Text

Semiannual Radioactive Effluent & Waste Disposal Rept, Jul-Dec 1981
	ML20049H756
Person / Time
Site:	Haddam Neck File:Connecticut Yankee Atomic Power Co icon.png
Issue date:	02/22/1982
From:	; CONNECTICUT YANKEE ATOMIC POWER CO.
To:	;
Shared Package
ML20049H754	List: ML20049H753; ML20049H756;
References
	NUDOCS 8203030514
	Download: ML20049H756 (55)
	v • d • e

m 4

6 8

g TABLE OF CONTa"rS PAGE Supplemental Information...................... 1-8 Caseous Ef fluents - Summation of all Releases............. 9 Cascous Ef fluents - liixed Mode Release (Partially Elevated and Partially Ground)....................... 10 Liquid Effluents - Sum: nation of All Releases............ 11 Liquid Effluents.

12 Solid Waste.

13 - 14 Of f-Site Do s e Es timat es....................... 15 - 22 Meteorological Data......................... 23 - 54 e

6203030514 ggoggy DR ADOCK 05000213 PDR g

r a

e y

REGULATORY LIMITS

1)

Specifications for Gasous Waste Effluents (1),,The release rate limit of noble gases from the site shall b j

TI.$

d I 41 Ejy +

l 34 f Q'ivwhere Qy; = release rate from all roof and u C1/sec (ground release) r.

a the 4th individual nuclide i

lide i

.jy = the average gama energy per disintegration for nuc f

713 = the average beta energy per disintegration for nu The release rate limit of all radiciodines and radioactiv sater'.ais in particulate form with half-lives greate (2) wastes from the. site shall,be:

~

6 ny < 1 1.2 X 10 where Qv is defined above.

The average release rate of noble gases from the site during any (4)'

calendar quarter shall be:

Tis

.J450 Qivj 1 1

~

and.

3 90' Qi%._ 1 1

{ Yiy

m The average release rate of noble gases from the site during (4) any 12 consecutive months shall be 3

2900 Qiv 1 1

{ Eg'g and.

t

)

Ely 1180 Qty 1 1 The average release rate of all iodines and radioactive materials in particulate form per site with half-lives greater than eight (5) days during any calendar quarter shall be:

8 1.5 X 10 Qy 1 1 a

g.,

h$, L

l The average relcar.c rate of all icdtnes and radteactivo mnterials (s) per site in particulate form with half-lives greater than eight.

days during any period of 12 consecutive months.shall be:

N 8 Qv < 1 3.0 X 10 I

The amount of iodine-131 rele'ased during any calendar quarter sh'all p) knot exceed 2 Ci/ reactor.

,r The amount of iodine-131 released during any period.of 12 consecutive (g) months shall not exceed 4~ Ci/ reactor.

Should any of the conditions of (1), (2) or (3) listed below exist the licensee 8

shall make an investigation to identify the causes of the release rates.

f define and initiate a program of action to reduce the release rates to design objective levels listed in Env. Tech. Spec., Section 2.4 and repore these actions to the Commission within 30 days from the end of the quarcer during which the releases occurred.

(1)

If the average release rate of noble gases fro:a the site during any calendar quarter is:

Tjg 5800 Qty 1

or.

400

'Qt)

~

1

'~

{I ty If the average release rate of all iodines.and radioactive mate' rials (2) in particulate form per site with half-lives' greater than eight days during any calendar quarter is:

5.9 X 108 Qy > 1 (3)

If the amcunt of iodine-131 released during any calendar quartet

is greater than 0.5 Ci/ reactor.

t I

e

,d*

s e

e S

~.

O

m-gelfications for Liould tlaste Ef fluents_

'Tne concentration of radioactive materials released in lik'gid waste effluents 10 CFR Part 20 Appendix 8

,at the site shall not exceed the values specified in Table II. Column 2. for unrestricted areas.

The cumulative release of radioactive materials in liquid 1

The cumulative release of radioactive materials in liquid waste effluents, excluding tritium and dissolved gases shall not exceed 20 C1 in a.ny 12 consecutive months.

- The equipment installed in the liquid radioactive waste system shall be paintained and shall be operated to process radioactive liquid wastes prior to their discharge when the pmjectcd cumulative release could

~

exceed 1.25 Ci/ calendar quarter, excluding tritium and dissolved gases.

-l j

. be discharged directly to the environs shall not execed i

a

.j tritium and dissolved gases.

if the cumulative release of radioactive materials in liquid effluents, excluding

~

tritium and dissolved gases, exceeds 2.5 Ci/ calendar quarter, the licensee s make an. investigation to identify the causes 'for such releases, define and

' initiate a program of action to reduce such releases to 30 days from the,end of the quarter during which the release occurred.

,3

~

O I

e e

)

t l

l 1

4

'3

i Maximum Permissible ConcentratiCns (Micro Curisc/c1)

)2) fission and Activation Gases a.

Er - 85, 3.0 E-07 Kr - 85m-1.0 E-07

~

Kr 87 2.0 E Kr - 88 2.0 E-08 3.0k-07 Xe - 133 Xe i35 1.0 E-07 i

Xe - 135m 3.0 E-08 Xe - 138 3.0 E-08 Ar - 37 1.0 E-04 b.

Todines 1.0E-i0 1 - 1 31 1 - 133 4.0 E-10 1 - 1 35 1.0 E-09 Particulates, Hal'f-l.tves > 8 Days c.

Sr ;,89 3.0 E-10 Sr - 90 3.0 E-11 Cs - 134 '

4.0 E-10' Cs - 137 S.0 E-10 Ba - 140 1.0 E '

La - 140 4.0 E-09 d.

Liquid Effluents

. Sr - 89 3.0 E-06 Sr - 90 3.0 E-07 Cs - 134 4.0 E-05 Cs - 137 2.0 E-05, 3.0 E-07 I - 131

_4_

n h

({

MqiddEffluents(cont.)

Co 58 9.0 E-05

~

Co.60 3.0 E.-05 Fe 2 59 5.0 E-05 2n - 65 1.0 E-04

~

Hn - 54 1.0 E-04 Cr - 51 2.0 E-03' 2r - 95

' 6.0 E-05 Nb - 95 1.0 E-04 Ho - 99 4.0 E-05

~

Tc - 99m 3.0 E-03 j

~

(

Ba - 140 2.0 E-05 I

La - 140 2.0 E-05 Ce - 141 9.0 E-05' Eu - 154 2.0 E-05 Be - 7 2.0 E-03 Ru _106 1.0 E-05

~

Ag - 11,0p 3.0 E-05 Sb - 124 2.0 E-05 Sb - 125 1.0 E-04 Co - 57 4.0 E-04

~

Xe - 133 3.0 E-06

~

Xe - 135 3.0 E-06

~

Ar - 37 3.0,E-06 r.r - 85 3.0 E-06

~

.=

W' 3.0 E-T' s

(

3 Qtr.

1981 4

Qtr. 1981 E Beta E Gamma E Beta E Gamma 2.04 E-01 MeV 5.80E-02' MeV 1.96 E-01 MeV 4.56 E-02 MeV Avers + e Energy (E) 3.

For Fission and Activation Gases Measurements and Approximation of Total Radioactivity 4.0 a.

Fission and Activation Gases: An in-line G. M. detector monitors stack effluent. Gas samples are collected on the stack and are analysed for low level fission and activation gases.

b.

lodines: Continuous in line charcoal filter on main stack effluent. Charcoal filters are then analyzed for iodines.

c.

Particulates: Continuous in line particulate filter on main stack effluent. Particulate samples are then counted for Gross y.

A monthly composite is made from weekly samples.

The monthly composite is checked for gross alpha and 89Sr - 90 Sr.

l d.

Liquid Effluents:

In-line scintillation detector' monitors was liquid being released. Prior to discharge a sample is taken.

Principal gamma emitters, entrained gases and tritium analyses are performed. A monthly composite is made from the weekly samples. Gross Alpha, 89sr and 90Sr are determined.

"<" are in units of uC1/cc (MDA values) 6

4

5)

Batch Releases s.

Liquid 1.43E+02

1) Number of batch releases:

2) Total time period for batch releases:1.26E+03 Hours

3) Maximum time period for a batch releasg:.40E+01 Hours

4) Average time period for batch releasesb.83E400 Hours

~

5) Minimum time period for a batch releasg:.33E-01 Hours i

6) Average stream flow during periods of 15,800 Cubic feet release of effluent into a flowing per second stream:

b.

Gaseous

1) Number of batch releases:

3.20E+01

2) To'tal time period for batch releases: 2. 98E+02 Hours

3) Maximum time period for a batch release:

Hours 8.62E+01

4) Average time period for batch releases 5.32E+00 ours H

5) Minimum time period for a batch releas8i33E-03 Hours

6 Abnormal Releases J

I

^g a

9 e

4 9

\\'\\,

7_

Abnormal Releases G-41 Letdown Aov 7-28-81 1825 - 1825.5 Total Activity Curies Meteorological Data Xe-133 9.42 E-03 Wind Speed 1.00E+01 mph Xe-135 8.17 E-03 Vertical temp diff-5.00E-01 F Xe-135M 1.98 E-03 Wind Direction 1.65E+020 0

Xc-137 8.91 E-03 Wind Variance 3.00E+01 Xe-138 9.20 E-03 Kr-85 1.75 E-05 Kr-85M 1.14 E-03 Kr-87 2.73 E-03 Kr-88 2.33 E-03 Ar-41 2.36 E-04 G-50 to 53 Boron Recovery Meteorological Data 8-11-81 0020-0050 Wind Speed 4.00 E+01 mph Xe-133 3.82 E-01 Vert Temp diff -7.20 E-010F Xe-135 4.50 E-01 Wind Direction 1.80 E+02 Xe-133M 9.30 E-03 Wind Variance 3.00 E+01 Kr-85 4.23 E-04 Kr-85M 1.10 E-01 Kr-87 1.12 E-01 Kr-88 1.01 E-01 Ar-41 1.95 E-02 G-59 to 66 Waste Gas Compressor 8-14-81 1407-1518 Meteorological Data Xe-133 6.61 E-01 Wind Speed 2.00 E+00 mph Xe-135 6.10 E-01 Vert. Temp diff 6.00 E-01 F l

Xe-133M 1.21 E-02 Wind Direction 4.00 E+01 ~

Kr-85 5.38 E-04 Wind Variance 4.00 E+01 Kr-85M 5.65 E-02 Kr-87 1.77 E-01 i

Kr-88 1.53 E-01 Ar-41 2.56 E-02 G-68 to 69 Primary drains Tank 8-16-81 2015-2019 Meteorological Data Xe-133 3.29 E-01 Wind Speed 1.50 E+01 mph Xe-135 3.01 E-01 Vert. Temp diff -2.00 E-01 F Xe-133M 5.98 E-03 Wind Direction 3.15 E+02 Kr-85 2.39 E-04 Wind Variance 3.00 E+01 Kr-85M 2.84 E-02 Kr-87 8.70 E-02 Kr-88 7.56 E-02 Ar-45 1.26 E-02 8

1 G-74 Waste Gas Compressor 8-26-81 2127-2129 Meteorological Data Xe-133 1.12 E-02 Wind Speed 5.00 E+00 mph Xe-135 9.45 E-03 Vert Temp diff 0.00 E+00 F Xe-135M 1.80 E-03 Wind Direction 1.20 E+02 Xe-137 7.16 E-03 Wind Variance 3.00 E+01 Xe-138 8.28 E-03 Kr-85 1.01 E-05 Kr-85M 1.24 E-03 Kr-87 2.42 E-03 Kr-88 2.31 E-03 Ar-41 3.39 E-04 8a i

y EFFLUft<T AtlD WASTE DISPOSAL SEMI-Ari!1UAL REPORT

- 1981 i

GASEOUS EFFLUEitTS-SU!cMT10ti 0F ALL RELEASES l

UtilT QUARTTR QUARTER I EST. TOTAL 3

~

4 l

ERROR %

A.

FISSI0tt & ACTIVATIO!1 GASES

1. Total release Ci 1.64E+03 -

1. 3'iF40?

I lnP4ni

2. Average release rate for peribd uCi/sec' 2.06E+02 1.70F+01

3. Percent of Technical Specifica-6.24E+00 5.15E-01 tion limit B.

10DItlES

1. Total iodine - 131 Ci 3.39E-03 6.87E-03 1.1nE+01

2. Average release rate for period uti/sec 4.26E-04 8.64E-04

3. Percent of Technical Specifica-tion limit 6.40E+00 1.30E+01 C.

PARTICULATES

1. Particulates with half-lives 1.79E-04 1.76E-03 1.40E+01

> 8 days Ci i

2. Average release rate for period uCi/sec

? 9sr ns o ' 9 t v _ n r.

3. Percent of Technical Specifica-3.41E-01 3.35E+00 tion

4. Gross alpha radioactivi'.y Ci.

<l.00E-Il 7.81E-08 D.

TRITIUM

1. Total release Ci 3.84E+01 2.66E+01 8.00E+00

2. Averaae release rate for period uCi/sec 4.83E+00 3.35E+00

3. Percent of Technical Sptcifica-9.84E-02 6.82E-02 tion limit 9

l o

L

rf?

?

EFFLUENT AND WASTE DISPOSAL SEMI-ANNUAL REPORT - 198 CASEOUS EFFLUENTS-ELEVATED RELEASE

~

CONTINUOUS MODE BATCH MODE 3

4 3

4 NUCLIDES RElIASED UNIT QUARTER QUARTER QUARTER QUARTER

2. FISSION GASES Krypton-85 1.13E+01 3.53E-01 3.50E+00 3.51E+00 Krypton-85m 1.93E-01

<l.00E-04 2.33E-01 1.15E-02 Krypton-8/

1.60E+00

<1.00E-04 5.91E-01 5.72E-02 Krypton-88 1.25E+00

<l.00E-04 5.24E-01 2.14E-02 Xenon-133 1.45E+03 1.57E+01

9. ole +01 1.15E+02 Xenon-135 8.82E+00 2.65E-03 2.23E+00 9.15E-02 Xenon-135m 8.80E+00

<l.00E-04 1.99E-01 1.70E-02 Xenon-138 6.60E+00

<l.00E-04 6.63E-01 2.17E-02 Others (specify) Carbon-14 3 11 3.83E+01 2.66E+01 l1.25E-01 1.96E-02 Argon 37

<l.00E-04

<l.00E-04 1<f 00F-04

<1.nnF-nA Argon 41 1.43E-01

<l.00E-04 l8.86E-02 1.90E-02 Xenon 131M 3.06E+01

<l.00E-04 1.06E-01 8.35E-02 k

Xenon 133M 1.30E+01

<l.00E-04 2.05E ol 5.36E-01 Xenon 137 3./6E+00

<1.00E-04 6.4/E-ui 1.69E-02 TOTAL FOR PERIOD 1.33E+03 1.61E+01 9.93E+01 1.19E+0z Iodine-131 1.97F-n1 6.R7F-01 Y

Y lodine-133 1.47F-01

<l 00F-10 I

Y Y

Iodine-135

<l.00E-10

<l.00E-10 X

X TOTAL FOR PERIOD 3.39E-03 l 6.87E-03 X

X 3.PARTICULATES Strontium-89 3.42E-07 6.34E-07 X

X Strontium-90 5.24E-08 5.53E-07 X

X Cesium-134 2.59E-05

' <l.00E-Il X

X Cesium-137 6.30E-05

' 7.76E-04 X

X Barium-lanthanum-140

<l.00E-Il

<l.00E-Il X

X Cerium-144

<l.00E-Il

<l.00E-ll X

X Cobalt-60

9. ole-05 8.93E-04 X

X Manganese-54

<1.00E-Il

<l.00E-Il X

X Cobalt-58

<l.00E-Il 8.42E-05 X

X Alph2 -

<l.00E-Il 7.81E-06 X

X Ruthenium-103

<l.00E-Il

<l.00E-Il X

X Zirconium / Niobium-95

<l.00E-Il

<l.00E-ll X

X Ruthenium-106

<l.00E-Il

<l.00E-Il X

X Chromium-51

<l.00E-ll 1 <l.00E-11 X

X TOTAL FOR PERIOD 1.79E-04 l

1.76E-03 X

X X Reported under Continuous Mode.

t k

10

w

t.

EFFLUCitT Atl0 tlASTE DISPOSAL SEMI-Af flVAL REPORT

- 19hl[

-... f,.

~,

LIQUID EFFLUEflTS-SUMMATIO!! 0F ALL RELEASES y

UlllT QUARTER QUARTER EST. TOTAL 3

4 ERROR ".

A. TISS10ft A10 ACTI, VAT 10!i PRODUCTS i

1. Total release (not including l

1.10E+01 tritium, gases, alpha) l Ci 4.09E 9.517 n?

2. Average diluted concentration

'I durina period uCi/ml 2.14E-09 4.97E-10

.'I 9.51E-01

3. Percent of applicable limit i

- 4_nov+nn

' B. TRITIUM

1. Total release Ci 3.03E+03 2.46E+02 3.50F+00 f

2. Average diluted concentration l'. 58E-05 1.29E-06 during period uCi/ml

3. Percent of aoolicable' limit 5.27E-01 4.30E-07 I

C. DISSOLVED AtlD EtiTRAlllED GASES l.90E+01

1. Total release Ci 7.ssv_ni

, gnm_g.

2. Average diluted concentration

4. 00E-09 1.99E-ll durina period uCi/ml

3. Percent of applicable limit 1.'33E-01 6.63E-04 D. GROSS ALPHA RADI0 ACTIVITY 8.00E+00 Ci.

7.70E-04 1.20E-05

1. Total release E. Volume of waste. released (prior 1.46E+07 3.00E+00

- to dilution)

Liters i uv#n.7 F. Volume of dilution water used during period Liters 1.92E+11 1.92E+11

')

5n7400 g.

O*

e e

11 N..*,,

Efft UlltI A D ll,t1: 9[,i'Osti. :f I-A="Et. P.f!'DHT

- lW

]

l.IOUID ffilUff!IS 1981 CO.lTI UCUS l'00E BATCl! !'.0DE 3

4 3

4 UNIT QUARTER CUARTER

~ QUARTER QUARTER Gutt. II'E 5 RI I I A,.I D j

l9

! 2.64E-05 Ci 1.54E-04 es_nnn ng m

n,

[trontium-89

'oir nf i 5. 72E-05 Lt rGntillm-90

)

Ci 8.74E-05

<5.00E-OR

?

i 4.m-O Tsium-f34 l

Ci

<5.00E-07 1.25E-03 6.49E-01 5.71E-03 17.98E-03 1 3.29E-02 I 5.17E-01

G5ium-157 l'

Ci

. m -02 l<l.00E-06 3.19E-02 1.37E-03 lcdine-131 Ci 6.00E-04 8.36E-03 L 9_Anc nx C1

<5.00E-07 pal t-58 1.81E-02

)

6061t-60 Ci I

6.12E-03 8.75E-04 9 o?v n?

tron-59 ll Ci l

<5.00E-07

<s nnv n7 i

I Cj

<5.00E-07

<5.00E-07 6.56E-05

<s_nnF n7 Modlum-22 Macan5se-54 Ci

<5.00E-07 1.14E-04 6.47E-04 1.19E-01.

'3 00E-07

<5.00E-07 3.41E-04 i5.50E-03 r

Ci bnremium-51 rconium-niobium-95 Ci

<s.nnF-n7 A nqv_n5 8.91E-Os 2.79E-02

<5.00E-07 Eiybdenum-99 I

Ci

<5.00E-07 1<s OOF-07

<5 nng_n,

<5.00E-07

'I

<s.one_n7 jechnetium-99:

I Ci I

<5.00E-07 I <5.00E-07

%Erium-1an;nanum-140 Ci 2.34E-03

<1.00E-06 2.08E-04 l1.RoF-na Ierium-141 Ci

<5.00E-07

<5.00E407 I<5.00E-07 li 3.7IE-02 l<5.00E-07 Ci 9 - 6?r n1 et nne_nc sIodhw"11?

Ci

<5.00E-07 l<s boF b7

<5.00E-07

& 1AF n9 if0dige'115 Ci

<5.00E-07 l<5.00E-07 1.11E-n?

9 1sr n1 (eriUT.-l 44 guthenium-106 Ci l

<5.00E-07 l<5.00E-07 1.37E-02 7.87E-01 Silver-110m Ci I

<5.00E-07 l<5.00E-07 4.35E-05

<5.00E-07

'Citimnion llU l

Ci

<5.00E-07 l <5.00E-07

<5.00E-07 1.26E-03 2.19E-04 9.87E-05 Etimony-125

~

l Ci

<s 00F-07 es nnv n7 lNE 10 halt-57 l

Ci

<5.00E-07

<5".00E-07 1 aov nA

<5.00E-07 Nibe-133' ~

l Ci 1.01E-01

<5.00E-07 5.67E-0?

ifotal for Period (above)

Ci 1.40E-01 1.11E-02 2.69E-01 1 8.40E-02

)2cnon-133 l

Ci

6.72E-03

<l.00E-05 6~90E-01 1 anc n, Ben 0n-135 Ci 2.31E-03

<l.00E-05 4.46E-02

<1 nnr n; droon-37 Ci

<1.00E-05

<l.00E-05 1.17E-02

<1 nnF ns krypton-85 Ci

<l.00E-05 l<l.00E-05 1.00E-02

<1.00E-05

[Iritium l

Ci l 1.41E401 l2.60E-01 f3.02E+03 I2.46r+0? '

t g*

\\.

12

W-Solid Waste and Irradiated Fuel Shipments' July 1, 1981 - De.cember 31, 1981 i

A.

Solid Waste Shipped Offsite for Burial or Disposal (Not Irradiated Fuel) 1.

Type of Waste, Unit 6-Month Period Est. Error %

9 95 E+01

+

3

a. Spent resin, filter n

sludges, evaporator Ci 1.55 E

+ 1.0 E+01 02 botten:, etc.

b. Dry Compactible m

2.58 E O

+01 yaste, contaminated Ci 9.29 E

+ 1.0 E equipment, etc.

s

c. Irradiated components N/A N/A N/A 7.22 E+

d. Other:

m

+

Dry vaste in dru=s, Ci 1.56 E

+1.0 E contaminated soil and gravel, filter charcoal l

2.

Estimate of Major Nuclide Composition (By Type of vaste)

I a.

Isotope Percent 3.88 E+01 l

Ce-lh1 l

Ce-1kk 1.kh E-0 Cs-134 5 38 E 5 21 E+0 Cs-137 Co-58 3.1h E+01 2.20E[01 Co-60 0

Mu-5h 3.41 E 00 Ru-103 2 74 E Ru-106 7.27 E Zr-95 1.19 E O 1.82 E+gg Nb-95 01 Cr-51 2.71 E 13

~.

Solid W'sto and Irradi":ted Futi Shipments July 1, 1981 - December 31, 1981 f

f

b. d.

Isotope Percent Ce-lhi 1.73E; Ce-1kh 1.01 E-Cs-13h 5.18 E-Cs-137 1.94 E 3.15Ej

~

Co-57 Co-58 1.05 E Co-60 2.82 E Mu-5h 2.80 E Ru-103 1.39 E Ru-106 2.85 E 1.21E]E 7.h7 E Zr-95 Nb-95 1.hk E+01 Cr-51 AG-110M 1.32 E I-131 6.02 E-Na-22 1.68 E-01 Fe-59 1.55 E-01 SG-125 7.57 E 3.

Number of Shipments Mode of Transportation Destination 3h Truck Barnwell, So. Carolina B.

Irradiated Fuel Shipments (Disposition)

None 4-e 14

OFFSITE DOSE ESTIMATES In accordance with the requirements of Section 5.6.1.b of the Environ-mental Technical Specifications and Regulatory Guide 1.21, the off-site dose to humans from the gaseous and liquid radioactive effluents of Connecticut Yankee have been estimated.

These estimations are performed using measured effluent data, measured meteorological data, and calculational models developed by the U.S.

Nuclear Regulatory Commission.

The dose estimates generally tend to be conservative due to the use of conservative assumptions in the calculational models. More realistic estimates of the off-site dose are obtained by analysis of the environ-mental monitoring data. A comparison of the doses estimated by each of the above methods will be presented in the Annual Radiological Environ-mental Monitoring Report due to be published April 1,1982.

1.

Dose Models a.

Airborne Effluents Maximum individual and population doses due to the release of noble gases, radioiodines and particulates were calculated using the computer code GASPAR( ). - -

A

The code uses the semi-infinite cloud model to implement the dose models 'of U.S.N.R.C. Regulatory Guide 1.109 (October,1977).

The values of average relative effluent concentration (X/Q) and average relative deposition (D/Q) used in the CASPAR code were generated using a meteorological computer code which implements the assumptions given in Section C of N'tC Regulatory Guide 1.111. " Methods for Estimati c Atmospheric Transport and Dispersion of Gaseous Effluents in Routine Releases from Light-Water-Cooled Reactors".

Releases from the CY 175 foot stack were considered ar, a mixed mode release (partially elevated and partially ground). The Pasquill stability classes were determined using tha temperature gradient between the 33 foot and 196 foot levels of the meteorological tower.

The CASPAR code was run separately for continuous releases (building ventilation) and batch releases (vaste gas tanks).

The resulting doses were then summed to determine the total dose.

e._ _ _ _ _ _

b.

Liquid Effluents Maximum individual and population doses due to the release of radioactive liquid effluents were calculated using the computer code LADTAP( ).

The code implements the dose models and parameters given in Regulatory Guide 1.109 (October 1977).

2.

Results a.

Airborne Effluents The calculated doses are presented in Table 5.1.

l

(

l For population doses, the GASPAR code calculates the dose to the whole body, GI-tract, bone, liver, kidney, thyroid, lung and skin from each of the following pathways:

direct exposure l

from the plume, direct exposure from ground deposition, inhala-l.

tion, vegetation, cow's milk and meat.

~

The values presented in the attached table are a total from all pathways, but only the whole body, skin and thyroid dose are presented.

I._ _ _ _ _ _

For the maximum individual, the GASPAR program calculates the dose to the same organs listed above for the following pathways:

direct exposure from the plume, direct exposure from ground O

deposition, inhalation, vegetation, meat, cow's milk and goat's milk. The doses are calculated for adults, teenagers, children and infants separately. Unless otherwise noted in the table the doses given are for adults.

For the plume, ground deposition and inhalation pathways, the maximum individual dose is calculated at the offsite location of maximum decayed X/Q where a potential for dose exists.

For the vegetation pathway the maximum individual dose is calculated at the vegetable garden of highest D/Q.

For the meat, cow's milk and goat's milk pathways, the calcu-l lated dose is included as the maximum individuals dose only at locations and times where these pathways actually exist.

Doses were calculated at the cow farm and goat farm of maximum deposition. The doses presented in Table 5.1 are the maximum doses observed.

b.

Liquid Effluents l

l The calculated doses are presented in Table 5.1.

l -

The LADTAP code performs calculations for the following pathways:

fish, shellfish, algae, drinking water, irrigated food, shore-line activity, swimming and boating. At Connecticut Yankee, the algae, shellfish, drinking water and irrigated food pathways do not exist, and thus only the other pathways are included in the totals given in Table 5.1.

Doses are calculated for the whole body, skin, thyroid, GI-LLI, bone, liver, kidney, and lungs.

Table 5.1 presents the doses to the whole body, thyroid, and the maximum organ dose, which was either the liver or GI-LLI.

The dose to all other organs was less than that given for the liver or the GI-LLI, for the respective quarters.

Calculations are performed for adults, teenagers, children and infants separately. Unless otherwise noted in the table the doses given are adult doses.

3.

Analysis of Results The doses are well below permissable levels and are of no signifi-cance as far as effects on the general population. For perspective, the average whole body dose to an individual from natural background radiation in the vicinity of Connecticut Yankee is about 40 millirem ( }

for a six month period as opposed to the average individual dose

~

within 50 miles of the site of 0.000074 millirem from gaseous m

effluents and 0.0005 millirem from liquid effluents during the report period. The maximum individual whole body dose of 0.23 millirem irca gases or 0.36 millirem from liquids are approximately one percent of the back-ground dose.

i l

I I

i 4

l l

I t

l 4

e l

l.. -

F REFERENCES II)

GASPAR Dose Code, K. F. Eckerman, Radiological Assessment Branch, U.S. Nuclear Regulatory Commission, Wash. D.C. - Revised 2/20/76.

(2)

LADTAP - U.S. Nuclear Resulatory Commission; Washington, D.C.

(3)

Does not include an average additional dose of approximately 30 stem due to internal radiation, fallout, etc.

s e

=

I TABLE 5.1 Of f-Site Dose Estimates Connecticut Yankee

.1281 A.

Airborne Effluents Units Jniv cant nee-nec 1.

Maximum Individual Dose M1111 rem a.

Whole Body 1.85(-1)a,b 4.06(-2)d b.

Skin 5.23(-1)b 6.28(-2)b c.

Thyroid

1. 73 (-1) c 3.74(-2)e 2.

Population Dose 0-50 Miles Person-Rem a.

Whole Body 2.25(-1) 3.95(-2) b.

Skin 7.80(-1) 8.04 (-2) c.

Thyroid 4.21(-1) 9.03(-2) 3.

Average Dose 0-50 Miles Millirem a.

Whole Body 6.33(-5) 1.11(-5) b.

Skin 2.20(-4) 2.26(-5) c.

Thyroid 1.19(-4) 2.54(-5)

B.

Licuid Effluents 1.

Maximum Individual Dose M1111 rem a.

Whole Body 2.06(-1)f 1.49(-1) b.

Max organ (3RD QTR-LIVER; 4TH QTR-GI(LLI))

3.00(-1) 7.82(-1) c.

Thyroid 5.80(-2) 3.48(-3)f 2.

Population Dose 0-50 Miles Person-Rem a.

Whole Body 1.24(0) 8.86(-1) b.

Max Organ (3RD QTR-LIVER; 4Til QTR-GI(LLI)) 2.17(0) 4.13( 0) c.

Thyrcid 2.15 (-1) 1.46(-2) 3.

Average Dose 0-50 Miles Millirem a.

Whole Body 2.90(-4) 2.07(-4) b.

Max organ 5.07(-4) 9.65(-4) c.

Thyroid' 5.02(-5) 3.41(-6) 1.85 (-1)= 1.85 X 10-I a.

b.

At a location 510 meters NNU.

c.

Infant thyroid at critical goat and vegetable farm - 2400 meters NW.

d.

At a location 1410 neters SE.

e.

Child thyroid at nearest land of 510 meters NNW, f.

Teenager dose-all other doses are adult doses unless indicated other-uise.

22 L

D e

6 HADDAM NECK METEOROLOGICAL JOINT FREQUENCY DATA FOR CONTINUOUS RELEASES 3RD QUARTER O

w...

kl 4.3 4(L J

-4 O

ed N

4 M

O m

-e e

4 e m

=e

.J me (J

dJ f4 ee we m-M 4

to N

<3 (J

O N.e O

ee e

58 e

O O

O 8 O N

8 M

W 9

sn O

m o

e e

Z (J

O O

O O I O M

O e

e E

M I

9 L

H 3

m O

Q M

e e-o M

O E

E sse 2

in O

M kJ O

E m

I ee O

O O

O O'

O O

O I O

>=

O e

g g

Q O.

i

.4 ks O

O b

7 E

-e M

b w"

5 e

e. ee I

w U

N O

16 g

O UO W

W **

O O

N m

O O 8 b a

Z O

M H

O M e a

e==

U M

O r4 9

naJ 8

st)

>=

"3 E

4 p=

eaJ C h.

a

>=

>e J

P 40 W

W 6tt e

M Q

M O

E

.3 8

E ks M

w 3

ID It O

>= eJ

.F 8

6 O

a(

H vs

h H

Ee O

O O

ce ce M

eo e4 O

b b

O O g N eM M

8 p

.3 s

M

.2 4

24 s

3' E

s 8

=

Pr m

c(

- S

.- x I

O M

w

.a H

kJ w

O U

W E

Z eaa Q

U U

N w

4 w

Z la at O

EL EE O =* ha 40 U

w M

MM Z

m 1

E taJ O

>= tJ A 4

O O

e N

re e b

e N

O ee O

m.

.C.

e.e

.N

.( \\ O r

.-o

-e io M g

=.

r B "

MCm 4

I Q

M r

-e M

e 3

tr D.

I M

M N

hJ ha O taJ E

O

>= (/3 O

=a O

w w

U uJ Q O th H

E M kJ M

bM

>=

(

09 8-an. O g

F b

80

- 3 4 i

g gg 3 8

96 O

O O

O N

b M

eJ M

b b

4,*

I @

b i

Ma M

tas s

I O

H MU C

O 9

e tJ 3

m e

N we BB 4

O 8

+

LO O 4

18 kJ N A 4'

4 in me <

3 EP 4ft 40 >

O ee *(

E 1

M

>=

.J a hJ et 4

b Q D >=

ce og O

N O

e-o O

e ed N

pe ce 4

ts O

O I @

>=

8 **

4 ts 7%

8 I

4 M

4th I

E

>=

O' s >= ee = M O

w l

-e M

m n.a O

.J

>M 19 M M

i ft E (O

>=

dD ana 4 M

=t O

P= >= Q Cf3 H

JZOUM O

E J

wM e-e 3 2

O

=(

J E Cr

.J O-H

[

w P a kJ U J

M Mg M

H hs w

42J siJ kt w

3 3

3-3 Z w

a 0

<,h<

a u

z = w o w n n n n n

3

--3 eaJ ha 40 Ef3 3

E Z

O g F 6 at a(

ens

..a sa s-w en E

J Mw<<<

e-e 9

)

d 30400 E

O 6-

f tJ w

O aC CL th 4

4 O

O tJ 4

8 tJ N

sh tJ h

M,.e e

M en

.J at tJ C3 NO O

(J N

=e th O

mw 1

86 3

e w

O O

O 9 O f

M E

CJ O

M I

O O

me O

Z w

M Ca.

O M

9 M

O O

N O

O O

O 8 O M

e E

6 O

.e.

H w

6 L

H O

D th O

c3

==

H O

m Z

H ee M

e O

H

=

I 0

2 th at O

O O

O 9 O

>=

I 9

8 t

F p;

g

e e

N O

w O

H 3

w H

H U

M Z

taJ

C D

E W

Q b

E

4 II

\\

O O

E H

UO Z

Z Q

w ee O

O O

O s-e O

O O I **

e U

O H

0+

Era e M

O at M

e w

8 ft1 H

~9 at k

N c(

H wQ E

H H

-.J b

EL M

M La.t e

M O

=*

M O

N

-J 8

EE w

H w

H IE

3 is O

H tJ.

s

.J O

=(

e us CL H

EO O

O O

as O

O O

.-e tJ re O

O N

ee O

O 9 M 0 **

M M

O J

0 e

3 O

4 Z4 tr 3

8 w

I D

H *

=(w O

F I

O th t$

-8 H

taJ w

O E.J Q

H E

W g>

U U

R w

C cf uJ Z th at O

CL u

cr OM w an laJ H

HM Z

th E

teJ O

t-N A at W

T N O I

M o

O O

tJ ee 4

CJ M

4 tJ eg N

tti ce

=-e eb O

=*

I 4 M Q ZH H

e 8

H 40 th 4

H H

E

.e M

=

0 0%

3 to EL e to M

y N

w taJ O W

O e-W1 O J

O w

w u

taJ OOM H

a Mw M

to M 9=

4 M

f w 10 g

HJ

=

O O

-e

==e M

tJ fJ (J

fJ f4 C

M O

tJ B

-o M

Q

(

l I M th MJ H

kJ e

0 0

H MU E

O 4

I 3

th

\\

-e II

=e 8

O 8

MO 8

le baJ \\.3 4 M ** at Z

EPM @>

O th.

-* 4 J w go cc I

H H

J L

U D t-tJ

e e-o O

O O

N H

M 8 th H

8 =*

at BI

") Z s

e e >=

H H

M t

E V

H me H

e t*J

=* 8 H Z

H O

M 4J O

J (Q

>H $1 M M

O sa Ct ED H

E3 tah at H

at O

F-t- O M H

M JZMOM M

tr J

hs H H ~3 2

O at JEo J

O H

wHJwO J

H J

H EL <<

H

>- w taJ taJ n.J Las las 3

3 "Y

g

1 3;

0

=

w u.

4D p

u ;;

Z Z

w in in M

M M

3 w

w M

M 3

3 M

O QHU44 0

w

.JMHH M

cx J

H kJ 4 at a(

=(

H

-I O

3 O EL O O EL O

4 2

24

01/2G/82 PAGE 3 CO?N YAfD(EE NUCLEAR PCWER STATION / Ut1IT 1 WIto SPEED /WIto DIRECTIOtt/ STABILITY JOINT FREQUENCY DISTRIBUTIOt1 WIto LEVEL = 196 FT CELTA T INTERVAL = 196 - 33 FT PAE7 JILL STACILITY CLASSES / CLASS DETER?tINATICtl METHCD = DELTA T DATA FERIOD = 1 JUL 81/0015 - 30 SEP 81/2315 DATA ACQUISITIC?1 INTERVAL = MIt1UTES 00-15 0F EACH HOUR PASQUILL STABILITY C

-- DELTA T LESS THAN OR EQUAL TO -1.5 At1D CREATER THAt1 -1.7 DEG C PER 100 NETERS SPEED IN METERS PER SECCtc DIRECTICtl 0.5-1.5 1.6-3.3 3.4-5.5 5.6-8.2 8.3-10.8 10.9-15.0 15.1-20.0 GT 20.1 ALL NNE 1

1 0

0 0

0 2

NE 1

0 0

0 1

Et:E 1

1 0

0 0

0 3

E 1

3 2

1 0

0 0

0 7

ESE 2

8 2

2 0

0 0

0 14 SE O

2 5

1 0

0 0

0 8

y SSE O

1 8

1 0

0 0

0 10 S

0 0

6 0

0 0

6 SSW 0

1 6

1 0

0 0

0 S

SW 0

3 4

3 0

0 0

0 10 WSW 0

1 2

0 0

0 3

W 3

4 1

2 0

C 0

0 10 WtM 0

9 15 4

4 0

0 0

32 tM 3

2 12 2

1 0

0 0

20 NfM 3

4 3

0 0

0 10 N

2 4

1 0

0 0

7 ALL SECTOR 17 44 67 18 5

0 0

0 NO. OF VALID OSSERVATICt1 =

151 NO. OF CALMS (WS LT O.5M/SEC) =

0 NO. OF MISSING WD/MS =

1

.1 a

01/26/82 PAGE 4 CCtal YANKEE t?JCLEAR POWER STATICH / UNIT 1 wit 0 SPEED / wit 0 DIRECTICN/ STABILITY JOINT FREQUENCY DISTRIBUTICH wit 0 LEVEL = 196 FT DELTA T INTERVAL =

1'16 - 33 FT PASQUILL STABILITY CLASSES / CLASS DETERMINATICN METHOD = DELTA T DATA FERIC3 = 1 JUL 81/0015 - 30 SEP 81/2315 DATA ACQUISITICH INTERVAL = MINUTES 00-15 CF EACH HOUR FASQUILL STABILITY D

-- CELTA T LESS THAN OR EQUAL TO -0.5 A!C GREATER THAN -1.5 DEG C FER 100 METERS SPEED Iti METERS PER SEC0fC DIRECTICH 0.5-1.5 1.6-3.3 3.4-5.5 5.6-8.2 8.3-10.8 10.9-15.0 15.1-20.0 GT 20.1 ALL t01E 19 5

0 0

24 NE 15 7

0 0

22 ENE 9

19 8

0 0

0 36 E

10 22 15 2

0 0

49 ESE 2

20 4

1 0

0 0

0 27 SE 2

27 45 7

0 0

81 SSE 0

9 19 3

1 0

0 0

32 g

S 0

16 14 5

0 0

35 SSW 0

11 18 6

0 0

35 SW 2

6 14 5

0 0

27 WSW 3

8 6

5 0

0 0

0 22 W

2 10 8

8 0

0 0

0 28 RM 10 20 27 27 1

0 0

0 85 PM 12 30 44 21 2

0 0

0 109 IOM 12 31 2

0 0

0 45 N

27 22 3

0 0

0 52 ALL SECTOR 125 263 227 90 4

0 0

0 NO. CF VALID CBSERVATION =

710 NO. OF CALMS (WS LT 0.5M/SEC) =

1 NO. OF MISSING WD/WS =

0 1

l 8

i l

l l

I

?

9eJ O

at Ek

.J b

ee en M

.e O

4 ee O

.e eJ pg

.J M

4 4

M m

(

M eJ tJ se ed tJ nre

(

e ti tJ O

\\

-e to O

hJ ee J

>=

e i

pg bJ O

O O

O O eO E

ed i

EM O

H O

o ee hJ A

c6 O.

sn U

O g

M O

O O

O g O M

S o

e.4 e

H w

ee p

O 3

A D

in a

w

.e H

th N

O O

2 m

a O.

M O

Z eh e

t me O

O O

3 O

O O

O I O Z

t i

N H

e

~

hJ k

O W

D kJ M

M L7

>=

pe 5

5

g. e w

a N

O b*

se OO 8

7 Z

Q kJ *e O

O O

O 4 O U

M 9"

40 t t

U M

o 4

M i

w 7

(

I to R.J C 4

N at H

> >=

-J sh th 1*

M

>=

uJ e

en H

O M

M

J LE O

hs H

w

E 80 le O

t-eJ.

S.

>=

kJ I

.J

>=

EC O

O O

O a=e me O

O ed M

EO O

O g i r

=J I

e ce th O

O

[J 3.,

at 2e e

tr 0

at

+

Z O

D H =

0 taJ O

H C5 IA a

H uJ uJ O

en

>=

E Z

w r

u u er w

a w

2 ah et O

gu eg Cr O

hJ M

U w

H HM 2

sh bJ Q

>= (J lb at a

g A

t N O m

O

e O

4 O

b b

O b

tJ 4

tJ fJ eM O

M.

Q Zm

>=

e H

ee m

e 99 cr*(

H G th 4

0 **

n H

E a

th e

a p

3 Em EL 8 W

M 4

N kJ hJ O esJ D

n t-vs O

.J B

w w

u w

oom s EL to w M.

W t= to t=

at e

u. e p >-

p

=E I

=J M

O M

tJ

e m

O O

4 4

M tJ tJ tJ

@ 6 th 2

MJ H

ha e

=e tJ sd M

M (J

es to M

6 nn O

H f9 u E

D 6 ed 4

3 th e

e b

N -= 10

.e -

t O

9 fft O uJ N J et 4 va ** at

@ lO N >

I m

W O

- 4 J teJ H

.4 laJ

>=

h U D >=

me ee M

4 tJ b

M (J

b O

O O

t w

M e me

>=

40

12 b

M tJ (J

w we ce M

M 4A 0 M at 1 M nt.i H

8 (g

CF

>= es p=

ee.J H 7

H O

wJ et.J b

.J M

> H re H H

n is a sa >= so O

w *1 H

=(

>- >- O M

>=

O mJZ@OH H

InJ H H7 Cr

.J a er is J

b o

w6awu

.J H

ed M 6 *(

H

>=

kJ kJ IaJ 84 saa ha 3

3 3 3 3 7,;

u 4

=

w w

cn 7

o ;; z =

na in in o o o o o 3

b w

w w

n n

3 2'

n o

p r.J M >= >=

2 H

gr

=J H kJ 4 =( *(

e4 H

3 O Eb Q O EL D

=J Q

~

27 u

.= n. --

I J

+

W D4L b

4 4

M 4

si til

.O d

.d.

=*

.J ntt M

4 c4

.J

.e

-e et fJ GNe o

to N.

M

.o CK W

e es eJ o o o o o o o o o o o o o o o o oeo E

ed a

t/l o

8 o

O ye CE "3

W 4

D.

O H

M e

U o

0 H

7 ed o o o o o o o o o o o o

o o o oeo H

U O

e 5

E H

W I

H O

+

e A

D M

O s3 e

M til Q

CK H

e s

n o

M O

E til 0

4

- o o o o o o o o o o o o o o o oeo N

I i

B g)

H I

Z e

I n.J CK o

99 D=

D W

H U

ba W

4

$ u u

o*

8 6

u N

I y

O o.

W-o o o o o o o o o o

e o o o o oeo a

Z O

O M

H

~

ne u

H O

(

r4 8

W 8

W D-

)

C CE 4

>=

WO N

0-

.J o

Q.

E W1 VD H

W

+

M e

M Q

f CE J

CE o

u H

W "t

Q H

O

> tJ H

b at f=

W

0

.J o.

H Ee o o o o o o o o

o o o

o o o o e.*

M O

.J 8

8 M

N 3

0 4

24 0

3

=4 3

M

I w

W D

H I

O th

.J H

taJ W

D M

()

D=

E J'

W E

7 O

O CE W

.J

,4 W

Z ttt at O

EL

=(

tr O -* W W

u te naJ H

HM aJ Q

H eJ w M

9 m

f 4NO th o o o o ee o o o o o o o o M

o oed O

z~

H e

e n

~

H 40 th 4

5

=

4>

H E

=*

M 4

g 2

D. fL 8 W

09 7'

WWo W

D HWD J

b W

W u

W ooM H

CL

9 naJ H

HM

(

M wM e

t Q

(

8 4

.J M

4 eo 4

- La f*

M

-e o

f4 89 4

Ps 6ft

- e o M.J M

W e

ce we i f*

M M

fi U E

O 0

4 a

8 em 3

hth N -e te 3

o a

stl O.J 8

WN 83 e en =e *(

eOO>

7b e o at.J W nh.

I M

(E b

.J w

6 UDH f

o -*

fJ o o me 89 99 tJ tJ d

F9 e o e to H

10

) Z e

eo eo e4 me 8 e

(

4 H

Ltt e

(P H **

k CE

-e.J H Z

H o

W

(

A O

=J M

> M te M M

g) ti tX Q CG Q

u et M

(

.J _:tHnn *-

o nOH e

M anJ H H3 gg

.J JRU

.J O

.O at W H.= w u J

M

=J M Elm *(

H W

W W

64J W

taa 3

3

T K*

Q

T U

W W

M M

3 2

'2' 2

W L

C D p

u 5 2

Z W

m en M

M o

W n

3 W

O Q H U 4. >4

..J m e -

d W

m En M taJ et 4 =(

=(

H

.J e

3 o EL O O Q.

O J

O 4

Z 28 n-

. rw r,

f 8

W OM th

.J M

O M

b M

O O

O fJ M

b O

.J 4

to Ne e4 O

M O

O O

O M

(J N*

9 e3 O

O O

I en (J

O O

O O eO M

b I

I E

C M

M O

E

>=

D th Q

sD

=*

M*

O G

O M

i O

O O

O eO 1

O t

O 2

w M

O O -

C=

7 (E

M b

W 5 e 0

o w

E e

10 N

O *

>=

O OO 8

Z O

EsJ ed O

O O

O eO

==

- b

>4

>=

O I I

O M

O fi 0

W t

tf5 W

"3 4

W 4

>=

w w@

N N

.J IL 4

M 0=

W M

M O

O M

O N

=J EL w

M O

w-3

D at W

6= tJ

>=

8

=J 0

(

Q W

Es EG O

O O

O I O O

I 0

M tr O

24 0

3 4

I b

I w

M e w

.3 b=

Z 4

in a

M w

O M

l

$J k

E w

2 J

u u 2 w

h w

- M as 4

a

=(

a b-W x

M u

W M

MM H

M I

L w

O

= fJ L tr M

O O

eJ O

O i M o

g

.< N. o M g z.

w 0

i M G th 4

0 4

0 M

E at 3

fx (L 0 w

M Z

N wwO g

o 9= M O O

5 w

w u

w OOM P-EL MW en

>M 4

M I

AM

>=

g

( t h w M

O O

O M

w O

O O

M M

o O ne M.J M

w e

e C

M MU E

O 0

td O

3 th N ** H O

O I

M O.J O

10 wN 4 En -e at

~

& en to >

O

- 4 a

in 0

M J.J w Q 6

Q D >=

O M

tJ O

O O

fJ O

O 8 h

>=

80

) Z 0

0 **

(

e >

M h

th e

I (1

>=

-=.J M '4 M

O w

at a J

an sn

> M is M M

H & d)

D=

EQ Q

w at M

=(

p- >- O in O

M J2 MOM M

wM MD 7

Cr 8

l J n cr J

O O

(

w >=.J w O

.J M

D=

l

=J M th at M

p-w w w w w w 3

3 3

7 3 3,;

O 2 w w

Z

% w M

o M

M in o

u 3

,5 3

4D u

w w

M to 3

.I En O

l C? W 4 w

f.) > in >- *=

w M

ct

.J F* saJ et at at at M

w Q

3OEDO E

o 4

i 29 m

O 80 taJ 44 M

4 4

EN mJ G

M tJ b

to eo to N

4 Sh M

tJ O

J

==

b o

M M

to (J

O P

85 4A 40 C

M (J

J 80 et we se me

==

es og og (J

M ee eo H $*

tJ G

49 aC N

f >=

e

\\J (J

fE O

)w

\\es O

(9 (9 se Z

8 e

O O

O 3

O O

Sp O

O I O MM tJ 0

MM I

EO M 1

MM C

EE A th 00 e

O GG 5O lO

~~

O O

O

-b i

e M

e.e 8

6-e GA 3

all 4

so eo M

fJ (E

H M

O 38 M

e i

O sn O

O O

O eO la 0

0

>=

0 W

P 0

\\

0 M P=

- 2 L.J O

C=

E) n T

M 3

K ha J

E Q

>=

u.

e N

De ZN g

UO 8

w kJ **

O O

ce O

O O

O O t h D.**

- b M

N O e ce a tJ

p. o M

O M

I J hJ I

Q IS

>=

)

at CE

b-h.

=t

>=

wO a

>= >=

.J k

O r

w u in M

O 10 O

N

.J tr hJ M

hJ s)

H D= (J 4 >=

['I i

OJ

)

e4 ha e k

D*

EO O

O ee M

4 4

O O

b 4

4 O

O O I O 40 O

I ee ce ce ce ce 4

4 8 b

- M

h. 3 N

O 24 E M 4

.=a ef Z

M e kJ O

6-E IA OM O.J ME

=J H

tsJ U

>=

E 4

.J.J Q u u

kJ aaJ Z LA et EL at et Er O ** w M

>U kJ M

MM 4A 9

AA nnJ O

to tJ A e

t N O LO O

C M

N O

M LA Ps es Ett G

tJ M

N b8 P*

OO f.

Z ee e

CJ

- su in 4

4 sq eo O'

M f 6 f.).

M e ah 4

I en a e at

=.Q C'

e s-e t

=*

3 tJ. EL e M

N t.J uJ O s.)

>= M O b w w

u w OOM A

Mw e

M

>= M

>=

M O

l ta tJ an 80

'3 p

=(

9 4 M

O N

P b

tJ 80 ee c o M

C O

4 4A 4:*,

6 EA CJ @

Z M.J M

e tJ ee M

4 e

4 4

(J sJ (J

M P

P en M eM ee M

MU E

e I h ed e

te 3

IA e

% e* st

-e EN i

O 40 O ZH w N.8 O

@ M =* 4 M 49 POO>

>= Z

- =(

tr th at O B

>M

>=

4 J &aJ M

e 6

U w

d es e

4 P

P hh tJ M

4 M

N th N

LO 8 4 Er >=

H Z

M B

P lh 6ft (J

ee me tJ M

I4 LO P 1 (J hJ =(

4

>=

M M

th 9 e la >

e H eg g(

e e

gn gg me A M Z

.J O

O n*J at - J O

O M

> e-o se M anJ ci H tr 80

>= >*

e4 Q kJ *(

M be CD

>= p-n to M

MO

=J Z 40 O M

=J MM

.J [

g0 b

5 40 J taJ M M3 M

D

.J 1l [T 63 4 w',e Ju

-4 M

e-

\\

=J M EL e4

>=

kJ kJ 43 LaJ w

taJ

] Q Q U

<n M

o -- = = w M

M in M

in in M

I

= w

u. u.

t*J N

teJ tsJ M

M

I N

2 10 OQ p >J" t' *E *(

4-to >= >=

=J Cr

.J e e M kJ =( et et J

e4 30400 4

O J

QQ 30 n

y

e e

9 HADDAM NECK METEOROLOGICAL JOINT FREQUENCY DATA FOR CONTINUOUS RELEASES 4Til QUARTER e

es kJ O4 EL

.J O

O tJ O

M es m

M O

ed M

4 4

O me

.J M

t tJ GN 4

O (J

N ee O

ee 1

30 o

O O

O 9 O tJ 9

M 9

04 O

M O

I M

(J O

O O

O 9 O M

8 E

b 4

4 w

A W

e D

40 O

u

e e

H M

tz P

g U

O M

H sah I

D M

e O

O O

O

e O

O O t we O

e t

P G

.O 4

U ee Z

e saJ O

O

>=

7 m

-e N

??

saJ u

o, b

M p: e

=

u 8e N

U

0

>=

0 WD 2

saa nas me O

O O

e 4

4 O

O 9 ee

6 a

M i 0 -

U

~ a M

4 w

I M

>=

7 at ft

h.

et

=

6*J 4 2

J LL 44 M

H tas

.H o

.s M

Cr

.J B

u O

saa H

saJ 3

80 la O

e-ed

>=

I 8

0

(

t-kJ

EL

>=

E (O O

O O

O O

O O

O b

tJ O eO M

O g

J s

I tJ M

fr b

O s

at

e e

3 4

=

=(

I O

D H

w 6

s z o in

.J H

taJ taJ Q

M U

E 6a4 Q

U U

tr aaJ kJ

- M at Q

te at a

b -* kJ M

U "k"

th hJ H

e-o M 9

A kJ Q

H tJ ik g

tNa z

M O

O O

O

.-e O

M O

e.* e

.e i tJ o

k Q Z **

>=

4 0 t4

(

M M

4 0

M E

M I

O uue M

M Z

@s 7

W taJ O tJ 1

Q

>= 0 O

.J b

w W

c - MJ U

w Ms EL M

B= M

>=

aC M

8 wM y >=

e i

.J M

O O

e4

.e

=e O

O me o

t4 4

tJ O 8 e Q

M.tJ e-o taJ e

8

-e M

e6 4J E

c e

I N

6-*

6 3

th N ** 10 I

O I

M.J N J O

4 03 6

e n -e *(

@M@>

O

-=*(

u th I

M

>=

.J H saJ a(

w U t ) e-me O

O (J

O O

e O

O O

ee O

O 8 th t=

ee OZ e

4 4

e 4

H to*

I E

P H **

B=

- .J H Z

H O

sad at.J U

.J M

>H se H e-o (O

le E $0 CJ O

taJ =4 H

=(

t-F n o

a. in o "-o e

M s

wM w7 2

J s J >=.J sr IJ

.J t

.J O

O 4

JU J

H 6~

.J M Ek *&

M 6=

LaJ kJ La8 kJ ha laJ 3

3 3

} K K U

2 w

u.

(T ef *(

(T taJ 6aJ tnJ M

M 3

4 at D D

U

z

iJ n

M n

o u

o n

3 2

if)

Q Q >J sn e-s-M a

.J H 6 4 =( *E *(

=(

M g

3 o o. o o n.

o 4

]

31

_ _ _ _ _ _ _.n _ _

fl i

f eJ MJ O

=(

EL J

O O

O 4

=*

O e4 cJ O

b

=*

eJ 4

a*(

tJ SJ N

tJ (J

\\*

t/l O

EkJ f

se e=

e hJ O

O O

O O I O 0

M E

f4 E

O H

O O

O. e 3

-w O

E Z

kJ H

EL O

E/1 f

t/3 O

O (J

O O

O O 8 O M

9 Z

b O

9 f

H w

>=

O

=

8 L

O b

.M a

H O

Cr Z

b-

=*

1/1 9

O M

e e

O Z

lti

=(

.e o

O O

O tJ O

O O e eJ 1

I t

1 U

Pa P

e

=e Z

+

uJ G

O O

l=

3 w

=*

H U

t=

se 5

o. e w

a H

N O

O

t

>=

UO Z

Z p

kJ **

O O

O P9 th O

O e@

==

e U

0 H

>=

2 M e B

kJ H

O at M

0 M

0=

)

(

2

4

>=

wC E

j H

J b

h u'n M

H kJ e

H O

M O

W J

C M

LJ H

kJ

>=

3 CD el O

>= cJ 8

f 4

O

C 9=

kJ

G.

E to O

O O

O H

O e4 O

O eJ to O

=e O I 99 eo 6 M M

M O

pt J

t g

3 fY g

O J

<t Z@

s w

at I

O 3

H.

w O

W I

O IA M

J H

hJ uJ Q

.E U

>=

Z Z

kJ J

P O

O N

kJ at J

W Z IA at O

CL U

M O =* MJ ll1 W

H HM Z

tti kJ Q

W tJ A et e

f A

g f

f \\ O I

M

.-e O

O O

d O

O O

O eJ 4

h O eo O

=*

O m

. Q Z =*

>=

0 8

e

(

H C aft 4

H E

=*

M I

OZ 3

E.L U 4 t/)

M 7:

N ud kJ O kJ a

P-a O J

l O

us hJ l'J U

uJ c -4 M

>=

EL M uJ M

>= M 6=

a(

P9 1

EM Q

H

+

Q

=(

l J

M O

O O

O (J

(J M

=* f O B.*

MJ H

uJ B

i P

H MU E

O e

[

i N.A 3

4 e

ts I

O I

t/) O 8

90 kJ \\ 3 4 M ** *(

Z

&MC>

O Lf.t

- - (

2 4

H

>=

J 6-us go e

6 U t 3 >=

O O

O

- I

==e Da 0

(

il OZ 0

I e >

H Lft B

gg P

>= en H

e kJ

- J H Z

H O

M w.J O

_J g3

>H ff M M

Q la E GJ

>=

(Q w4 H

=(

Q

>= >= O M

>=

M

.JZMOH M

O

.c m

a uJ H H3 Jao

.J 5

r wwJwU

.J H

J H EL *C H

>=

kJ ha hJ kJ kJ hJ 3

3 3

7=

"E Q

U O

g Z

Z W

M M

M 3

4 Z

w 6

43 P*

w uJ w

M M

3

i e

M o

o.e= to 4 c JMr M

a J

e H uJ *( *C *C

=(

H

.J O

3 o EL O o EL o

C Z

l 32 1

m g

go

o M

kJ O4 EL

.J eo M

eJ ed e

me me (J

M

.e M

O M

4 J

tJ

e 4

tJ No e4 O

N en O

Cr W

e D-t II kJ O

O O

O O eO E

(J l

M i

3 O

1 N

O O

[3 H

.C O

uJ Z

A O

H M

U O

6 M

Z eJ O

O O

O sO H

O O

8 8

E H

w si e 1

6*

O 9

A D

to O

O H

H h

.s.?

a e

H

e M

i O

H 1

O Z

LA

=(

O O

O I es 8

5 O

9*

I I

-e Z

kJ W

D O

H D

kJ H

H U

>=

5 e 5

e..

a se N

O O +

9 a

UO 2

Z O

w **

O O

O

.e 4

M O

O I O O

M b

Z M 8 6

-e U

M O

4 M

e bJ i

M 6-7 at E

uJ (0 N

=t t.J th LL E

0-6t)

M D=

kJ

=

H O

H M

O E

.J e

tr us H

uJ HJ 3

ED H

O 6-eJ t

O 4

W uJ

k b

EO O

O O

O (J

h 4

-e O 4 to s =*

O 4n O

g J

l 0

3 fr N

O J

4 Z4+

8

=

C Z

I b

D H

w O

t-I O

LA M

a M

w w

O E

U M

E I

uJ

-A 7

U U

fr ud

(

1 kJ Z LA *(

O E

a 0-w M

u kJ H

HM Z

so I

A w

O D- (J A

=(

O O

(J

-*==

cJ O

O (J

(J

=* -*

LA (J

M

- I M O

to.

at N O I

E.

I

<J Z-n.

H @ 4A 4

1 at>

H E

e M

I

[3z 3

aue in M

Z..

N wwo w

O

-WG d

O uJ w

U ks O -e M

>=

CL M us M

$* M t-

C M

wM Q >=

I p

og 4.

J M

ee

=*

O O

we 4

O O

O

-4 O

O eJ O

M e4 I **

M i

MJ H

us I

6 H

MU E

O 4

3 m

4 N - as ce t

O 9

MO S

80 uJ N J 4 O ** =(

Z

@ E0 C >

O

- - (

(Z IA i

H D-J b kJ O

e E

O O b-ce O

O

e O

O O

H O

O O

O

-e

=*

O O I LA 8

4 si OZ I

e >

H no

>=

O 2

b-e

H O

an W

.* J H 4a b

J o

>HnN H

O le M Q 9=

EO w =(

H

(

O

>=D-O O

>=

M 8ZMON M

fY 8

wH HD Z

O

=(

.J O

J tr 0 H.

8-w D = a uJ U J

.( D D

o W

'as w

u w

3 3

3 7*

3 7 U

p sLa

.J Hh4 H

Z Z

w M

to u)

M M

3 f

uJ A

p b Lv 4 4 0

w b

w w

M M

3 3

M O

. : v> e- *-

M a

J H kJ at at 4 4

H 9

8 3 O EL O O EL O

4 33 e

tI

~1 y

1

g

e 4

W M

at EL

.J O

M e4 4

4 in 4

e M

M eJ b

e4 ee

.4 4

9 4

ee ti eq

-e og cJ 4

e eJ 4

e 4

4 (J

(J tJ 4Q N

4 tt O

N 881

==

M O

CE W

eg 8

ft W

D O

O O

G O

O O

O 5 O E

tJ 9

Mk O

k I

O O

ee N

UW EL O

M

+

M U

O I

M (J

O O

O O E O M

B C

e i

E H

4.J O

P-O 0

L D

to O

O

=*

H att O

EE 6-Z c

M e

O M

e 8

O 7

Ill

-t

=4 O

O O

O M

4 O

1D e&

I 4

B u

>=

P ee Z

8 W

m O

>=

1 W

=*

Lfn H

r 7

W 4

Q@

.b h

w b

EE Bl

\\

Q O =

8

>=

uO Z

Q W **

O O

O M

O O

=e M

eJ O

O 8 Li a

6 H

O M e ed M

i 4 o

9 M

i W

>=

7 at M +

6 M

4 P-WG h

.J th EL L

in >=

W til H

O O

M tt J

B CE O

saa H

LaJ

!c cQ If O

t-fJ

>=

I

.J CJ

=1.

>=

Las

O O

O O

O

9 4

O ed P

LA 4

M 4

O I N th EC M

O fr J

I eJ 4

&t1 8 4 ES tr N

o 5 et 24 3

at Z

I O

D M =

eH 8

=

ttn W

O I

U.J 6

O M

.4 M

W y >*

E I

W

~

g u u

tr W

U W

= in -c O

E&

E O -* W M

U W

H H #9 Z

sit I

is W

D P-e4 Ls.

at O

O ed 4

o N

ist M

in O

O o

O e e4 O

f p*:

2.s.e 4

O z

in O.

ce ed e

O 4

ed 9 e k Q e

H g

w H G lt) 4 5 M j

M E

==

M O

O 3

ct O e to M

Z 5

WWO W

O

>- O O

=J O

W naJ u

W D== M

>=

(L M taJ M

k-M P-4 M

6M Q

P-I f4 eJ M

IA O

eJ th 40 en Q

4 I

.J 99 eJ ed 4

O th,

.O

==e e6.J w

W e

ed art art ed cJ ae eJ tJ tw H

Mu E

O 4

I (J so 3

4th 8

O N s-e 98 e4

==e e

o e

M.J N J O

8 4

89 4 M "@ >A

@ M Z

t th O

- =(J >- 6.r I

H D=

D h

U U >=

CO e4 4

4 C

b M

M th e

tin e

N 74 s4 6-se QZ e

(4 ta ce we e

we eb 4

4 H

tti a **

>= e4

>=

6 M

-4 J H r

w O

w

=c J

O a

O

>M te M N

CO N EE Q

$=

cD Q

ass at M

=(

t- >- El M

>=

O

=JZMuH M

M I

taa M MD T

Eg a

.J tr U

.J O

O at l

W >= J uJ u

.A H

>=

(

=a H cb.4 M

>=

LaJ W

W BaJ 1aJ W

3 3

3

} } }

u nnJ En M

M M

in 3

Z W

La.

I 4D D

u 5

Z Z.J 6

taJ M

M 3

d a.

O Q

fl >= U *( 4 U

&aa

4..J M p= >=

M tr M taJ g ( 4

=(

H

.J 3 O EL O O EL O

J g

34 9

__JI 8

_?

J asJ O4 EL

.J O

f*

O e

M

-e M

d N

th f4 M

40 M

.J 4

M EJ

=*

ed tri M

(J M

tJ EJ b

f%

C4 M

4 (J

EO N4 CJ G

\\

M O

tr W

H I

It w

O O

O 0 O E

N O

M O

b I

O O

eg a

M W

Z CL O

M M

U O

g M

tJ O

O O

O g O M

'b e

o e

z M

w se 5

O 8

E ah O

10 M

M th O

tr O

z i

to a

O M

e l

O 2

lh et m

O O

O O 8 O I

6 0

O D=

S 4

- ZW Elg O

4.*

$=

7 w

H D

>=

5" 5

o w

a e

N o

b*

u 6-uO 6

Z 8')

w we O

O O

O N

O O

O O 8 LA a

b H

D=

M #

B O

M O

4 M

i w

8 try

>=

7 at (E

4

>=

w@

N e >

.J til E6 E

M

>=

ess M

M O

og M

e tr

=J (E

O w

H w

(D 88 O

>= tJ De J

f

.J U

C

>=

w

CL

>=

E 40 O

O O

M tJ eJ O

O tJ N

4 M

O O 0 M VB O

g

.J e

f **

M O

4 24 4

3 h

D>

D H =

sE I

0 w

4w U

w I

a M

J M

w

J O

M 5

U t=

E T

w 2

o o er w

w

-M.

O a

4 CE b ** W M

U w

M MM 4A w

O

>= tJ E 4

f 4

g of N.e O I

M O

O

-e O

f%

fJ b

4

.* 4 4

O tJ (J

@ 8 #

O k g 2

e e

e

==

-e N

e@

H CO th 4

i u

0 O

M E

M

=

3 (A U e to M

Z

\\

wwo w

O

>= 0 O J

O w w

u w

O ** M

$=

EL Mw M

hM t=

4C M

8 AM Q

M M

N M

to tJ M

f%

c0 M

e b

o8 @

M, Q

at 0

.J M

u se 4

M _.

H w

9 m

H MU E

Q I

40 3

IA k 8'8 ll 8'*

I O

I Mo e

sad N =J ff

@ m =* et

& to 40 >

b

< cr in 9=.

.J > w w

0 M

O Lft 4th f%

SQ CJ CJ tJ 4 i N t=

W W O p-b th 40 N

d M.g 33 OZ e

M M

og og

-e

.4 og w

(J og ta eN a(

4 M

th 6 N i

.'E

> = * *

>=

5 M

~""

m

>. -... M M

H CE ED Q

O w =(

M et 9= ta OM 9=

O M

M

.J Z M O M sam MD CE J

.b.

O 4

.J tr O

.J e-wbdwo

.J J

M Lb a(

M

>=

bJ W

W RAI w

IAI 3

3 3

3 7

@4.

M O

U M

m M

m o e 3

4

=

w w

4D D

o ;; = z w n.J a

M M

3 3

p6 CT *( 4 0

W w

z.J m e= e.-

M sn

=J H w at 4 =(

=(

H J

Q 3 O Ek O O EL O

4 35 5

ft fi t 52,

G hs O

C4 Eb

.J M

M c

4A th M

4 to C*

M

- e M

b J

=*

tJ

e ce tJ M

4 tJ N

4 dd O

N so O

R nad me H

a et hJ O

O O

O O I O E

N f

M O

F e

o o

se R

(9 ha 2

k O

M M

U O

e in (J

O O

O O eO M

b o

e s

E M

w M

e Q

9 L

3 BA O

so M

aA m

Q W

e 40 O

M e

Q th I

G O

O O

O eO

}

M.

I e

Q b

I 8

he er O

H D

tad M

O e-l n*J a(

ta:

W Q

m tr e

l N

o 5

si Q

UO I

Q w -*

O O

O O eO a

U M

V M e a

U M

O a4 m

e ha F

7 4

a a

M 4

F hJ C N

N J

O E

E M

k hk 4A M

Q 4

M N

J O

w M

w 3

ED et O

>= cJ H

O

L F

hk

l

=J (L

>=

EO O

O O

ed O

O 8 4 6/l O

p

.t 6

0 M

(

2 h

O J

4 24 0

3 l

I O

D M +

1 w

Lw o

r z o in 1

J M

ha naJ Q

M O

D=

E Z

h.i C

p u u tr wJ J

4 ha Z sh 4 O

EL 4

Ex O -= naJ M

U inA M

MM Z

nhe O

O O

fJ fJ fJ Efl b

O M I CP O

ad Q

>= ( J k 4

B 6

af NO I

th fM Q Z=

W 8

0 **

l M e to 4

I e

i H

E 10 I

O i

3 11 U D M

M Z

N wwO w

O MOO J

.O ned W

Q M Ms U

uJ H

CL Me M

b th

>=

4 M

l hM Q >=

I p

4 a_

a M

O O

O 4

ed O

ed eJ M

M O

M eJ eM

.O 2

M.J M

w e

ee e in e

M MU E

O B

C 3

N.h

=

8 m

t

-e la M

0 O

8 i

MO i

l hJ N.J It e M== *C CP O C >

T

- at E

th O

>=

.J k ha E

e 8

M

/

6 O O ta M

M M

b M

M eJ as ah 4

44 O

4 ee H

es OZ t

fJ I O aC 4

M 40 0 M P

>= ee H

e e

tr

- .J M M

O h.8 4J b

J M

=e Q

>H in M 4

14 E (D D*

3D O

hJ et M

(

Da D= Q 4/5

>=

O

=JZMUM 10 he nas M M3 2

tr J

J EK U J

O O

=(

hJ p=.J ha u J

M P-

.J H te. 4 H

>=

bJ 02 w

saJ a.J hk 3

3 3

p: p G_

U 4D n

044 b

UJ

= = w M

sa M

in M

M n

3 2

=

.a m

t hoe naJ M

M 3

h

,2 M

O fl F_J M.- e=

2 M

tr M taJ a( et alt

(

H

.A 3 Q CL O O EL Q

.s Q

4 36 2

_ _ _ _ _ _ _ _ _ __ fl R8

Pm W

L9<

.4 M

M M

40 M

th O

M M

to O

e 80 in

.A

(

to ON d

O ts N

O h

M f

II

(

a O

O O

O O I O CJ l

M H

o p

.E (9

Z O

M M

=

O e

M N

O O

O O 9 O M

b 8

8 E

H M

l I

E H

D sh O

gJ M

M O

a tg 2

H en O

M O

en 1

M O

O O

O 8 O

)-

I t

B Q

9 o

M u

to O

hJ M

H

')

ao b

w M

us

>=

b M

W Q

u.

E e

se i

N O +

>=

O UO 9

Z Z

O 6e.# M O

O O

CJ O

O O

O I N a

O M

H M

M 4 5

O M

I kJ 8

M

>=

)

R R

w kJ 40 h

>= >

.J CL 4

LM I4 W

W a

M O

O th

.J O

w M

O kJ

(

CO

8 kJ

>= eJ

>=

I J

b

=(

O be

4 r

E <o o

O O

o O

O O

O i o th O

4 I

M N

O O.

Z4 5

3 e

w

.(

=

I M

kJ O

F-I 4

M

.a H

uJ O

M U

>=

E Z

eaJ Q

U U

T taa hJ

- aA at at CL et a

5 m kJ z

M u

hJ M

MM b-LA O

E kJ O

>= (J E O

O O

eJ O

O M

M M

O (J

tJ O

O I e O

iA.

f

=( \\ O m

i g

z -e

.a 0

=(

M C th

>=

4=

0 0

M E

at 3

EU e saJ M

Z Q

N taJ aaJ O gg O

>= 0 0 0

O t 'J saa u

w a -e M b

EL M hJ EO

>= M

>=

(

M I

E en Q >=

Q

=(

I

.J M

O O

O M

M (J

O O

M

==e fJ 4

th 4

- ee M.J H

kJ l

8 to 4

e M

MU E

O 4

i b

0 3

60 N ** 88 1

O 9

M O.J I

kJ N tl 4 L1 ** aC

& M 40 >

Z

- *C 2

th O

I M

D-

.J >= taJ G

=

M M

M b

O O

==* ** =*

O fJ (J

4 4 0 M

>=

E U (3 W M

te OZ e

eM

=(

M

>=

10 8

P

> = *

H I

E e=*

J M M

O naJ

(.J b

J M

>M nM M

cn Bt E 80

>=

(D D

kJ =4 M

(

t- >= O in

>=

O JZMOM M

M kJ M MD Z

(r

.A

.4 cr 0 J

O O

=(

ana > J kJ U

.J M

M J

M EL *(

H

>=

$6J BaJ W

bJ LJ kJ

T 3

3

$ Q

t U.a g =

U g

2

= w M

M in M

in W

W 3

u.

<o 3

w w

w M

M 3

2 M

O nrow<

. J en >= H M

CE M hJ at at at at M

.J 304OO EL O

J O

=(

Z 6

37 R-JL'

_____ _ R

O w

O at (J

(N

.J c0 f%

e EO 4

h O

4 m

b th O

b th J

P P

b 4

tw O

4 4

b 4

(J ti et ce

-e 4

4 ee ce tJ 00 >

40 N

M4 4

3>

EJ

%.J

\\

[1 w

=*

JO O

(S 49 8

ZZ O

O O

O O eO MM (J

0 to M 9

m EA b

, 8 MM O

ZZ lb A QO O,

99 e

O e

7 (J

O O

O O l O O

8 l

~

M 9

e 8

3 sh 4

sa in o

M fg N

6-tn O

f5 M

=

8 O

nn

.O O

O O

O

e O

O eM 6=

1 e ce O

O I

N

=e Z

I th 40

~4N w

O c-p M

M J

p kJ J

b' p

Ew 4e

>2H N

O

9=

UO I

taJ Z

Z ww O

O O

P4 N

=e O

O

=e

=4 O

4 O

O I (4 tr a O

M D=

me M

4 (J

B @

yU M

O M

f J taJ

>=

"'D alf E

8 U (O 4

WO Zh t=

a Ch Ou l

M D=

W UW M

Q 40 e

.Z O CK J

EL J

w M

h.a

f D 0

W.=J M

ED SI

>= N 0

(

se i =

O O

O 4

es ed M

4 40 O

O a6 e

Eh

>=

Z CO i

M O

N e

me M

Q b

es 5 M Z th E

N O

D Z@

e eJ O3 I

Z-4 Z

I O

M

hJ O

>=

I A

J M

uJ Q

O t1 J

MZ U

>=

Z I

k.J J.J p

U U

n 4.

AaJ Z In et EL

C *(

EE O ** w 10

>U

[

kJ M

MM 4A 0

AA hJ O

F- <J A

=

O IA 40 e

tJ b

40 80 4

40 4

O eJ e in OO g

at N O an **

Z e-o e

=e M

-o e*

(J M

M M e4 G.

H (D LA 4

ee 0 4th et M

I'

=*

I OO 3

cc U e M

ZZ g

N wwo O

>- O O b

w w

Q ~ E.n 40 u

w MeJ EL 40

>= 0 M

O 9

e4 tJ w@

p e

iZ M

4 4

40 4

4 h

N 40 M

eJ M

P P

LA 8 =*

(J 40 Q

M.t e

J M

I

=* =*

(J M

4

- =* **

a tJ M

==

0 4

M $ @

O

9 U Z

M a

4 40 N

M a

la 3

IA e

\\ es si e.e M

1 O

to O Z 85 kJ % =J O

M to

@ n a et o V) 40 >

= Z

=* d CE IA et O B

>M D=

.J H an.s to 6

UUg kJ

- =*

M O

tJ fJ 4

m 46 4

4 40 M

N 40 0 @

m >-

n O.

in i e e e M

N te

- - ~

(J M

4 in 4

4 i e w <(

4 M

to th 0 A La >

e k es 4

I EG m

- .J H Z

J O

U ssJ sa ag.a o u wc

> e-o sa M 86 Er (3 D=

aO CD F

W4 M

>=

MO

>~ t-O LO M

S1 H

(

JZMOM J

au M M3 M

Z tt OJ

=8 t to O

O O *C w >.J6.r O t-Eh >

JU at M.

D uJ kJ w

w kJ kJ "Y

3 3

K~

] K U

l

.J M64 H

w w

o e

3 2

f.

Z kJ

h. E i

=t D En U

g Z

Z w

La M

in n

63 o

3 o

OO prod 4 w

2 J La n-e-

.=J cr

.J M au et =t =(

J M

J QQ 3OEDO 4

O 4

I 38 fl A8 cE3

HADDAM NECK METEOROLOGICAL JOINT FREQUENCY DATA FOR WASTE CAS TANK RELEASES 3RD QUARTER L

1 t

I ee kJ M4 CL

.J O

O O

M O

M fJ O

O

.J (J

fJ "C

tJ O

NN M

92 N

m O

eo 9

19 O

O O

O O 4 O I

(J s

3 i

N k

O P

.1 OZ M

O M

e t

M C

Z f4 O

O O

O 4 O M

8 C

O 9

t H

M

>=

0 A

O D

LA O

M M

M O

E E

Z

>=

kJ 10 O

M bJ i

O E

IA O

O O

C O

O O

O eO t

O I

I ee O

@e 6

U w

bJ O

O

.)

E M

O saJ K

p w

U 20 II N

O

e b-0 UO Z

Z kJ kJ **

O O

=d O

O I b 9

U O

M O

10 i i

hJ M

O M

0 M

F-

)

(

E

N kJ O

=(

H.J E

>= >

P 4

tti 40

>=

bJ M

O M

O E

.A 6

Cr w

M kJ 3

O H

O

>- th I

.J O

=(

p-t+ J

O O

O O

O (J

O O

O I **

L b-E CO

.=.*

t M M

M O

.J t

0 3

N N

O

(

Z@

=(

Z Z

)

3 M

I w

kJ O

F-I C7 M

M J

M kJ W

O E

U F-E Z

uJ J

U U

rr uJ

(

2 kJ Z O at O

LL U

fr O O laJ M

kJ t4 HO Z

LA*

O O

in M

O O i O O

I L

kJ 1

>- (J %

aC g

-r N O z

m I

z g r

I 0

at M O th 4*

e O

M E

4 to Z

3 LE EL 4 M

M

{

N wwO kJ O

F-M O

.J O

kJ kJ U

hJ QMM D.

tJ e4J M

>= M b-

(

M hM Q

F-6 Q

(

I

.J 90 O

O O

re O

O O

O 8 f4 t

CP r4.J M

ka e

t 4

M MU E

O I

3 LA N 4 11

-e a

O s

MO 6

H e M.N J

kJ * *(

Z

&MO>

O

.*=(

E LA t

M F-

.J (S us et O

O O

O I O

>=

6 U D >=

0

(

09

( Z t

a 4

M nn

.*.J M ** Z M

O t.z a

>- 4 P-eJ M

et J O

J f)

>M Il M M

O H tt O F-CD kJ et M

e4 O

P- >- O M

>=

M d

J Z 10 O M to ka M M D Z

tr

.J U

=(

J E (7 J

O F-a.J >

.J w U J

M

.J M 4 *(

H b1 ha bJ bl hJ kJ 3

"C 3

g K

(

U Z

Z h4 M

91 M

M M

3 4

7 2 ha u.

=C D D

U

4.

kJ hJ M

M 3

3 i

M O

(T *( *(

O uJ f) > O b H >-

2J M

tr

.J Fe w =( =( =(

=(

H J

O 3 O EL o O EL O

=(

Z 39 g

,e q

r tJ h4 0

=(

D.

.J w

O O

O M

tJ O

ed b

M O

M

=J 4

tJ 40 N

N m

(J N

-e W

D RE kJ W

i II H

e kJ O

O O

O O I O B

M E

(J t

O H

O O

O m

O R

Z kJ H

CL O

O e

M U

O Z

<J O

O O

O 9 O H

e E

O O

e t

H kJ D*

O

=

L O

D m

W e

H (P

(2)

M s

W 6

O H

+

O 2

m i

=-(

O O

O O B O 4

I I

t p

Da I

M i

hs E

O O

H p

kJ H

U 6-p.

m u

18 N

O O

I P-UO h4 =4 O

O O

O ao a

Z (z) i U

G H

6-oe i

w M

O

<(

M 8

M P-

)

(

2

4 p-kJ 40 h

J.

M M

J b

6 m

O t-kJ e

H O

t/)

O CE J

0 gr w

H kJ 6.J

(

c le O

F eJ I

O 4

uJ

Eb F-2.; 40 O

O O

a o

O m **

O O I b a

e m

n ge s

e s

3 N

O

_2 Ze er

- O b-I U

m 0

w

=(

t

O D

H +

ha to

.J H

kJ kJ O

E.J

(

U

>=

E I

kJ

'7 O

U CE kJ at 4

kJ Z O =C O

ta U

EL OOw O

W H

HO Z

m I

E w

O k (J w 4

-( s O z

m o O

O O

O eJ O

O a4 0

e M g 2-e.-

e 0

H EO m 4

{:}

H E

4 M

+

6 3

tr et e e

M 7l N

hJ ks O kJ O

>= W G

=J O

ud kJ U

hJ OMM H

EL (J uJ M

>= M t*

a(

M i

hM Q >=

Q

(

0 m

.J M

O O

O e*

O eJ O

O O

s-* I 4 0

h M.J H

ha 1

8 H

MU E

O I

3 m

N 4 et

=4 1

O 1

t/1 O 6

84 ha N J

@ M ** st Z

@ O to >

O

-*=(

tr m

I H

D-J O kJ C3 ODH

=*

M O

O O

O ce O

O I tJ D-B

(

Il m( Z B

0 b

H me 8

Eg

>4 H

O' J H -e Z kJ we H

O in at J O

.J c)

>H HH H

Q ll II EG

>=

Q kJ et M

(

O

>= >* O M l'*

H J Z 1/1 O H M

uJ H HD Z

tr J

O at

> - 8 tt O J

O kJ >=.A uJ U A

H J

H (J. *L H

H

'.L' kl 1.J hJ ha hJ "I

f

f p*

p "I

O

C ~)

D U

7 7

W W

O O

M M

o O

3 4

Z w

w

(

kJ J

ha' u.8 O

O 3

C 2

m O

f) >J n' at aC 2_

r >- o Ec

(

J e

H us 4 at at

(

H

.J O

3 O CL O O Q.

O

(

Z 40 M

m n..

no

- - ~ -

M M

O at (L

.J eJ to O

O O

O eJ 4

O O

C b

O O

J M

N O

t N

i b

e e4 N

sn O

tr uk 9

la t=

ha O

O O

O O B O f

60 E

(J k

O H

e o

O

-e O

N Z

kJ M

u O

M e

8 M

U O

2 tJ O

O O

O 9 O M

8 E

O O

.e.e 8

4 kJ 8

A Q

D th O

EQ M

N Q

EE

>=

e4 M

I O

M e

8 Q

Z th

=(

=4 O

O O

O B C f

I I

B Q

H P

I kJ M

O O

hJ l*

&)

r M

kJ at b"

D' o 2

W m

er O

De te e

u O.

w.

O O

O O eO r =

p e

o O

M a

M e 8

kJ M

O

=(

9 I

M

>=

"1 at a

h.

(

kJ C z

.J th Eb In M

kJ e

H O

M O

R

.J a

CE bA M

ha

>=

(

ID It O

P-eJ 8

J O

=(

>=

hJ e CL

>=

E@

O O

we eJ O

O O

M O

O 9 @

3 M

M O

.J e

9 3

tr

\\

O af 2@

(

I 3

M.

I w

W b

>=

I U

th M

J H

uJ u

O

.Ca U

E I

kJ p

O U

(E kJ

(

4 kJ Z O *(

O EL U

tr O O kJ M

hJ M

MO Z

to 5

E t*J O

>- ( J E at

+

( \\ O I

in O

O O

O 4

eJ O

O eC O

f f

Q Z **

t=

e 0

=(

M e th 4

e Q

M E

4 M

3 a n..

M M

E N

hJ kJ O kJ O

WMO

.J O

taJ kJ U

ha OMM

>=

EL (J kJ M

>= M f

(

M I

bM y >=

Q

=(

0

.J

9 tJ O

O O

4 (J

O O t O 8 **

Eh M.J M

W 6

B tJ M

MU U

O 9

3 th e

% 4 II I

O MO 8

10 kJ \\ J 4 4/1 ** *(

Z

&M@>

O

=**(

tr th l

M

>=

.J O ha O

a 6

O

.J >=

ce o

O O

O O $

=e t-0

(

88

( Z 0

i M

In 8

2

>= d

>=

kJ

- 3 M -4 Z H

O M

.(.J O

.J (O

> M 76 M M

O 18 tr 80 0=

c) hJ =(

H

=(

0 A Z" >= O M

>=

MOM M

M.J (E

kJ M MD

> cr o

.J 6

O

-c w >

.J w u a

M J

H 4 *(

H

>+

kJ ha hJ hJ kJ 4A8 3

M 3

K-K 3

O

- z z w M

in M

M M

in M

3 4 ;; =

us h.

=( n D

o

2 kJ kJ M

M 3

3 M

O fb p-ET <C aC (Y

kJ 2 s M t.- >-

M ex

.J

=

M kJ =( =( =(

at M

J O

3 O EL O O EL O

C Z

41 n

na

7 4

W G*(

h J

eJ M

b 4

m O

4 O

M M

M 4

M LA

9 J

(J tJ m

e4 ts 40 b

tJ tJ

\\e*

M o

aW M

>=

I 95 W

O O

O 9 O E

CJ M

O H

O O

D w

g O

=J Z

a O

H O

O O

I M

Z (J

O O

O O I O H

O O

9 8

E H

saa M

e H

O I

A 3

m O

O n

H M

O 2

P-w Z

M e

O H

O Z

lh 8

=(

w O

O O

O u o o O

O O

O O 5 O H

0 i

Q H

C' 8

8 s*J R

O H

3 W

e-*

O H

U

>=

~*

taJ et b

M W

p w

ex Jo

$8

\\

O O

8 H

UO Z

Z Q

naJ =*

O O

O 9 ee a

O H

H M 8 t

U N

O

=(

M 4

t*J H

7

C E

4 M

h_

aC

>=

W CO H

H

=J M

a M

>=

and na H

O O

M 2

.J e

Er O

W H

iaJ

!(

sa to O

P eJ H

0 J

O a.C t-OJ =

O O

O b

a O

O O

=*

O O I M Es EC

.J e

w tJ I @

M M

O p) at Z@

I 3

E N

O at Z

I O

D H

I

=

4*J O

H Z

U M

J H

W aaJ O

M J

E U

>=

E Z

an.J 3

p u u

tr s

4 taJ Z O ed Q

EL e4 Ca; O n anJ In U

LaJ H

HO Z

M I

L taJ O

H (J La.

(

g-

.c N e Z

M O

O O

e -

O N

O O

o-r4 O se O

M p Z -*

H e

tJ eM 2

H c0 LA 4

8 H

H E

4 M

8 O

'4 3

tr CL 6 M

MJ g

N n J uJ c 6

O Da MO

=J

.,O anJ DJ Q

6ad OMM M

CL CJ MJ VB D-M

>=

aC M

&a. M 7

H

=

5 g

at 0 i J

M

- =*

O f4 m

o O

O CJ tJ \\e'. a 84 M

tJ G 0 0 MJ H

uJ e

i 4 H

MW E

O f

C 3

th I

\\d et e*

0 0

8 MO I

uJ N.J H

e (fl ** *(

eMQ>

Z

- - (

a M

O

>=

.4 M taJ O

5 H

W D >=

e4 4

M e-*

O O

=*

O

=*

M O

Rh I e4

>=

tl

( Z 0

0 (J

(

H H

>=

LA I

EP H4 D=

6 2

- .J H ** Z H

O taJ et.J O

n M

>H tl H H

M 49 CE in

>=

EO O

naa =(

H

(

H O

JeHOM

.MOH M

M us H e-o D Z

tr J

.J rr 0 J

O O

4 W H J ua u J

H 0=

J H sk =a H

H uJ kJ W

taJ taJ kJ 3

t 3

3 7 3,

O

<a p

u,~ Z Z

W M

M M

3 2

=

uJ u.

Q H U *C *(

L?

464 2

uJ uJ M

M 3

,1 2

M O

a M >- D-M cx F4 ta.1 *( 4 *C

=(

H

=J 3 O EL O O EL O

=J Q

42 m

n e

u

,s.

hh uJ O

ct CL J

4 th O

Q 4

rn N

O 4

4 64 sh O

4 4

.J n

.e ed

<=

e4 b

w 4

te b

th O

\\w th O

fr kJ H

5 81 kJ O

O O

C' O

O O

O O eo E

CJ I

M O

l O

O

.4 Y.

Uw EL O

H tn U

O I

so tJ O

O O

O eO H

b o

e e

E H

kJ e4 l

O 8

6 la O

c3 H

LA ep tg F

O 2

M I

O M

O Z

M f

=(

O O

O O t O b

0 0

t)

H I

e4 (E

O*

8 kJ H

3 uJ O

H U

H y

kJ

t p:

J rx ka

. O 6

cx N

O O

II H

UO 8

2 Z

p w-O O

O O

O O i O O

H H

2 Vs t e

U H

O at r4 e

us W

7

(

IE

I th h.

=(

H hJ O H

H J

nh EL a

>=

kJ m

H O

=e M

e tr

.J CE O

6*J H

w 3

O 31 O

H (J

>=

0 at kJ

i ad

(&

H EO O

O O

O tJ O

O O

M O

O 6 O 44 O

.J 8

8 e4 M3 O

4 Ze 8

R z

O M =

oc O

H Z

b sh us

.J H

hJ w

O M

.E L3

$=

E T

kJ J

p U

U O'

W 4

kJ Z O et Q

EL a(

i (E

O O kJ 40 W

kJ H

HO Z

th DJ O

H 84 A

-(

8 6

g*

-t N O I

sh O

O O

4 4

M ro O

N t-O e

-4 o

H e

-e 4

ee M g e

HCm 4*

I Q

H H

E 4

n 3

u cb n

M N

kJ nas O kJ O

HCD oJ b

w W

U w

OMm H

EL (J w j

M H th

(

99

=

l w sn W

g a( l

.J M

ee e*

M LA 4

to tJ we cJ O

tJ to P9

- I th MJ H

kJ B

e f4 C

H MU E

O 4

I e4 3

th 8

(J

\\ -? st O

e lh O 8

kJ \\.J It e ttt ** *t I

7 $f3 O *>

Z l

me et tr th O

>=

Jpw w

I H

e4 M

e4 C

th 4

ee O

=4 O

me (J

e4 th 4

th 4 4 l

6 U.J g es 4

e m

me a

w I @

=(

e H

H in e

H4

>=

l M

ee.J H e

H O

kJ et =J b

.J M

I

>H nH H

m I

la 4E O (Q

U kJ e(

H

=4 H Da OO 9-O JZMUM M

H l

CE J

us H H3 J tr (7

.J b

O

E wHJwu

_J H

3

/- 5 Q U

H

%D DD kJ Sah DJ UJ 3

3

=J H (L et H,

v 3

2 g Z w

w U

g = z w m o n o o n

< nb ef et b

kJ La DJ M

40 3

N 4/3 O

p >+a o H H 2

=>

cr H kJ at et of of H

J 3 O LL O O C6 O

J O

at Z

l 43 n

nn c

r i

4 kJ O*(

15

.J O

O O

(J O

O O

M 4

O O

=J 4

CJ 6)

\\N cd O

N 10 O

tz taJ

>=

I It hJ O

O O

O O 3 O E

fJ t

(S k

O H

e O

O

.e M

O kJ Z

sk O

M 10 O

O 9

in 2

tJ O

O O

O 8 O H

O O

9 E

s.I4 0

H kJ O

I w

D th O

O M

H m

rz O

6-M Z

M O

M

=

0 2

III i

4 e-o O

O O

O I O Z

e 8

Q H

I a

e uJ (E

O H

~

W O

D)

H M

f.)

w 4

EE laJ Q

b. O 6

tr

'4 O

50 e

UO e

2 g

w.

O O

O O iO

--6 H

e oe e

u H

O at M

e kJ H

)

et CE

I In at

>=

ks @

h H

J O

8Ar n

M

>=

kJ W

H O

4 to a

EE

.J (E

O hJ H

kJ

t to as O

>- tJ D

=(

$=

hJ

I J

(A p=

EO O

O O

tJ O

O I CJ M

O J

9 8

40 O

=(

=@

8 3

M I

D H

8 w

=(

H Z

(5 th O

w

.J H

kJ kJ Q

M 5

U 6-E T

kJ Q

U U

(Y hJ ha

" O =(

O EL

(

tr b O kJ 40 W

lit kJ H

HO kJ O

H (J A M

I h-

-t s O x

m o O

O O

O N

O O

' M O

a.;

Q Z==

>=

8

.*(

~

H O to 4

Q H

E 1

th 3

CE EL i M

M kJ kJ O kJ Z

O 9= W O J

o w w

U kJ OMM CL tJ kJ M

)= @

>=

(

M A to Q

H I

J M

O O

ed O

O M

O O

O M

M O

O I 5 p

at 3.

2 M.J H

kJ g

I CJ H

MU E

O l

3 th I

l

\\ 4 18 8

O 8

th O B

l kt N =J 98

[

e 4/3 =4 *(

@ MC>

Z

.* et tg th O

l H

.J (i hJ A

I H

A U D t-O O

O O

- ==

O O

O O I CJ

>=

11 et Z t

8

(

e >

H

>=

th I

6- @

6-I EE e4 J H e-o

H O

hJ at J b

.J 40

>Hn H

O H Eg CQ H

O O

kJ =(

H

=(

g H O en H

O

.J moH e H

uJ H HD Z

EE J

.J Eg (y J

O O

C uJ >=.J kJ U

.J H

7; K lT U

.J H (L e(

H kJ bJ kJ hJ kJ kJ "I

3 3

l

-C D B

4 2

w h-U g =

Z w

in o

in in o o e 3

,4 4

. J in n- >- en Et w

w n

n 3

n O

i

e..- n.( <

kJ H kJ <t at at

=(

H J

l 2uaOO a

O J

Q l

~

i l

44 E.

a nn c--

1 l

I P*

w O<

EL

.J O

t9 O

O O

O

.J<

t'J 40 NN ed O

N eo O

og 8B O

O O

O O aO (J

0 M

H 8

9 ti 2

O H

Efl O

9 M

tJ O

O O

O 8 O M

b 8

0 E

M M

s H

I A

D m

o Efa M

m O

M e

O l

eo O

O O

O E O 0

6 Q

P.

G.

w M

O H

3 CK

.4 O

M O

w taJ H

5 m w

o 6

E e

N b.

et H

O UO 9

2 O

tas -e O

O O

O aO b

M

>=

W G 1

O M

e taJ H

)

a(

E 2

6 W1 H

w w 40 h

H

.J E

E L

H W

M M

O U

M u

.a Ex o

w M

O and 3

c3 II w

H te

>=

0 a(

O tal +

9

.J (A

H E EO O

O O

O 8 O M

Q 6

0 ti 3r h.

O O

Z@

&at I

M =

0 W

b H

I 4

m

.J M

w Q

LB H

E Z

tJ Q

U U

taa h*J

- O at N

EL at m

cr

b. Ow z

o u

W M

Mo H

m hJ Q

H (4 A 8

6 g

<sO a

m.

O O

O O eo O

n

=M w

e

.-(

Hem H

e

=

a O

M E

4

=C 2

tr CL e laJ M

Z g

N wwO E

O FWD O

O taJ taJ U

lad QMM EL C4 taJ W

t= (ft 4

m hO H

e 8

g

<a-J M

O O

O O eO M.J M

w e

e O

M MU E

O 8

3 th a

N a es M

I O

8

@O I

wNJ ea 4 th ** *E P o 40 >

=

=* *t a

m O

H

.J (S 6 J G

e 8

M h

UDH e4 O

O O

O sO t-te g( Z s

e at e >

M m

a

>= d W

4 CK P.J M e-o Z M

M O

enJ ei.J O

eJ Sf3

>M el M M

g3 as tr O H

O O

tad *(

M

(

b t-O M M

.O J.oOM o

taJ M Mp 2

.J

.J R U 8

O O

E taJ >=.J taa u

.J M

M

.J M A *(

M

>- w w w w

w haJ 3

3 2

3: g 3,;

o

=

w au

<D o

o ;; z = w n o o n u n x

<c u

w w

w n

o a

,z o

o p H o,) ><

Z.J t

=H O

gr M w *t =( <

=C H

.J e

a o sk o o et o

.J p

z 45 P

fl il 0 A

l l

l CD ta kJ O4 E6

.J e

b

.i b

M M

.e LA 4

o b

o e

3 J

e (J

(J M

(J (J

O ta 00 ce at ll H tJ O

M aC N

fM b

3 J

e4 N

g'~

sJ i

eeo

p.,~",

me o o o o o o

o o o o

o o o

o o

o oeo MO e

9 th 44 (J

I (ft H

I H. -

O EE AA 00 i

o (J

o o o

o o o o o o o o o o o o

oI o "O

e e

a H

e a

t-N D

M o

C3

-e M

H tt

>=

M o

11 H

th.

O o

o o o o o

o o

o o o o o oeo H

a n

w e

U e

K 0

to o

-e Z

uJ o

03 p

H u

5 N p-e u.

sZ ss N

O =

I kJ D=

Uo Z

we o

o o

o o o o o o o o o

o eJ o oeo cr a e

pu O

M F

01 e H

O 99 I

_.) kJ I

OM

>=

)

(

E *

(

D=

w@

Zh OE J

Cl.

U nA M

9-bJ e

H O

M

.E.Jo E

J tr w

H ue at H 3

El te e cJ I

U.J O

(

t*J

o o o o o o **

b

-e 4

o o

O M

o oe&

e k

EO M

O e

CJ ee tJ a4 8 eJ

- M D3 8

e E

)

O Z4 4

I O

M =

t Zw ka O

D-Z IA OM J

H uJ O

HE U

E Z

kJ

.J J

Q U

U ua at at kJ Z o *5 CL

>U E

O O kJ 03 ha M

Mo th 9

LL uJ Q

W tJ L at N O LA o

o o o o o o (J

P 4

o o eJ 89 o oeo QO f.

G

-e c 6A 4=

8 OO Z **

t

-e me M

C

==

0 e e

.-e

=(>

H E

4 3

ti CL e M

ZZ N

wwo O

WWo O

MJ us U

kJ QMM e

[L (J uJ M

b-M d

M I

no N 6M J

e&

o I h M

4 M

4 to th th tJ

-* 4 e e in eJ b

M o.e Q

M.t

=A H

I

.e we

. i e in 0

H 99 U E

4 e

is 3

to e

N -f to

=*

o s

o Mo Z 64 uJ N A O

MM e M -* at

>= Z W M 40 >

-e *(

E th

( O I

>H

.J M kJ Ifl w

UDH uJ LA 4

P O

M o

O eJ eJ e4 4

o a

=e cr 0-la aC 2 M

5

=e

=* **

tJ t **

kJ =(

e

-e M>

4 H

M IA a

c1 tr e

&- 4 4

- J H -* Z

.J o

O us M

at A O

U uJ O

>H la M tu E C3

>=

b JO g) uJ at H

p=

HQ P-F f") M N

JZMOH

.A 4: H wH H "1 M

Z E

M.J JEU Q

Q Q

O at t-Ca. >

kJ >= J ud U

=4 H

J H (L =(

b-t=

ha kJ w

kJ ha hJ 3

3 3

p*

"k Y

T U

I M

U g

Z Z

kJ v1 M

M M

vi o

M 3

f =

kJ ww

=( 0 r.(

I w

Z us w

M M

3

i M

OO p t.aia t-

2

.A cx 3oNOO O

gO

-t

.Z 46 n

o ca t _ _ --

HADDAM NECK METEOROLOGICAL JOINT FREQUENCY l'

DATA FOR i

WASTE GAS TANK RELEASES 4Til QUARTER i

e I

t I

ks O

at th

.J

- == * **

O 4

4 O

M b

th ee ma tJ e'e 4

eJ l

O

'N i

I M

O O

\\

tJ O

ee I

It O

O O

O to O

H*

't e

O H

M o

8 M

=

e4 O

O O

O sO H

O e

e E

H we I

M 0

A D

m O

sJ ee H

to Cr a

g 0-W M

H O

M kJ O

E M

9 ee O

O O

O 8 O

>=

O 8

8 g

O 9

8 f

fJ me sob O

>=

D R

e O

M O

saJ Q

sa.

u

.. e N

O

se D-0 WO I

Z ha w =*

O O

O O I O a

6 H

H O

M e

U M

O M

e w

>=

)

(

a

8 M

4 H

w EO h

D-J Ch cL L

M

>=

ka e

M H

O in M

J l

E O

ks H

h4

C EQ bl O

H (J 0=

b 4

W w

I

-.J A

r ne O

O O

4 O s in M

C3 tY

.J e

ce I ee EfB O

D

f 2@

0 3

R h.

=4 1

O D

H

8 se O.J M

l W

D H

I 4

O O

I'

.J H

W u

e=

c z w

n i

Q U

U E

kJ

-a l

bJ 7 th *(

O EL 4

]

tr O =* W M

U W

H H ha 2

m=

o o O

O O

O e

ta e*

O e e*

O W

D D= pe ik

=(

0 A

f

C \\ O I

M M n ze r

e i

e.

~

H 40 m 4

H E

1 M

8 I

Q

.I ci; > e M

M

\\

eaJ O O anJ

?

O

>= 2 O

.a l

O he ks l

U kJ GOM b.

I A

ce enJ t()

>= M

>=

(

M H

AM 02'3 I

l p*

4 J

M M

w w

M O

M M

O M

4 M

M M I N i

M.J H

ks e

ce 1 4 4

H MU C

O 0

h l

3 4

I N 4 et i

s e

e MO 9

hJ \\ J 00 e in =e at e M 40 >

Z

- et Er LA O

De

-.J >= ks

(

I H

is.

O O >=

O O

O I e4 W

88 OZ e

e a(

e >

H th 1

e

>=(>

6=

B ce.J H Z

H O

w 4J O

.J M

> H at M M

En as tr 10 c3 O

ha e4 H

=(

F 8-O M O

J2MOH M

M haJ H HD Cr

.J J cr u

.J B

D

<c w > -J w U

.J H

J H&M H

H W

W W

W 3

3 3

Q g Q U

ow044 6 w

at

~3 0

,]

Z Z

aaJ M

sf3 p

M Lo M

M 3

2 kJ A

w w

M M

3 2

2 M

O

.Jine-t-M cx H ks et at =t

=4 H

J 3 o (L o o Ek O

J Q

4 47

_______n____

nn A

tJ tsJ as*(

th

.J O

tJ O

O O

M 4

Ps e

M e

M to 4k O

O N

tJ M

O Gw O

45

>=

tsJ O

O O

O O 8 O E

to 8

e O

>=

9 O

O ee ex 0

E A

O m

O O

I M

M tJ O

O O

O E O H

6 o

e e

r H

nsJ 9

0 L

u Ltl O

dD H

P O

EE Z

p-t/l 9

O H

4 O

7 Ifl

=d O

O O

O I O I

9 9

Q P

0 I

tJ w

N O

O

>=

)

isJ H

b e

ted at 5 a w

a.. e h.

Ex Bf

\\

Q O

uG e

e aaJ =*

O O

O O I O

"*a H

s (e) ni e

o c4 O

4 M

8 w

i e

>=

)

(

gg e

4

>=

hJ D h

>= >

.J b

IJ.

L Jt.

M

>=

w e

H O

t/l O

M

.J 9

M Lab H

kJ e 94

>=

O.

3 C) la I

.J F

hJ

O at Q.

t=

EO O

O O

O 9 tJ d

O

.J 8

gi O

4 24 8

J h.

R I

p H

8

=-

=(w b

>=

E LY tti

.J H

taJ tsJ O

M u

9*

M Z

tsJ

~)

U U

fr w

I w i e *(

O EL

(

En l> - w m

u ha H

H th Z

LA I

A anJ O

D= =* A

=(

Itt O

O O

=e O

tJ O

O O

O e4

.* ** ee O

g a( \\ O E

e s

z-n.

H @ &#n 4

8

.=(

I Q

M E>4 H

EE e

n M

3 4 WOO w

O eZO

.J D

LaJ w

u w

OOn (L

- and et M

M

>* 4/5 b*i 8

EM Q

=(

l

.4 M

O O

M M

4 4

tJ ee M.J H

w e

6 **

P H

prt u E

o e

e to 0

3

&#t

% r et a

6

@ O.4 8

la kJ N e us =e at

& M E0 >

Z

- - (

(E m

O i

H

>=

.J t= kJ 80 e

E Q 5 3 >-

O O

O O 9 O

>=

se O2 e

e 4

e >

H

>=

6tt I

8 (E

D* P

>=

.*.J s

=

H O

w

=a.J O

.J us

>H It M M

o It (C (D

>=

E0 u

ks 4 H

e4

>= 9-O M

>=

O

.JZmuH M

M H*

(E

.J J = ti)

"G" hJ H J

O

-c w >.4 w u

.J H

.J Hh4 H

>=

kJ til b3 kJ kJ w

3 3 3 K*

K }

u 3

3 u -

Z Z

taa un m vi n n w n 3

2 Z

tai u.

( I? *( *(

If taJ

=

f.

ha taJ v1 W

3 J

2 u)

O Q >J n e- >-

m a

H kJ =( et *(

(

H eJ 3 O EL O O EL O

J Q

48

__ __ _n o __ _ _ _ _____ d

_o_.__..

M W

M at D.

.J (J

M O

O O

tJ se o

O pe O

M 4

4

e

.J 4

tJ 40 O

ON tJ en O

m tea ee I

80

>=

w O

O O

O O eO e

in E

en O

H e

o o

n3 en O

a E

Z end H

O M

I M

U O

(J O

O O

O eO H

e E

6 o

.e.

e H

w I

A

>=

0 3

lh O

so H

N g

cr.

>=

M 8

O H

O Z

M i

=(

me O

O O

O 8 O c

8 O

8 i.d.

8 ed asa E

O O

>= Q had we M

U

>=

teJ

f

S =

w

o. 40 Et:

II

=

0 0

8 N

UO 2

'2 Q

46J ee O

O O

O I O M e 9

O O

H H

O k

M e

w e

in

.=

t a e et

>=

4.J M N

8-

>=

=J th Ek EM M

>=

w H

O sn O

N

=J 8

tr esa H

tsJ

E sa 16 O

>- (J e-8

.A O

at

>=

t*J A

E e0 O

O O

O O e -e M

O 2

=J e

e M

R O

D W

Z@

I 3

t w

O

1 M e 4w $

b.J M

z e

G in

.J H

w E

U

>=

E Z

taJ

.4 Q u u

tr w

naJ

"* Eft *4 O

at cm b ** nsJ M

u Lab H

H th M

asJ O

F- =* W N

8 A

-g tsO x M

O

-e O

O O

eJ O

O O

O 4

c4 O eO O

4'

'0

%~

H

(

O

4 to in I

g M

E>4

>=

H tr e

M M

3 3..

>= g O N

w w

O O

J O

w asJ U

Lad OOM

>=

CL

- iaJ M

>= th

(

M i

u. M p'

M I J

M

=e tJ O

O O

me me O

M

-e f4 ee e eJ og e te N

M.J H

w a

H MV E

o 4

M 6

3 th

\\J 00 5

8 MO B

kJ N J Il e to ** =(

&MM>

6

-e a a M

4 H

>=

J >= taJ U

E U U >+

O O

==e O

O e4 b-50 OZ e

e

=(

4 H

IA 0

I c.r

>= (P

>=

tJ we.J H Z

H O

et.J O

.J en go

> H II H H

99 tr 80

>=

10 Q

k8 -4 H

(

9= >= O E0

>=

O M

JZMOM M

ks H HD 2

tr

.J Jt J

O O

=(

hJ >= J 6.r (5 JU J

H

>=

.A N 4 et H

>=

h3 taJ W

ha kJ taJ 3

3 3

g g g O

cn p

u ;; z = w M

M M

3

=

w u.

O *( 4 LT t*J taJ E4J M

M 3

3 q/a O

Q >*Jint->=

in a

.J M kJ at at =C 4

H 30400 a

o a

g 4

49 w

n a

4 643 0

C EL a

O e

fJ O

h fJ m

O N

h 6

(J b

N

.J

=

tJ tJ fJ e

tJ 4

fJ N

M O

O N

fJ M

O k

hJ

>=

I 61 kJ O

O O

O O I O E

(J 0

M O

k 8

O O

m tb O

H in U

O I

M Z

tJ O

O O

O I O M

O G

e a

E H

ha B

H O

8 k

D 40 O

c0 H

M O

CE H

m M

e o

H O

Z th 8

=(

==

O O

O O 9 O T

8 8

Q F

t fJ 8

w O

>=

D kJ O

H (3

[

W 4

pc

.J CE kJ w

tr

\\

O 6*

as g

UO Q

hJ ed O

O O

O I O a

9 U

H H

in 8 0

W H

O Q

M e

ud

>=

)

a(

R

I M

4

>=

we N

>= >

J IA EL E

M

>=

hJ M

M Q

O th 2

J r

E O

w H

kJ D=.J 3

40 68 O

>= N 0

=t H

uJ

k

>=

EC O

O O

e4 tJ M

M O

N M

C

=J e

M 2

U at Z@

3 H

w 8

4 I

w 6

>- x M

.J H

w kJ O

M U

E w

Q U

U tr us w

Z M -E O

CL et it O -* w M

U w

H H an IA h

O

>-**A k

i A

g Es-x in O

O 4

O h

eJ O

O O

in M

N e

b 4 no O

4' O

H @ th 8

4 l

Q P=

H E

4 M

3 a>.

in M

y N

w () O w

+

O

>= 4 0

.J O

kJ w

M

>=

O O* uJ U

kJ k

e M

>* M

(

M I

AM Q >=

p

=(

e

.J M

w h

O O

C3 m

M b

C 4 8 N 4

M.J H

ud e

tJ

I C M

H MU E

O 4

I I

N 3

N.in 7 la 5

MO 8

ks N. 9 Il e v)== at eMe>

2

(

a LA O

>=== =.J 0- uJ O

9 H

w U U >-

O M

4 O

O O

O e*

O O

O 4

h 8 0 0=

el OZ f

8 M

C 4

H to 8

8 E

P 9.= @

k Ana

- 8 H 2

H O

4.J O

J th O

> H se H H

18 tr 80

>=

c0 O

kJ =4 H

=(

t- > C M F-O H

-8 MOH to wH HD 2

J J Ce Cr J

6 O

at w >= : w U J

H

.J H as at M

H kJ h3 w

kJ ha hJ 3

3 3

g g 3 U

at 3 D

U g

Z Z

hJ M

M to to v)

M o

3 4

w w

g P- (Y 4 at Cy w.

w uJ M

M 3

.cC M

O g

J M > >=

M a

J H iak =r *( at

.t H

J O

3 O EL a O EL i.)

E Z

50 e

n an

Lth W

M

C Eb

.J nin M

fJ tJ e4 eJ tJ fJ o o tJ O

O

.J ee M

==

cJ

9 ee eJ

(

tJ N

M O

o N

rJ M

o rr W

H H

8 38 kl O

o O

O o o O

o o o

o o o0 O E

(J G

M k

O H

8

.o.e O

fE ti hJ Z

4 o

H M

U O

f M

Z eJ o

O o o o o

o O

o o o o o o o oeo H

O O

a e

E H

kJ 6

H O

8 h-D lit O

fa M

Lt) e n

O H

o Z

M e

o H

e O

nti a

M O

O o o o o o O

o o o o

o o O

oB o I

e 9

(3 H

8 tJ e

9 snJ R

o H

b")

ns.s ce

>=

H 5 E O

w a

Be N

$9 0

>=

uo 7

2 Q

uJ -*

O o

o o o o o o o o O

o o o O

oeo

~

O M

H M e e

u H

O

.l M

e hJ e

H

)

at E

I M

=(

>=

6aJ G h

>- >=

J att a-O

>=

kJ

&#1 H

o me M

2 J

Cr o

6*J N

hk

't c0 H

O

>- eJ b

(

H uJ

l ed c6 Eo o o o o o o o o o o o o O

o o oao M

O

.J e

a y)

O

t 24 0

.I h.

D; I

)

H

I w

C w

O H

I

[7 M

.J H

un kJ O

M LJ

>=

E T

h4

)

Lt u m saa 4

kJ 7 st) et O

a a(

EX OM kJ M

U kJ H

H Ltt 2

lin enJ Q

>= ** 4L

(

1 LL g

.e N O z

in a o o o

o ed o o o o o

-e o

O e cJ o

o

= -

i eH H G in 4

0

(

M 8

9

>=

H E

4 iO M

z 2

N a.J O O e

hJ O

>- Z o

=J O

kJ kJ O

kJ QoM

>=

EL

us 40 9* M

(

M w I/1

>=

I Q

et t z

.J M

o O

M fJ o

@J o ** o me o o

=e b

Ltt tJ 8 4 M)

H end a

me fJ 8 M M

H MU E

Q 4

I O

3

.i 1

N <r as ao e

s Mo I

kJ N J 86 4 M

e et

&MC>

2

- at a

4th O

>=

J H kJ hJ 8

H w

U L 3 >=

e tt)

P o o eJ O

O o

eJ

-e O

O 4

h M

40 I **

9-H GZ t

M eo m 0 tJ et a w H

an s

-e W@

>=

8 2

.P H

o kJ e.J H

b

.J M

=(.J. n H H

o il R C3 ID O

kJ *(

H

(

b >= O 40 O

8 Z 40 J H M

H H*

R 8

ua H J n b)

.J b

O w H.J ua u a

H A

H La. att H

>=

kJ LLI

$1J LJ lsJ kJ 3

3 "I

Q 7 [4 U

u.J

-- = = w M

iO M

M M

2 2

=

w u.

L 2

kJ us M

M 3

3 LO O

Q >= ET =( at CT

.J M e-t-M a

H neJ si et a(

=(

H

=J 3 o Ek o O (L

o A

Q 51

-d n

. nn

4 W

O at tb

.J 4

0 4

4A th H

O M

M O

O O

tJ 4

7 tJ

.J e

n 4

tJ N

M O

O

\\

tJ M

O Ew m

H e

a le kJ O

O O

O O I O E

CJ 0

(S O

H e

O O

ee O

~

wa O

A m

O O

I n

2 ca o

O O

O eO H

O O

s e

E H

kJ w

3 O

9 A

M O

c3 m

H m

f)

E e

M i

M O.

M O

I lth 1

4 ee O

O O

O 8 O 0

t b) 9 tJ 4

e t

w 2

O 9=

a ene m

n!>

H U

5 0 5

o. e w

E

. +

8 O

O 50 W

W Oe

- 2 p

w.

O O

O O eO d

H H

z oe i

u H

o 4

M e

w H

7 4

E

I e

4 H

wO N

H

.J -

O Em W

H ad

=

M M

O 4

2

=J E

o w

H w

3 m

as O

F tJ.

H.J O

4 W

w s

A H

EC O

O O

O-0 O O.

.J t

1 M

M 4

=4

.e 3.

E d

d :)

H 4

W I

U LA r

w O

J H

MJ w

O M

D" U

H E

Z W

O O

w I}

hJ

th 4 O

CL 4

E b =* kJ W

U kJ H

H ntt Z

tti ud O

D- =e E 4

e 8

A g

4s0 z

m o O

O O

O O sO O

~ Q Za F

e e

4 m

H e to 4

e e

a.

O H

E 4

to 3

tt > e M

M Z

N WOO w

k O

9-Z Q J

D a.J w

u w

OOM s

D.

H uJ M

H to H

4 M

EM 7

F

+

B I

J M

O O

M O

O O

tJ M

M O 9 **

Q 4 e MJ H

ha e

I **

4 M

MO E

O 3

3 th a

1 N 4 tt me O

P l

li MO B

kJ \\.J

@ so a 4

&WO>

2O m.

I H

M at 2

M J > uJ h

6 QUM ee 4

6 es th th H

O a

O O

-e ca e O F

II OZ s

M 0 EO

C o >

H an e

1 E

P W@

H e

ce.J H Z

H O

\\

kJ

<a O

.J m

>H 19 H H

Q ea te so >

0 O

asa at M

=t WHO@

W D

JZMOH M

H su H HD

=

E

.8 JEU J

O O

C us >.e ud O J

H H

J H E et M

W DJ us un hJ w w 3

3 3

3: 3 3 0

=

w w

4n a

u ~ = =

uJ o o o o e n n 3

QHb44 0

W k

w w

O O

3 b

O

=

W D

_ _s o r r o cx

=J M uJ at =( =(

at M

Q J

2OEDO A

O 4

52 n

y

]

r b

us O

at (L

J (J

M o o o o o o o o o o o o

.J at tJ QN M

C o

N tJ o

w 9

68 O

o o o o o o o o o o o o o o o oeo fd 8

to H

t 9

e o

~

M M

O 3

th Z

tJ o

O O

o o o o o o o

o o 4.3 o o o6 o H

O s

e E

H w

g 8

L th O

10 m

M M

O 2

to o.

H O

th I

e o o o o o o o o o O

o o o O

o oeo 0

g

$)

0 t4 4

e h4 M

O H

D E

o H

CF W

W N

e.2 cc w

n u.

E e

\\

be II N

o UO Z

Z O

we o

O o o o o o o O

O o o o o o oso a

o H

~

v1 e a

u H

O M

e ks b

)

(

EE Cr

I c)

<f H

w hJ 40 N

C=

=J CL C6 E

th

>=

w to H

O O

M CE

-J tr o

bJ H

O w

3 EQ 10 kJ

>= eJ H.J O

(

O h8

O (L

t-E <0 o o o o o o o o

o o o o o o

O oeo lh O

I 1

to

@a o

Z4 e

s d.

O cr I

O at

+

H 8

==

w 6 s x e M

M e4 H

uJ O.J U

>=

E Z

e r

Q U

U uJ

.h M

k 4

"6 M

w w z vi u

cr in.

kJ H

H i.h r

I E

tas O

F

ta.

y wNO cc o o o o o o o o o o o o O

o o oeo O

in.

2 g

Z~

w e

(

M to th I

+

0 0

H E

4 at 2

m ** 4 hJ M

Z

\\

hJ O O Cr

,l O

&2O O

O us w

U kJ O o th

>=

CL w na 1/3 bM H

(

M EM p >-

I Q

et I 4 J

M o

M O

O O

O o

O O

O o

o4 tJ M.J H

taJ I

e b

H MU E

O 3

3 th I

\\dH M

l P

0 MO I

kJ N a et e u) - =(

& M 80 >

ZO w =(

tr th.

I H

>=

J >= kJ Q

E U ( > >=

M eJ th fJ o o o o o o o O

O O

o o4 Ith

>=

H QZ t

i M af 4

H b

th 8

>= @

>=

B K

wJH H

o hJ

=(.J b

.J D1

> huh H

cn n tt 10 C3 O

kJ =(

H

(

p- >- O th O

JZMOH M

H kJ H H3 2

tr J

J tr 0 A

O O

(

kJ H a hJ u

..J H

F-

.J H EL et H

>=

ki kJ W

kJ W

kJ 3

3 3

Q

]~

K,;

U at o ~

Z Z

ha eh sh M

M vi M

vi 2

Z n*J h.

p r P,.( < 5 kJ 2

w us vi vi 2

,x.

M O

2 a io >- s ei a

=.J M kJ q.( =(

at M

.a O

3 O EL o O (L

O

<t Z

53 n

rt.ft

C) k8 4

M 4

t G.

-.8 o

O eJ th b

to 4

e a

b eq N

4 3

M b

M

-e H

Q g

O q

es 4

e-o Il b A

M4 3.-

O

%a

\\

kJ N

O to t,s e

g O

O O

O O i O OA tJ g

pp I

MM b

e HH EE

u. A OO O

e.

O g

Z (J

O O

O O g O O

e e

H e-e g

g D

nh 4e EJ H

4 2

>=

M O

H II O

th 4

O O

O O i O

>=

b 8

i O

t) fJ Z

+

l l

no un O

>=

3 H

C" n

~

w M

L u o

u.

2e s

N O +

Z se Z

t..

uo I

w he **

O O

O O $ O Cc a O

N

>=

LO 9 i

gr u H

O to a

3 us M

)

(

2

I OM c4 kJ (O ZN

>= >

J 0-OE M

b-h3 UM M

O M

2 J

2 E.JO ut H

kJ

.q F.

3 c1 16

>- eJ O

C ka a

O O

O

=*

O O

O

=e eJ M

10 O I th e

I O.J 4

EQ M

O N

e

=e l ta

- M O

D Z@

I O3

h..

E x o

.-e Z-kJ O

P-I LA J

H kJ O

O tn 13 E

T kJ HE

')

u u

uJ JJ "4

ha Z LA *(

EL M4 ct o-w M

>u kJ H

H sh th i

h. u.

kJ O

>=M th 4

tJ O

tJ 4

O O

O 4A M

4 fJ

==

b I b OO p

at.N O LA O

==

Z p

Z

-e e

CJ e4 4

1 ed at i

H to to 4=

0 OO e*

M E

4

~

3 m>e M

ZZ N

w00 L

O

>- Z O O

w kJ U

hJ OOM LL

-e ha O

M

>= M

>=

90 CJ 6 to 7

I 44 p

=t t i M

4 cJ b

4 O

th M

.-e ce th th eJ e

th th O eS tJ Z

4 a H

e cJ e-o M

CJ P4 M i M H

Mu E

t (J 3

LA e

i II N t it es l

M MO o

Z 18 wNJ O

@ to e =4 HMZ

>"t O P Mc 10 >

.4 a

ah a

e 8

>H t--

.J>=w th w

y u D-uJ ee O

th e

b b

fJ fJ M

M

-e ce th M

M N I ?

E >=

ge u2 o e

M e

M tJ (J

tJ t (J ks at p

H M

Lh I to M>

e >= @

at a

O CO E e.e J H Z

b o

O u2 at J O

U LO

> H E8 H hJ L3 Il n (O D=

>=

JO H

>+

G3 h.s =(

MO 0

D-O M M

JZMOM J

MM wH HD H

Z R

MJ

.J 2 (7 (o

O O

O -t uJ >= J w U

-t H

6>

H CL *1

>=

hJ kJ hJ hJ DJ hJ 3

3 3

[:

U J.c 3.C.c Z

Z w

M M

M in M

M M

3 z 6 Z

w

u. 'O g

in u

w w

M M

3 in O

g >. cy w

_ s in >- >-

J cx J

H w n at =(

.J H

3 o [L Q O

=(

O J

99 54 L

n ne

-

ML20049H756

Text

Navigation menu

Search