25 5.3 8.3 17 27 700 9s 5 3 6 'F 70 41 56 6 37 9 0 0 f 0 29.90 11 9.0 9.9 17 12 606 79 6 6 7 - G 71 47 59 9 49 6 0 I e 0 .C5 0 29.e5 to 13.5 13.7 29 11 476 41 9 to e 3 9 49 a6 57 7 56 0 0 t 3 5 0 0 1.23 0 29.47 1I 4.7 8.9 t6 30 433 56 9 8 9 3 10 59 40 50 =t 43 IS 0 2 8 0 f 0 29.47 27 6.0 6.9 12 27 498 64 9 7 to 2 is 65 30 52 9 37 13 0 0 0 0 29.69 30 6.5 7.5 14 33 754 95 2 2 II 12 70 45 59 6 47 7 0 1 0 0 .08 0 29,6 t.29 3.2 6.3 17 21 437 55 9 9 12 13 41 43 52 0 37 13 0 0 .ca 0 29.43 31 7.4 9.3 13 33 454 83 5 7 13 to le 66 43 55 3 48 10 0 t t 0 52 0 29.44 10 10.0 11.5 15 22 0 0 10 10 la CD IS 6a 43 54 1 37 18 0 0 7 0 29.24 25 9.2 10.6 16 27 591 73 9 9 65 g-16 46 34 40s -13 24 25 0 0 0 0 29.50 30 15.3 15.0 23 32 697 06 7 6 to .D IF 55 298 42 -Il 22 23 0 0 0 0 29.94 30 4.9 6.8 12 32 901 100 3 2 IF 10 6? 33 50 -4 33 IS 0 0 0 0 29.01 29 6.4

7. I to 30 697 SF 4

3 18 C'1 et 69 40 55 a 34 to 0 0 0 0 29.83 09 f.9 2.6 9 Os 506 800 0 0 t9

• 20 76e 42 59 4

43 4 0 t 0 0 f C 29.66 27 3.s 5.2 12 27 596 74 5 4 20

• • 21 72 47 60 5

36 5 0 0 0 0 29.59 33 6.2 6.9 to 30 739 99 I I 21 g 22 72 40 - 56 1 29 9 0 0 0 0 29.50 34 5.7 7.9 12 05 771 95 2 2 22 g.,y

• 23 F

42 57 1 33 8 0 0 0 0 29.29 27 3.9 9.3 14 25 816 t00 0 0 23 - 24 70 49 60s e 44 5 0 3 4 0 .44 0 29.36 07 3.2 7.6 12 to 640 7e 6 5 24 25 65 46 56 0 45 9 0 8 0 0 0 0 29.44 39 5.3 3.9 20 28 639 7e 9 4 25 Z 26 55 4% as

• 9 40 17 0

9 0 .02 0 29 60 25 3.4 4.9 19 27 445 54 IO 8 26 LA 27 53 44 50 -7 8F 15 0 t e 0 66 0 29.40 09 5.6 5.0 12 80 0 0 to to 27 29 53 49 51 -6 50 to e i s 0 .87 0 29.37 of 0.3 e.5 to 08 0 0 to to 29 r'" 29 60 46 53 -5 49 12 0 4 8 0 .22 0 29.36 07 5.3 5.4 12 08 296 36 9 4 29 30 57' 48 53 -5 51 12 O I e 0 44 0 29.39 09 a.5 6.9 12 08 0 0 to 10 30 3a tw se 'af at T3 ? na. reru foru s ee r4 ac = w f atat 3 s.;* Z av ste cf Bav$ 4 27 0 29 591 I I 281 al '6063 Fog U IT 1960 5253 MI 0 a petCipt f atics CEP. -H- -iC a rE : 08 seural acefw se3. set. .g. aeg_ avg. avs. ci e. avs. MP. CE p.0 m et tw w f2 1.29 e-i- -1 2 3 M81 47 6 ' 5.7 43.7 41.6 52.9 0 3 37 -7 e St a5:4 '3 Ga f t $404 6CE Ptaf f S sapete of Cav-l ' 2 ' at f e'at i t 9 f ortw 0 taEartst != 2e,cu s ano Da Es Estart51 ctern em Gaoune es Suais. a r pa s I =>* f f *.

• • We TEW.

5'3J 0 'est=0E 45 70 e*S 2 serttDi f ai t;te 1 5 =0w. ICE pittt ts FCE Pettf'1 at 1CE 443 Saff i te

• I i 12
• i 32 ' I i0' St e.

CE s.

• I 6,7 F:s t

i 25 I 9-9 i 11 0 1 0 i O t 1 0 37 0 CLE aR 9 e 42 7t f P cuGT 9 Ct3307 83 4 SUMMART BY HOURS e (IfREPE FOR fuE MCafM - Last GCCuest4CE 17 rest cesEnvaticut ett par af 3-se0ve infravatt. 4eEaaaEs assastf aar RDRE thas out. Falft$f MILE Mine SPEEDS aeE fastest 085ERVED e" f *0 7 TRatt am0unt cme-aimuft vatuts mett Stattilemt aat 14 ftet / ft"#Es a ttM (.V = ~$8. ;* ez e atsa ce as taatsta Oaft es oafts. or o&&stts. f>E a utfn TwE ninECffna is0: Carts v ,g ./ MEaff FO*

• WilletLiff t#4 4 tit se LE15.

stau 6Ulf SPEE3. 3 E

2.

• FisuRES F3e alue StaECficus est fttS OF CE-auf Ea#0a5 DEftCftB stLL St CDeeECit0 am0 2 ST. *2 m i 7 5 %2 a *. $

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3 GREES Clef tistSE Facio fett nGaru, o0 e Cain. CasarEl is supsenef Cafa sitLL SE anacrafta la 3,, F

• , g Y.

3 d5 5 se og Dafa In COLS. g am0 f2-15 aoE ta5ED Ce 7 ft fpE annual surgeant 38 67 6.s 27 1 5 Oi 5 29.59 4 ] 44 4' 8' 1' 98 P BEGlk4lhG Jam. 12 1979. PCP4 Caf a al FROM THE Fttf aaL OFF. BLDG

1. a 29 M*

3.5 MILT 1 hw 0F Tut al8Pe#f. Ofe*ER Cata. thCLuotnG utatteta ffPES. N Nf, N [9 N h b N 2's f C)y SAC FROM Tw( a RP0ef. 13 6 29.57 60 50 40 52 10.4 33 1.3 utm0 Data MISG, APN. Ilf+ ae 6 23.54 b7 49 39 54t 9.0 29 e.0 22 6 29 57 53 at 3H 62l 9' 29-8.3 HOURLY PPECIPITATICN (WATER E00! VALENT IN INCHESI e a.* aM MI=f er e.= wwi m a.f a r y 3 I 2 3 4 5 6 7 LI 9 10 Ii 12 l 2 3 4 5 6 7 il 9 IJ ti 12 1 6 I 2 i T 2 '3 3 5 .01 ,02 T i f .03 .01 4 4 7 .03 Y 5 6 6 7 f f T T 7 e f .01 .00 .01 i ? 7 .02 8 9 .it .t4 .24 .22 .20 13 .01 i f f .0I i T .t7 9 10 I 10 It 15 32 7 i .05 .03 f 12 13 .01 .01 7 Y 1 i .02 t3 to .09 .03 .03 .03 .04 .02 Y i .02 .03 .01 I .02 .to .04 f i 01 .0t i i f 1 f to 15 7 7 15 86 16 17 17 $9 19 19 19 20 1 i 1 20 25 28 22 23 ~# 23 23 2e f .02 .02 f De 25 25 26 f 1 .01 .08 I f f 26 27 f .06 .t2 .09 .09 .02 .is f f .0t .01 7 .07 .03 27 29 .G5 .t0 53 .01 .01 .01 .01 .02 T T i 12 .01 .04 .04 .00 ? .09 .07 . tl 29 29 16 .04 .01 1 .0t 29 30 ,03 i .02 T T 05 .I3 .07 .02 .01 f .42 i .01 ,.0 3 .02 .01 .02 30 SU95CRIFflCu Ptittr 13.30 PER flaa !=CLUDING AkNutt SUMMaaf. F0Pr!G4 PalLIMO St.95 [tTRA. SIMCLE CCPf f 25 Ct'If5 F04 MOmfNLV 155ut, 30 COeft FC# anwuat 5bMpanf. TesEpt 15 a MINIMJM CH44GE OF 93.C0 FGA EaCH CaCEE OF 5* ELF-Sf3CEE0 ISSt;tt 0F Pust!Caf t0*S. Part CHEC45 paf a8LE TO CEPARTMLni CF COPMEACE. 40aa. SEWO PafPEuf5, 090tRS, ano insutelES f t saf!CuaL CLIMat1C CEufta, Ft Enat GutLDING., ASMilLLE, NCATH Caa3Llita 294M, I CERTIFT Twat fall IS as GFFIClal Pt1lLitafl04 SF THf matt:NAL OctatlC sh0 ATMOSPwtalt ACMit,318aI(C4, aNO 15 C091Lt0 FRQ4 S(CCDCS Cu FILt af fp[ matt 0e&L CListaf!C CiufER, ASH (f!LLE, h0Af2 CAROL 1ha 28801 nOaa NAftchAL CClantC Ak0 '/ CNitRONMENT AL DATA ANO [# ATMOSPHERIC AOMill!$f AAfl04 /. [hf CRMAfl0N SEAVICE DIRECTOR, iqAfitte4L CLIPAf tC CENftR U$COMM--40AA--ASHEVILLE m nerse 500 2-

OBSERVATIONS AT 3-H00R INTERVALS . u. rf wa.rn . er,. asso 4 ea m g ,-r, ;*- visi. rf,.mrm uso c .m rfeurun so no w, o, a-mm 3 3 ;*- 8 5 P .m

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2 se si es 03 Of e 10 si s F rl so 49 er de es Or s se e 2

1. F s2 se et so Ce 7

at es as of s so e i e # s2 s0 49 90 09 s it e0 e i e er sJ s2 s2 ios os e is il r s3 s2 s2 M 94 e so e 6

1. 8 si so s4 M

to a I3 10 32 a F s3 s3 to to 04 6 se 2e e2 sa s3 ss e3 o3 3 Io s 2 et se s2 sa to ce e is to 9 3 88 s3 s2 s2 M Cs F s 30 12 s2 se si er is s 10 10 s Fu ss se s3 90 os e is no e i se s2 si si w os e 3 us s a ss s2 o eo ce io se is e e, se n n n 2e e 22 is 2 9 w se so o n or s a 4% 3 ra so o se s3 os e is a a nF s3 si sa ice as a station resa s nomru ledentsaves as so 04 r U.S. CEPARTMENT OF COMPEACE as toual amarusers totetta restaat ase rffs este NATICNAL CLIMATIC CENTER e.s. opiarse, or emnet A FEDERAL BUILDING C0M-210 y"",m" ASHEVILLEe N.C. 28801 j FIRST CLASS / 2 "::....~,,<..m. Local Climatological Data gg c..... m.,,.,...., MONTHLY

SUMMARY

gb [ %se <a f, t 0 ,3 <0 . 0E 6.,9.. m.af,0..Os9u,01 330 FT. ,,a.0aa0 f,, ,,ED, E as,E., .0 a,. t e,5 8 DEsaEE oars daruse frets n=e. ,'g,',8,', TEF9Eas tunt *r easg,, as sarts GF ict peECipitati0s s' aries uth0 sasmist DCCues ACE . mas t eess-Y k h k fk'h w l 3 -3 3g 23 33 se m

8. f

] ice se m g g sasse sam.- ICE g e -, gg -s -s , in u., us, .utri 3i i = lll 25 3. ,,,,,33 'D l O "

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== == a f 2 3 4 5 6 74 79 9 9 to to 12 93 14 15 16 17 18 19 20 11 ?? e F1 50 6: 52 a 0 i 0 0 .02 0 a9.se le 4.9 9.9 85 32 635 76 0 9 t 2 72 et 60 t 53 5 0 3 0 42 0 29.55 27 2.6 4.2 93 25 6t3 73 F 7 2 3 79 59 65 6 52 0 0 0 0 0 0 29.50 29 9.7 6.6 12 33 039 100 3 3 3 4 00 93 6F G 43 0 2 0 0 0 29.85 38 9.3 7.9 I6 33 tot 100 2 7 4 1 06 of 67 7 80 0 2 0 7 0 2 9. 3 t 26 8.3 9.6 52 2* '40 89 2 2 5 6 84 99 70 to 52 0 5 1 3 0 .04 0 29.24 29 7.1 0.2 19 26 646 76 6 6 6 F F5 85 60 0 10 5 0 1 9 0 f C 29.37 31 4.4 4.0 19 38 66F 79 9 6 ]; G 62 de 53 -4 33 12 0 0 0 0 29.49 33 7.5 0.3 to 33 690 02 7 6 e p 9 60 30 49e +12 33 16 0 0 0 0 29.55 30 0.91 9.6 13 30 F25 OS 9 3 9 3 90 71 37* 94

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37 11 0 0 0 0 29.62 26 2.7 .6 13 21 754 90 4 e 90 U tt 68 93 68 0 53 4 0 t 0 0 .24 0 29.54 it e.4 a.6 e tt est Sa 9 e et

• 12 77 95 66 4

62 0 t t 3 8 0 1.56 0 29.55 to

1. 2 6.3 4F 29 337 39 9

0 12 13 03 60 72 to 64 0 7 1 3 0 0 .34 0 29.39 26 4.9 F.3 22 33 990 69 7 7 13 Vi to 69 49 '9 +3 52 6 0 0 .02 0 29.40 29 10.7 ft F 20 30 700 91 9 7 to m

• 19 66 a3 55

-4 39 10 0 0 0 0 29,77 33 7.3 F.9 13 38 964 100 3 2 15 c 16 70 40 55 -8 43 10 0 0 0 0 29.96 30 2.0 e.3 to 26 066 100 1 1 16 7 17 70 50 60 -3 et 5 0 1 0 0 .01 0 29.99 tt 6.2 6.2 16 91 660 77 9 9 17 10 64 94 6: 3 59 e 0 I e 0 .29 0 29.73 it 7.2 7.2 10 0F St2 59 to 90 te O 69 77 59 64 4 64 0 3 2 0 0 .04 0 29.69 27 4.t 9.9 10 27 599 60 to to 19 20 F2 50 65 1 61 0 0 2 0 0 .t6 0 29 61 10 4.2 e3 ft og 376 43 to to 20 29 73 54 66 1 60 0 t t 0 1.43 0 29.60 06 4.6 6.0 9 0F 655 FS 0 7 2t wy 22 54 53 69 4 59 0 4 1 9 0 0 0 29.69 29 5.8 7.2 to 25 050 97 2 1 22 ry 23 968 56 71 6 60 0 6 9 0 0 0 29.64 26 1.3

3. 7 F

24 769 90 6 5 23 24 77 65 7 5 60 0 6 1 6 0 .it 0 29 e5 32 9 f.) S 34 507 54 to to 2e d-25 03 59 Ft 5 57 0 6 9 9 0 0 0 29.29 38 0.4 9.6 f5 34 bat 74 S 5 21 Z 26 F4 e5 60 +6 38 9 0 0 0 0 29.53 39 6.6 0.1 t3 36 003 t 00 2 8 26 on 2F 72 et 60 -7 39 5 0 0 0 0 29.66 30 6.8 F.5 17 33 999 93 5 1 27 2t 79 89 64 -3 8F 1 0 0 0 0

29. F 9 32 1.0 5.3 12 33 F5 7 05 3

3 29 g 29 74 SS

• 7 0

56 0 2 0 0 0 29.73 11 2.9 9.2 11 ft 759 95 5 6 29 30 79 60 4? t 57 0 4 0 0 f 0 29.77 to 0.2 8.3 12 00 689 79 6 4 30 31 93 62 73* 9 6' 0 e t 3 0 0 '6 0 2* 66 22 1 e ? 6 15 24 833 60 9 3t D si.,e SA ~ r f at. 2 r at 's t at ' f at r:q rE =c o u. rerat g ea = 2 a v ,o n. ...t m i x._ .m o 22 04 Y '..e e-. 2.}.2 6 '5** '03i .e. "SE E O'.r u.'s x.5 9 -- -aaE: Sa I e 0.

• 5 7 31' t 51 6 91 a71 9

0** F a.s _ a a.i m s_ T'g 'i ) 63 1i ).2 i '2 45 I 52 E09 fece 'a 0 12E t-i-i-': sE l i g g[ 5 7 SEasce 's ta'E }=0s, ICE *Ewif 5 mL=ste cf I:a's 't f at 'S rat , t 3 twrw 0 sai s*Ett te 2e = Cues 443 Ca El maa m e fEw. m' e r sa.a fE*_ 5 2 He 5 'W mCEpi'28*S 5

1. 8E:!* '4 f 124 I E*0s. lf E 8'hl '1,

GalaTE$f CEf fw Ga GaGuee SF SaGw, ICE PFLLf'109 fff auG Sa'r >*e 'i i 12

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2 1 4l $2 13 r ll G 1 3 i I 0 1 2 4 '2 ctEaa e ena't? ctataf 's Ct:uct i

SUMMARY

BY HOURS S EIf8 Elf fos TWE MCafW

• La$f DCCUAGENCE 17 HONE 695Etwafl045 PEG Gaf af 3-seOut tuft #f att.

l aeEeaaES aflut f as t meat faam Okt. Fa$fttf I'lLE B140 $8EE35 a#E FasfEst 00sta ES

1. 140 I YEACE aamunt gaE-etauff fatuEl usE4 OIRECfitel eat le fee 5 l

TEuptagetet =. C ea + a'.s0 se as EaaLIEn Oaff, Os safts. OF OtssEEs. f=E # safu TwE sinECYice imortafts A r ,y {y;z. h!34,* E E: h8 s.avf Fos: - vis:Siuff na sitt se (Ess. Peas Gulf $ PEES. j FISuSES 709 ulme Ol#ECTIOes sat tee 10F DE* a=f Enacet DEfL2fE0 utL6 DE CesaECTES a=0 ,,, =,e ;e

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=g taEE5 CLOCsalSE Feen faut nette. 00 s.Cata Osaasts le Suse'.A.8T Bafa MILL SE annefaTE3 la {f ;{

y$ 3 d E. !8 5

afa i. Cu. 0. 0 it-ti a.E usEn 9 70 ma m su,.a f = = 08 9 29 59 $4 Sej_*^ 4 2 2* 50 Ja 4.- 30 e.2 SEGinestnG saw. 92, 1979, #Cp's Oaf a 15 F#0's f=E FECEsat OF F. OLOG., 04 79 * ' '6 8 3.$ MILES tes GF fut A ta#0#f. O f=ES Data, tusCLU0lmG *Eaf>En 7tPES, y { N,lU N N h. 55[ ,ll y ,# lf g% a.E F.0,9 f E a i..e.f. 3 6 2,, 57 .n. 5 9; 62 3 e..4

3. 3

,6 6 it o., 5, 53,.. n 3 22 2.1 22 5 29 em 6M *61 M it 6M

• tl 3 '

6 N0'IRLY PRECIPITATION IWATER ECU!v4 LENT IN INCHES e a a *** t e m a '

• * +:a f ac m a f r

2 1 2 3 4 5 6 7 R 7 il 11 12 t 2 3 4 5 6 7 3 1 11 11 12 2 e ,62 T T I T t 2 .07 .03 .P2 7 2 3 3 e a 9 7 5 6 .02 7 04 .02 6 7 7 0 0 9 9 to 10 ft .04 .03 f .0s .03 .09 .01 i 11 f2 .03 .03 ) 70 .29 7 .40 .02 f f .02 12 13 .31 .02 f i ? .01 ? 13 is .02 to 19 t5 16 16 17 f f f 01 tr is f .01 ,00 .0F .04 .04 .03 .02 7 f t f te tt ? .03 .01 89 20 i f .08 i 7 .02 .0J .02 .03 .06 20 2t .03 .09 12 .20 .22 .30 .26 .th . 0a .0, f ai 22 22 23 23 2a .00 .0% f .07 .01 .01 i f f as 25 25 26 26 27 21 JS e 29 29 29 M f f f f 33, Se f f f f +} Op 9, 3 $US$Callpflog segCEt 33.30 pet tea 414Ctu0146 assuat ti,sasaaf. F09El.4 Pa!LleG 55.95 EIfRA. $!bGLE C0pf! 25 CEgi$ F04 MCufat? ISSut. 30 CEnf$ F04 assuat lumpsef. Tut #E 15 a at41 Mum CuaaGE OF 13.30 F0s taCu caCE2 0F 54LF-$f0CKE0 Illuf t OF Ptetitaflott, ansE CMCt1 #af a0(E TO DEpaATMLnt OF C0r*EaCC, #0aa. $E40 Paf'Enf5, claCEst, a=0 in0Ul41El TO esfl0aat CLIPa!!C CE4fEa, FEstaat SU!L0inG, si4flLLE, #0afie Cap 0 Lima 28801 I CEaf tFF fpat inI1 l'l an CFFIClat PVOLICaflCe OF 74 Naf ttmat CCEagIC a*0 ainosadarc a;ntelligaf ten, a=015 C3re'! LEO Fa0g aECCACS Ce FILE Af 74 nafichal CLimatgC CEnfER, a54u!LLE, 40afw Caa0 Lima 2380s. n08a maficnal CCEa91C A40 / E4t!RCMPEinf.'. DATA Aft 0 er o e,, ATPOSP*ERIC ANtist$fAATION / lhFCEPAf!CN SEAf!CE DIRECf 04, haf!0 mat CLIMATIC CE4fER USCCMM--NO A A.. A$ hey tLLE ees soa se 500 -

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CO..m,fL, m. Local Climatol3gical Data j% CAftfAL (!?? 4[Rpget e e MONTHLY

SUMMARY

c Latitues 40

• 13 'u LassituGE 76
• S t 'm Ettvaties sessumes 33s Fr.

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7. 3 8.1 83 33 fas-63 1

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is slu% S '6 4F M a 2 f9% 6 '9 ed le.t Ff 69 u .is e 1 9 'ee e 'F tb F3 F2 e7 6e e 1 t3 tim >9 .4 ee 6e s s im 6 es e 69% '9 it. o re u 93 0s e is ee e is u re r9 r* w e s4 3lsg v'1 e3 69 s 3 rise e ea e og F* 63 ee lii 9 e se s es 71 to u J. et P6 49 99 96332 4 34% se 79 69 63 9e(se 9 to t $6 e t?' 90 Ft u 69123 6 l= 22 ejust la 67 6e l Fe les e 3 L% to - 79 64 to 6919e e e u% 6 76 67 6J eJ i23 e est 21 9 26 ese 2f si aim e to u u 9e '2 n, a nn i sim u 43 u no' e aw ,r 6e u u 4 126 . 4 e 34 3 m r u u .u 4 s tm u u s9 e e 3 m u u .u e2 ee o. e,e u, a, 7 3 m s a es 7 er e a rm e 69 66 49 er t.,o ,e a m e

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6 2% 2 m 6 n r o u 3 9 2im 6 re n re 1 3 4 u. et ,nrs. u l2, r3 n 9 93 ,3 t, us n n u n 2 e um e u n u o 4, 9 6..e e se 6 u ie m s. Fe o u 2 ie u.u e u >G u 49 6 nm 6 92 rF 29 4 .9 9 m ? es o u u ir e qm o si u u u o s a im e6 ri u 46 a JJ e wak y Pt 63 fe to te e a yum Fl FG 64 41 F3 25 3 s lw% F 71 67 63 to at 5 e.n.e 2e 44, 29 es, 3e o em 6 n u u river s ,o n 2 ie ni r, n 9ein 3 6 vu e te u u,u.,,n e o e m ,6 .eFu u u o e .e ice a s n r2 n iatu e 6.u e o, u u a, 3 er ,e u a .3 9 6 se 2

n n

n n .i s ,a.e }o. u o e m is 6 be u .e ,e 29 .e e 9 rs n.6is.m.=u 6,. u 9. o 9 .a u 2 e <= to F, et 6 6 n is 14 69 64 2 33 2 a n r, .e re u es .e tu s e2 er rs r9 2 e se a n o u u 3 .s 2 e u es u .i .s s e.e..e r e u n n u 2 9 e n ,is .n.

u. n u

u 2 M n a F. n n se 9 e 19 o ri n a e 1 m o ,6 9 n ,2 32 te le F F3 rs 7, 97 ca 3 'l 40 F Pe 69 69 97 is S 2 usuL 'S 79 u 16 ta l30 7 ,7e,,o ,t.e...n nom.tsevne en ee e6 r m U.S. CEPARTPENT OF COF? TACE aa (2pt cueermff t=sts?te ' Sft aae rm me e NAT!0NAL Ct!."AT!C CENTEa s.s.'erteerun 3r oween y rt:taAt eu!Lalu CO.+ 210 W A si,t # !ttr e, n.C. 2uct c FIRST CLASS 9 e -

t o =" Local Climatological Data (""3 .e.,,Lt.... CA8tfAL CITT AIA80Af e e MONTHLY

SUMMARY

g j %et$ Os f un= 40 ' t 3 >= u ius 76 e t 'm attante..Bu t

n. rf.

svana.0 fi,. ms ( a t ?E.. a., e1 79 t 6 Otsats savs inarwa fiers

ass, ave.

C 8','gi,7 YtMPtnatuAt

• F pig,,,

to earts se un pestipitation svaries utuo sumsnist r-

=

,as ro, ",.,. =.. . 'l" i S li_

l. 12 a

.!'J _ e, s,i q VE I' -e 5 . = g !..3,,= ' 07' El "fS, ! !" !4. =: 5 E 25 5-3 I 5

==t nisa w awe is 3 a a- -+ = = E .g 3 g2 ,,o is. e.0.L. W II I* 5" 7. E ER 3$ EE g O 3 3 E ' M*,*,8,, 5_ 25 Es wa = I 2 3 4 9 4 7a 79 0 9 t0 ft 12 13 to 19 10 17 19 19 20 29 22 St Se 70 -5 62 0 0 0 0 29.64 J9 0.0 F.2 13 to e92 95 4 3 1 2 99 63 76 8 64 0 ft 0 0 0 0 29.6F 23 3.4 4.0 12 26 FeS Of 6 6 2 3 80 70 75 0 72 0 to e e 0 ? 0 29.63 09 7 3.0 F ot 967 63 9 9 3 4 96 67 77 68 0 12 0 0 0 0 0 29.66 29 4.2 S.2 0 33 F22 41 4 4 e 1 90 62 76 0 F0 0 tt 9 9 0 f 0 J9.49 29

3. 5 6.0 19 38 690 F4 9

9 S 6 40 60 70 -6 SP 0 9 0 0 0 29.97 32 10.0 11.0 IF 33 726 et t 2 6 7 03 528 68e -9 St 0 3 0 0 0 29.7e 20 S.4 6.0 14 80 797 49 2 2 P lC 4 FS 63 69 +7 69 0 e 1 3 0 0 .22 0 29.96 27 9.0 6.6 12 at 492 SS to 0 0 zu =9 06 64 75 at 67 0 90 0 0 0 0 29.60 27 a.4 S.3 9 26 801 90 6 9 9 7e to 09 67 79 2 69 0 13 0 0 0 0 0 29 50 31 4.0 60 10 33 703 30 9 4 59 11 99 66 F9 3 67 0 I4 0 0 0 0 29.44 26 S.S 6.9 to 29 747 to S 3 18 12 00 64 76 0 68 0 ft 0 0 0 29.47 29 S.1 7.1 19 31 749 34 6 9 12 93 SF SS F1 +9 90 0 6 0 0 0 29.60 31

3. t e.S 92 32 702 49 0

1 13 60 to 90 90 74 -2 60 0 9 0 0 0 29.71 21 2.1 4.s 12 2S 690 Fe i 1 to Cl3 IS 93 69 79 3 79 0 1e 9 0 0 0 29.64 23 6.9 7.1 12 25 F33 03 4 3 19 g 16 96 75 to S FS 0 19 1 3 5 8 0 .32 0 29.11 23 2.0 e.3 13 29 62* 71 6 7 16 17 99 69 to 3 F1 0 15 1 3 0 0 .00 0 29.47 29 3.4 4.0 16 30 9 90 67 4 e IF 19 09 60 79 2 69 0 to 0 0 0 29.66 30 3.3 4.6 0 34 '790 90 2 3 10 0 19 93 67 80 3 F2 0 ll 9 0 0 0 29.75 26 3.2 3.6 0 21 000 98 9 e 99 20 900* 70 95 4 FS 0 20 1 9 0 0 0 29.72 22 4.5 4.6 12 24 803 92 3 2 20 21 99 FI GSs 9 ?S 0 20 1 3 0 0 40 0 29.69 29 4.6 6.2 20 27 Set 67 S S 29 g.,3 3 22 90 69 40 3 73 0 15 3 0 0 19 0 29 61 29 5.7 7.2 2e 23 192 68 7 7 22 y - 23 82 60 FS

• 1 ft 0

10 1 0 .29 0 29 56 26 4.6 6.0 9 33 736 04 9 0 23 2e el 62 74 -2 to 0 9 0 0 0 29.65 34 4.9 9.9 12 31 004 92 2 1 24 Z"- 25 87 SS 73

• 3 69 0

0 0 0 0 29.70 26 4.7 9.9 25 0F ett 93 1 9 2S 24 09 66 79 2 70 0 13 0 0 0 0 0 29.6% 2e

1. 2 e.3 7

34 790 98 2 2 26 on 27 et 69 79 3 70 0 to 0 0 0 0 29.66 to 6.0 7.3 12 15 767 et 4 4 27 r.c 20 e3 69 76 0 70 0 se t 9 0 f 0 29.64 ta e.S 8.9 to 12 903 67 to 9 2e 29 0F F1 79 3 73 0 to 9 9 0 13 0 29.90 29 3.9 9.2 to 31 666 77 7 7 29 30 e6 66 76 0 6e 0 to

• 3 0

0 .04 0 29.50 29 4.7 S.9 12 29 739 06 9 3 30 19 97 61 to -2 69 0 9 9 0 0 0 29 66 04 2e 4 0 '2 04 728 98 8 e 71 D sas sw 4 tat 'g r et te rat 's t et t,. e rug nee f wi ' O ' at a sust Z 9, rce E 27's s.c, a m .sete er ears 59 2 29 6 av 2.7 s e r 25i 07 22.1 i .,a nes _ i.e xp.2167 3 ii 07 7 se e '6.) '] eetstaitarios xp _ oa rt s a ...a sp. x* a ime's nee. ave. 3 I.99 !T4 9 -2.'S - - - - - ~l 2 7 )=5 41 e S e 3

t es.

e 'e ca t

}=en. (Ct staf fs r anota or aar r e nt r e st , t _ a f uen 0 sate rtsf in 2e mes se ca ts estartst capru en ameus er seem, r ea s i est 't9 -

• i e t 'ade 'I9.

] 553 Saue0tes t ass 4 pe(: Pt'a r:ce I imes. ict PELLi?s Iff attti's ee Itf nas Eaft i se 'I iM' iD'I ie" xp. MP _ 6,? s Se 0 401 29 22 1 0I 3 i 'O i 0 w I O 3 -77 RIsa 9

1. et'L f C: MT l7 ftMT 5]

$UMMARY 87 HOURS e geform ret vg geru. utf a==aract er seer 00srevar:0ms een est at 3-atue Istavats. j .,g..Ogg nasa tast nGas ruse Oms, rasitst atLE sie sperns nas resrtst 00samers on e f FEaCf argue? Ouf-mieft vuutt esta 0i#ECT10ms aaE te Tits l. ft9 tea fuNr ,, e g =. g e atst om as paura Bart. 80 Barts. Or Orsates. tu a stru tw Diastt:Os inticarts y w 5 er. g3s : asavv ress. visitatify tse mitt as Ltss. Fras Gust setta.

== = I riaisus pas sie Starcfreet ass fras er OE- .-.s -2 cuamet.s is suus.iaa,e sin St coemtcfts amsu., sata seu Og asserart0 te amt tasess cEfrett Wr ;I g. 4 .s y2 3

• I _=
• E $.

ta raus sasts cLacasiss an,0 2-usern, et a.ta, e. r= na Data. cas.. a Sans S a Os 3 29.6s 75 64 to 84 4.J 26 3.1 StstmalNG Jam, 12. 1979, PCP= Data t$ reen fut FEDreat Orr. GLOG., ca 3 29 61. 69 67 65 90 ea 26 _tj $] N $'N 'N d 3.9 niLES sem or fut sineonf. Ofute Data. ImCLuol=0 statute rvPLS. sat anon fut ainecer. 13 1 29.62 OS 75 70 63 e.t 29 4.3 '6

• 31 ".A 15 21 M

y. Z.s.30 l.A f 91 2 4.Ss si Fi 66 62 6.. 25 2.9 22 4 29 6' '? 6* 66 96 26 2* NCUALY PRECIDITATICN IWATER EQUIVALENT IN INCHES 1 y a.9 is0sA test!st af 8_ m iseus teclet er y 2 e 2 ] 4 5 s J E 1 '] !I 2 1 2 3 4 5 6 H E I] 11 12 1 1 I 2 2 3 7 7 7 3 e a S f 9 6 6 7 7 0 .01 .03 16 .01 .08 9 9 9 50 to In 12 to '2 53 13 te to IS IS is .31 .et i 16 17 .01 .07 1 7 17 10 19 99 39 20 20 21 .39 .61 21 22 .01 .00 f f f .03 .02 .09 22 23 .St f .02 58 f J3 2e 24 2* 21 26 26 27 27 20 F F 2s 29 f f .0t .07 7 7 .09 29 30 f .04 30 31 l' tutSCRIPf tom peltis 93.30 pte TEAA InCLU0tse asesuat Supouaf. roettsu natLlut St.95 (ITSA. SI4GLE CO*f3 25 Cinft F08 enfitt Itsut, 30 CtafS r00 ammuat Sissuaf, flee 9E il a ntalPajst Cmaast Or 33.00 rom f acu Os0E0 0F SieELF-STOCrtO IStut$ OF PuSLICatt0mS. na5E CMCIS PaTa8LE TO Otraatetaf 0F C3*statt, assa. SEn0 PafPtafl. Ga0tal, an0 ta0glatts 70 salI0ma6 CLIrlaflC Cin*ta, rtCtaat SulLDint. 45Mflut, mottu CastP.lsa 2890s. I Ctaffrf fpat full t$ a5 OrrtClat PUOLTCaf f 0e Or fut maf!OmaL OClamit masp 8'7msputetC aantuttfaatton, am015 CowlL18 FOOst arc 0p05 On r!LE at f4 nar:0naL CLinaf f t Ctarte, a54stui, nGafu taa0 Lima 29001 J nOaa maff0nAL Octatic anc tuvl#0NTNf aL Daf a 4N0 afM05Pt*ERIC ACMilellflaf!OM lhFORMailC4 5tAtlCt 01stCf 00, mail 0 mat CLIMatlC CCNTER USCOFTI-*N0aa-* ASM V ILLt e me* ** 110 4 SSn3 IStfld / Q ' ;ase 012-WO3 te m, n

• m,v m 33

u3es, ti m ine Ines se phaeme 's e E31h33 311vwn3 7veiO!1ns w

mies sua nov sensu enew 12ietesess wns we 33 m 3 33 ih3,41t!vd33 *S*ft a se n en o.anine. e u re o u s = .s n e

ce e

n o u n es w e u neau 1 evia ennus es es es o u u 9 e e u e o o u u ce 9 n 4 c. c .er es e4 o n w ei e on n. n n c w e so. e e eein. s o.o a we e es e solce, n .s* In 4 ima e ao oc no e eri u. n e4 e w e a eriu n u 64 wa e e ei .4 o a u n.n. u. re =

• ei n,

.u.

u..

n u is a w e e nio u u ce a w e a o n e. 5 = .ch as n ce e e. + n at n e u u w a n o o u o a n.

e. 9 e

a ri u a u es s a c. .c u e u es e a e

e. u. u u

u es e n n en e ut n o n u u 4 4 en. u u u a ..n.. u. .a

u. 4 e.

c c es u u u se e. s erus n, ,e n. o u w e ee. n n n ,e e s u es. u o e e e 4e eroe 4 n u w e u u. u u e4 + 6 si 6 u a e4 e u 4 = c n .e.1 s. e = ri n n u c4 w e ua u u n 4 n e 4

e. es n

se u 4 me se er 4 e se ese er are 9 ei n u a ei m e e enio o o u e w e s set u r, e4 'u w e er u, i e. ,e. .e s

e. r o

u is u. 6 e n., rel:u= n u n r wa e s er n e4 is u w e u erl c4 a n e w i 6 n n u u w a u 6 es a u se ss s e. e si r* u u a n e e %9, u u u e w e s riu o u u ei w e se erio e e. c c. o. se a u n wn : e u n ce s w e o u os e w a s. 6 c u n a 64 e s seios u u u s sci o. o a w e a wels .n o* e ne se o u u e w c sei n. ii n e, n we e e se i n. s n n w e ne.e o seo n u u e wi e e een in o u. 9 wa s

• eue n

n n n wa at ave 98 ave se see 'n n lo ig n u w+o e ooi e. e er u n u ei w s ert ee. u ta u n o. .n..er. e. wie s se o s u o = u. u.. 4 u 6. ne

• c repe u u

u 4 sc e is se e* o u 6

u. a.

c s it u u u 4 e ero* u u n a n w 4 u n n u re s ws e se ce n u e. 4 c e ei er.n u u u as w e u e u u n u u ,n s.ne un e s se a n n u 4 es ei s u u u ce 4 eer e n s a n e o u w r

s..

tei en u u u a ei s. e us n n u 4 w e a e es u o o o wi e c ri s u u u e a es n s grin a u u 4 n n s 6eic. o no 4 we e een u u u n s es u o. erin u su u a n<n .e er no, ce as er ne s sti a u s4 9 en e. e ret e, en sa 4 w e = w!o u. n. u u o n 9 w e er erla o c n e n e. sein u os c 4 w e o e er n u a. w e u 6.u u e u u n e n e e ir ce u u 4 e e o ee! +6 u u e wa e u. e c es u re i n er n u ee e 4 w e a u ee e w r ,e erla

e..

c eri u. e es n s v e er ce es ce n e we e e n u. ,s n u e w e. e e u u e. 9 w e e u u u n. 4 e e.. u n.e .e sei e u u n n a e e u u u 4 w e e eet i u u u w e e nia o o n wn i n.e s 4 as u u u a w: e esi u u u u wa s sein on u u we at ne se ne si no Je).w:3 e4 si.ee3d m m 41

• • I "e "a "u e' s s n c"4 e'"*.

'e' ' '.. ' 'u'I I' D '86 E8 U 'd T0* s u se w e e t u e e 4 e

n. u u

u a es i se 41dI41rn s.i e. estone si c3snons si cuss a,s ,u, 6, e,6 o ct og so w e o. n 6 es u e 4 H e, e,s n.i c e. u E4 4 es se e te e e, se w s er u es oc 6 er ee 6. e n e is s ec : c4 a re .swa s14r3 o e.os e. u. 6 we o u u u 4 wa n er u re n w e e. -so=1 em1:3neunsie na .se s u u a u 4 =e e icia o u esla. e. 6 or 6 e se u a u t wa e se o=e.4 e.. e2 ce so suos 4s3= ses ,e o lo e n na a es. e se u u u u e we s e se n u u se n se..e sei n n u o n n 4 e u u n 9 we e er ce n u se a 4.. is er >=4nes ess si '4sv3 ens o no no % ne 50 'T1 InseUe 3151 uses SH5:33 40 san 34 el C34 e t el s9 g4 u se a w a s er es r9 se u a inale e 928 4 es r9 o s. wn e er

• ID4!,'s*3,1s Otto Dia N31.3

= e er e9 ta u u e. w^ s 4 46 et es n se sa s e 9r se 95 to st we i .e 3e 33eu 3se saounsts 'E 4 6 w e e er se u e4 s. e et oc o se se w e u s u s'e u. e. a,s s ir e4 u es a w 6 es set te to es se 5 a e rr se e e* re so w e re 4 er ce 64 44 se s ws a bei E s r9 to se se we e sc 9s u st 94 64 14 e e4 ggg e se to 69 u s4 s wi e o ecl e s to se o o imo t e er es 49 rg s. inn 0 se e ao de r9 e4 49

e. i.] e e

e oc 4e 46 66 n s. innj e e en e4 es as s9 e6 wm e se g g 4 s! e9 ri e9 H es Ms e en se es e9 r9 u we e se 89 u e9 99 e, e9 4 4e e s see et no te see y,, I ms s avers esta'cle si.g e, n e, g, eer, e ,ri n og es e4 4 imat e s griu n e9 u s w e e.N ee .te. se a wit 9 et l 46 n 24 to es e, u a wi r 9 sti c s n c s.e we e ,s eews e*lasif se n erin es o se se eeri e. e re es es u e wls 4 sei ss es u se inn e 9. Owes e=la-1e es e ref re ee 9e 6 wai s 9 et o 49 e4 e. wa s e er ce as u se 4 w s to r;no enla:10 00 e 9ti re se e4 u te wi t s se 49 e4 n re s wls e er u. u.4 e4 c4 4 w 6 se ses came=* 4: e eri re og e4 u e. we e ese rs e4 u e4 = eert 9 s et so 4 e4 e sien e se ou 333 s 4 eriu eg se as 4 ime a i sr6 4 s n se n e inas o e orv ees to 6* t een e. ee 69 ' o .as se g 4 4et u o es u a e 9 erne e o e4 6 wie t tes te e9 u s s wc se 3i,,s, en see sa no es ne safme D1 di e eel u se et s4 4 ee e. 5 et as e9 n o a oli 4 s erlee en en n se er.se er senes pees 95 e er es e* e4 ee e es 6 er de o es u es se. on e ori ee as e, w si w 6 u 6 seMes pois #5 s or u e4 es en era e e se d e4 u n ei se en 9 er te o re u w r u oc 4.e r,, $1nsae3 331 af a se a og c4 se a w e s u u u 9 es en 4 er et et r es u w e se sAI113e.aws is s uu e4 ta wi e s or to e9 69 e4 4 es s. e selts u n c4 si inn o e. .e4 Nous s s se a se 4 I wie e ge.s te to n se san e or es sr u es iss ce si wa e se 1 7 2150 estines T e eri a o a wi r s eIn n to e4 ee n ei si er to se !ss as se w e es 4 gnne: 1 4 seus e9 og 69 4 wa s e i eelas as es i st e we e ee n se 'es a es wa s se l site s=!Inss 57 se ses se see de eso sem i'ia ae u w e e. nin n u

e. i,., e e

seiu n s, es 's w e ce e,une

u.,

u. N":s

• e e u,u o

w s w a si ua o u n 6 ws e seas n u is e w a u 8

e. u 6:

es e es er w o e is 04 u re n e wa s at

• n c4 se a

w e w asatisel ='w'4 A er ee es n e. so we a te es u u

• e e

se 9 et 45 49 (4 ee 9 m e t.. s.i 03e=so; e e ,e r* ss o n 6 i.al e e u 6e u u e n ei e n e. u n se 9 inn r o. u. =., k e Me 8 e)i ses es os os er e9 e* "9 e.i wi r e eclee n s' 4 w e e u 46 64 es u o e ce s. e er 46 u u u t i=a e se t% V 3' ers u et e n

e. eti s9 e, e4 a

e. wa s e sel s e e, og n i a i=a e s or as e4 u u e er es ee e t se e to so are se aos es ese u to u .s* e et e, e ect se t4 n u 4 en es s es n no n n m e a.rt ees

e. ' e6.

.er. e ,i e .e. s.ce r e e se e ei ne ss 94 ee a es ei

r. es r,

es e4 e 4 i e c4 e4 44 e mm* m** i=9 e sei os u u 4 r er u u se a ,t e ei s u es n se se s. es e es. Oh W 33 6 er o. e trict u 9 u s u e4 u ee 4 4 u u e4 n se ei n 4 si esi s.e .si u. e n ei e ero n u n u s w t e et en o 4* n w e e. se e u u n e $3104 t 64 si e se es n e* u er s e4 e4 o w e e gre e4 et r* 4 es w ,e ,s .s. ue e4 u t4 at 9 e4 4

t. se n

r* q w e S are es 66 as n s inn e es e esi s. es u u .W e4 e. e soi n es n e4 es wn e g sr6 e u 66 69 6.i wn e is to sec et are se 4:e s; d !!;! 31 i EIO!4:E !! d !!! 31 i.me.Pd!4E E5 E#E Eld!n jg !l ;! 21 i I5 e. -.:ik.. s; - ?? g : pg % -i 5 pa :

e. i

-! 5 m! s: n .m e. o..s i.e -.s g-i ,n,. e n..i.e -e..... . woeie n i

e... e, in es m.

.1 ,,. oe s n em .s. SW Adhid 600M-E ( SN0l m b3SE0

Local Climatological Data r"% 8*" MAAAl$.VAG, P(h4STLVa41A d' r CaptfaL C;TT 4tAPOAT e MONTHLY

SUMMARY

= 5 h arts of Lartfuss 40 '13 'e Lame:funt 76 ' Si 'u Livaties santises sie Ft. efastaat fte vices t a s fre= 0a= sia Fst 2 C neemu tavs .safusa fins om. i %C,8,',8' ft'IPtaatuet 'F es safts or sca percialfattoa staries u!NO suesmius o og,,, ~ N'- mtt o 8CCW"E C8 '**8

l. j Z,,,,",.,,,,,

"="'*' res rts: C I. 8" ,1' e mm p 8"** '88 2 ; *. 5 = a 3 -s -a e ice a srs l l 3 3-EE E3 9"** 0 7'a'n "8'51 a :" 3i a 3 :: W-33 3 - tsat saasri =

s s

3 I j ':',*1,,,,,, a gg gg w 8 3 g_g e -I =. 3 Es wa QJ = -s is a is = 'ir? =. g E& 3 a M. ,8,,,,.,,, 3 2 m ie. e.g.L.

• W

= = =

== = g O t 2 7. 7 I, ,3 t. i. t, 20 2, i 9e sa ti S Fi 0 16 i 0 0 0 0 29.93 29 S.2

9. 9 10 29 70 3 e2 6

5 1 2 90 69 90 4 73 0 ?$ 1 3 0 0 f 0 29.44 26 S.S 7.9 16 25 730 SS 7 6 2 3 90 70 80 4 72 0 19 9 0 0 0 29.43 26 4.9 6.5 15 26 679 to 8 7 3 and 4 90 69 to 4 75 0 15 9 3 0 0 0 0 29 59 31 .3 5.0 10 tt F41 87 7 9 8 5 99 70 93 9 75 0 to 1 3 0 0 0 0 29 64 21 2.4 5.9 13 12 764 90 5 4 5 6 09 69 79 e 72 0 to 8 0 0 0 29.77 29 6.0 7.2 10 33 762 90 0 5 6 7 92 68 DO 5 70 0 19 t 6 0 0 0 29.77 21 2.0 6.9 13 19 FS 3 09 5 4 7 0 998 69 e2 7 73 0 17 1 3 0 0 .03 0 29.61 25 6.0 7.3 16 29 6 F4 80 6 6 8 3.g, 9 93 72 03e 0 73 0 19 8 0 0 f 0 29 11 20 7.9 0.3 16 09 733 07 7 6 9 O 90 09 64 FF 2 69 0 12 1 3 0 79 0 29.58 13 4.0 6.2 15 20 6J9 F5 7 7 10 2 ft 90 68 79 4 74 0 to 1 3 0 0 .e4 0 29.97 20 2.5 3.6 12 27 948 65 7 9 ft T2 07 69 70 3 71 0 13 1 0 0 .01 0 49.53 29 6.9 7.1 16 20 792 OS 6 6 12 13 03 63 73 -t 6e 0 0 0 0 0 29.66 29 5.3 7.3 12 2e 832 100 4 2 13 to 47 61 74 0 69 0 9 t e 0 0 0 29.62 25 3.0 4.2 9 22 700 Se 9 6 te (l) 15 60 64 7e 0 71 0 9 9 0 0 10 0 29.53 29

7. t 7.0 95 33 374 49 to 9

IS 16 74 SS 66 -o $7 0 1 0 0 0 29.65 31 0.5 9.9 17 34 782 99 4 e 16 17 70 See 66 -8 10 0 1 0 0 0 29.08 25 2.9 2.9 7 32 782 07 6 6 IF 13 10 64 44 66 -9 63 0 t 1 0 0 .04 0 29.70 86 4.7 S.6 9 16 3 F5 10 10 te O 19 85 65 25 t 73 0 10 1 0 0 f 0 29.66 04

1. 6 3.6 7

2e 601 74 9 0 19 20 Se 63 76 3 70 0 11 1 0 0 0 0 29.60 27 a.9 7.9 ft 32 759 93 6 6 20 21 77 62 70 -3 65 0 S O O O O 29.65 10 9.2 6.6 ti to 672 83 9 e 29 y 22 79 16 66e

• F 64 0

1 0 0 0 29.6a 12 2.7 4.0 et 09 609

1. 9 9

8 22 M 23 09 65 71 2 6F 0 10 0 0 f 0 29.76 30

7. 3 0.1 12 33 650 to 9

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SUMMARY

BY NOURS e tzfum Fem fut entis. tas? Occuentact tr

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1. $ N hj aat F#0se itet aI A*0#f.

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OBSERVATIONS AT 3-HOUR [NTERVALS um..n .u

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