ML18032A685
| ML18032A685 | |
| Person / Time | |
|---|---|
| Site: | Browns Ferry  |
| Issue date: | 12/31/1984 |
| From: | TENNESSEE VALLEY AUTHORITY |
| To: | |
| References | |
| NUDOCS 8712310044 | |
| Download: ML18032A685 (44) | |
Text
REGUL~RY INFORMATION DISTRIBUT SYSTEM (RIDS)
I ACCESSION NBR: 8712310044 DOC. DATE: 84/12/31 NOTARIZED: NO ,"'OCKET ¹ FACIL: 50-259 Browns Ferry Nuclear Powev'tationi Unit fi Tennessee 05000259 50-260 Bv owns Fev'v g Nucleav Powev Stations Unit 2. Tennessee 05000260 50-296 Bv'owns Fevv g Nuclear Powev'tations Unit 3i Tennessee 05000296 AUTH. NAME AUTHOR AFFILIATION Tennessee Valley Authority RECIP. NAME RECIPIENT AFFILIATION
SUBJECT:
"Radiological Impact Assessment For Jul-Dec 1984. "
DISTRIBUTION CODE: IE4SD COPIES RECEIVED: LTR +ENCL TITLE: 50. 3ba(a) (2) Semiannual Effluent Release Repov ts
+ SIZE:
NOTES: G. Zech 3 cg. 1 cg. ea to: Ebneteri Axe lradi S. Richardson 05000259 B. D. Liawi K. Harv i Donohewi OI.
Q. Zech 3 cg. 1 cg. ea to: Ebneteri Axe lv adi S. Richardsoni 050002eo B. D. Liaw> K. Bav ri Donohewi OI.
Q. Zech 3 cg. 1 cg. ea to: Ebneter> *xelv adi S. Richardson'.
05000296 D. Liaw> K. Harv Donohewi OI.
RECIPIENT COPIES RECIPIENT COPIES ID CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL JAMERSONz C 0 PD GEARS' f STANGe J INTERNAL: ACRS AEOD/DOA AEOD/DSP/TPAB ARM TECH ADV NRR/DEST/PSB NRR EP/RPB NRR/PMAS/ ILRB G FILE 01 RGN2 FILE 02 RGN2/DRSS/EPRPB EXTERNAL: BNL. TICHLERI J03 LPDR NRC PDR NOTES: 10 TOTAL NUMBER OF COPIES REQUIRED: LTTR P4 ENCL 33
1 RADIOIOGICAL IMPACT ASSESSMENT BROWNS FERRY NUCIEAR PLANT JULY - DECEMBER 1984
~l 8712310044 841231 PDR ADOCK 05000259 R PDR,i
II 0
Radiological Impact Assessment Browns Ferry Nuclear Plant July - December 1984 Introduction Potential doses to individuals and populations have been calculated for the time period July through December in compliance with the require-ments of Radiological Effluent. Technical Specification 6.7.3.A. Dose calculations are based on Regulatory Guides 1.109, l.ill, 1.113, and NUREG/
CR-1004 to determine compliance with the dose objectives contained in 10 CFR 50 Appendix I and 40 CFR 190. Measured plant releases (listed in tables 1-3 for radioactivity in both gaseous and liquid effluents) for the reporting period are used as input in the Gaseous Effluent Licensing Code (for gaseous releases) and the QuarterlyWater Assessment Code (for liquid releases) to estimate dose. Dispersion of radioactive effluents in the environment has been calculated using meteorological data and riverflow data measured during this period.
Meteorolo ical Data Meteorological data were measured, and average quarterly joint frequency distributions (JFDs) for ground-level, split-level, and stack releases were calculated. The ground-level JFD was derived from windspeeds and directions measured 10 meters above ground-level and from the vertical temperature gradient between 10 and 45 meters. The ground-level portion of the split-level JFD was based on wind speeds and directions measured with a sensor located 10 meters above ground level and from the vertical temperature gradient between 10 and 45 meters. The elevated portion of the split-level JFD was based on wind speeds and direction measurements at the 46-meter level and the vertical temperature gradient between 45 and 90 meters. The JFDs for elevated releases were based on wind directions and wind speeds measured at 93 meters. Stability class D was assumed to persist at, the effluent release level of 180 meters for the entire period. For the period January 1, 1978 - December 31, 1980, stable conditions (E, F, or G stability) existed in the layer from 45 to 90 meters at Browns Ferry Nuclear Plant (BFN) about 43 percent of the time. Neutral conditions existed about 56 percent of the time. This suggests that the use of a D stability for stack releases is conservative or realistic about 99 percent of the time. Also, temperature data taken between 110 and 275 meters at the Colbert Steam Plant during the spring and summer of 1976 indicated that for that layer stable conditions existed 53 percent of the time and neutral conditions existed 45 percent of the time. Thus, the 98 percent occurrence of stable or neutral conditions in the elevated layer at Colbert is comparable to the BFN upper layer percent. Although these data are limited to spring and summer, the small percentage of unstable conditions in the 3-year data set suggests that the results are reasonable year round. For an elevated release, assumption of class D instead of E yields conservative results.
The wind speeds were divided into nine wind speed ranges. Calm's (0-0.5 mph) were not distributed by direction. The quarterly JFDs are listed in tables 4 and 5 for ground-level releases, tables 6 and 7 for split-level releases, and in tables 8 and 9 for elevated releases.
Gaseous Effluents I Ground-level and elevated dispersion models were applied to turbine building and stack releases respectively. Releases from the reactor building apd radwaste building were treated as split-level releases, i.e., partly elevated and partly ground-level. The split-level dispersion approach was implemented using a model that required for each effluent vent two complete average-annual JFDs, one for the elevated releases and one for the ground=
level releases. Radionuclides in gaseous effluents were assumed to be released continuously. The generally open terrain around BFN is not believed to cause pny significant effects on the transport and dispersion of gaseous effluents from the plant. within 30 kilometers of BFN, the terrain is mostly gently rolling hills (30-60 meters). Between 30 and 80 kilometers the hi;lls become larger to the north and south, and mountainous to the east and northeast.
Terrain may have a small effect on transport and dispersion during periods of southeasterly and southerly winds, overcast, skies, and relatively high, wind speeds. Then, the lower layer (10-45 meters) tends to be more stable than would be expected. However, during this infrequent condition, dose estimates will be conservative.
Dose estimates for external air exposures were made at and beyond the site boundary. External doses to the skin and total body were estimated for the nearest residence in each sector. Internal doses to organs were estimated from the ingestion, inhalation,. and ground contamination exposure internal doses were calculated for farms where milk is consumed without
'pathways'f)ie commercial preparation. All receptor locations and points of interest are listed in table 3a. Doses are given in tables 10 and exposure pathways at the maximum exposure locations.
ll for these individual Population doses were calculated for an estimated 627,000 persons living within a 50-mile radius of the plant site. Population doses were calculated assuming that each individual consumes vegetables and meat produced within the sector annulus in which he resides. Doses from milk ingestion were calcu-lated from data on milk production within 50 miles of the plant site. Doses
'from external pathways, inhalation', and beef and vegetable ingestion are based on the 50-mile human population distribution. Population dose estimates for the gaseous effluents are presented in table 12.
X,i uid Effluents
\
L Doses from liquid effluents were calculated using measured hydraulic data. The average river flows at. the plant site were 40,970 ft the third quarter and 34,000 fts/s for the fourth quarter. Radioactivity
/s for concentrations in the Tennessee River were calculated assuming that releases in liquid effluents were continuous.
Doses were calculated for recreation, consumption of fish, and drinking water from public water supplies between the plant site and the mouth of the Tennessee River. The maximum individual dose fror~ drinking water was assumed to be that calculated at the nearest downstream public water supply (Champion Paper Company). The maximum potential recreation dose was calculated for a 3.qcati,on immediately downstream from the plant outfall. Dose estimates for tQe liquid effluents are presented in tables 13 and 14.
Direct Radiation External gamma radiation levels were measured by thermoluminescent dosimeters (TIDs) deployed around BFN. The quarterly gamma radiation levels determined from these TIDs during this reporting period averaged approximately 20.7 mR/quarter at onsite stations and approximately 17.'3 mR/quarter at offsite stations, or approximately 3 mR/quarter higher onsite than at offsite stations. This is consistent with levels reported at TVA's nonoperating'uclear power plant construction, sites where the average radiation levels onsite are generally 2-6 mR/quarter higher than the levels offsite. This may be attribu-table to natural variations in environmental radiation levels, earth moving activities onsite, the mass of concrete employed in the construction of the plants, or other undetermined influences. Fluctuations in natural background dose rates and in TLD readings tend to mask any small increments which may be due to plant operations. Thus, there was no identifiable increase in dose rate levels attributable to direct radiation from plant equipment and/or gaseous effluents.
Doses calculated for this semiannual period result from the low-level effluent releases of units l, 2, and 3. For ga'seous effluents released in the, third quarter, the maximum gamma and beta air doses were calculated to be 0.51 and 0.98 mrad, respectively. During the fourth quarter, the gamma and beta air doses were 0.30 and 0.58 mrad, respectively. These quarterly do'ses are well below the annual air dose guidelines (as specified in Appendix I to 10 CFR 50) of 30 and 60 mrad for gamma and beta radiation, respectively, for three reactor units. The maximum doses from noble gases to the skin and total body during the third quarter were calculated to be 0.48 and 0.31 mrem.
During the fourth quarter, the skin and total body were doses 0.17 and 0.10 mrem, respectively. The dose to the maximum exposed organ was 0.08 mrem to the thyroid 'for the third quarte'r and 0.06 mrem to the thyroid for the fourth quarter. These compare with annual dose guidelines of 45 mrem to the skin and maximum exposed organ and 15 mrem to the total body. These doses result from ingestion, inhalation, and ground contamination- pathways and can be compared to a natural background radiation dose to an individual of about 90 mrem/yr.
For liquid effluents released in the third quarter, the maximum individual doses to the total body and the maximum exposed organ (i.e., liver) were calcu-lated to be 0.095 and 0.12 mrem, respectively. In the fourth quarter, the maximum doses to the total body and liver were 0.31 and 0.41 mrem, respectively.
These compare with annual dose guidelines as specified in Appendix I to 10 CFR 50 of 9 and 30 mrem to the total body and maximum exposed organ, respectively, for three units.
Population doses from gaseous effluents during the third quarter were estimated to be 5.34 man-rem to the total body and 5.81 man-rem to the thyroid. For the fourth quarter, population doses were 2.60 man-rem to the total body and 2.73 man-rem to the thyroid.
From liquid releases during the third quarter, the total population along the Tennessee River was estimated to receive 7.5 man-rem to the total body and 13 man-rem to the maximum exposed organ (liver). For the fourth
quarter; the Tennessee River population was estimated to receive 24'man-rem to. the total -body and'0 man-rem to the maximum exposed organ (liver).
Popul'ation doses, can be compared to the natural background dose to the 627,000: persons living within 50 miles of the plant of about 56,430 man-rem/yr.
In summary, all doses calculated were below the guidelines of Appendix I to 10 CFR 50'nd., below the limits specified in the BFN Technical Specifications for plant operation.
A tabulation for the quarterly doses over a 5-year period is given in table 15.
Table 1 BFN Gaseous Effluent Releases Third Quarter 1984 BFNP STACK RELEASES BFN REACTOR BLDG ~ RELiASKS BFNP TuxoIVc BUILDING RELKAS-5 oFNo RADAASTE BUILQI!IG RcLEASKo VUCLIDC RELC'Sc RATE (CURIcS/T AR) NUCLIDE RcLEASi RATc (CVRIcS/TEAR) .vVCLIDK RELEASc RATc (CURI=S/I "AR) NU LIDc RELEA Sc RATE (CUR) 5/TEAR)
TRITIVH 5?i-01 TRITIVH 2 ~ 758iQQ TRIl IVH / F 30=-Jl T.RITIVH 3 34i - '2 1
i AR 41 1 ~
3 '58+02 1
HN 54 8~ llc-Vo 1 2 SR-J9 1.64K-QS 1
c 4'\ SF 5 '9"-'?
~
3 HN Sv 4 F 558-05 3 C0-60 A ??8-05 S oR-90 v ~ /2c-Gl S SR-90 6 '3i-)S 4 CO-6J 1 ~ 60c J5 4 SR-89 1 ~ olc-Qb 4 XE-135 7 ~ 918+02 xK-133 o.51cv)1 KR-65H 3 ~ V9c i94 SR-90 3 ~ 18c u7 5 CS-134 3 '8c 06 xK-135 558+02 o KR-$ 7 7 KR-So 5 'bi+QS lo vOv 5
6 XE"135 5 618+02 5<<4?E-JS b CS-1S?
A-140 7 'SE-QS
'65-JS
'-1S?
T-90 1
2 '9
~
Vb 7 CS-134 7 2 7 0<<CQcvQO o SR-S9 4 '0i-J4 8 CS-137 1 ~ 49K-Q4 I-131 1,60c-04 CS 135 0 'U +JO SR 90 1 ~ o2c-Qb I-1 31 1 ~ 398-J4 9 HI-131 1 F 605-94 1J XE-1>S 1 126+ JS 10 HI-131 1 392-94 1 J I-1SS 1 ~ 15E-QS TOTAi RcLEI Sc <<<<<<w<< 2 ~ SOc+u2 11 XK-135 2 'OcqVS 11 I-133 1 ~ 428-03 11 HI-133 1 ~ 15c-03 12 CS-1Sl 7 ~ 89c-05 1 2 HI-133 1 ~ 42K-V3 1 c T-90 G.OOiivQ 13 SA lvO 1 ~ 74c-03 13 T-90 U<<VJK+JQ 13 CS-135 U<<OOKivD 14 LA-149 1 ~ 34c-US 14 CS-135 u VDE+MO 14 LA-140 0.098+DO 15 I-lot 1 ?SE-VZ 15 XE-1'31H 0 'Jc+90 15 XE 131H O.uui+JD 6 HI-131 958-02 lo XE-133 0<<vQc+OO lo xE-133 OV'+VD 1
1 7 1 8 I-133 HI-1 >3 1 ~
4 F 858-UZ 4 3K-J2 02 1? XE-133H 0<<90iio9 ll xE-133H U
u<<JJivJO 1/ I-135 4 TOTAL RELEASE *+***5 64i+JZ 'TOTAL RELEASc <<<<<<<< ~ ? ~ 92c+02 20 HI-1SS v<<636-02 21 KR-85 D.UOE+JO 22 RB-Bo 0 ~ QOK+JO 23 T-90 0 ~ OO iOO 24 CS-135 0 uDE+ JO 25 XE-131H 0 OQKiQO 2o xE-133H 0<<VOE+JO 27 XE-1SSH 0.005+DO TOTAL RELEASE 11%<<l 1 ~ oZc+VS
Table .2 3FN Gaseous Effluent. Releases FouT.'th Ouarter 198/I RAOKASTE SVILOING RcL=ASIS FNP TVRaIN PU LOING RCLcAocS STACK 2 cLECSc$ Ac>> RcACTOR 3LOG RcLcAS 5 PNP NVCLIOE RELEASE RATE (CURTIS/YEAR)
UCLvQc RcL-Aj= RATE (CVRIcS/Yc q) NVCLIOE RELEASE RAT (CVR.=5/YEAR) NUCLIOc RcLEASc RATc (CURIES/YcAR)
I TRITIUN 4 elec-02 TRIT TUN 2 '95-01 1 TRaiIU". 5 5 ~E-:2 1 TRITIV>>. 5 '62+QC I CZc
~
SR-39 2.41E-Qo 2 CO-60 2 ~ 41E 04 2 CO-$ 0 ~
2 SR-$ 9 .15c-07 3 SR $ 9
).036-05 KR-65< 3 SR-90 3.72E-Q7 3 2.47E-QT Xc-1>>3 '5c+32 4 SR-9Q 7 4 SR-9Q 4 KR-o7 ~ ~ 4 5 I-131 3.22E C
$ KR-36 1.71cc04 5 Xc-135 1 ~ 7 E+QZ 5 XE-135 3 .303+02 .222-04 5 C$ -134 CS-134 ~ 93c Co o NI-131 ~
SR-37 I $ %-90 7 CS-1$ 7 0
7 C$ -137 6 .S3c-06 7 I-l53 1.0CE-C3 XE-133 I 93 +53 3 LA-1CO ZejIE-04 3 54-140 5 3 HI-133 lj I-1 jl
~
9 7 I-131 9 T 90 X I I 0 ~Q3 G.OOE~00 10 CS-137 4.00=-00 10 >>I-131 Z.QZc-"3 1Q Hi-131 1 ~ oGE 35 10 XE-131>>
XE-133 0 ~ GOEtQO 11 SA-1CJ 1 ~ 315- 3 11 2-133 9.30(-03 11 $ -133 ~ 73c JC C,qQE+VO 12 MI-133 9.305-03 Z>>I-133 c 12 XE-133>>
12 LA-14$ 1 13 I-131 13 I-135 1.13 -03 13 -Y-9Q 0 ~ QQEt30 '2E Ql HI-135 ljc-03 14 CS-135 TOTAL RELEASE ++wwc 2 14 HI-1 31 3 ~ CSC 1C 1 G 15 I-1 15 Y-90 G.OQE~OO 15 LC-140 C li >>I-I $3 33
'.I/c-02 15 CS-135 17 Xc-131>>
".00ciQO C" OOE+00 16 XE-131H 1 7 XE-133 C .00E+OQ POc~OC 17 .-135 G~
13 >>I-13 5 16 XE 133>> C.GOE+00 lo XE-133>> C .00ctOO 19 KR-33 2Q R3-30 I ~ OVC+QQ 19 XE-135>>
t ~ tee G.OOE+00 TOTAL R LEASE %%ace 3 '>>
c'I Y-93 'TO'TAL RELc/SE 7 ~ GEy02 22 CS-135 ~ i0'+')G Zj Xc-1 1>>5
-4 xE-1$ 3>> 0.0'+VO xE-'I 35>> QoQOE>QO tOTAl. RELcASE ie ~ ei 5 '9-+QC
Table 3 BFN Liquid Effluent Rel cares Acti vi ty (uCi )
Third Quarter Fourth Quarter Nuclide Activity Nuclide, Activity H-3 7.18E+06 a H-3 1 . 12E+07 NA-24 5. 12E+0'4 NA-24 3.11E+04 CR-51 "6. 03E+03 CR-51 7.79E+02 MN-54 2.44E+03 MN-54 6.07E+03 MN-56 3 '4E+02 MN-56 1.10E+02 CG-58 2.87E+02 CG-58 4.08E+02 CG-60 2.PRE+04 CG-60 7.85E+04 ZN-65 6.04E+04'.48E+03 ZN-65 1.24E+05 SR-89 SR-BV 4.PRE+01 SR-90 1.50E+02 SR-90 6.85E+00 TC-'79M 2.35E+03 ZR-95 1.01E+02 AG-1 10M 4.07E+02 NB-95 7 '8E+02 I-131 3.'RYE+04 MG-99 1.99E+03 I-133 6.47E+04 TC-99M 1.99E+03 I-135 3.45E+04 AG-iiOM 1.56E+03 CS-134 6.27E+04 I-131 1.75E+04 CS-136 5 '4E+02 I-133 7 '4E+04 CS-137 8.36E+04 I-135 5.39E+04 XE-133 1.54E+05 XE-133 2.32E+05 XE-135 1.97E+05 XE-135 3.68E+05 BA-140 5.25E+02 CS-134 2.23E+05 LA-140 5.25E+02 . CS-136 1.32E+03 CE-141 1 ~ 34E+04 CS-137 2.25E+05 BA-140 4.59E+02 TGTAL 7.99E+06 LA-140 4.52F+03 CE-141 4.76E+04 TGTAL 1 . 27E+07 a 7.1E+06 = 7.18 X 10 6
Table 3a BFN RECEPTOR LOCATIONS AND POINTS OF INTEREST 0I ST 'toC = ELCVAYIO't PGIttT SECT>>R (;;) (.<)
1 E<)U!tOA<tl o 2 5 IIE 30U')DARY tit. = 13 Oo 3 SIT= b'GU<eOA<RY ti E 1250. 7 ~
SITE EGUUCAAY Sit 3 1453 ~ o) ~
5 Tc EGUitOARY 1375< r ~
8, S I 7 c SOU<'< a, A R Y c 1575. C ~
7 SITE oOU!<CARY
<'c 5 000 ~ j SITE o0<tttOARY SS E 2775 ~ ~ ~
SITE SOU>><DARY C 2553<
1,0 SITE 50!)'t JAA Y SSA j1'2 SITE SOVt(CARY SR o SIT c: SOUiii<<RY '<
~ C <t 2500< o ~
13 SIT E sOU!TEARY A 2e50: A S>>TE SGUiiOAR'I 352) ~
IS SITE bGUt<CA'1Y t<l 2275 ~ >>A ~
SITE EOU,'tCA<(Y. t<t.>> 1 o 5<). C".
37 Al'- 0032 POI!.T t<A loo
>3 AI>>, 3'05= P)In) UA 5500 ' 1>> ~
AIR CGSc PGItil )o; 2'3 A'R rO - Pt)I'il <<i
~ ~
100'<<0
~ 15.
21 AI<e< i)GSE POINT 5900< 1 5<
22 'A>>R 00 " PGIOT 7100 ~ los 23 REAR: ST AcSIOE"< Je A<>>DC t I~
2575 ~ 13 ~
!i<EAR=ST 'A.5I "55< T 'ti'e 0 2>>45 ~
25 ttEAR Sl ECSIOE'iT ~
<<C75 ~
25 t<EAttEST RC SIDE':T) OA RG "'I Co ~ 1 )OD. 1 c7 ofELREST ESIOE'"I 4153 ~ 1't .
28 'icAAEST AcSICchT e 1 2 ~
2 <t h-A'<tcST RCS>>iT 5 >1CC. 0~
30 tt<cEAR=ST SSE 7155. 0't 57 AESIOE)il RE5102)il'te.'48=
31 5 ~
r<o e
ttcAR ST Rc>ovc'il C e'< <<1 5C o
<~
'e 3 tiE'I I = 5 I RESIDE'tl 5 I< 4155.
34 50 ~
')4 35 :iEA<fcST RASI ~ 5'tl 2CSO ~ ~
3D i ~ cAAA>>T AcSIAc'iT 10.
37 tt:AREST RESIGP'CT) 3500i ~ o r1>> f<EA'REST RESIDE.CTr tat< 1 o>>53"o
'3 t OAR0cit ~ ~
i 15)7<
>>tlL<( CO>>t CttIL3 ~
i ?1.
<< I t<ILI( C <2 A VLT / )>> ~
42 GOl C<1IL>> <toO r ~ lo'i 43 i< A 1'r ot e ~
4 12c7>>o
Table '4 BFN - Meteorological Data Ground-Level JFD In Percent Third Quarter 1984 ST~dILeTZ VLArS A rtlha SP EJS IN HATERS PER 5 CONQ FRCtt THE SECTORS ltlCICATEC SECTVR y 0 ~ 1$ Jes5 1 ~ 1V 1 ~ 99 2 ~ 4u 4 ~ 45 be91 9 ~ 59 10 ~ 95 TOTALS tl J ~ VJv U ~ VUU O.auu U.05V U.V9u 1.479 U. 239 U~ 000 UeaOO 1<<559 hhE V.GQJ V.COV Cevaa 0. G90 0 ~ 320 1 ~ 150 O.370 G~ r300 Oe000 1r 939 NE i,J ~ Juu 0.003 ueV03 J.CS9 0.100 0 ~ 1 <<0 0<<VGa '3.000 Oeooo 0<<413 L 4E 'eaaa J ~ 000 Jevaa O.CS0 0 ~ v9U aeaao oeoCO Q.ooa OeaaV 0<<140 J ~ it vu V.VVV v.Vuu 0 ~ JVU V. Cuo oeava 9<<COJ aeauo C.UGV Oe Oau Se 0<<JGJ 0.000 V.330 G.14 J v,1da 0<<CSQ Q.aoa O.QGO 0.090 3 ~ 370 SA V ~ VGJ O.ovo 'u ~ b'9v 2 ~ So9 1 ~ o59 0<<13C 0.309 Oeuao Oeoao S<<398 SSE Geaau Qeoaa Oedaa 1<<799 C. 239 G.Qia G.oaa Q.Q03 Oeaoa 2<<959 5 v ~ aua V.OVO 0.37J 2 ~ 1o9 V. JSC 0.030 G.aaa O.UUU 0<<000 2.559 SSN J<<393 Q.ova G. QVvve ae4uC 0 ~ 1so 0.009 0.300 0.300 CD 000 Or730 3 ri G.JJV v ~ Qoa ueJPJ aeA2O v,150 0<<000 0.300 Q. 030 Oeoaa Qeb90 lbrt ~3 ~ JVJ 0 ~ OGC G.OOJ 0 '20 3<<373 0<<053 0.000 0.000 0'.099 0 ~ 000 0 '40 A ~u.uva V<<VLO aeJGJ 0 ~ i350 0.05V Grooo 0<<VGQ Uea30 0.100 ltN tt "t'Ve Uau Oeoaa 0 ~ OOJ 0<<1SV 0 ~ 140 Oe1tro Oeoao 9<<000 Oeaao 0 ~ Soo Hie IV.VOV 0 ~ QGV v.oOV Oe 090 G.J99 G<<090 0<<050 0.000 0 ~ 000 0<<320
'4 tt tt VeJGJ 0.030 V ~ VQJ aeJ30 aeG50 a.25U 0.000 Oeoao Oeoao 0 ~ 2da TOTALS J.VVV veuGV 2.11it be< 77 Seu59 3~ b49 aeo50 V<<QQG' ~ Voa 19<<153 STASILIT'Z CLASS KINJ SPE 235 IN H TERS PAR SECONO FRCtl THE SECTORS INQIC ATE Q SECTVR 0 ~ 13 VeN5 1 ~ 1V 1 ~ 99 2ead 4<<43 b ~ 91 9<<59 10<<95 TOTALS tl loeaVU 3 ~ Gvv 0 ~ 3UV 0 ~ G90 u. 1 O'G 0 ~ 230 O.OS3 Oroaa o. ooa 0.510 it NE lJ ~ JUU 0 ~ 3VU J ~ VOC 0 ~ ozo CD 42G 0.2JO V<<950 0<<COC 0 ~ 000 0 ~ d40 NE <3 ~ JOJ G<<JuJ aeu5J Oe 29 V.180 0<<QSG Geaou 0<<000 oeooo 0 ~ 500
=tlE u ~ UJJ 0 ~ VJO u ~ VJV 0 '5J U. JSV 0<<QUO 0.000 Oeooa Orooo 0 ~ 330 4: u ~ uav G.Vuo v ~ Jaa 0<<090 0. 050 0 ~ CGQ 0<<OOO 0 ~ 000 0 ~ 000 0 ~ 140 ESE J.CVG O.vva J<<003 Geoaa 0 ~ aoa Oeoao 0 e.900 0 ~ 900 Qeooo 0<<OQO SE V<<JCG aeCJO vs 42V Or 320 0 ~ V9U Ceooa Q.OGO Oeooo Oea00 0.4430 SSE U~ Jv' O.OJG 3 '4J 0. 37U U.OOV Oeaaa 0<<QOV 0.000 Oeooo 0<< 510 5 9 ~ Jav V ~ 3UJ U<<103 Gouda 0 ~ Caa 0 ~ Qau V<<QGQ Q.QOG Oeooo 9. 410 SSH V.vJU Veaua G.V93 0. 140 0 'JG aeoaa 0<<90rJ Oe 000 o.ooa 0 ~ 250 Sot O.ava a ~ Ju3 ve14u 0 ~ 370 V. 03'0 0.309 aeaao a. 000 0 000 0 ~ 510 rtbot V.uvi U ~ vua V<<143 G ~ 99U Veuaa 0 ~ 050 0<<OGO 0. 000 0 ~ Voa 0 '6V rt V~ vvu 0 ~ JQQ aeaau G<<140 0 ~ JSG Oeo'SO 0 "309 Qeaao Q.OGV Oe240 Ittt rt G<<JVV 0 ~ J33 vs J30 V~ 2JO 0 '30 0 ~ 09Q 0 ~ 000 0<<000 Oeooo Q.bao t4 el VeVGG 0 ~ VVO V<<JS3 0<<CSV 0. 050 0 ~ 143 Oeaoa 0<<000 Oeooo Oe290 N t04 u.uoo 0 ~ QGO U<<JGU 0 ~ CSQ v~ 'it GG Oeaoo Cea00 Oe000 0.000 0<<050 TOTALS J ~ 000 0 ~ UVQ 1 ~ 210 2 ~ 5V9 1 ~ cbV 0 090 0 ~ 100 0 000
~ 0>> 000 be 3btt
Table '4
<(Continued<)
STAoILITY CLASS C
<<HIND iSPEEDS;IN HcThRS PSR SECOND FROw THE 5 CTORS.INDICATEO iSECTUR 0 ~9 J 0 ~ 45 't1 ~ '10 1 ~ 99 2 ~ VCe 4 ~ 45 6 ~ 91 '9 ~ 59 10 ~ 95 'TOTALS H ,D.OOO O.VGO ,V. u90 Oeuvo Qe'1 40 6 ~ 2AU 0,. 000 Oeo00 0. 000 ,0. ooo
>NNc Ue VOG .O.OuG V ~ VSV 0 '30 u.u9G 0 'oo Oe090 0 <Joo 0 ~ GOU 0. 640 Nc Ve309 ,O,.JQO v ~ UQJ 0 390 Q.,ZHO 0.95O v ~ DOQ 0 090 U~ 033 ,Oe423
,E Q.UGv OoJUO O.VGG ,6, ~ VSQ 0 ~ Ooo 0.350 0 ~ <J 99 0.000 C.COO .0.100 HE'ESE i) ~ JV J -,O. JVQ 9 ~ ODV .Q,e USG Ve123 O.'3u0 0.300 3.099 ,D. 000 0.230
,G. 90,0 0 ~ 030 3 F 099 O.CGQ Q.UVO 0.399 9 ~ 900 0 ~ QQC 0. 000 Qe09.0 Sc ~oevCv Oe J33 ,0 ~ 5 2v O.c30 9 ~ 'V V 3 OeoGD U.VQD 0.090 0.339 C ~ SSQ
.SoL< .V, GCU 9.390 v<<S13 V,e 140 veuSV DeOJU 0 900 Oe030 0. VCO 0.7uo 5 J ~,JQJ G.uUD ue3)<<' 6.140 6 900 0.030 6.939 0.000 U~ 909 Oe230
)SSk oi 3.!iVU 9.03'3
,Q.JUU ,0 ~ Quo-143 Oe '30 OeVOU 0 'v9 GeoGQ 9.030 Q. GOQ 0.370 u 140 6 ~ 140 G.UOJ 0.3GQ V.QCO 9 ~ CJU 6 ~ GGQ Q. 2<)0 oHSk 3 ~ JGV D.ovv' U ~ J53 0 ~ SEV ,v.JDU 0 ~ GSQ )ilu 0.990 G.UUQ 0 '2U e ol e3 ~ v JG ..'JuO J ~ JCV 0 ~ Dvo U~ VSU 0.053 V. 300 0 ~ 09G G.DOQ 0 '90 HNk 3.9.90 0.33J 0 '5U o. Qsn 0 ~ GVU Oe359 0.059 0.030 Deooo .0 ~ 330 H<< ,V. JOV 0 F 339 ue363 0,.'vso O. 140 6 '93 J.309 QeOQG o ooo ,QeZbo k<Nk ,J. VCD ).3 J<9 v.JGJ 0 ~ Guu 3 ~ 2)L GeU99 u")59 O.ouo Je390 0 ~ 420 "TQTAI.S,V.uJu 9,.9VO 1 ~ o29 1 ~ PS < 1 ~ OJJ V.So9 9.193 D.GQV V.V00 S ~ 345 STACILITT CLASS D SPE u> IN MET'RS" PcR SECOND FROH 'THE SECTORS IHDICAT 9
>EUTVR 9 ~ 13 0 ~ <<5 1 ~ 16 1 e99 i' 36,4 ~ 45 6e91 9 ~ 59 10 ~ 95 'TOTALS N d.,o<0 J Oe<)GG u. 229 Oe 269 O. 55v 1e1'0 0.260 0 ~ 300 OeoCO 2.549
>NNh u. 009 .3 F 000 .u<<373 012bo ,Oe 05Q 0<<743 0.050 0 ~ 060 Oeoo0 2.959
'N-'E'<6 ,0 ~V oil 0 ~ Ouo Je32J cO ~ oSV Q. 230 VeU30 O.QUG 0 ~ 390 0. 1.25u 0 '6<9 3.099 0.000 UUG'eDOD
-Je,QJV U~ 23u 0 ~ SSO Ge 399 0 ~ 099 1.010
,J.JVU 9 '53 J ~ 32J G~ 320 G<<1$ 6 9.053 O.l)OQ 0.000 U ~ 000 0 '920 EbE .Ge JQJ 3.9JO Qe140 0 ~ 140 J.USO O.C50 0'300 Oeooo G~ 000 ,0 ~ 429 SL ,3 e VGV Geouo 1 ~ l09 1 ~ 659 9.69U 0'13J 9.900 0 ~ DVU U.GOV .4.238
$$ ,.J.300 0 ~ 050 1 ~ 20J V. Coo 3.300 O.QOO 0 ~ 990 0.000 Oe309 .:1.709 0 ~ 3 Jv 0 ~ 3VG 1 ~ 250 1, ~ 020 0.950 C.OVO 3.030 0.090 U ~ UQO . 2 ~ 319
-$ $ k ,9 ~ Juu OeQSG 1 ~ c5'J G. 1$ 0 v JJG D.OGO 0.900 O.QCO 6.090 1 ~ 519 Sk 0 ~ JUV 3 USO ve4oJ 3 ~ 1<<0 0 F 390 G.Gu3 G.QOG OeoUD 0.000 0.659
'e<5H OeVVU V.GVO i1 ~ <elv 1,e'110 V."90 0 ~ 350 Qeooo 0.000 0 ~ Ql! 3 2 '29 D~ JUV Oeou<) 6 'Gv 1 ~ V20 V ~ ZSC 3.0>0 0 "Joo 0.%)00 0.060 1 '49 kH<l C.JUV ,OeOUO I) ~ JSV 0 1VQ ,Qe18V 0.233 0.359 0. 090 0 ~ 009 0 '90 Nk ,0.39u U ~ QGJ Je J53 Ge140 J ~ 199 0.183 0.909 0 QUQ 0 e'OQ0 0 550
'NHH i) 390 G.OJO uelb J 0~ I'0 J.460 U.O99 J.G90 0.000 0. UOV i1 oooo
'TOTALS .J ~ VGU G.ZVG ) ~ 97o 'oe SC7 Jeol9 2.919 9.479 0 ~ 000 0.000 25.590
Table 4 (Continued) 5TAEILITY vLAS5 etIH9 SPEEOD IH rlcTERvR SECCHG FRGrl THE SECTORS I'lOICt IKO DECTVR 0 ~ lv 0 ~ v5 1 ~ 1U 1 79 2 ~ vv 4 ~ 45 6 ~ 91 9 ~ 59 10 ~ '95 TOTALS tl V ~ ovd GF 039 J ~ 379 0.140 U. 420 oo259 UoJUO Ooovo Ooovo 1 o 212 itH E. VoJ09 9.23v vs D90 os 460 V. SSV vs 050 0.'300 Oo CGQ 0.000 1 ~ 9do tl c 'oJVA i) ~ 0 Pu volSQ v.v30 0 ~ ovo 0.400 J ~ ESV 0.14 i Co900 O.OOO VoOOV 1 o24S E ri 2 i) ~ V 0 5 9 ~ 140 Vol CV OoCSJ G.ouo ooooo Oo090 l.o2C 6 J ~ Jod G.GAu 1 ~ V2u lo020 Jo 090 0 ~ UJO Uooo'.JGO 0 ~ 000 OoUOJ 2. 131 Eoc 0 ~ Jol 0 ~ OVO v.6SJ Oo4oo 0. GDG 0.090 Oovoo 0 F 000 1. 200 3 ii 0 ~ J03 Vo090 IoU7& 1 ~ 250 vo090 oo009 9*000 0 ~ 000 4olll S>E 0 ~ 903 0 ~ 0)G v.SGJ G. ldo J. UOG 0.099 0 903 0.000 0 F 090 1 o153 J.VVS 0 ~ VPV 1 ~ 478 O.VPV 0 ~ uou C ~ OGJ 0.009 Ooooo 0.000 1.752 5Sv UoV07 Goldo 0 '30 O.090 V.VVV Goooo 0.000 0 F 090 0 ~ 090 1 ~ 107 SH O.OOS OoJNG VS 2vJ 0.050 0 ~ VOJ 0.000 0 F 099 0 ~ 000 0 ~ 000 0.423 R3 it JoVOV OooJJ J ~ SSJ O.ooo Uo050 Oooio Ooooo OoOJO Ooooo 1 ~ 579 H GoGJV VeOi)v v ~ 4c.u oo790 0 050 0 ~ 050 U.VGG oooJO UoGOV 1 ~ 310 strtot J ~ JJV QoOJO uoeJ9J V F 000 0.090 OoCOO 0 '00 OoVJO Qeooo 0.180 JoOGU Goooo Go149 0o14U uo140 0 ~ OGQ G.osv 0 ~ 090 OooJO 0.47G tt Hit 0 ~ VUA Je090 Vo463 0 ~ 370 Ge 510 Go239 Ooooo Ooooo Ooooo l.o62 TVTALS l
~ J4S 1 ~ 190 11 '75 O ~ 097 S ~ 049 0 ~ V90 0 ~ 050 0 ~ 000 Ooooo 23 ~ 194' STALILITT CLASS F RIHO SPEDOS IH ilc TERS PER SECotliFRCH THE SECTORS IHOICATEO 3 CTVR, 0 ~ 13 V~ 45'o19 1 ~ 99 Zovo v ~ 45 5o91 9o59 10o95 TOTALS tl 0 ~ VO5 lt. 1 <0 V~ Suv 0 '10 0 ~ 32v O.GJO OoOQG Qoooo 9 ~ 000 1 ~ 894 HHE G.V10 0 '7J 0 ~ DGV 1 Uoo Vooov Go2SC O.OOO Oo909 O.ooo 2. 869 HE G.VGD 0.230 Oo310 9 ~ 379 O.v90 G.O99 V.QOO Oo 000 9.090 1.20o E rti o 3 ~ QVC 0.140 uo l7V J ~ SGU 0 ~ 1CU Vooio 0 ~ VOQ 0.090 0.009 2.153 E J ~ Uol OoVSJ 0 '79 Oo370 V. VCO 0 ~ 009 0.000 0 ~ 090 0 ~ 000 Oo791 SE OoJ05 3.1>0 v.23u Oo090 Oo ou0 Oo009 0. 000 Ooooo 0 ~ CVO 0.505 SE J.092 Oo090 UoA7V V. 140 J. Gvlt Q,QGQ G F 000 0 ~ GUQ 0 ~ 009 0 o6iJ2 SSr. J ~ vov ~ JJU v ~ 13J 0 ~ Juo 0. voo 0 ~ Otto UoUQU Oo090 OoVOO 0.150 S JoJJT oo050 vo950 0 ~ VVV U.QGu G.ouo Ooooo Ooooo U.VQO 0, 191 5 5 ot V.J91 Q.QSV vs Jou 0 ~ Jvo U>>QGV Ooooo OoJOO 0. QJO 0 ~ 090 0 '51 Sw 0 ~ JGJ V.JVO i) ~ JQJ OooVO 0.090 Goooo V ~ 000 0.000 0.090 0,000 V.UV1 V 050 u ~ UOU OoC50 V ~ Juo Oo093 0.'JGV Uoooo 0.000 0 F 101 it VS 3)1 J.USC uooSJ O.CGG 0.900 CD OoiO 0 ~ Joo O.OOO Ooooo Oolol Hrlor V.J91 Uo050 V.v99 Ooooo Oovoo OooGQ 0.900 0 ~ 000 0 ~ OOJ Oo 141 i'l so 0 UJ1 i.v'$0 J.J99 G.090 V ~ GVO Q.OGO 0.000 Ooooo Ooooo 0 '31
,triv V.J94 0 ~ 1~v v' 37u Oo2>0 G.VSO Voooo Ooo00 0 F 000 Ooooo Qo 794 TVTALS V.J43 1 ~ D70 Co75D 3 ~ 7v9 leo 00 0 ~ IUQ Q F 900 0 ~ 000 0 ~ 000 11 'C9
Table 4 (Continued)
STA-"eLITY CLASS G e<<I<<<<9 SeeELDJ 1<<<<METERS r LR SECO<<<<0 FR ON T<<<<E SECTORS IHOICATED S"CTOR 0 ~ 15 u.~5 1 19 1 ~ 99 2 ~ 58 4 ~ 45 O 91 9 ~ 59,1oe95 TOTALS 0 ~ J1U oe 23<<) 1e23J V.oSO VeGSV 0.000 0.000 Oeooo 0. 000 2.179
'<<.'e E veGJJ 0. 1 "on 1 'on Oe97C 0.4oo 0 ~ OGO O'.OOO Oe090 0 ~ 000 2~ 777
<<<<E- ne Je)e<< 9 ToO 0 ~ $ 59 O.JOG JeJOU 0 ~ OJO G.OOO O.OOG o.ono 0 ~ 738 E<<ii 0 ~ 002- Ve0$ 0 V ~ 4OJ 0.0$ 0 Je VJVV 0.000 O.JOV Oe000 O.VOU Oe562 OeVGJ V.V'JV J.45V % ~ o1J 0 ~ vvo O.OGG V.OOiJ Oe030 0.000 0 ~ 979 ESE i). )vJ O.GVV u ~ OOJ 0 9GG U~ 090 G.con 0 ~ 009 0.000 0.900 0.000 Sc VeUJJ 0eOGV oeUSJ G ~ Jvi' U~ vCO O.ovo D. i)00 0 ~ 000 0.000 0.050
$ >E O.UG2 O.VSG vs 05v ~ ')Go G ~ UVV V.UJO Ven~)V Oenoo O.JOV 0.102 5 Venom 0.0$ i) Je J$ i) O.GOO Oe Jio<<) Oei)VJ Oeono G.OOO 0.000 0.102 SSl neU02 0 ~ 0$ J G.JGJ G.')V9 O.UOO O.OGU 0 ~ JOU 0. Oi)0 0.000 0.052 S ne Ji)V V.JOB O.OOJ O.OO9 G.UVL OeoGO V ~ 900 0 ~ OOG O.UGO 0. 000 l
ei e<<$ v ~ Jnn OennJ 0 ~ JGo O.JVJ ') ~ Ou 0 V.OGV 0.000 G.OVO Veooo V ~ UVU u Jun G. OG<<) U~ Jv'v' OeGJG <<) ~ Oi9 0 OeooG 0.090 0.000 le<<l <<)eG02 Oeooo G ~ OCU 0.000 ~ JVO 0 ~ Ouo 0 ~ Vo G.900 O.UOO Oe052 O. Oi)0 Jeouo Uevoo n. GOO O.LGv Oeovo 9.099 0 ~ GOO O.UOO 0.000
<<<<<<<<<<<< Je 9<<)8 0 ~ leo v~ 0 J. O$ O U.OOG O.OOO 'J e'Jo<<) 0.000 0 ~ 'JOJ U.516 TOTALS J ~ u44 1 '29 4 '$ 6 o ~ 209 0.$ 10 O.GVO 9.009 O.ooi" 0.000 6e101
Table 5 BFN Meteorological Data Ground-Level JFD In Percent Fourth Quarter 1984 STABILITY CLASS 4
@Is)Q '5o5'OS s'l NGTSRS RcR SECONO 7%9,". TNS SCCTORS INCICATco 5<<CTGR 0 ~ 13 0 ~ C5 1 ~ 19 1 ~ 99 2 ~ 35 4 ~ 43 s<< ~ 91 > ~ 0 13 ~ ~ 5 TOTALS v ~ Jv>> v ~ vvo ve>>0' C.303 0 ~ GQQ v ~ >>>> Q.C39 0>>OGO C.GQC Qe 72"'
N>>lc G ~ UCC ).G)J ~ 00>> 0.303 G ~ G03 1>>'<< J.r,2>> CeoCQ 3.900 '11 N Q.QGO 3 ~ 0>> ') 3. )9) C.QGG J.OCC Oev)0 O. 909 G.i)VQ fJ ~ "Q'1 0 ~ QQC 0 ~ 9 JJ CD 30" 0 F 390 0."JC C.e)0 Q.r.i<<vve Q.Cv) C.30v 3.C J.
c 3 ~ QvJ 3 ~ 030 0.0)G Q.GCG O.C30 ')e "9>>; v.OCO 0.)03 ') e (sGr cSc 3.3CG 0.9)J G.QQG O. QCC>> Ce G3') ne(n CHOCO 0 F 909 0 ~ JC.>>
Sc 0>>QJ) 3. C 1 1 1 '79 0 ~ G)T v ~ iso)
C.r Jt) 0 CC" C ~ (10 1 e 731 SSE J.ov) >>eJil Cej31 0.274 0.000 >>e )>> 1. v)".
5 '3 Qvo 0 ~ GQG 3.33: 0 '2G v ~ <<74 Oe 090 oeoio n.OOO 0 ~ Sc4
'39
~
55el '3 ~ i Ov C.C"0 QeGCG CD GCn 0. vOQ 9. ('33 ". ~ 3 G.QOQ 0 ~ 34>
<<>>l 3 ~ >>39 0 'Jv 3.300 0 CGO 0 ~ v 3'3 0 ~ rvn r)
Go.'eCOO Oeo(C Oeooo neJJO J Ssl 3 0
'v>>
~
O.ov)
O.v33
>>'. 09')
- 0. )OC O.QCO Ce)03 0.0')C O. 0')C Q. Cr)0 v ~ Q33
"-. Cor
- n. Ci)n OeCQO
( .OCO
- 0. 100 C.ooo
)eOCv il 030
'). 909 3v>>')
Allo ~ Q3 Oe03J 0eQC J C>>J>>C J.QVG C. GG9 C>>300 Oe')09 N le Ge 390 Qe))J ) ~ QOQ Qe.'OQ G.C46 <) e uC1 Qe346 C.JCQ '3 ~ 1 r,3 iNN w G. GQv 0 ~ i)03 3eQC9 0. 46 vs 033 Oe GSO 0.000 OeG(O Qe000 0.0>>C TOTALS 0.3"3 0.330 9.59'.422 0.731 C.411 G.319 0.0'6 Jeo)( 4.'$0 STA:ILITT CLASS 5 P"R SKCGllO l'RON THS 55CTORS IN";CAT')
ScCTQR NING SPFcOS 0 '3 0 '5 IN NcTKRS 1 '0 1 ~ 99 2 F 86 PCS 0 ~ '9l 9 's 1C ~ 95 TOT ALS N >> F 090 G.300 3>>303 C. OQG O.G09 0. (00 O.ovo Ge009 ') e 1 'i 3 0 ~ 000 9 rvr)9 Ge 330 Q.C)1 G>>183 O.OCG OeCQC ). 274 N= >>)e )QQ v ~ 3vo Qe99) O.QGO O>>C9C'.209
". OQ') 3 ~ (46 O.OCJ Oe')93 cNc Ge JGC 3 ~ 330 G.OGC Q.CCv O>>UJ'0 9>>Cvo QC nrJ O.GGv 0 ~ OCG J>>300 Geooo O.l)03 JQC 9 ~ 390 O.rvon 0>>OJQ O.QCQ G.OQO 0>>QOC
- r. Sc 0>>GQO 0.333 C.QCQ 3.3)v 0 ~ GOG r<<eQG') ') ~ C 0 0. Qos) 0 ~ 090 9 ~ 90C 5= 0 03C i). 000 Q.GGQ 0 '31 0.030 vs>>3) 0.000 G.OCO O>>QOC 0.731 535 3.>>vo 0.0>>9 0>>100 0.457 0.391 G.C46, n COO Jr>>'e153 C.CQO CD 903 0 ~ 594
'5 3.000 Qe000 3.'OCO Q>>991 0.991 )~ n 9.000 C.O90 Ge)CQ C ~ 'I J2 SSN 0.003 0>>000 0.045 G>>900 3e930 C>>000 9.000 ('e GQO Qeooo 0 ~ >>46 0 ~ Gov oe000 v ~ OC>> Ce93C 3>>030 O.C39 o.coo 0.900 Oeooo ') e 009 WSll 0>>QGG vs 333 G.')09 Ce300 0 ~ 046 C.03Q Ge GrJ 0.000 9.') vo OeOCr 0>>QOG Geooo 0.300 0.000 oeo03 v.CQQ ". Coo Q.CGO Q.QJG 0>>309 NNR vs 300 0>>003 Qe003 0e34o G>>GQQ 3 ~ Cv 5 G.CQQ O.QCO 0.000 0>>392 N si 0eQOG 0>>030 C.QOQ 0.046 0.039 Oe274 0>>COQ O.G46 0 ~ QGG 0.366 N'lel 0 ~ QOG 0>>939 'QeoG9 C e QL1G G e Oe 193 OeCQQ OeQCO Oe000 0~ 1 TOTALS Q.QGQ O.oov 0.)46 I
1.371 0.22c O <<23 . O.229 O 946 O OOO 2es43
- Tab'1e '5 i
"(Continued) 1ST>>OCL<>F RON 'F I v.l 5 SECTORS "t3 'O1
't?UICAT EG O.,39 10 ~ 95 TOT CL..S v ~ J'J'C Q.>30 0 ~ '03 J C.Gco G<<1 f<<3 0.345 Q.OOG G.GuG 0.300 Qie Z75 attttE v. Ct)u .0.0)3 0.>>)C) .C. 303 0 F 00(i 0.091 .)'.noc 0 ~ CGO C~ 900 G.391
'iiNc i; 0. 000 Q.nov Q<<36>>0 O.uoo 9.0 t1 0.000 0.000 0.000 "Q.>>J91 Etl: '"G<<663 Q.n00 >>6.)45 C ~ 30C G,n)6 Goo)9 0.000 Oiouo G.GC0 9.<< 045 u ~ 3iaQ C ~ s) "0.)c)' C ~ 3v>>) n."03 0<< QQt) i) ~ COO 0 ~ OCO 9.00 i i) ~ 3 Ji ESE 6 ~ 603 u.cu) ).J(>> ae:)60 ,0. uoo a. 393 G.QOO O.QQG 0.909 os 3))
inih 'v ~ Gi>>0 ~ 457 6.457 i". 091 Q.CQQ O.coo (t. (>>CV o.)no 1.605 i S.S== vo i)<<)6 "O'060 ')..'320 C.391 .G<<0?1 ae045 '0.'000 a.'000 G.'? GC Q."54 5 5 in<<300 io. 303 Gi" 1 37 C <<'137 O<<J91 C. ('90 .,9."00 ) .0 ~ GGQ n. 3JG ~ ).355 i$ .Sit >>O ~ QC3 ,G.CJQ >>Q ~ QC i ,C.OOQ 0 ~ J>>J<<) 9 9>>JJ 3,. 00:J .0.000 C.000 3 ~ 00>>3
.i3.000 -G.GQJ ).644 3<<030 0 ~ 903 C. Cit(e Qeo)0 Q.CGD Gi ~ ('4 ci r>>3ii "0,. QOC iu ~ 03 J 'C,<<000 ,, 0.34o " 033 ss ~ Cie Coi) Qevch 0<<CQJ Q.OCa
.'000 <<C ~ 33 i) as QCD 0 ~ )JG C. ))G 000 3. CGC .C.QGu ).C)C '9.936 x>>e'l s ,6 ..300 ,a.u)u .Ve:?i J C<<137 ios J4a 3.:7C 0 ~ G4.5 C.GCC Q. )30 0.5)3
.tt>> ;0: Jou iuev03 'i ~ uo9 G(123 ) ~ vCa 0. Cs>1 Q.CGG G<<000 O.J?3
>>itt:t >> <<u ~ )oo .C,.Q3) ').C'J i;C'64o O.vCo 27ic 'C.i'ihG 'G.CQ( u OGQ 0<<3l C
'TATA'LS .'G.OO G.663 a:950 <<1714 3 ~ 540 0<<o13 G.CCo G..030 Q.QO( 3.7(,'1
<<5'TASIL ~ TT >>CLASS S=CTO>>i 0<<1 'e4 il'tlil<<1~
4'Jlt>>0,'$>ccOS I
t(FTCRS PER.
'1e>>99 StCCtt0'F R)i('<<I!tc
~ 'I". >> ~ >>5 S
'1 lit(tICAT EO
.9 ~ 5> "'16 AD ?3 'TOTALS
'l 'Q.OGG ).u)v .0 ~ 34'5 C.3a5
'C.o40 0<<546 Q. 77<< G;411 o.non g, >>qn JlnL
?>> ZJC
?..o' Nil = CO (>> ~ uuo 0 049 vs 545 1<<0)3 9.457 G.OGO Q ~
i'l5 i C.. )91 0.343 "
>>c cttZ 0 ~ Quu
'9..09v 36u r?. Ge>>J 0 ~ Q)v .9<< 274 G.JCo .0<<3ZO
2 9>>>>" 57 411 a<<3CE 9 ~ 133 0 ~ 645 Q<<731 9<<0)6 v<<033 G<<C)9 I
3 ~ C') 0
>>5 0 ~ Qio G.GCC 9.000
.C.990 1, ~
3<<a~5
,3. '23
'>>73 ESC 9 ~ uOv G.G)0 0 ~ ci E ~ .C.2?l 0 ~ uo<<) h '<<i iJ. CDQ 0<<QCQ ') ~ C5o G,.300 G.157 1st?OC ~ t'L.545 0'? 51 n,iec(g Q.CCG 0 ~ JCQ e4 ~ Ti)4 SSE ."C. 363 G.G45 11 ~ 351 v~ Ti4 0 ~ 1 37 ,3.0)n 0.060 6'000 5 ~ 1C7 5 9 ~ 0 Jv "G.CCC +0:<<59 0<<540 0""1 J3 '.COO Gi. GCG C.JGG )'Q ~
.SSi >>3 ~ QQG O'CJJ 0.22<< 'C!123 0.091 3 ~ OCh 0.009 G ~ OCC G.QGQ 0.3>>t Sw 3 ~ QDO i C. (>>>>i5 204137 0 ~ 137 v<<CQC 0.003 0. Coo 0. Oc(>> 0.300 O. 320 vi<<5'i 30 0 i G.Etoo 0 ~ 645 0.274 0 ~ 'i 4 o 3<<3'5 0 ~ CQO 0.600 ,0.3vn 0 ~ >> 1'?
i ltd'l
>>C ~
3.3GC
<<3 ~ CDQ
'i ~ u t)i)
.0 '4o I>> ~ 27>>
v ~ 0'? 1 '
0~457
'55 iiv ~ 320
~
) ~ 3>>
>>74 >>0 ~ 5 O
)<<CGG 9.394 G.voo 971)3 C.COO Q.'300 1 ~
2'101 997
"'.000 .O,.JC<<
Q tel :O..GOG C.04c 0.99) '>>,e411 0 coo iC. ~ Ovo .a.)CO '1..4o2
~ ttsttl iG ~ .'JGG *O<<333 G.G?1 1'3 -0.520 <1.GGS 0".15 3 >>C ~ OCO 'C '303 "1;752
TOTALS,(>>. )JG i<6>>321 5; 345
~ 542 ' 751 '5'15<<59 0. 2?o 0.000 >>27.>>09
Table 5 l',Continued)
ST'>>ILITY CL/SS l>>Itto SPEE3$ IH !tETERS PER 5ECOGO F<<pr tHE SECT<)<1$ I'tOICATFO S CTGR 3 ~ 13 Q ~ C$ 1 ~ 13 1 99 ih,<>>o 4 ~ '5 6,91 9 ~ 59 T~C
~ 95 TCTA!.5 3>>vol 0 'C5 0 ~ 137 0>>2cE G. SZC 3>>9O1 <) ~ C46 Q.QGQ C ~ 3GQ ). coo tt4E 6.305 0>>ural 0 ~ 543 0 ~ 411 0. (<22 1.6>6 o. "oo CHOCO h.060 2 ~ 973
't ve <)v3 0.391 O>>3cc Ge 1L3 0. 320 C>>2cs Q>>90C o.nco C>>009 1.les EOE 3~ vvs G.371 0.$ 46 0 ~ 183 O.GCv 9>>000 O.GOO 0 003 0.000 Q. o65 3 ~ 010 0.991 1 ~ 279 0>>457 6.009 G.CGQ Q.OOO 0 ~ 0<Co '060 1 ~ .37 cSE 6 ~ 667 i'46 1.0CS 0.6Z? 9. 153 0.039 Q.COc 6. QCO Q.JGG 0>> Q24 6 ~ 355 3>>31m 1 ~ 919 0. Su3 0>> 03') 9 ~ 609, C.QCO 0 F 636 5 ~ 37.5 SSE C ~ 31h 0 '20 1.5>>>> 2 ~ 504 0 ~ Co L< 9 ~ 246 O.QQO 0.066 0 ~ 060 5. 459
'Q ~ Gus 0 ~ 2>> 5 Q>>95>> 1. 54 1 ~ 153 1 279 C.col C.GQO O.OC". 5 ~ 7'I o
$ 5>> 3.'Ju3 9 ~ Q)1 0 '74 9>>503 3>>411 h
O.CQQ C.OGC 0>>90Q lr 4os 5 <t 0 ~ '33$ 0>>1$ 7 ) ~ 3<) G>>991 O.GQC Q)9 O.COO (<'ico 0 F 000 6 ~ 551 le 5>> 0>>304 9>>046 0>>457 Or<)CC 9>>Own 0>>CPO Q.QCO Q>>000 v 6.)01 Q F 039 J>>1:: <>> ~ 12 l v~ ) 5~ O.CCT n>>060 9 ~ )L<<J ')>>45 <
0>>)G1 Q.GCo 0 ~ 6'e o 31091 v lc c<4 0 "')2 ).COQ C>>060 v>>036 9 ~ h52 9>> ')01 O.ov) 0.0>>1 C ~ 365 0>>137 ')>> 091 6 ~ Qon Q>>OCG 9>>006 Q ~ 6>>5
't't te 0>>60$ 0 ~ 0)0 6>>365 G ~ 563 0 ~ c7h ioe 326 9 ~ CCS Q.GCO 0>>G'JO 1 ~ 511 TOTALS 0 ~ 093 1 ~ on9 11 ~ 235 1C ~ C59 5 ~ <>>63 3 ~ 653 0 ~ 153 0 ~ 06u 0 ~ 030 $2 796 STA)ILITY CLASS F ltl >>0 SP co 5 Itt r I'S PF 4 5 Cot<0 Fh><N THE '$. CTnttS NCICA'TEQ SCCTOtt 0>>1$ 6.4S 1.10 1.19 Z.CC C.CS 6.91 9>>59 10>>OS 16TALF tt 3>>662 G.oco Q>>137 C>>3os 0 ~ 646 0>>PO9 0>>060 C ~ 090 0.5ob tt vE O.GG3 9>>6<1 v. 32'J 0.los <). 163 0.091 c.con O.GQQ 0 ~ JQO e) ~ 3 71 t<E v ~ >><<>>c 0>>003 0.1< 3 Qelc3 0*469 0 ~ OC<J O.con choco 0>>060 0.
c'tc 0.665 0 '00 Q~ 5>>4 0>>096 0.909 ')>>CGQ 9.069 O.QOG 33i').782 c 0 '19 9,046 c.147 O.oE5 0.006 9.000 G.CGG Q.QCO 0>>9CO 2.c97
"'SE Q.u06 0 '91 Q>>543 C>>GCo 0 vGO 't>>009 n>>Cno 0>>QGC 0 ~ OOQ 6.7$
Sc 6>>Qc7 0.365 2.$ 32 0.759 0.2Zc 0>>137 0 0 ~ 060 0>>900 h ~ 547 SSE 0 ~ 91C G.365 1>>233 G>>457 G~ c74 3.22! QeiOQ hl 1 0>>09) 0.009 2 '71 5 0 ~ Qvs Q>>320 9. 594 1>>0)5 0.346 Q Q.ncn O.ooh 2>>bo7
$ $ <t 3 ~ 902 0>>091 9 F 137 C>>046 0 ~ CC6 6.002 n.ooo i.hOC 0>>099 0 ~ 322 SA 0 ~ 609 v ~ 9>>5 9.303 0 ~ 306 0>>000 6 e OO') 0>>GOC 6>>OGO 0.939 0.946 r Stt O. Q<)G 0 003 6 6<.h 0.') JC Q.OOG 0>> 699 .'J>>QQC 0>>CCO O>>QQC 3 ~ QOC r )~ QOC 0>>630 C>>04$ Grot)9 0 ~ Gou n. Coo 0 ~ C90 0 990 9 ~ 000 3,946 W'll et 0>>001 C>>645 3>>94$ Q. <)30 0.006 0>>PCQ 9.29n 0 ~ 900 0.990 0 ~ <J9) 9>>JGi 0>>G<)0 3>>346 G>>900 O.GQG 2>>099 C.CJO 0>>QOQ 6.'GuO 9>>J'o tt4<t o.ocs G>>330 0>>329 C ~ 163 OrQC6 Q>>C09 9>>CQP 0>>000 0 'QV 9>>552 TOTALS 0.09i 1.5J7 O>>27C 4.2iC 1.32O 50h 0 h91 0.000 0.900 17.0<to
Table '5
(ContinuedI)
I TA5I LIT I CL455 u jllJD SATE=OS III .el"-TSIIS VEK SSCOI!O F Ze 0!I I RE 55C I0 e.'el r< 5 I I I:I0 C 4 c 0 SECT!)ll 'J;13 Oe45 1.1) 1.+9 c u ~ ~ <<.45 F,.SIZ 19.o5 TOTALS
~
I Cr "12 r.r,4 S O. S4) 6.22r r )n CeQu9 Oe COO 0, nnC C. DGIJ, ee ~
IIII2 0 ~24 '5? 4 0 ~ 731 Ce731 ~ 7 n,0 JrJ 0.6)0 O.GCQ 6. OCi"
.eI 2 Q,el 53 3 'SZ) ~0 Geu4o O<<000 (ii e 60'7 (e060 0.003 v<<S')4 Oe 317 Q.:1 SS '), 7 7 7 C ~ 157 G ~ 'uGG C. 6;JO O.COQ Oe060 C.GOO 1.'1 1'4 C 0 ~ QVG 1.64=' 0 ~ 326 QeJQG Oe"00 G.QGQ in<<OCO 1 ~ 43S
.2 SE 0 ~ v61 9 ~ u <<eI ~ 60u 0 eGu'6 QeQQO 0"))) 'u ~ 0 ) C 6 ~ el(II 6 ~ )uQ J ~ C4?
SE Q.inl } Or )45 u ~ ) n~ e 0~ ) ~ ."41 )" .03 Q.OCO 0")6') 1 ~ <<77 5>E Jp JZQ 0 ~ J4 0 1 051 SQ'e014 il 137 (. OII n C)i 3 F 033 O. Qi)" TS".
,J. CQ7 3~ Z Qel?'")i Ce 320 ue u~1 0 ~ Iz)G C.GOO (e<<030 , Q.GOO 5 Q,GuZ 6,0 1 J C.iOG Qe VQi. 0 ~ OQG ).iCO Q.C "0 C ')')0 Qe3%
I>n 'i 5<<'r G. JG? 0 04' ') ~ 'J4 5 0.')OC q Q.iQ J 0 COO 0 CQO O.QJO G,Coi
,el Si' Qe JQ1 ~ QuQ 3 )I,r 0. )CC G<<GCQ CeQQG 0euOil 0 ~ IJC0 0.000 0.".47 e).i 0 I J ~ ."4S CeOJu Q. ilCQ QeCJ J 0 ~ 0 0 0.900 nI,Z es 0; JGI C.GQJ 0, J45 0 ~ GJC 0 ~ uQ<< Oe )0') ".euJC G ~ QCO 0.047
<<A )0') 'le C'lO Ng OeCQ? :) 4o 6, 04'1 J eeuC
~ G.OCO ')e O. 1 }7 u, ~ 'JO4 v ~ rJ4S J ~ 1c O. 1a3 0 ~ 0uG 0 Ou" 0 ~ i30 0 ~ i)GJ u' Q0 9 TOTALS Qe135 1 ~ IS$ 5e?12 3 ~ )32 0 ~ 035 .e)il) OeCJG 0.30' Gee)GQ 11 .So
Table 6 BFN - Meteorological Data Split-Level JFD Zn Percent Ground-Level Portion Third Quarter 1984 STASILITT CLASS A KINO SPcEDS Itl ttETERS PER SECOND F RON THE SECTORS INDICATEO SECTOR Ue13 Vo45 1e10 1 ~ 99 2eSV 4 ~ 45 6e91 9 ~ 59 10 ~ 95 TOTALS tl 0 ~ Qou 0 ~ 000 V.ooo OeQOU Oo 010 Oo220 Oo070 Oe 000 Oo 000 0 '00 NhE 0 ~ QDV 0 ~ Qoo Ooooo 0 ~ DGO 0 ~ 020 0 160 OooSO Oe OQG Oeooo Oo260 NE Joooo 0 ~ JOO 0 ~ OOQ OoOOC 0 '20 Oe030 o.'ooo Oe 000 Ooooo 0 ~ 050 ENE OeJOV V ~ GJO JeJOV Oeooo 0 ~ OGO OeoGO Ooooo Oeooo 0 ~ 000 0 ~ OQO E 0 ~ VOV 0.000 VoVQQ OooVO V.JVO Oeooo 0.000 Oeooo 0.000 0 ~ 000 ESE 0 GOU Joooo Ooooo 0 010 J ~ 020 Oo010 OoQOO Oeooo Ooooo 0 ~ 040 SE O.JOJ 0 ~ 000 uevGQ Oe120 Go 210 0.060 0 ~ 000 Ooooo 0 000 0 '89
'>E uoVOJ 0 ~ JVO ueQ1J 0 ~ 1VU 0 ~ J40 0.040 OooGO Oeooo Oo000 0 ~ 190 5 J.JJJ 0 ~ OQO 0 ~ U1iJ Oo 110 0. 010 Ooooo 0 ~ 000 Ooooo 0 ~ 000 0 '30
$ $ et J.UJV oeJJQ V.oov 0. 030 Jo0$ 0 O.ovo Oeooo 0 ~ OQO 0 F 000 0 '60 5<< OeJJJ OoDJJ veVOQ Oo01G 0.000 Ooooo Go300 Ooooo 0 Voo 0 '10 KSK O.UVO OoUJQ JeVVJ Oo010 O.'040 0.010 0oooo o'. oQQ Oeooo 0.060 K 0 ~ JJJ 0 ~ QJO J.OCJ 0 ~ 000 Q.OQV Oe GtiQ 0.000 Ooooo 0.000 Ooooo it hK 0 ~ JOJ OoJVQ. V.QCJ Oe Qoo v ~ 010 Do020 0.000 OeoQO 0,000 0 ~ 0$ 0 N<< 0 ~ Joo QeooG 0 ~ Oov J. 000 0 ~ JGO Ge 010 0.02Q 0 ~ OJO 0.000 0.030 N hit G.JUV Oeuvo J.OGO V. JUG oouUJ Oe020 0 ~ 000 0 ~ 000 Voooo 0.020 TOTALS J.JOO O.OGQ 0.02J G.369 J.409 0.579 0.170 O.OGO 0.000 1.568 STAEILITT CLASS 5 KIND SPEEDS IN HcT'RS l'cR SECOtlD FRGN THE SECTORS INOICATEO SECTOR 0 ~ 13 0 ~ io5 1 ~ 10 1 ~ 99 2 ~ Ett 4 ~ 45 6 ~ 91 9 ~ 59 10 ~ 95 TOTALS N oeooo 0 ~ OQQ UeoGJ 0 ~ Qoo Oe010 Oo070 0 ~ 01G o. Goo Ooooo Oe090 NilE OeVGJ 0 o 0ti0 o.ooa Oe 000 0 ~ 050 0.070 Oe050 Oeooo 0 ~ OQO Oe170 tlE V,JOV 0 ~ Ouo VeooJ oeovo 0 '20 0 '10 O.JOO OoUGG Oeooo 0 '30 cNE Jeuoo Ooooo 0 ~ JOO OeCGO 0 ~ 010 0 ~ OQQ V.JGO 0 ~ OOG 0 F 000 Oo010 c v ~ VGO QooGO OouOJ Oeooo 0. 010 Oeooo 0 ~ QOO Ooooo 0 ~ 000 0 ~ 010 ESE 0.000 0.000 GeJQO 0.000 Go Uoo 0 ~ 000 0 ~ 000 0 ~ 000 0 ~ 000 Ooooo SE 0 ~ OJV OeoJJ Oov1J OeG30 O. 020 Oo010 0.000 0 ~ 000 Ueooo Oe070 SSE 0 ~ VGJ G F 000 Ueooo OeG50 Oe OGQ 0 ~ QJO Ooooo Ooooo 0 ~ 000 0.050 S 0 ~ JJJ GeVJV V.OOJ Oeo20 O. 000 Ooooo Ooooo 0.000 Oeooo Oo020 SSK J.UOO OeoJD Q.ooo 0.010 U.OOG 0.000 0 ~ 000 OooQG 0 ~ iJ0 V Oo010 5<< V.VVV OoQGU OeJOU 0 ~ UuiJ Oo000 0.000 O.OOO 0.000 Oo Goo Ooooo itSK O.UJO OoQUO V ~ JOO Oe010 0 F 000 0. 010 O.GOG 0 ~ 000 0 ~ 000 0 '20 K o'.QQo 0eouU 0 ~ 000 G.GGO Qeooo 0.010 Ooooo 0 ~ 000 0 ~ 000 0.010 O.uoo OeUVQ V ~ JQQ 0 F 000 Go010 0 ~ 010 0 ~ CGO 0 ~ 000 Oeooo 0 ~ 020 N II J ~ JGU O.VOV Joooo 0 'JO JeUOO Oo020 OeQOO Ooooo Ooooo 0 '20 NNK ooVJV OooJO 0 ~ 000 0 ~ UQD Oe 010 Oo030 Ooooo Ooooo Ooooo 0 '40 TOTALS Oo000 Oeooo Oe010 0 ~ 120 Oe140 Oe240 0 ~ 060 0 ~ 000 0 ~ 000 0 ~ 569
Table 6
- (iContinued)
,STASILITY CLASS C
-AIiAQ "S)seas .IN .H=TERS PER SECOHU FRQH THE SECTORS INOICATEG 5 CTOR,U,.93 U.,>>S 1,.10 1,.99 .2.68 4.45,6.91 9.'59 i10;95 ,TOTALS
,O.JJJ ,o.ova V,. Vao O,o Qao Oo iJ10 ,'0 ~ OZiJ Q.UOQ ,0. 000 '0. GOO ia '030 NiV8 u.JGJ :o.oua V ~ Jaa O,o Goa Jo Jau 0,01 0 'Ooo,10 Qo Goo io. 000 Oo 020 Vc .'a. UU J OoJQV G.JQJ D.QQO J. 010 0.010 OoJOO io, ~ 090 0, 000 0 '20 ENE ol ~ J JJ ,O.OUQ Oooao ,0,. O GO U.VOQ '.O. 010 O,oooo 0.000 0.000 :0, ~ 010 ic O. JOQ ,Oeouo 0 ~,O0U 0 ~ GQJ 0 010 O,o 000 Q.UQO 0,009 Oe 090 0 ~ 010 E,S F. .Q ~ Jov OoooO G,QGQ ia.o OVO a ~ aoo Q,.ovo 0 o'900 O'900 !9..'000 0 ~ 000 SE O.VJQ 0 UOV V.JQU ,Go J20 J.o Uoo 0.000 Op090 Oo OCG Oeooo 0 ~ 020 5SE O. ~ UVV 9;900 Uov1 J O. 020 G ~ OOG >0 ~ 000 G,.JOO Oe,oao 0.000 0 ~ 930
,5 V. ~ JUG .Oooao Gouaa 0o 010 O.JQO 0 ~ 000 Voooo 0'QUQ 0.'090 io ~ 010 35 ll Q.you Q.ovJ Joaoo O,o 019 GoQOJ 9.000 Ooooo :Oooao 0 ~ 009 ioo010
,SN ,Oo QVO 0 ~ OJO ,ao UGO 0 ~ 900 0 ~ VQU .OoOUG Ooooo 0, OOG ,Oo 009 Ooooo r'i Sy ,0 ~ J0U 0 ~ OJO .U ~ JO J Qoooo UoVGJ ,0, 090 Ooooo 0,'000 io ~ 000 )Oo 000
.Oeaoo v 'voo U'o JGJ a ~ ooa 9 ~ OGU 0 '10 0.000 ,0 000 ioo 000 Oo
.0,'020 010 U~ JOV Q,.ova 0 ~ OOJ 0.900 'U ~ VQO 0;010 0.010 Ooooo 0 000
'.N N JoJJV 0.090 Q.GCJ G; GUO 0 019 Ooo 0 0 ~ VO,O Ooooo 0 000 0 030 HNN 0 JGO G ~ OGG V ~ OUO v ~ oao J ~ U20 0 010 Oo010 O...OOG 0 ~ 000 0 '40
- Tu'TALS 0 ~ UOU 0 ~ 990 U ~ u1J 0 '60 9 ~ UOU Oo190 Oooso 0.090 0 ~ 000 .0 ~ 260 STAEeLITY CLASS C MINQ SPccoS,IN HETcRS PER ScCGHG FRGH THE SECTORS,INOICATEQ SeCTOR 0 ~ RS V~ 45 '1 ~ 19 Lo)9 2 ~ uv 4~ is 6 ~ 91 9~ 59,10 ~ 95 .TOTALS P ~,Jou Q.ou J 0 ~ GCG 0 ~ 910 0 ~ 060 0.180 0.979 'Oo 000 o.aQo 0 '20 NNE 0 ~ UOV aoJOO U.ou9 0 ~ 000 0.060 9 ~ 120 0. 01,9 0 ~ 000 0.090 0 ~ i1 90 Ng V ~ UGV aoooo
'9 UQJ G.QUiJ 0 ~ i".SG Qoo2U 0 '10 ,Ooooo io. 000 Ooooo 0 ~ 960 EiVc J.JOu a ~ Uav 9 J30 U~ J10 Oo010 aoaoo 0. 000 0 ~ 090 Oooso
,E U~ QJJ V Ouu uoUCJ Oo 010 9 ~ C29 0'019 Goooo 0.000 Oooao 0 ~ 040 csc 0 ~ JQG U.U JO VoOOO 0 ~ 91G U. 010 Oool 0 Go)00 .Ooooo 0.000 0 ~ 030 SE O.uuo Q.0JQ ,U.97a 0.190 Oo1SO 0.940 Uoaoo 0 ~ 090 0, ~ 000 0 ~ 429 SSE 0 ~ Joo O.JVO u.070 0 ~ Ovo Qo J10 Q.OGV O.OGO 0 ~ 090 o.uoa Oo140 5 J ~ JUU 9 ~ Oua 0. Js'J 0 ~ 120 0 ~ 910 0.090 O'009 0.000 0 ~ 090 0 ~ 180 SSM Jooou aoaoa u ~ J3G Oo U20 a.uua O.OGV 0 ~ 000 0 ~ OOG 0.000 0 ~ 050 SN ,G UJG QoOJJ VCO 0.900 0.090 0.000 0.009 0.090 0 000 0 ~ 000
~
Jouao Jo000
~
,v.00 J Oo040 U. 010 0 '10 Voooo 0 000
'0 000 Oeoao 0 '60 PoVGO Q,.uu J 0 ~ Qau a ~ 020 0. 030 G.010 0.000 OoVOO 0 ~ 060 NNM 9 ~ OUO G,.GOQ 0 ~ UGO 0 900 0 ~ 010 Oo940 9.010 0 ~ 090 .0 000 0 060 iVN 0 ~ vou G.uvG Q.oca 0 ~ 900 0 ~ 020 'O.OSO 0 009 0 ~ 000 0 ~ 000 .Oooso NNN 0 ~ JGO ,9'.Ooo U ~ QCU C.ODO 0. Usu 0.0/0 0.030 0 F 000 0 ~ 000 Oe090 TGTALS V.VUV ,O.OGV 0.22a Oo539 0.,449 0.479 0.120 ,0.000 0.000 1 ~ 807
Table 6 (Continued)
STACILITY CLASS E illNO Sr EcOS IN M'I"RS PER ScCDIIV FROM TNE SECTORS ItlOICATED SECTOR 0 ~ 13 0 ~ 4$ 1 ~ 1V 1 ~ 99 2 ~ SJ 4 ~ 45 6 ~ 91 9e59 10 ~ 95 TOTALS N 0. VDii GeDVQ u ~ Vov Ce010 Qe360 Oe040 0.009 Oe000 0 ~ 000 0 ~ 110 NNE OeQVQ 0 ~ JDQ Ueu10 Ge059 J ~ 3'8 J Ce010" Oe000 Oe000 Oe000 0 ~ 150 NE 0 ~ JOQ QeJJQ veQGQ Oe080 3. JAO Oe020 0.000 Oe000 Oeooo 0 ~ 140 cNE Q,VJU 0 ~ 010 Qeo13 Ce GAC Qe 020 Oe010 0 ~ OUO Oe000 Oe900 Oe 090 E JeVuJ JeJJV ve JSJ V 1VQ 0 ~ 019 C.CQQ 0 ~ 000 Oe000 Q.OQO Oe140 cSE 0 ~ VOu OeQVU u ~ J2Q D. 040 Oe 010 Oe000 O.DOO Oe000 0 000 Oe U70 Sh JeVGu JeOCO Ve 16V 0 '10 0 ~ 143 030 F 000 0 F 000 0 F 090 Uo000 0.529
'10 SSE V.JQO 0.000 V.050 Ge05Q O. 900 0 F 000 0 ~ QQJ Oeooo 0 5 0 'uu O.ovV V.12J V.913 Ue920 0.000 Ve300 Oe000 0>>000 Oe 0 '90 150 5 KM VeJVO 0.010 vs QcV Oe020 Qeooo Oe009 0 F 000 0 ~ 090 O.VQO J ~ UGV 0 ~ 'J JD U ~ 'VG J Oe310 V.VQO Oe090 U.VGQ OeOOG O.OOD 0 '10 MSM V ~ VVV OeQJC Ve01 J QeGID Ge 010 0.010 O.OGQ Oe000 V.VOV Oe050 II VS VGu V.OuV v.J'I J J ~ 060 Je Jou Ge010 0 ~ JOQ OeOQG 0 ~ 000 0 ~ VSO
'MIIM 0 ~ VVO OeOvo veooo Oe990 Oe V10 OeDGQ OeOOG Oeooo 0 ~ GGO 0 ~ 010 Not 0 ~ QDQ OeQuJ JeGGJ 0 '10 'J e 020 0 ~ 000 Ve01C Oe000 Oe090 Oe040 I'I N II JeVOO 0 'uJ V ~ 910 0 ~ CSG Ue J70 G F 050 VeSGO Oe000 Oe000 0 '60 TOTALS' ~ VVV 0 ~ 020 V~ 499 0 ~ 739 0 ~ 469 Oe179 OeU10 0 ~ 000 Oe000 1 ~ 927 STAEILITY CLAT> F MIND SPEEDS Itl NcTERS ?ER SECotlD F RCM THE SECTORS ItlDICATEO ScCTVR V ~ 13 J ~ oe5 1 ~ 1V 1 ~ 99 ~ 554 ~ 45 6 ~ 91 9 ~ 59 10 ~ 95 TOTALS N Qe JQQ Ge000 Oe 05'3 O.GoO OeQAV OeCQO Oe099 Oe000 Oe i)00 0e1 50 tie V ~ QGQ OeCu0 Je323 0 '5G Oe19C Oe040 0.000 Ge009 0 ~ 000 Oe510 N
Nh 0 ~ JGQ DeQuU QeQSJ 0 '49 9 ~ 02V OeUIio Ve000 Oe000 OeUQO Oe090 ctI6 VS QvJ 0 F 090 OeUAJ 0 '90 Qe 030 0 ~ 010 0,000 Oe000 Oe300 Oe170 c 0 ~ VGQ 0 ~ Quo V DDS 0 '30 0 ~ OVQ QeQQD Q.OGO 0.030 0.000 Oe050 ESE V OQV GeV1C Ve01J 0 '10 VeQCG Oe903 O.UQb 0 ~ 000 Oe000 Ce030 Sh Ce003 GeOJO J.010 0.059 0.000 OeQQO OeQOJ 0 ~ 000 0.000 0 ~ 040 SSE JeUVV 9.000 VeJOV O.OGO 9.000 GeCGO 0'e 009 OeOGO 0 ~ 000 0 ~ 000 5 O.'OOQ 0.000 Q.UOQ O.COO J.JQD Oe000 9 ~ JOO 0.000 OeQQJ 0 F 000 SSM J ~ VVJ O.VVO JeJCV Q.OVQ 0.300 0 ~ 000 OeQGQ OeoDO 0 ~ 000 0 ~ 900 V ~ Vvo 0.090 U.UGV 0.000 0 ~ 090 G.DQQ Q.DOD 0 ~ 000 V.OOQ 0 ~ VDO 0 ~ OGJ Q.QJQ VeVGJ O.UGG 0 ~ 000 0.003 UeUGO OeQDO 0 ~ 000 0.000 MSM CeVJJ G.DJQ 0 ~ GQQ 0 ~ GVO Q.CGO GeOVO OeJOO 0 '30 OeGOU Ve000 MI4M V.uou 0 ~ QVQ OeCUV 9 ~ DDQ V.OGV 0.900 Q.QOD Oe000 Oe000 0.000 II M J ~ JUQ 0 ~ 000 v ~ VOJ OeVOQ 0 ~ VDQ Oe000 OeQGD 0.000 Oe000 0 F 000 NNM 0 ~ VVJ 0 ~ OVJ 0 '10 G.059 Oe010 OeCGQ Ge000 Oe000 o.ooo 0~
QeOGQ 0 '10 0 '5J 0 '39 0 '20 0 ~ 050 0.000 Oe000 0 ~ 000 e
0 '69 050'OTALS
Table '6 t'(Cont'inued)
- STattILITT CLASS 0
~"llNQ IP cGS eltt 8<<'.TcRS PE<<t,'SLCOt<<Q FRQtt <<THK <<5'ECTORS .INGICATEO
<<56CTJR 0 ~ 1'3 Q<<45 >1 ~ 1 3 "1' 99 ~ JS 4 ~ 45 6 ~ 91 <<P
~ S9 10 ~ 9S TOTALS
<< 0Ãoo "Q "Juo Oe 090 Q. V10 'O.GI'0 4<<000 '0<<000 .0<<OUO 0;1 50
'U 'USJ 0 e'130 'J ~ v30 0<<VSv'VJ NttE U<<.JQ J 0 ~ OGQ 0 OOU 0 ~ 000 io 000 J'260
<<C J<<OQJ U:JGQ 'U.UOO 0 ~ 050 0 ~ 000 0 ~ OGG o.ooo 0 ~ 000 0<<050 '<<0;000 "SNAB "J:JOJ O.'JVJ 0.010 Oeooo <<J<<GJV 0<<OOG 0.000 ,0<<QJG 10 ~ 000 "'0 e 010
'Je JJJ U ~ 'JUQ "Va310 U<<U30 O.OGV Oeooo 0. 000 '0.000 i0.040
'! S'r. .Je J'JJ Oe JUG '<<t<<UVJ 0 ~ QUV .J.VQV "G.OGQ 0<<QGQ O.OOG 0. 000 0 e'000 "0.000
<<SK J. Jov 0,000 v,QCV '.OJQ Q<<JQO 0<<QJO 0.000 G<<000 '0<<000 "Oe'JGO ASST 'V:JJJ 0<<JUO 'J<<JGV Q.J&0 O.JOJ 0<<GQQ 'Oe'QGV '0<<000 t'0'.000 0 ~ 000 FS Me UQJ Q<<QJJ 0 JVJ =V. <<JJO U.JQO 'Oe<<JVQ V<<QUV 0.000 0.000 -O.OOV "i'5 l VeJJJ
'J.oou J.ovo RI<<GQJ 0 ~ QGQ Q.ono Oe OG!) 0 ~ GOJ <<0<<JOG 0 ~ 000 000
?Set 0;Vvo <<v.JGQ O. uv'0 O<<JQJ 0<<VVO 0<<UOG 0.000 0 ~ 000 eo'Joo
~'e S~l UeOUV 0<<JUG "0;OQV 0.'300 O.JGQ O<<QGQ 0 ~ 000 o.noo '0<<VJO V<<UGO J.UJU O'Ut<<0 v.UGJ 0. vvo U<<JQV 0<<UVO U<<JOO n.oUo 0.000 O.VOU
~'<<t tt el -U.OUG Q<<VUQ M.QQJ 'n.ooo 0 ~ VOV 0<<QGJ v<<000 0 000 'G.UUO V<<03V
<<tt <<t v.UUU 0 ~ OUU v.vGJ 0'e v JG U.UJO G F 000 G.JOO 0.000 0<<GJQ Q.UUO
'lit<< tt Veooo '0 ~ OJG '0.010 O. Ovo 0<<300 G.OGO OetJQO Oe'000 0 UJV 0.01 V
<<TOTALS 'O<<UQG 0 ~ OvV 4<<13J 0 ~ 250 0.090 Q.VGQ -U.QOQ '0.000 0.000 0'469
Table 6 (Continued)
.Elevated Portion of Split-Level JFD STABILITT CLASS A MIND SPEcDS IN O'TERS PER SECOND FROH THE SECTORS INDICATEO
>ECTDR 0 '3 U ~ 45 1 '0 1 '9 F 33 4 '5 0 ~ 91 9 '9 10 '5 TOTALS N 0 ~ 000 0.900 J.GOJ OeOQG 0 ~ CQV G!009 0.000 Oe 000 G.aoa a.voo NNE V JJO 0 Gvo Je')OV Oeovo J.v JV 0 ~ aoo 0!000 0 ~ oao 0 ~ oav 0 ~ 009 NE 0 ~ Jao 0!VGO 0!OGJ O.CUG V.)00 0.000 Oeaoo 0.000 0 F 000 0 ~ 000 Et E V!JVO Q.avo ue Qav C.OGG Goaoo Oe000 9.000 0!QVO 0 F 090 0 ~ 000 E 0.000 J ~ Ova v.JOD OeovG G ~ QQG O.ODV Oooaa OrQQQ 0 ~ UUQ aeVVJ ESE 0 ~ QQG Jeooa JeVOV 0 ~ 009 O.ioV O.OGO V OCU 0 ~ 000 OeU30 J.QQ)
Sh Q.JOO 0 ~ OQJ u.GGG O.Guo Ve JOQ Ceaoo 0!909 0 ~ OJQ Oeaaa 0 ~ 000 SSE Veoou 0!QGJ Je)CJ Oeu50 0. QOQ Ceoaa Qeaoo a!000 oeaaa 0.050 S 0!JQQ 0!QGQ Deaa' Q ~ VDQ V!VQO Q!CUO V!000 O!OGO Oeooa 0 ~ 000 5SM 0 ~ UVU 0 ~ QJV ~ UUO 0 ~ CVC 0.009 U.ooa Oroaa Q.ooo a!000 0 ~ 000 SM 0 ~ Vav 0 ~ aua U.DQD 0!909 Geaao G!080 Gr')09 0 ~ 000 0 ~ 000 0 ~ 080 MSM V.JGQ Oeoao 0 ~ QQJ Oe )JC 0.040 0.090 O!OGU 0.000 Oeoaa 0!040 M 0.000 V!OGO v ~ Jaa G.ooa J!090 Oeaua Oeoao 0.900 Oeoua Q.QGQ MNl V!JGU 0!UVU 0 ~ JVJ 0 <<Ouo OevVJ Oeaao V!000 0 ~ QQG 0 ~ vaa oe000 N>> VeJOU V.DVU U~ )GJ O.r>VO ve 0')0 G.VUQ 0!UOO 0!090 Oeaao 0!UOU NNe V ~ Uoo 0.000 u ~ 000 0!OGG V ~ 000 O.OGO OeaGO DOUG V!009 0 ~ UVO TOTALS u ~ Oaa 0 ~ Vao J ~ JDU 0 ~ v30 0 ~ J40 0 ~ 050 0 000 0 ~ 000 0 ~ 000 0!170 STABILITY CLASS c MIND SVcCD> IN HcTERS PER SECOND FROH THE SECTORS INDICATEO SECTOR 0 ~ 13 Q ~ 45 1 !la 1 ~ '99 2 ~ US 4 ~ 45 6 ~ 91 9 ~ 59 10 ~ 95 TOTALS ry 0 ~ vav O.VVO V.JOQ 0 ')V 0 ~ VQV 0.0')0 a!000 0.000 Oe 000 0.000 NNE 0 ~ VQV O.QDO V.QGU 0.009 V. Uaa 0 ~ 000 0!909 Oeaoa Or009 a!000 N- O.OVV V ~ OGV O.GOV 0 ~ GGO , V.oov Oeooa 0eaaa Oea90 0 ~ 000 0 ~ 000 ENE 0 ~ VQV O.QVG 0.009 0 ~ Gva 0!090 0!090 0 ~ 000 o.oao 0!000 Oe000 c V.VVV 0 ~ Ouo 0 ~ JGJ Oevoo 0.090 0 ~ Qoa Vruoo Q.VUQ Oeooo 0 ~ 000 ESE JeVQV 0 ~ 000 Vroao Oeaoa O.uaa 0 '".0 0 ~ i)00 0!909 0 F 000 0 ~ 080 SE aeJOD 0!Vvo V!090 0 ~ 050 V.DOQ 0 '70 000 Qeooa O,OJO 0.310 SSE G.JVU Qeaao G!OOU 0.200 0 '40 0 ~ OGO Qe099 a!000 0 ~ 000 VS 270 5 Q.VVV O.oua v 09J O.09O Ve09G 0. 90r0 J!990 a!000 Oeaoa 0.270 SSM Veooo 0 ~ QVQ u JQD 0 ~ 000 0 ~ 13U 0!OSQ 0.040 0 ~ 090 a!000 0 ~ 250 S>> 0 ~ QOJ V!000 V ~ OUV 0 '20 0 ~ 050 0 ~ OBG '.040 0.000 Oeaao 0 ~ 489 l
MSM V ~ JOV Oeoua, J!VOV 0 ~ 050 0. 090 0. 940 Oeoao 0.000 0!090 0 '90 J!000 0 ~ OGO, veooa 0 ~ 000 0!099 0!080 0!300 Oraaa 0.000 0 '70 MNW Q!JOO VoovV V.OOU d.ooa o.oaa Oeoaa Oeoaa 0 ~ 000 O.GQO Geooo NM V!JDV 0 ~ 000 Ve 00!J 0!000 Oeoaa Geoaa 0 ~ 009 0.000 0 ~ 000 0 ~ aoa HNM V ~ 090 O.QVV v ~ Oou o.ooa Q.VOO Oeooo Geaaa 0 ~ UVO 0 ~ 000 Oeooa TOTALS oeQGV 0 ~ VUO Ve 18V 0! 739 0! 399 0 '29 0!08Q a!000 0 F 000 1 '27
Tyble 6 (Continued)
STASILITI CLASS C ltltlo SPEcus 14 tlE)ERS PcR $ ECOtlo FRCH THE SEC)GRS ItlDICATED SECTOR be1S's 45 ) ~ )0 1 ~ 99 2 ~ 99 4 ~ 45 o ~ 9) 9 ~ Is9 1up 95 TOTALS 4 V ~ vuV OeuuQ v,QOJ G.QQQ usoQC Oeott9 Oe900 O,e 009 0 ~ 000 OpOSO tt,ttc O'. QQC 0", D"'0 0;QQO 0 ~ Duo ,Qr,vuo QjC29 v'p Coo 0 ~ 090 .Gr QQU G.QSU G. Jbb G.JVO O,QUU Oe 35rO Cr VJO G,oooo 0,. 309 Op 000 0 F 009 Os000 Jeu u.uJO 0;Ju9 Q.uvu i) ~ 000 c'eE Sc U~
vs Qua JJV DGU OeJVQ QeVVO V ~ GDU JeJvv veJOQ 0;VVC 0 ~ <<J0C V.V4C 0 '70 C.D40 CaQyO Oeowo 05040 Oa000 0, 040 Oe030 Op 000 Gp000 Or090 Or000 0 'lo Or,OSV or)79 SE. Q:uub 0 ~ JJQ 0 ~ 399 O,e C40 Qelt49 059tpO OpQQO 0,.000 ).39ts 3$ - 0'OJO 'OebJQ JeJSU 0.3o9 0,220 Oeu40 0,040 O.GQO GeOVQ Oe719 5 U: Dbu Q.JVO 0'.2s J 0 ~ 439 Cr GEO Opo09 Qpooo o', uoo Op S99 SSN 0 Jov Qeuuu U.J5V G.So9 072oo Ge949 o,oCo Q,ooo 0;909 Op759 u'.DOb O'QDG ve233 Is ~ 039 gr230 Dr) zo Oe040 b,o Quo De 900 )r25"
~ t vW Veubo OeuuJ Qeuo '
0..20 Ve) 3U Ce2pu v,ooO OpJGO 0.090 Or739 D'ou ~ Jvv U. 930 O. 359 CD Q90 UA009 0.000 Dr 000 Cr449 vt)M O'. JG0 CiCVG 0:jOQ 0: c90 O'. GJI) Q g oJ vs)00 orQSQ 0.009 0 '99 t$ so VeJJQ ). J'qo J ~ VG3 OeGSQ 0 ~ 34U 0 ~ CQO ur ')Cu 0 ~ 000 VjVDV 0 '90 t(4$ J)3uu I}.OVC u. VGV 0 ~ JVU u '33u VeOJO J. 300 Groou G uou Gruoo f0$ ALS UeuGV QeQCQ UF 729 2 934 )rrar O,ZCQ Q,CSC QeQQU 7e 379 STAcfL1TT CLASS J lIttD SPLcQS Itt t)cTCRS PER SECQttu FRDN THE SECTDRS IllDICATED
>ECTCR Oe)S' ~ 42 1elG 1 ~ 99 Ztuc yr p5 t5r9) Nr59 10 ~ '95 TUTAI.S 4, J ~ VJQ Q. OCD Ge 1 4.J Ce SOV Qe 529 2.227 ls)SE 0. 020 0 F 000 4 ~ 503 4t)E 6.JJJ 05u JO U ~ 1OJ 3 ~ .U9 V.o)9 2a49G 1 e413 Jr 210 v ~ OUC 5 ~ 512 Wc JeJvu VS J9V 0.5VV U.o)9 aego9 Vr JEG o,oou 2 ~ ZVO ctlE 0 ~ Dov Q.Ovo 051CJ O',SoV J;J99 O.ZVC 0 ~ QGD asoQG Oeooo le23S c J.JUJ 0 J50 0 'CC Us 270 oe)20 Gea40 0 F 090 OtQQO 1 e13$
cSc ue Cuu D.o,va 9:-)9."' GqCD9 G.S>$ 65000: Osa00 a.'uua 1, Ga Sc 3 ~ vuv, OeouQ 2 'O7 us E4't 43$ ) I)CS. Ge 170 0 000 oe320 SSE V.OOU 0 ~ Goo ~ S2V, 1,238 1e rl7 Zeodd 1 VCS o,Zra o,a2o 7 ~ 2$ V S u. Jo.o 0:GJO G"2dJ 1 '28 1.4as Ze42( Q,S79 OrlSQ 0.000 5 ~ 951 9;Juu 0.230 008 05'830 3 ~ 3'75 SSet s4 eS 4 et J:veau v:Juu O.VGQ G.OJC v, ~ QCO, O."ldv Ge099 05919 0 '19 0'19 GeVSo Oa4J9 Q. GoV.
1 ~
Q.QS9 O.'299 Qsooo Jeutta Oe000 o,aao 0 ooa Osuuu Vsoou OeQDO 1 ~ 'tt z.uor Vaybu ye O.ouo G". J90 Oe oo9, 0 '559 QeSZV Csoso asQQG G QDQ 2 ~ 127 voQJQ d: CV'J Oe000 O.QGV 0.230 0+439 0 '59 Oouso a.oco Ueuuo 1s)48 GoVSQ lee JGJ Ge5y9 Qi74( 0.599 OelSU Oe000 Ciooo 2.097 t[44 Voovu 0 ~ CJQ J.ZSU 0 090 O. SSV 0 ~ 89o U.190 CaO?G Oe000 1 ~ 837 tuTALS u,.uuo Ooliv 2 ~ oa 5 'll ~ 7UZ 1la SUS 17qo)4 5 stol a. d59 0 ~ 020 49 ~ ttv4
Table 6 (Continued) o STAEILITT CLASS 6 MIND SPEEDS IN MFTERS PFR SECQNO FROM THE'ECTORS INOICATEQ SECTOR 0 ~ 15 0 ~ 4$ 1 ~ 10 1 ~ 99 2 ~ db <<4 ~ 45 6e91 9 ~ 59 10 ~ 95 TOTALS H 0 ~ JOV aeDGD Ve260 0 ~ 520 Oe S10 Q.ab9 Oe110 Oe Goo 0 ~ QQQ 1e907 Nr V.QDD Oe9$ 0 Oe140 0 ~ 2$ 0 U~ 2 aeC79 0 '39 0 ~ 000 0 ~ 000 1.657 Hi! 0 ~ 000 VS V50 urTCJ J ~ 280 G. 529 Oe839 Oe110 Oe 000 0.000 1 '47 ENE 0.000 U.QUQ Ue230 0 ~ 1oO Ve 220 0.409 QeGOO 0. 000 Qe000 1 '38 6 VeJOJ G ~ OGV oelCJ 0 ~ S69 or>49 ~ Ge489 Oev70 Oe000 0 ~ VOO 1 e418 ESE Qeouv DeoVO 0.093 D,1oo 0 $ 29 Ge579 OeQQO DrOQD 0.000 1e 378
$6 V.OOV 0.050 0 '2V ". 559 '.629 1e UQE Oe779 0 '93 0.000 OeUQO 3 ~ 215 SSK OeQQO 0 ~ OGO J ~ S69 0 659
~ Ce200 Oe1'19 Oeooo Oe GOO 1 'C7 5 Q.JOO Qe030 v ~ 1 co V 0 ~ 549 0. 180 0.469 Qe159 0 F 000 Oe aoo 1 'Sb SSM o.aoo J.Quo vs 240 0.369 Ge130 0.290 Oeooo Oe000 0 ~ 090 1e068 Sr VeUDJ QeOJU VS 32J 0.439 U ~ 399 Ge170 ad 063 Oeooo O.UQO 1e378 MSM QeaOV O.QQV 0.140 Ce 3do DeVJ9 oe040 0.049 0.000 0 ~ 000 1 028 0 ~ UOJ 0 ~ OuO Ve U'90 O.'0 )e >13 Oeobo Veo03 Oeoao 0 ~ aoa Ge 799 MiNM 0 ~ JOD 0 '50 .VeDSU Oe 090 9 ~ 090 0.9bo Oeooo Oeooo 0. 030 0 '7C HM U.UUU 0 'uV 0 ~ 09J 3 ~ 2SJ V. J40 0.16G Ve940 Q.UJO Oeooo Je609 HNM 0 DQV Oe900 0.0>J 0 ~ 140 J.110 0.1bo Ge949 Oeooo OeQOO OeO09 TO'TALS 0 ~ UQV J.200 2.9ab 5 ~ 402 5 ~ >71 6 ~ 280 1 '78 0.000 0 OUO 21.637 STAEILITY CLASS F MIND St COEDS IN METERS PER SECOND PROM TME SECTORS INDICATEQ SECTVR, J ~ 1S U~ 45 ~ 1 ~ 1'J 1 ~ 99 2 ~ Gd 4 ~ 45 6 ~ 91 9 ~ 59 10 ~ 95 TOTALS N O.VQD 0 ~ OQD 0.05u 0 950
~ Oe 04u Oe 399 0.000 0.000 0 ~ VQG 0.539 NHE OeQDJ OeuvD J ~ 35J 0.1bO Qe 860 De879 0 ~ 569 Oeooo 0.000 1e 937 NE D.JQQ Oe000 OeVSJ 0 F 269 0.130 Oe739 0 e339 Oeovo OeOGV 1 ~ 518 ENE OeJGQ 0 ~ OGQ 0 390
~ '0 e 140 0. >49 G F 359 9 ~ 2SU Oe000 Oe000 1 ~ 168 E Q.VQD QeGJO 0.050 0 ~ 140 0 F 090 0. 519 QroCQ 0 ~ 000 Oe000 Oe$ 39 ESE J.JUV 0 ~ OVO VeDSV 0 ~ ZCQ Oeb59 0.170 O.POQ 0 ~ 000 0.000 I Oe 85'9 SE JeVDO OeQOO Oe350 Oe369 Ge170 Qe130 9.300 0 F 000 Q.VOO Ve 719 SSE QeUUU 0 ~ Qvo VeVSQ 0 '4D 0 ~ QDV 0 ~ OOU GeOGO Oe OQO 0.000 0'1 90 5 QeOGJ Q.JDO u.ooo 0 ~ OSO Ge050 0.000 Oe000 Oe 000 OeOGQ Oe100 SSM U.OOV 0 ~ OVQ VF 000 0 F 050 Oe000 0 '69 QeQOO 0 ~ OOQ o.voa 0 210 5 cI D.UUD Qeoao V.J99 0 ~ 1 ceo V.GQQ MOJO 0 ~ 909 Oe 000 Oe000 0.230 IISM O.vov 0 ~ UOO V ~ USC Oe090 0,940 OrQUO 0.000 0.000 0 ~ QQU 0 ~ 180 M G.QOV 0 eoUV. 0 ~ QCO 0 '5u 0.050 Geo40 0 ~ QGD 0. 000 0.000 0 ~ 140 MNM 0 ~ Joa Ge 000 Je093 OeVDO 0 '30 OeOUO 0 ~ 000 0. 030 0 ~ 000 0 '90 NM OeQDG OevJO 0 ~ G50 0 ~ QSQ O.DCG OeGQQ 0 ~ JG3 Oe 000 0.'ooo 0 'CO NiNM V.U46 0 '50 D.VSU 0 '90 U.VPD Ue040 0.900 OeoUG O.GQV Oe365 TOTALS Qeo46 Oeobo Oe769 2 '97 1 '87 3 '55 1 '38 0 ~ QQV 0 F 000 9 '22
,Table 6
(,Continuedt)
STABILITY CLASS G
,Sgt(9 SREcDS IN irc TERS,Pck SECONO,FR08 tTHE .S CTORS ZNOLCATQO SECTVR J ~ 15 turi5 5 ~ $ u '1 ~ 99 ~ QS 4>>45 0 ~ 91 P ~ 59,'10>>95 "TQTAI,S i'4 J,JVU v*,rOJJ v,e J59 0; JOO O. 099 0 ~ 129 Or 9-09 0;Goo ,0,,090 ,0 ~ 250 Je JJV J...u J9 U ~ VGU 0,. JUO r J>U O.e2 ov9 O,rg 90 0>> CfiG t0>> 009 .Oe S59 Nc .J ~ J UU .) ~ 009 J.QCQ G~ vl G 0.130 0./ 59 0;$ 39 ,OVOQ ;0'.1IOO .0>>779 EttE V.e uliU 0;Vuo U ~ uQU u, JUC O.e 040 V,. 1,20 0000 0>> 090 uq vov 0 140 J.KVO O.OGQ ,0,."9Qt G; u00 i.',e 099 OpOCO '.Q.'Py9 Or 000 op VGQ 0 '40 cS V; VtIO 9.090 0;Ou9 O>>1SO Jp 0.90 0>> VGO 0>>000 P,OQO .Or Coo .O.;1 SO 5i J'.ubu O.ouo 0.05 J Og 230 GeGSO O>>QCO Oj909 ,0; 009 0 ~ 990 0 ~ 329 Qrobu 'o'. 90 Oetloo
- 0. oJ09 UA )CV O.r QUV J ~ VQU Op0u9 O,POV 0 O,e,990 S 9>>UAI 'O'uu 9 v9t) 0;. vou C.uuO OrJGO Oj OJG 0 ~ OOV o.,ooo Sag GOV
'}r O.v JO u'JOJ 9 ~ CVO U..030 O.OQO 0 ~ 900 0.090 0 ~ 900 08 000 ti J F 000 OeuuO vgOCJ Op JJO Je JQJ 9>> VOQ 9 ~ JOV 0>>009 0>>QQQ 0 VQO ESP 0 'VO 0: JVO 6>>JOJ O.VOQ 0>>U3C GF 000 0 909 0>>090 0; 000 0 ~ 009
,O. 900 G.'JOG 0, u0'.j 0>>JGV O'U Jo Q,GUo 0,009 0 GOQ Or900 0 ~ 090 plioN Or000 OeJVJ JeJOJ OrQCJ O.u JO ,Oe 009 0 ~ QGQ 0>>009 0.990 0>>900 oJ H G>>VUV J>>VUU V>>VVJ Oe uVO V. Uilu Op Juo Vj 000 G.oou 0 009 0 ~ OJV O'VOO G>>OJJ vs UGu O. JQG V>>VJJ 0.099 0 90V 9>>Goo 0>>000 0 ~ Voo TOTALS J.QOV GeuuQ ve]GJ 0 '99 O>>A99 1,CQJ 9.900 0 ~ 000 2 ~ SOS
Table 7 BPN - Meteorological Data Split-Level JFD Xn Percent Ground-Level Portion Fourth quarter 1984 lory STAEILI TT CLASS NIttn SPEE93 IN SECONC FRQN TNE SECTORS INCICATEO S CTOR 0 '13 0 F 45 '
NET RS
~ 1C P
1 '9R 2 '8 4 F 45 5 ~ o1 9 '9 95 TOTALS o,v05 0 ~ 036 0 06" 0.006 0>>OCO C>>635 9 ~ CCG C.OCC 0 F 300 Q.u35 ttNE 6 ~ 565 0 ~ Goo 6.063 G.QOC il>> 606 Q.92A 0>>CC5 0 ~ OOC 0 ~ 906 0 ~ 674
>>IE C.OQO 0 '30 0 ' 3 F 366 0>>690 0 ~ 509 O.ccn 0 ~ 666 n.9oa O.G03 5 NP. Q.OGO O>>033 0>>JCQ C>>VQO oi000 9>>995 C.coo 0>>666 G ~ Qao O.COG 0 ~ 635 0 ~ 635 G.OC) 5 'i"0 G.voa 0.666 O'.OOV 6 ~ OCO C.cao 0.656 ESE 9>>309 Q.OCJ Q.QC) Ceovn G>>095 Q.con 0>>OGu 3>>avo 0 ~ 005 5= 5 '06 a>>630 O.o:3 O.n37 0 ~ C14 n>>090 t) "COO 6>>OCO Q.oco il>>951 SSE O.QOO J>>OJO 0>>360 O.urS O.693 O>>009 9 990 0.090 9 ~ JOO 0 ~ 1 ti8 5 0 ~ GGC 0>>GCQ O.QC9 CD 625 Oev44 o'.)oa 3.COO F 000 Q.SGO 0.554 5 S)t a>>GOC G.CJG 6 ~ JOJ C>>065 0>>GGC 0>>533 Q ~ COQ 0>>OCC 3>>003 O>>OCS Si) v ~ QGQ c ~ 633 9>>JOG 0 ~ JGJ ).006 6>>009 5 ~ CQO C,nnO c>>C30 0 595 NSit 0>>600 9>>CJO C.OCu C.OOJ 5 ~ QOQ a>>600 5>>GCC 6>>QCO 6>>aoa 5>>556 N 6>>GCO 0.066 Q.)69 9 ~ 990 0>>aJG n>>053 a>>660 6>>060 0>>oau Je OVO NNN 0>> GGG 5>>GJJ 0>>aaQ 6>>060 Qeu99 0 ~ 560 6.030 O. 0'30 CeaCC 0>>CJG 6 le Oe 3GG 0.533 C ~ JC') 0.960 Q.ovl 6 ~ aat) G.CCC io>>642 <<o')OG 6>>947 ttNN 9 ~ 365 0 ~ 669 5 ~ ao0<< G ei)66 0.630 ')>>935 Oe')09 6>>oci" 9. 363 9>>QJQ tOtALS 3 ~ 366 0 ~ 603 a>>055 6 ~ 'l37 6 ~ 153 5>>0>3 6>>696 6 F 342 C.OVC 0 ~ C99 STABILITY CLASS
%I)la SPEECS IN N.T;:RS PER SiCONO FRCN T)I ~ SECTORS INOICATEQ SECTOR U~ 13 9 ~ 45 1 ~ 15 1 ~ 99 2 ~ 85 4>>45 i).o1 C>>59 19.95 To) AL 5 0>>996 5 e i)56 0 F 393 6 OGQ G. VOQ 9.92$ 0;COO 0 ~ JVQ 0. 996 t)>>62>>
N'I E 0.<<60 0.336 0.066 0 F 060 0 ~ Goa 9>>912 3.637 Q.COC C.cao 0 ~ )CC NE 6>>aoo ).oac G.VQJ 0>>000 G.aac G.aca 5.019 0. QLO 0 ~ 990 >>J ~ i))
E'I C 3GG 0.635 0>>aoo 5 '00 Q.vao 5'995 9 ~ coa 6.696 0>><<noo C'.JOG 0 ~ CGG 5>>050 O.GOO 0.360 6 OOC 0.093 0 F 905 0>>GCO 0 ~ JOC O.JVO ESE 6 ~ QOG o.oa9 a.sca 5>>000
'29 v.OOG 6 '05 0>>Coin O.OQQ 0>>600 0>>OJO S 0>>uoo 0.560 0 ~ 593 0 O.OCC 6~ 5.560 0.090 5>> 360 5.92C SSE Ge<<GC 0.000 0.900 0>>032 9.045 999'n.
G31 0>>COO a>>005 C.JVQ 0 '1C 5.6uG 6 ~ 600 0.500 6 F 061 0>>631 6>>993 O.COO C'e 003 0>>005 0 5 5'ot 5 ~ Gu) 6 909 G.OC9 G>>900 0 ~ Ci)0 C.o5o 5 ~ CCC 6 ~ CCG 0 ~ 066 0>>996 SQ 0 ~ uau u>>C59 O.oea 0 ~ 000 0 ~ v)3 5>>Qaa O.COO 5 ~ CCO 0,006 5>>560
)ISv 0 ~ 30u 9.0)0 0.3CG 0>>306 0 F 337 0>>OGQ 6'.ooo o.ocn 0>>909 0>>607 6>>066 O.aon )>>OQJ 0 ~ 30>>) 0 ~ oaa 6>>930 9 ~ QJO o.oon 0 F 366 0>>059 NNH 0 ~ OGJ 6>>955 3 ~ 633 G>>060 0 ~ Jao o.car 6 ~ GOQ 0 ~ OCC 0>>QCG vs 567 hd 0 ~ 000 . 0>>GJQ 0 ~ 69 J 9>>600 0.<<A 0 ~ 635 0.900 C>>045 C>>060 J>>ab2 NNN 6 ~ 005 0 ~ Qoa V ~ ')63 'I G.365 0 ~ 000 3 ~ 525 0.600 Q.QCC Q.ac9 0 It'5 TOTALS 0 ~ 000 0>>000 O>>050 6 ~ OOE J.VS >>137 9,647 0.545 5.650 6.3R1
Table 7 (Contlnued)
STASILITY CLASS C RIha SPEE9$ IN H=TERS pcR SECCNO Roll THE SECTORS IrlaIcAT SECTOR Ga1$ i ~ CS 1 ~ 13 1 ~ 99 2 ~ SS 4 ~ 45 6 ~ >1 9~ 59'0 0 95~ TOTAL'S 5 ~ 3Cv 0.030 0 a'QV J C.501 6 ~ 314 9 ~ >>GS 6 600 Qe"QC 5.520 NNK. 0(QQS G.G50 6.563 9 QOG v v'JO 0 013 3.006 Q.OCC 0 ~ JOG O.Q13 tlE vaaoa. Oaoa3 C.)CJ O.uoo 0 31. 9 cac O.QJG c.ooo 0<<612 E'l E. C ~ QCO 6.059 6 ~ 963 Q.aao G CrJQ 0.009 C C09 0 030 G<<003 6.005 E 0~ aaa 0 '05 0 aoa 0.30a 0 900 C<<COQ 0 60" 0.0"0 0 996 (7 ~ Qaa ESE C..JQO C.oaa Oa603 Ceoao Ge000 9 0307'.GGO C hor 0<<C "0 C<<969 6 Gao SE Qe,QGC G<<aaa aa029 Qe011 0.026 Qe aaa' 0 ~ QOG 9 ~ 690 0'630 6>>057 SSE 0.660 G.aaa 3.069 0 '15 0.935 ~ 040 6<<CCO 3 ~ ()CC C..QQQ Or 3>o' S. va,voa G<<593 Q.acz 0 '05 0 C>>4 0 Qoa >>9<<CC9 066 C QQJ OC2
$ $ (l aa3CQ 3.oaa 0.3C3 G F 003 0 ~ i'9 0 ~ 030 0 CCG, 9 ~ 050 J ~ 909 0 oac Se v>>vva C<<035 C.QC>> 0.900 0 006 0<<909 0 Qc.5. O.oco 9..003 Oe 663 RSN Q<<303 a<<0>>a 3 '>>0 0 330 O.oao C.Q35 O.CQO C.QCO 3ACO 6<<905
<<, VaVQQ 0 033, ih 3Q') g ~ Jhr 0 '30 6 ~ I(0 5 9 CCC O.GCC G..i)aa 0' CCQ N ti'el, Qe,uvu 6 030 0 'Joa C.av) 0.303 C ~ CCC h99 0 F 553 5 030 '
~ Q>>53.
Na, 0 CQQ' 0<<059 0 <<9(7v 6.301 Ir ~ 0 35 i<<'e <<a 1 1' 0 COC C OCQi 9<<QGC. 0. G17 Ntlg Joil Ca609 0 999 6 ~ 530 Q.GC3 6$ 0(699 a.aoo 0'CC a.ocG To'IALS 6 CQQ. 0 090 0 922 0 ~ 035 6 ~ 125 6 .75( 'J Cv9 0' 000 0 'JOC 6'<<356 STASILITT. CLASS 0 RIl(a SRELlJS. IN DIETERS F
'" SSCO'lo Fih'1'NE 5;CTCRS IN(lICATEO SECTOR 0.13 0 ~ <<5 1 ~ 1 J 1 ~ 99 2 ~ '$>> C ~ 45 6 91 9 ~ 59( 10' 95 TOTALS; N 9<<3lta: 9.535 5 <<3C'3 C(OG3 a.043 C<<11$ ~ .1 ZZ' 0'CO 0 ~ Z.91 0.930 a..'oa3 u.aoC 'r 1',
NNE 0<<GVC 6 ~ Gca Ce.1 55 ~,1 n.ooa. v oon 6 $ 21' hE GQQQ, 0 ~ Ci) J (7 OCJ 0 ~ .5J6 0 v52 0.,1 0~ 6."Gin 0 CCQ. O.Con G<<90 5' 177'l ENE a..aao G<<GC3 C(00$ 0 C17 G.CJO 0.050 0. 0'iJO. 6<<006oo O(,5
..30(7. G<<093( 0 <<Caa, C ~ 613 6 i>>96 0<<005 0 CGO 0 OGG 6'r019 ESE C. 090. 0'090 0<<503 C. 619 0 ~ aaa 9 359 6 .r>>60 6.000: 0 ~ 606 9.07(C1 SE Oe.506 0.099, 0.031 0'.1 56 6 ~ .1 5( 6'357 0 060 i; OCO 9 ooo SSE 5 35G o..o.'o.a 9 ~ .651 O. 233 9 ~ .1 64 0'e 391 G.caa O'.Ooa. 6 ~ 47(:"
5 Oa,,i(09 G ~ Qaa; Oe "39'e 0..157 v ~,1'$6. Ci,1 ZC a.c00 000'.900 0.006 Q.OQG 0.060 0.466.
$ $ (t, '0..05,0. 0 (.633 QC4 C.GZZ 0 61'J Q435 O,OOO 0 0 665 0<<3'5 SW 9<<CQG 0 059. J ~ .7nv. C<<QOO G.oao 6 ~ 603 Q..GOO 000'.COG O.CQG Q.F00 li Sh Q ~ .CGO, 6.396, OeoC9 0.010 a. cot' 6 060 0.066 6.003 Q.Oc'l.
0<<GOG. Oe.QQQ. 5 <<9>>3 0'GSd) 6(ZI'..
Ci'057'<<OC:.
0 OGO 0 ooa' 6'<<06>> Q'41'
'RN>>t o;aoa', 0 ~ 193 0 e.CCO, 04 0<<021 0<<159: 1($ .7' OOOO 412:
N il. Gaoao O<<GQQ; Geav3 9<<091',771i 033>> 0.006 6;350 6..0>>GJ'..050, Ntl R 3<<96.9, O'03J: C 005 0 ~ 033". 0 ~ 1'60' 0 ~ OCZ, 6. 0. ()60 0 240",
TOT'ALS 0<<JGO. 6. 003', 0'..1ZS G,564. 0,675 1'.327'.691>> 6'1'68 G'.Qov'.350'
Table 7 (continued)
STAttILITY CLASS E HIttD SPE<<DS IN PETERS PER SECOND FRDH Ttte SECTO RS IttCICATED SECTQR Go'13 O ~ 45 1 ~ 10 1 ~ 9'9 2 ~ 8Q 4 ~ 45 o ~ 91 9eS9 10 F 95 TOTALS N o. 99o o.coo 0>>OCO 6 ~ 01 L n>>015 9>>C16 0.090 9>>OQC 9 ~ 995 NNE 0. 90G G. Ji)) 0.005 0 ~ 032 0.,1 1o 9 ~ 1r1 0. COD O>> vCQ 'a.ve 0 ~ 334 tl "- C ~ i) Dv v ~ Ct) 9 Groe5 0>>015 'CC h3E Q ~ GQG )>>9re Qroao 0>>1DC I'lE 0 r 0Gi) 0.0)') 0 ~ 014 e>>QCo '.Ci5 0
Q.DQQ 6.90) 0>> 009 Ot F 000 G F 000 ).02e t O.JQG G>>Q)3 0 ~ Q29 0>>041 0 ~ GQQ n.eQQ D.QDO Q.OCQ 9 ~ aoc Q>>073 cSE 0 ~ GQO Q>>0)) 0 ~ h14 3>>973 G.C2o D ~ CQD Greoe 0 ~ DCC C>>099 0 ~ 1 1r Sc 0 ~ QOQ GF 000 9.143 0.25E 0.1?c 9>>CQO 0>>000 D.QQO 9>>00) Dr
$ 5c 0 ~ )v>>1 0.093 0.132 0 '66 D ~ SQQ G>>C3". O.eoo D.QCO 0>>000 529'>>93O 0 ~ GOO G>>006 0>>Vi9 0 '90 v>>315 0>>713 '0 ~ C?3 O.OGO 0 ~ OQV 1>>466
$ $H 0>> JGG Q>>000 ).G29 DE 028 0>>GCS 0>>193 0>>COO D ~ GCQ C>>009 0.3lo Set vr OGO G>>GGG Q. 015 C>>615 0>>060 n.'ooo O.CGO e>>000 erGQC ') ~ C)V HSH 0 GQO D ~ OGQ Oe011 0 ~ Gc."3 0>>CQ? 0.009 Q>>COO 0.000 9 ~ reo Gr ~5h 0 ~ )09 G.QOG Q>>VGl 0>>022 0>>QOC e.c10 9>>COG G.DGC 9.096 0>>933 tt '(lo Q.CQQ 0 ~ JQQ 0 >>OCe) 9.003 u>>032 0>>099 o.oao 0>>000 6 ~ )CD 0>>935 tt I G. )90 G>>0)Q v,oo) 0>>024 Q ~ G15 0>>O14 Q hQQ 0 ~ DCQ C ~ DOC D. ')5e N:tH ) ) u'0
~ G.voo G>>003 C.C45 0.0.4 3 ~ C53 '0 CQ9 Q.GQQ 0 F 009 9>>149 TOTALS QouG 0012 0470 1 ~ 3o1 1 ~ 161 1 279 CQOo 0 ~ DCG 0 ~ Qoe 4 '?2 STAEILITT CLASS F WIttQ SPccDS Itl 'lETERS PER ScCONV FRD'1 TttE SEC'TDR5 INDICATED ScCTCR 0~1 3 Q ~ 43 1 ~ 19 1 ~ 9O 2 ~ <<5 C ~ CS oeO1 >>>5O 19,95 TDTAI.S N 0>>DCO Oe 990 D.ODL'>>CCo 6 F 039 O.ec o D>>CQO ).Otjt) QrvOG C>>099 G.v>>5 tlNc "
Q.QQG O.GQQ C>>925 0 ~ 030 Q>>017 O. 090 0>>DiG C. v.a?8 Nc C.:ao G>>QQQ O.OC2 0 ~ 017 ')>>GDG 0>>GDG G ~ CCC O.QCD. Oai'>>ODO 0.01 tt cttc CD 090 0>>0)Q 0 '25 Ce024 0.69 9.099 9>>CQD G DDD 0.000 Qr945 E 9.900 0 ~ 000 0>>953 C>>945 a>>60) G.con ') e CO') 0 OCQ 9 F 009 O.O>2 ESE 0.9eQ vs Qv0 0.91 C.005 0>>09v 0.009 G.CGG D.GOO 0.900 0")21 SE. Q.OOv 0 '22 o'.220 C>>152 C.96e O>>11 1 o.eoo Q ~ Goa o.ona r)>>573 SSE 0>>000 0.015 ' 0.15 G. QSQ G>>171 0 ~ 19)i 0.690 0 ~ OCtO 0 ~ GOO 0 '19 5 O.QQQ 0>>012 ~ QCC ve1o0 0.11o D>>C19 D.092 e>>OGO 0 ~ CDG 0 '54 C.900 0.033 D. Gt10 0 F 608 Cr 009 0>>909 Or Coo 0>>000 0 ~ GOC 0.030
$ 5>>t 5H ll Sll 0 '0)
C.GOQ
~ 0>>00o a.o)9 O.OCD 0 ~ GCO C>>OCC G.QOO
- 6. 9 i)D G ~ GGG 0")CQ D.CQG 0>>oe)O 0>> ODO 0>>OGD e.o o
- 0. OGC o.oon n.i)06 0>>oeo Q.QCQ O.OQQ G.ae2 6>>OQG 0>>GOG e ~ 000 Q.COO G.OOO 0>>ODD 9 00 ttVH 0.009 0>>000 0.092 OrQCC 0.000 0 F 000 0>>000 0.060 0.000 G. )O}
NW 0 ~ QOC 0 ~ OUQ Q.GC3 C>>000 0>>DQO 0.000 ) F 000 n'.ooQ 0.000 0,005 Htttt 0>>900 G ~ QQQ 0.0u5 0 '24 o'.on? n. ooo D>>000 0.990 0.000 0 ~ 036 TOTALS 0 ~ GDG 0 '59 0 '67 C>>579 O>>407 0 ~ 331 G.092 O.GOO 0.900 2.>>)35
Table 7 (Continued)
STAr3ILITT CLASS 9 NIHD 5'rrE 05 IN NETFRS'rER StCCNC r-RCN TNE 5ECTGRS IrLCIGATEC SECTOR 0 ~ 13 5 ~ '5 1' 13 1 ~ 99 2 ~ So A~ A C ~ 91 9 ~ 59 10 ~ 95 TOT'AOS N Q.CG3 0'oGJQ O.GC5 C~ 029 Go906 Ce055 0.099 0.005 0 ~ Q6rJ 0'o 032 NNE 5 ~ 055 OooQC C. GC'. 0 353 5 ~ QAA O.OQO 9. COO 5.000 OeQLC 0 155 NE 0 ~ 500 0.350 0 ~ 315 Q. 05!3 Q.CQS O.COG CoC)0 Oeooo 0 o.009. 0'2 E'rE 0 'GQ 0 ~ 055 3 ~ QC) C.911 C.CCC 0 'u9 0 ~ 590 G.CCO 0 ~ 900 0.'01A.
7';917 t CooGQ Q.C30 6.312 G.Q92 0.055 3.033 Oe 509 0 ~ 040 G.996 St JoJu3 0.335 G.JQC GAG)6 Oo035 GeQOO 0 GGG 0'~OCQ 9.903 St 0 ~ GGQ 0 ~ 522 5 ~ 6 ~0 5.1GS 0 '35 O. Oo060 5.3CO SSE C.COO 0 ~ OJG, 0.123 C.173 0 '27 6 ~ OG3 OOO'+C30 G.ooo 0 ~ )OrJ O.I)23 5 u ~ COG Q.oioo 3 ~ 317 0.35o 5 ~ 515 G.con 0;C )0 0 ~ GQQ Joo 0 ~ 09A SSN 0.500 O.O03 5. 353 0.000 5 ~ 003 O.CJO 0 ~ CUC O.OC3 Q.OOC O.CC4 SN 5.060 3.GJQ 6.050 G ~ C C.OGO 5.060 5 ~ 005 5 ~ GGO'.000 Or050 O.GOG NSNI 0.065 5 JQG 5.53C C ~ OGO 0 530 CD 030 o.coo 0. 590'.GOO 0eOGO 5 563 v ~ OJG 0 ~ >)vi O.i06 5..6 JG 0 ~ '4 'J 5 O.OCo 0 vOG')'.,0vA 0.3G3 5.053 5 ~ CC CeQJO Oo530 0 ~,939 n.CGG Or090 0.509 NJI 5 ~ Jvv v.o)V ).OCT 0 ~ QJG G.o)9 O.OC') 0 ~ .GGC 0 ~ GQG o.nQo 0 ..v01 N'rV! CD 363 0.593 QoC02 C.525 5.000 0.,955 3 ~ CJ Jo O.CCQ Qo,COO 0,3"7 TOTALS 0 000 0.532 0.227 5.,505 0.119 ') 553 O.COC'.CCO 5 OGG 0 ~ ,.SS
Table 7 (Continued) 0 Elevated Portion of JFD STAvILITT CLASS A MIND SPEEOS IN HETERS PER SECOND PRON THE SECTORS INOICATEO SECTOR 0 ~ 13 0>>A3 1>>10 1>>99 2>>35 A>>55 h ~ 91 9e59 10>>95 TOTALS N Q>>COQ 0>>009 Oo 7CC 0 ~ 500 O.GOQ 9>> 959 0>> Gaa o>>GGQ 0>> 790 0.005 Nli I 0>>500 a>>005 o.'acc C ~ Ov0 5.05G 9>> 900 0 ~ Gao O.CCQ 0>> 500 0 ~ Oav NE V.CGO 0 OJO 0>>oc J O.aoo 0>>CGG G>>caa 0>>COO O.OQC 0 ~ 755 0 ~ 000 ENE 0.500 O.i)00 0,505 0.000 Q.QJG 0.050 0>>COO 0.9oa 0 QGO O.oao 9>>000 o.oaa 0, vOi) 0>>300 0 ~ COQ 0 '00 0>> GCO O.QGG O.JOO G.970 cSE 0 ~ 500 0 ~ oca 0 ~ Qac 0.300 0 ~ QCU 0 ~ Gaa 5>>coo 0 GQC Q ~ QGO 0>>QQG Sc i.900 0 ~ Gaa 0 ~ OOU 0. Ooi' 0.500 O.aac O.CCC 0>>09v 0.9QO SSE 5>>GOQ 0 ~ 050 a>>090 ~ COC 0.070 Q.oaa 0>> cac'>>
0.500 0 ~ 500 O,JGC 5, 0.505 O>>000 Q.GGG 5.4)ljG 0 ~ 550 O>>OCO 550 Q.aoa 0>>OQQ 5 009 5SM 0>>GvG G. 550 a.aca 5 QQC 0 ~ ooij C ~ GOO 0 ~ GQQ 0>>550 0.005 5 ~ QGG SM Q.GCC 0>>050 c>>aao C>>000 0.905 cd 009 0>>cco 0>>GGC 0>>OGO 9.7"0 M5M 0>>505 9 ~ 055 0 ~ aoc G.aaa O>>000 0>>750 9>>COQ Q.OQC C,.OOG 0 CCQ O.cos 0 ~ G'70 Cava C.ljaa C ~ C95 C.009 0 ~ 000 5.005 0>>900 0 ~ 009 M'll>>t c ~ 000 0>>aov 0>>000 0>>590 0.000 0 ~ QOG 0>>990 'J>>GGC G>>050 0>>GGO NM 5>>050 0 ~ QOO 0. 535 CD QC 0 QQC C.COC a.aac 0>>005 0 "700 5>>000 N44 M 0.550 0 ~ 055 5 ~ aav G>>050 Ce 990 5.900 0>>009 0>>005 G.aao 0>>QJC TQTALS 0 ~ 050 vs 000 5 ~ OGQ 0 ~ 005 0>>OQC 0>>070 0 ~ GOO G ~ GOO 0 ~ 000 0 ~ 000 STAEILITY CLASS 5 MING SP 205 IN >>4ETERS oER ScCONG PRON TNE ScCTCRS INCICAT "0 SeCTOR 0 ~ 15 0 ~ t>>5 1 ~ 1'7 1 ~ 99 2 ~ 5J A ~ CS 5 ~ 91 0 ~ 59 10 ~ '95 TOTALS lt G~ aav Q.Gao 0.000 0>>000 0 ~ QGG 0 ~ 007 0>>COO O.CCO 0. 590 5>> 005 NNc 0>>000 0 ~ 905 0 ~ OOO 0 ~ 500 0>>CQG 0>>OQJ 0>>590 C.oca 0>>JOO 0>>GCC 44c 0 ~ 950 G F 090 0 ~ 9GC 0 ~ Cto 6 0 ~ 555 0>>900 0>>CGO C.OCC 0>>900 0 ~ ')A6 ENE 5.000 0 ~ 000 o'.Ooa 0 ~ 050 0.553 5>>009 5>>500 0.000 0 F 000 5.700 c 0>>000 O.aaa 0>>090 0 ~ OQQ 0 ~ COC 0>>000 0>>000 0>>000 0>>500 O.ooo ESE'= 0 ~ 000 CD 000 0 ~ 3CQ 0.000 5 ~ 05Q 5.009, O.CCQ 0 ~ 000 0>>000 5 ~ 900 0 ~ 500 0>>000 0 ~ occ 0 ~ 050 0.000 0>>aao 0>>000 0>>000 5>>550 Q.OQO SSE a>>900 0>>000 0 ~ 005 Q.aao 0>>055 0>>cao o.'oao 0>>500 0 ~ 005 0.000 5 0 ~ 000 0 ~ 000 0>>CC7 0>>000 0>>550 0 ~ 005 o'.Coa 0>>000 0>>000 0>>500 SSM 0>>055 0 ~ 000 o.ooa 0.000 0.050 0>>500 0.000 0.050 0>>000 5.000 5'>>l 0.000 0 ~ 900 0.000 "
0>>000 0>>000 0 ~ 090 o.oaa 0 ~ 000 Q,o)GQ 5 ~ 000
'>>4 SM 0.005 0>>aao 5>>509 0 ~ 000 0 ~ 509 o>>QQQ 0 ~ Coa Q.oca 0.000 0.000 lt 0.000 0>>cao 0 ~ 005 o.aoo 0>>050 0>>009 0.550 0 005 5 ~ 000 9 ~ 500
'MNM 0>>500 0 000 G.oca 0>>000 0>>000 0 ~ 000 0 ~ 000 0 ~ 005 o.7ao 0 ~ OGO
- o. Ej00 0>>059 0 ~ 000 0.000 0 ~ Goa 0 ~ 003 0 OQO 0 ~ 050 0>>QGO 0>>aca NNM 5 ~ 500 0>>GOO 0>>099 0>>900 0 ~ 000 0 ~ 000 0 ~ GOC 0>>090 0>>900 0 ~ OOU TOTALS 0 ~ 000 0>>000 0 ~ 000 0.066 O.ooo o.coa a.aoa o.ooo o.ooo C.QAo
Table 7 (continued)
Co STASILITT CLASS C ttItta SPEEDS Ill ttETERS PER SECntlD FROM THE ScCTORS IilCICATE3 SECTOR 0 ~ 13 0 ~ 45 1 ~ 10 1 ~ 9' ~ BK 4 ~ 45 6 ~ 91 9 ~ 59 10 ~ Ss TOTALS 0 ~ GGQ 0 ~ Gaa Q.oca Oeaoo 0 ~ 050 0 ~ Dnn OeCOO o.ooa 3 ~ 330 0 ~ 000 N'V E 0 '00 aeaaa 0 ~ i)09 o.aao Qeoao OeGOQ DeCQQ Q ~ OGO 0 300 0 ~ 000 N 0 ~ Gon Oenan Geana o s )00 0 ~ 000 O.ano 9 ~ Qna 0 ~ 030 Oeana 0 QQQ c "lE 0 ~ Dac O.O03 0 ~ Qva veooo Ceaan GeoaG Q. on O.OCG 0.990 0 ~ Qaa c 0 ~ ava Qea)a 0 ~ QGQ Oe)J9 0 ~ naa neCQO a.'coo e.aoo 0 990 aeC99 csc G ~ QGD 0 ~ 030 0 Den CD 303 G ~ Gnc Qeaaa 0 GOO 0.000 Oeooo n.ooo 5 SE' 0 9CC ae 0'39 C ~ 000 Qeoaa 9 ~ i)09 Cen92 C.aao G:Gno OenC9 0.000 eeOCO 0 ~ Cna 0 '92 0eQCQ O GOG Qenaa O.OOQ 0.000 0 300 0 OOG 9 QGQ Q.oa) ae945 ioeaC6 Qeena c.ann aeGOO D.ecc 0 ~ 3 viJ 0 C92 35M v ~ 309 9.003 Qeva) c.noa Qe)OC 3eeaa 0 CQn' 0.000 0 ~ 900 0 000, 5 il G.GOQ veoa9 0.)Gi GeaaC O.ona 0 ~ c)0 ~ GQC GeGCO O.OOG neoao
>>5>> 3 ~ ava Q.aao O.QO) 3 F 390 Q.voa Ceann O.eao Qeoae Q leCn Oeaon it Ge 300 0.09) Q.309 G~ OCG QeGQO 0.003 G.)90 0.009 Q.aoo 0 ~ aoa A itit a d )00 aevov aeaGQ C ~ QGO O.one 9.QQJ O.aaa O.C33 0 QJQ 0 ~ CGO tt il Cevvn 0 ~ 03) nevvn"n 0 '90 G AC)a 0 9J3 0 ~ 039 0 ~ GCQ u oee 0 F 000 i% VN veGvi) 0 ~ 000 a.aoa CD 309 0 ~ CQG 0. Oal) aevOD 0 ~ QGO 0 ~ Doc 9 ~ Voa TOTALS GF 903 ae033 0 ~ 046 Ce13S aee)C C~ COO 0 '90 0 ~ 000 0 ~ 903 ae184 STAEILITT CL~ss a itIND SP! 9$ IN McTERS PER SECOtla FROM THE SECTORS ItlCICC'Tca SECTOR 0 ~ 13 G~ 45 1 ~ 1G 1 ~ 99 2EE 4 ~ 45 6 ~ 91 9 ~ 59 13 ~ 95 TQTALs tl v ~ Qau c.330 ae092 Celss Qe30S 1 ~ 405 CD 292 0.139 Q.aac 2esrr NNc 0.09) o.ooa Qe046 CD 362 F 355 1 ~ 324 Tee13 Oe22? QeeCO 3 u33 NE 0 'OG GeCCc Qea)3 0.362 e.!rc 1.127 0.150 Qe936 0 ~ 000 2 301 ctlc Ooana 9.303 v ~ Qro 0 F 124 no130 0 ~ Tor Q.GQo 0.000 0 F 000 9 ~ 573 I Qeaoa QoaC6 3 ~ 3>2 CD 276 O.OOG 0.124 Q.cao o.coa G~ aac )SS cs G.i)03 0.039 Oe092 0.328 9.306 Q.srr 0 ~ C)Q 0.000 0 ~ JQC 1 C03 SE OeQGO O.QGO nes<6 1.795 1 'I 10 0.932 0 F 936 0 '95 a.aoc
$$ - c ~ Gaa CeoaG 9 ~ 23o CD 460 O.526 1 ~ 71C, 2 '31 Oeo!8 GAGES 6.479 5
Sit 0 ~ QQG Ge)00 0 230 0 ?76 0 '99 1.403 F 051 0.751 0.934 5~ 145 S Oeaaa 0 ~ Qva 0 134 C.276 0.531 1 ~ 315 1 ~ 159 ee261 GeCOC 3 e?33 S>> 0 ~ 000 0.346 9.276 Ce 23i" 3 ~ 09i 3 '99 0.150 O.OGO 0 300 1 ~ 193
's Sit Cevao 3 ~ 946 0 ~ QCQ 0.13" C 223 Ce121 Qeano 3 ~ CCG G~ OOC 3 '33 0 ~ GGQ 0 ~ Q46 0 ~ CC6 0.363 Oe226 n,?07 0 '13 O.G35 0 ans 1.34>
itVv G.CGO aoacc 0 ~ 992 C 1'~ 0.$ 56 Qe 604 0.709 G.156 o.nos 2e306 tt et NttN O.QGG G.QGO G i)na Qe303 0~
C9'.346 0 ~ 414 9.57C 0 177 u 759 9.".$ 6 n.csc 0.034 2 '53 C~ 1$ 9 1 ~ 263 ACES 0 ~ 090 Oeaeo 2e132 TOTALS 0.090 0.275 2.20'.396 S.E92 1 3. 6?n 1 0. 9>7 Se022 e.n~s 42.510
Table 7 (Continued)
STASILITY CLASS
'otIHa SPEECS Ill HETERS PER SECCNO FR CN THE SECTORS IIICICATEQ SECTOR 0 '3 0.45 1 ~ 10 1 ~ 99 2>>OO 4 '5 5>>91 9e59 10>>95 TOTALS H Q.JG3 0>>092 0 '92 G~ 184 0 '21 9.? 28 0 ~ COO 0>>090 Oe 000 1>>320 NIIE Oe GG1 0 ~ 000- 0>>092 C>>3Z2 Qo l?9 1.027 0.152 0.000 0 ~ 009 1.773 ttr 0. 001 0.04o 0>>045 0.275 0>>089 0 '45 9>>115 0.000 0.009 1>>919 Ettb 0 ~ 004 0 '45 0>>230 9 ~ 138 0 '33 0>>040 Q.GGO 0 ~ 000 0.000 0.593 r 0 ~ 902 0>>030 G ~ 133 C ~ ZSv 0>>398 C>>45Z 0.900 GeCGQ Q'.900 1 ~ Ze'.0 CSE 0 '04 0>>092 0.154 C.9bo 1 ~ 24G G~ 947 0 ~ COO 0 ~ GQO C>>OCQ 3>>4S3 S" 0 'Co 0>>090 0.398 2 '55 1 ~ 559 2.1r9 0.709 0 '5& 0.021 ?.449 SSE 0 ~ 005 0.000 0 '75 Ge752 Z>>247 1 ~ r75 0.271 Oo"17 Se314 5 0 ~ 005 0>>045 C>>230 0>>443 1>>553 1>>056 0 '29 0.000 3.214 5SM COCOS 0.092 Q~ 13e 0~ 1'S 8 0 '73 C ~ 817 >> 0'376 0 ~ 020 0>>900 1.757 5<< 0.004 0 ~ GOQ 0 '76 C>>322 G>>434 C>>406 0 ~ 1 5'0 G.G35 0.000 1 ~ 077 NS<< 0 F 003 0>>CCQ 0.230 0.092 0>>134 9.1" 5 0>>COC 9>>QGO 0.900 0>>585 M Jeool 0>>OQJ 9 ~ J4o 0.27o Qe l?C Qo122 0>>CCQ 0>>QCil 0.900 0.623 It HN 0.001 G>>946 0>>QQQ 0>>092 G.G?1 9 ~ Cll 0>>000 0>>GCO 0.900 0 '11
'I ot Q>>301 0 ~ 000 Oo)45 0 '38 0>>175 Ce07't 0 F 000 G.OCO 0.000 n>>439 HNIl 0.001 Oeu46 0>>046 0 >>13>>" Oe G'90 5o 361 0.150 0.000 0.900 0 '32 To'TALS 0 ~ 047 0>>50S 2 ~ 85o. 6 ~ 074 b>>333 11>>63o. 4>>313 G>>513 Oo>>~40 32>>S>>61 STARILITY CLASS F MItlo SPEEDS Itl HET=RS P R SrCC'IG PRCH T Ir S:CTOR3 IIIQICATEQ SECTOR 0 ~ 13, 0.45 1 ~ 10 1 ~ 9O 2 ~ .38 4 ~ 45 5 ~ 91 9 ~ 59 1 J ~ 95 TOTALS N 0>>000 0 ~ 090 9.046 9.046 0 ~ Cob Coll o o.ono C ~ 000 0>>900 0 'oo NNE 9>>000 0>>000 0>>94o C>>132 0>>134 O. 575 Goo?5 0.090 0 F 900 0.988 HE 0. 00 0.000'o G.J4o G>>092 u~ 1 A5 0>>237 0>>OS8 0 ~ 000 0.009 O 54r ENE 0>>OGO 000 Q>>000 0>>092 0>>177 "elo4 O.OuG Qooco 0>>QQO 0 F 433 E 0>>000 0>>090 O.oJ09 0.046 Q>>129 Qe 2 S 9 n.coo 0.000 0>>003 0 '14 ESE 9>>000 0 ~ 000 0.1 r4 G.4o9 0 'iIZ 0>>375 Go000 0>>000 0 F 009 1 ~ 4r2 SE 0>>000 0 ~ CQQ O.st.b 1 ~ 427 0.7o9 9.202 0 ~ 000 0 ~ 000 0>>900 2>>895 SSE 0>>000 0 ~ GOO J ~ C'4 5 G ~ 230 0>>399 Q>>S79 0>>113 0.900 0.900 1 ~ 968 5 0 ~ 009 0>>GDO '.I S22 0 '38 Go?21 0 ~ 052 0>>000 0>>OGO 0.000 Oe763 5 Sll 0 ~ 000 0>>000 0.045 0>>046 0.086 G~ 940 0 ~ OOG 0>>000 0.000 0.220 SN 0>>OGQ 0.000 9>> 346 0 '92 0>>043 C>>049 G.COG 0.000 0.000 0.221 NSIl 0>>QGQ 0>>OQG 0.900 0.046 o'.044 0>>009 0 ~ 090 0.000 0.000 0.090 N 0 ~ QI30 OoOGu 0 '45 G>>OGG 0 ~ 044 CD 009 0.000 0 ~ Ciln 0>>000 0 F 000 IttlM Oo 300 0>>OGO 0>>000 0>>009 0>>CQQ 0>>009 C.COC G>>CGO 0>>000 0 ~ 090 Not 0.000 0>>009 0 ~ 000 0.138 0 ~ 13E 0>>081 0>>GOO O.OGQ 0.000 0 F 357 HN<< Q.ooQ 0>>090 9>>090 C>>046 0 ~ 090 0>>078 0.000 0.000 0>>CCG 0 ~ 124 TOTALS 0 ~ 000 G>>000 1>>334 3 '37 2e?10 2>>622 0>>226 Oe000 0 ~ 000 9>>930
Table 7 (Continued)
STAEILITT CLASS 5 RI<<a S'P:EQS IN DIETERS P R SECONO FRGN THE SECTORS INOICAT SECTOR no)3 GoCS 1.15 1.99 2 '3 4.4S ,
So>1 F ~ S9 15 'S TOTALS N 0;OGQ 5.030 Qe003 Ceaoo 0 ~ QQG G. 099 6.006 6;ooo 5.000 O.ooo NNC Q.coo Oeooo oooa3 Ge644 G~ caa 0 ~ ') 35 5 ~ CQO 0.550 0 ~ 939 3. 12E NE 0.905 G ~ Ov3 0 ~ 092 5.005 0. 0'?6 Q. 041 G.oao 0.530 o.a55 3 ~ JZI ENE 6.093 G.oaa 0.060 0'.oo) 6+092 0 ~ Oao 9 ~ 041 0 ~ Cvo Q.OCC Geaoo 5 '33 E 0.006 a.oa3 C.OCS G.oac 5 ~ 042 F 600 5 ~ 900 5 ~ GOO 5 OI.4 ESE 0.353 G.caa 6 ~ OR2 Co274 6.313 Q.oa') Q.CvO Geooo n.369 9.>78 0.300 oeoao 0 ~ Zsa 0 ~ SJZ G~ 224 G.ar.1 n.coo a.ooo 0 'C3 1 '47 SSE 6 ~ 000 G F 000 0.230 Ceooo 0 ~ 133 F 541 G"696 Gaooo 0.055 9 ~ CGC S o.ooa Oaaaa 0 '4m 0 '92 0.000 Q.con 0;COO 0 ~ 059 G.GOO n. 13s SSN 0.055 0.535 Oo54 0 '46 0 'OO 6 5')O G.COQ Geooo 0 ~ 903 Goo'?2 SN Q.oav 6.536 0+34 0 ~ ~)50 3.300 0. C9') o.can G.OCG 0 ~ 000 0 ~ QCrr NSN 9ooou o.oaa Ooa92 Caooo 3soao CD 99O o.con Geooo 3 ~ 060 n.:)? 2 0.953 6.3CQ a+569 C.')59 0.535 3.593 5 ~ 033 0.550 i.050 0. '330 NNR a'.Lao vs 00& 0.309 6.050 3.063 0.09" 5 030 ve955 3 ~ 3au 0 ~ 359 NA 0 ~ GGC 0 ~ 333 G.GC3 C.350 O.OGG 0+053 0.050 6.059 Ceooo Q.i)96 WHA 5 ~ 050 Ge653 9 ~ O'J3 C.OOO 0.duo 0 '33 0+COO Gooc9 3 ~ 535 Oecao TOTALS 'G.OCQ 0.553 ".874 1 130 0.737 0.324 3.050 5.950 0.053 3~ 197
Table 8 BFN .Me'teorological Data Elevated JFD In Percent Third Quarter 1984 STABILITY CLASS 0 NINO SPEEVS Itl ttEToRS PER SECCttO PRON THE SECTORS IttOICATEO SECTOR 0 13 V ~ 45 1e10 1 ~ 99 2 ~ 88 Ce45 ue91 9 59 10 ~ 95 TOTALS M BIJOU u.uOU Oe045 Je 991 0 ~ 227 V~ s62 3 ~ 138 3e038 Oe455 OeOCS 8 '22 NNE 0 ~ JUu 0.040 IJI ~ 227 0 ~ 500 0 ~ 455 3e456 2.9se e 1 '37 0 F 000 8 '77 NE ueJOU 0 ~ UUU 0 31 ' 0.090 Q.st s 2 '19 2 '47 1 '28 0 F 000 7 'SO Elle OeUUV 0 ~ UJO ~ 3?1 0 ~ 2e.'7 V. 019 1e273 1.000 0 '64 Oe000 3 ~ 774 8 0 ~ VVU V ~ 000 u ~ 130 0 ~ 500 J ~ 864 1e046 0 '55 Oe090 Oe000 3 '01 ESE ue000 0 ~ 045 Je304 0 ~ 500 1 ~ 000 1 ~ 501 2 '56 Oe091 Oe000 5 '58 So OeOOO OeOUO Ue409 1.728 Ze001 4e275 Se229 1 '64 0 ~ 182 13 ~ 190 SSE VeOOU OeUVU J.S 91 1 '83 1 '74 3e6'5 1e592 Oe664 Oe 091 10e234 ueVOU 0 F 045 Ge720 1e273 1.804 3 e63'1 1 ~ 091 Oe227 0.000 8.867 5 Stt OeJOU Oe045 JeSGC 1eOUO 1eUCG 1e9$ 5 F 000 0.091 0 ~ UOO 5 '02 5 el 0 0.045 u ~ 3Cee 1.223 1e04o 2e046 1 '73 0 ~ 227 Oe000 o.230 It Stt OeVQV 0 ~ UOO Oe455 1e419 1 F 040 1eBGC Oe227 0 045 0.000 5 '48
~ 1 UeJGU U ~ OUU u.130 0 819 1e592 1 955 0 '18 0 '45 OeOVU 4.8ee ttNtt Oe000 0 ~ UOO uei27 0 ~ e!27 Oe040 Oe955 Oe318 Oe045 Oe045 2 '03 Ntt OeVUQ 0 '45 ue313 0 ~ GJ2 1 '25 1e137 Oe318 Oe091 Oe000 Se819 MNtt OeUOU OeO+5 0 '10 0 '18 0 '73 Oe773 0 '28 MOJO Oe045 2e500 TOTALS OeVVU 0 ~ 360 5 ~ 138 12 ~ 523 10e784 35 ~ 064 23 ~ 149 oe275 Oe408 100 ~ 000
Table 9
- Meteorological Data Elevated JFD Xn Percent BFN Fourth quarter 198)}
STASILITY CLASS 0
}t!NIt SPcEQS It>> tlET =PS PER S CCWQ f RQ)$ Ttt SECTO>S It}CICAT 0 SECTOR 0 ~ }3 G 45 7 }0 1 ~ 99 2 ~ SS 4 ~ 45 6 ~ 91 9p59 10 ~ 95 TOTALS ij Qe QO} 0>> 04? Q>>047 Q)3?3 0 ~ >>. SQ 1.67$ 7 ~ 492 Q. 55$ t 0>>09'S 4>>570
,t>>t)E 0>>JOE Gp000 J.14 3 0>>326 v ~ 373 1>>? Fo 3 ~ 124 1 ~ 072 Qp000 o.436
)iE 0>>JGS 0.047 0.185 0.4o5 Qp 326 2; }9} jp?72 0.420 G~ 000 Si4 cttc 0 ~ GGC Q.ci 7 0 376 C>>373 G.466 O>>793 0>>253 0>>047 0,000 2>>269 c o,noC 0,047 0,526 0>>140 Op F46 0>>047 O>>QCO 0>>,000 } F 730 ESc 0 'V4 G.Gt3 2~V 0)Cob 1>>332 7~ 370i 0 9?o Op}CC Qp000 5.o92 SE 0;005 0 F 04? 0 '2J 1, 399 } etp45 4 '".9 3.653 1 ~ 53tt 0.526 }'St }51 SS" 0 003 G+OQQ O>>230 0.46o 0.639 4>>662 bp294 2)757 0)999 jbeG39 5 0.004 O.OJO 0,,32 0.056 0,932 Sp J2} 5, $ 94 3p QSO G. S39 }Sp433 5 5>>j 0 GGS 0 ~ QVu '>>c33 0 'co 0.250 2 '37 3 ~ 263 1>>}66 0 '73 j>>5."0 5 It 0>>007 v.233 J ~ 420 Qe420 G)2SG 1 '65 1 ~ 399 C)250 Oi Ot}O 4 ~ ')04 0>>002 0 003
~ O>>140 0.420 J, 7C6 0)69o 0.326 0 ~ OCC 0,000 2p 333 0 F 002 G QGQ Op140 C.C20 0)SFS 0 ~ 7.4 6 Oe3?3 0>>093 Gp 047 2>>}94 'l tt'l 0.002 Qp 0JG 0,}40 Gp 093 O.cGo 1;" G26 Op?93 C>>606 0 '60 3>>54o Wl Gt002 u>>093 0,047 G>>326 0.513 1>> 352 0 ~ oJ6 0>>SKo Os}4 5 4>>245 tt tt'jt 0>>JG} 0 000 0 OCF 0 156 G.} I;6 1 ~ 565 1 ~ 259 0 'Co 0,00~p 3,450 TOTALS Gp049 Gtb}4 3>>496 7 ~ OCb 9 ~ 416 32 ~ 167 31>>5}5 12pS}9 2 '}7 700>>00'}
Table 10 Browns Fer Nuclear Plant - Individual Doses From Gaseous Effluents Third uarter 1984 Effluent P~athwa Guideline* Point Dose Noble gases T Air dose 30 Max. Exp.~ 0.51 mrad P Air dose 60 Max. Exp.2 0.98 mrad Total bodys 15 Residence4 0.31 mrem Skins 45 Residence~ 0.48 mrem Iodines/Particulates Thyroid 45 Real 0.08 mrem (critical organ) Pathways Breakdown of Iodine Particulate E osures mrem Child Adult
/
Vegetable Ingestion 5.27 x 10 2.51 x 10
'eef Ingestion 3.10 x 10 2.90 x 10 Inhalation 9.51 x 10 4.32 x 10 Ground Contamination 2.14 x 10 2.14 x l0 Total 0.08 0.05
- The annual guidelines are defined =by Appendix I to 10 CFR 50.
- l. The maximum exposure point i's at 6,100 meters in the NW sector.
- 2. The maximum exposure point is 6,500 meters in the NW sector.
- 3. Dose from air submersion.
- 4. Receptor is at 7,925'eters in the N sector.
- 5. Receptor is at 3,500 meters in the NW sector.
- 6. Beef ingestion dose is calculated at the site boundary at 1,650 meters in the NNW sector.
Table ll Browns Fer Nuclear Plant - Individual Doses From Gaseous Effluents Fourth uarter 1984 Effluent ~Pathwa Guideline* Point Dose Noble gases T Air dose 30 Max. Exp.~ 0.30 mrad I3 Air dose 60 Max. Exp.~ 0.58 mrad Total body2 l5 Residences 0.10 mrem Skin2 45 Residencea 0.17 mrem Iodines/Particulates Thyroid 45 Real 0.06 mrem (critical organ) Pathway4 Breakdown of Iodine/Particulate E osures (mrem Child Adult Vegetable Ingestion 4.00 x 10 1..92 x 10 Beef Ingestion 2.62 x 10 2.59 x 10 Inhalation 7.54 x 10 3.41 x 10 Ground Contamination 9.67 x 10 9.67 x 10 Total 5.75 x 10 3.25 x 10 Mhe annual guidelines are defined by Appendix I to 10 CFR 50.
- l. The maximum exposure point is at 6,100 meters in the NW sector.
2; Dose from air submersion.
- 3. The maximum exposure point is at 4,425 meters in the WNW sector.
- 4. Receptor is at 1,650 meters in the NNW sector.
- 5. The maximum exposure point is at 1,650 meters in the NNW sector.
Table 12 SFN - 3Q 4 OJARTERLY ASS SSHErlT SFtrP 3>>t>> SuhHATION VF PJPVLATION OOScS
- trlYROID TOTAL SODY IttFArtt Crt ILD T>>itl 49ui.T TOTALS IHFANT CHILD Tcitl ADULT TOTALS SuuHcRSION 1 ~ 73E-01 1 08c<<00 6.85E-01 3>>1?E<<00 5.11E+90 1 ~ 73E-01 1 ~ OSF+00 F 858-01 3~ 17c+00 5 '1E+09 CASSE-OC uRQVND 3.39E>>03 2.06E-CZ 1.31 -02 6.0?E-G2 9 76E-02 3 '0E-03 2 '6E-02 1 ~ 31E-02 6 078-02 9 '6E-Oc INHALATIOIl 1 ~ 138 03 1 ~ 152 02 4 ~ l? 03 1 ~ 54E 92 3 ~ ZZE. 02 4 '3E 03 5 'ZE-02 1 ~ 63E 02 5 '3i-92 1 ~ ZtrE-01 CON tlILK 7 ~ 4cE 02 1 ~ 93E 01 5 ~ 05E 02 1 ~ 918 01 5 ~ 06E Dl 1 '1E-04 5 '95-04 1 8 34E-94 1 73E-03 AEEF INGESTIOH O.OV <<90 2.76E-03 1.188-03 7.1?E-OS 1.11E-02 0 ~ OOE<00 4>>06E-05 2 '4E-05 2>>CCE-04 3>>13E-94 VEG INucSTION 0 CG +00 1 47E-02 6 ~ 3GF 05 3e'63E 02 5 ~ 72 02 O.DOE+00 tr 91E-05 3 '5E-05 2 '?E-04 3 '4E-OC tOTAL HAN REH 2 ~ 518-Vl 1 328+09 7 61E<<01 3 ~ 49E+00 5 ~ 81E+00 1 ~ 81E-01 1 elSE409 7 ~ 1SE-01 3 ~ 29E 400 5 ~ 3'400 SFW 4334 CUARTERLY ASS=SS E'lT E<<NP D>>TC SUHHATION OF PCPULAT>>ON CCScS TrlY ROI 3 TO~ AL "03Y NFA'lT CH LJ I cV ADJLT YCTALS ItlFANT CrrILD Tc!ti COUL Y TOTALS SVSHERSIDV 2 ~ CCc Oc 5.236-01 3 335-31 1 ~ c4c>>00 2 ~ Cr. E>>93 8.4CE-CZ 5 ~ ZIE-G1 3 '3E-r)1 1 ~ 54ceSC 't ~ 8 E y rr N GROUVD 1 ~ Slc-93 1 ~ 13c 02 7 ~ iui-03 3.335-"I 5.35E-OZ 1 ~ 31E-0 1 ~ 1'E-92 7 ~ 13E-53 -3 ~ 33 92 5.3$ i-3?
I re rIA LA 7 I 0'l 7~ 'c 04 7 '3E-03 2e688-93 <<eurrc-03 r?c n 1.5 lE-03 c ~ 35i-GZ 7eSOE-03 Ze 51c-02 c~ v.; 07 CON rtlLK 2~ c>>cc << 1.53c-32 5.7>E-EZ 1 S~c-01 1,17c G4 4 '5c-34 1 8 I 9'= 8 87F-34 1 67i-33 SEEF INviSTIOte 3.335<<90 7.35E-OC 15c-"4 1 94=- 3 2.>cE-OI 0 058+C 5 r'rc'c Se?VE-C5 3 '6c-34 >> 17c <<cG I'iGESTIVN 0 ~ 9C ~JJ '28-<<3 1 ~ ECE-E.3 '5c-3c ACRE-G ~ G,GVEyGn tr ~ lYc 05 5 ~ Sc-05 2 'lc-94 3 ~ Z?E TOTAL HA'l REH leuei-91 6 Cqc-cl 3 <<Oc-~1 Ze?Ii+09 6~ 79E-'e555-31 3.cSE-C1 1 Eni>>OC 6<<c>>0
Zab9:E. 3.3 L:IQUIO!EFFL'UENT:DOSES TEROWNS .FERRY >NUCLEAR PL'ANT -'ROUTIINE RELEASES 3RO CU'ART'ER-1'984 IO*****4**+*****%**i***%'!2!2+%'0**'*%4***07*0!*4'%**S ir*'k'0!0!>0!*%'*W
- BON,c GI TRACT THYROID 1YOT'AL BODY 'L.IVER -'5'K IN
'I ~,MATER "INGESII05 'A
.Ue'ST PLYMOOD .ChAHPICN 'FA'PER
- Ae -HAXIHUH 4'NQIVJDUAL ';CHIL'0 I(HREH) 3 '4E-03 4 5E-04 '1<<4!E-'02 '8i3 E-04 3 'E-03 8 ~ 3 E'-04
'8 ~ >HAXIHUH Zt:DIVIDUAL'ADULT '(HREH) .1 ..3E-03 6 3E-04 " 7..7E"03 1 75E-03 2 OE-03 1'E "03
'C ~ TENNE S'SEE .RIVER TPCPULAT'ION '(H'A'N .REH) 2 '6c-02 :4 5'c-'03 .4 ~,2'F 02 >1 'BE-'02 3 '48-02 >1 'BE-02
- I'I ~ 'FI'SH;INGESTION >F RON WHEELER "LAKE 'BELEOW WFN
.A. HAXIHU)LIhPZVIDUaL:CHIL'0~(HREH')
Be HIAX'IHUH .INDIVIDUAL-'ADUL'T '(HREH)
- I!.'3>~~
6 ~ '1 02 3 E:.03..
'5 74E 03 2 02 0~'-&E 0202
'8 ~ 2 E 02 7 <<9E
-9. 7 02
'1'c'01
. -IIE'02:,-
'7'9E 02 0 TEEM EE E .2'TVEE;POPOLEATEOM !I>ill'8 IIEIO ~,'8"9032 E C 9E 01 7 3E+00 7 18>00 1 ~
.1 2E'+01
.7 'I,,'+00 III ~ RECREATII'ON;P T
!WHEEL'ER LOAr~L 'BcLDW 2FN
'Ae 'SHORELINE;INDIVIDUAL'IHREF) 1 '7E"02 '1<<'4E '02 1i2E 02 :1 741E-02 '1e 2E 02 I .'EE-02 POPULIAT ION .'(HAN REH) "3<<'BE-01 3 EOE-01:2-e>6E 01 3..2E-b1 '2' '7 E 01 3'<<9E-01 TB ~ IN MATER INDIVIDUAL (HR'EH 2 '3E-'b'4 '1i 9'E-04 1. 9E-O'4 '2.'OE"'0'4 1 7E~04 POPUL'ATICN (HAN-REH) '-2 ~ '.5c-'04 2 'OE'"'0'4 1 e'8 E-04 >2 1!E-04 1,8c 04 C~ 'ABOVE WATER INDIVIDUAL '(HREH)
PCPULATION (HAN REH)'2~BE '6 ~ '6'E 04 0'4 1i'9E -'04
- 5 2 E-04
'1~4 E-04
'4 'F-04 1%>9 E 04 5E-04 19 7.E
- 74. 7'E
'04 04
>2~3E 04 76 8'E-'0'4 Iy. TOTAL A~ HAXIHUH INDIVIDUAL'CHILID (HREH)
QAEIJJlEO~ + C 8
Table 14
-Li-" L'-":,BROMNS FERRT NUCLEAR PLANT ROUTINE RELEASES '4TH QUARTER-19843'.EAw+scS@~>'EE ~ .',E
- 3' SE P
~P U~ S ~ PLTMOOO-CHAHPZON PAPER:- ~ '.'4 EEOEXE'. P. ~ .'Ji E, "~i'."~.L," 'L 'L ~
A~ HAXZHUH INOZVZOUAL CHILO (HREH) ~ ~ '~s ~ .P E-:~g"Pyi'. 1 ~ OE-02-~L'; -9E4E-04-., 9 ~ 3 E-03 -'. 2 ~ 5 E-03 1 ~ 3E-02 2.5c 03 1E=03-
~ TENNESSEE'IVER'POPULATION (HAN REH),::,'.";g:-6 ~ 2E-02' .'39 1E-03 . 5 9E"02 -.-"='4 ~ BE-02 9 ~ 4E-02 4.8E"02 II~ FISH INGESTION FROH-. - "'= 'E>-
~
L -- ':"-1"" '-' -'-- - -'- " - .' ~ 8 ~ HAXIHUH ZNOZVIOUAL AOULT (HREH) ',.' ", (2 ~ 1 E 01 '+g1 ~ 6E 02 2 ~ 9E 01 2 ~ 8 E-01 3.8E"01 E<<t<<S 1~ EEME-2.8E-01 EEPO1 3
< L3 MHEELER LAKE BELOM BFN L A ~ SHORELINE INOIVIOUAL,(HREH) 2 'E-02 2E3E-02 2 ~ OE 02
- 2~5 02 2 ~ 1E 02 3 'c-02 L
6W1 E POPULATION (HAN-REH) - ~ = 3 ~ 4E-04 . 7E-04 2 'E-04 "=. '2.8E-04 2 4E-04 3 'E-04 C~ ABOVE-MATER INDIVIDUAL.(HREH) P
~ == ~- E~ ""..:.. 2 ~ 4E-04 '.-.. 1 ~ 9E-04 P
1 ~ 8E-04 . 2 ~ OE-04 . 1 ~ 7E-04 2 'E-04 4 L P IV TO L A~ HAXIHUH I~NO VIO AL CH 8 ~ HAXINUH ZNOIVZOUAL AOULT (HREH) H H
-'- 2 ~ 4E-01
+
=..".'4 ~ 1E-02
~~02 3 ~ 1E-01 .
' E EE-O~,..EE 3.1E-01$ +4 1E-01 J<<<<~.
- 3~
4E.-OE 2E-01
+ +
PS SE P ~ " 4
Table 15 Browns Fer Nuclear Plant - Five-Year Summar of uarterl Doses" Air Submersion Li uid Effluents Air-y Air-P Skin Total Body Maximum Organ Total Body Maximum Organ Year uarter (mrad) (mrad) (mrem) (mrem) (mrem) (mrem) (mrem) 1980 1 .35 .44 .31 .21 .11 Thyr. .05 .03 Thyr. 2 .39 .48 .33 .22 1.19 Bone .03 .Ol Thyr. 3' .40 .52 .31 .21 .07 Thyr. .09 .11 Liver
.93 1.09 .64 .45 .08 Thyr. .15 .19 Liver 1981 1 1.97 2.11 1.40 .96 .09 Bone .07 .10 Liver 2 .28 .35 .23 .15 .98 Bone .21 .25 Liver 3 .15 .19 .11 .07 .14 Bone .23 ~ 28 Liver 4 .09 .12 .09 .06 .08 Thyr. .05 .06 Liver 1982 1 .11 .16 .09 .07 .13 Bone .11 .13 Z,iver 2 .33 .52 .23 .17 .11 Bone .06 .07 Liver 3 .27 .35 .37 .27 .24 Bone .10 .12 Liver 4 .19 .23 .20 .13 .16 Bone .07 .08 I,iver 1983 1 .47 .45 .24 .16 .25 Bone .07 .09 Liver 2 .48 .42 .32 .19 .31 Thyr. .09 .11 Liver 3 .18 .34 .16 .10 .30 Bone .25 .33 I,iver 4 .39 .85 .24 .14 .04 Thyr. .54 .73 Liver 1984 1 ;39 .66 .47 .30 .41 Thyr. .58 .79 Liver 2 1.19 2.09 1.48 .98 ~ 09 Thyr. .11 .15 I iver 3 .51 .98 .48 .31 .08 Thyr. .10 .12 Liver 4 .30 .58 .17 .10 .06 Thyr. .31 .41 Liver Prior to the third quarter of 1980 the liver was not considered in liquid dose analyses.
- Note: All calculated
~ doses are below limits. specified in Appendix I to 10 CFR 50.}}