Text

Forwards Calculated Offsite I-131 Air Concentrations for TMI Area Location,In Response to 791003 Memo
	ML20197E430
Person / Time
Site:	Three Mile Island
Issue date:	10/25/1979
From:	Kreger W; Office of Nuclear Reactor Regulation
To:	Deyoung R; NRC - NRC THREE MILE ISLAND TASK FORCE
Shared Package
ML20197E128	List: ML20197E125; ML20197E189; ML20197E196; ML20197E430;
References
	FOIA-86-185 NUDOCS 7912200157
	Download: ML20197E430 (111)
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OCT 2 5 29 MEMORANDUM FOR: Richard C. DeYoung,. Staff Director NRC/TMI Special Inquiry Group FROM: William E. Kreger, Assistant Director for Site Analysis, DSE

SUBJECT:

CALCULATED OFF-SITE I-131 AIR CONCENTRATIONS FOR THREE MILErISLAND AREA LOCATIONS The enclosed subject air concentrations are tabulated according to time' periods and locations given in your memorandum of October 3,1979 (NTFTM 791003-03). All the tables are based on TMI real-time meteorology determined by the Meteorology Section staff of HMB and the source tenns provided by your Special Inquiry Group. -

Each location identified in your enclosure by angular degrees (Az) was assigned to the appropriate compass sector. The compass sectors are given by number in the tables under the heading of Sector No. Number 1 i

is the north sector, number 2 - NNE, etc. The time periods used are given under the Period No. heading, with the first period as number one (1).

Time periods to the nearest hour were used because meteorological data are based on hourly periods. Total number of hours for each time period are listed under the heading of Delta Time. Time periods 105 through 108 and 110 were not evaluated due to problems with the meteorological data for those time periods. All locations out to a distance of ten (10) miles are listed in each table for each time period. Locations beyond ten miles were not included in our calculations because the meteorological models become less reliable as distance from the site increases.

It should be noted that the straight-lire Gaussian model used for the meteorological calculations allows for plume spreading in the sector of interest. The Gaussian model does not, however, take into consideration spillover from adjacent sectors even during periods when significant plume meandering occurs. As a result, calculations made for periods when such conditions were occurring are less likely to accurately reflect field measurements than those made during periods when little meandering occurred.

Furthermore, no provisions were included for recirculation of effluents due to wird directional changes. However, in considering all f actors, we conclude that the meteorological evaluation provides realistic estimates of off-site relative concentration and deposition values.

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Richard C. DeYoung DCT 2 5 sig The coordinated input was prepared by the Radiological Impact Section, RAB, with R. Bellamy being informed of our progress regarding the meeting, of your requested response date.

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William E. Kreger, As . Director for Site Analysis Division of Site Safety and Environmental Analysis, NRR

Enclosure:

As stated f cc: w/o encl.

H. Denton .. .

D. Muller T. Murphy E. Markee R. Bangart L. Hulman cc: w/ encl.

R. Bellamy F. Congel W. Pasciak J. Osloond

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r PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION N0 M D H M D H TIME NO MI. MICRO-CI/Mww3 '

1 3 28 4 3 28 19 15 1 3.0 f.520-06 1 3 28 4 3 28 19 15 t 7.0 4.40E-07 4 1 3 28 4 3 28 19 15 2 10.0 0.0 1 3 28 4 3 28 19 15 3 2.6 f.79E-06 1 3 28 4 3 28 19 15 3 3.0 1.44E-06 1 3 28 4 3 28 19 15 3 10.0 2.53E-07 T 1 3 28 4 3 28 19 IS 4 3.5 4.89E-07 3 3 28 4 3 28 19 15 4 6.6 1.76E-07 1 3 28 4 3 28 19 15 4 8.2 1.26E-07 1 3 28 4 3 28 19 IS 5 3.0 4.67E-06 4' I 3 28 4 3 28 19 15 5 6.3 1.55E-06 8 3 28 4 3 28 19 15 6 6.9 0.0 1 3 28 4 3 28 19 15 7 2.9 0.0 1 3 28 4 3 28 19 15 7 5.3 0.0 %

8 3 28 4 3 28 19 15 8 3.0 f.82E-06 8 3 28 4 3 28 19 15 8 6.6 5.83E-07 8 3 28 4 3 28 19 15 8 7.0 5.35E-07 t 1 3 28 4 3 28 19 15 9 3.0 1.ftE-06 %'

t 3 28 4 3 28 19 15 to 2.5 8.42E-08 1 3 28 4 3 28 19 15 to 2.2 9.46E-08 1 3 28' 4 3 28 19 IS 10 5.0 4.15E-08 '

I 3 28 4 3 28 19 15 11 2.5 0.0 %!

t 3 28 4 3 28 19 15 12 4.0 5.43E-08 t 3 28 4 3 28 19 15 13 1.5 1.68E-07 8 3 28 4 3 28 19 15 13 2.9 8.57E-08 t 3 28 4 3 28 19 15 13 5.0 5.16E-08 h!

t 3 28 4 3 28 19 15 14 6.2 0.0 i 1 3 28 4 3 28 19 15 15 2.7 0.0 1 3 28 4 3 28 19 15 15 3.5 0.0 1 3 28 4 3 28 19 15 15 5.2 0.0 h 0t i

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PERIOD TIME START TIME FINISit DELTA SECTOR DIST. CONCENTRATION NO. M D H M D !! TIME NO MI. NICRO-CI/Meu3 i

,, 2 3 28 19 3 30 19 48 2 - 3 28 19 1 3.0 1.47E-05 3 30 19 48 1 7.0 9.67E-06 2 3 28 19 3 30 19 48 2 10.0 2 3 28 89 3 30 19 5.55E-D6 !

48 3 2.6 1.43E-05 gp 2 3 28 19 3 30 19 48 3 2 3 28 19 3.0 1.14E-05 3 30 19 48 3 10.0 2.07E-06 2 3 28 19 3 30 19 48 4 3.5 8.83E-06 '

2 3 28 19 3 30 19 48 2 3 28 19 4 6.6 3.26E-06 8 3 30 19 48 4 8.2 2.39E-06 2 3 28 19 3 30 19 48 5 3.0 3.87E-05 2

2 3 28 19 3 28 19 3 30 19 3 30 19 48 .5 6.3 t.37E-05 48 6 6.9 5.12E-06 2 3 28 19 3 30 19 48 7 2.9 6.17E-06 II 2

3 28 19 3 30 19 48 7 5.3 2.43E-06 2 3 28 19 3 30 19 48 8 2 3 28 19 3.0 1.04E-05 '

3 3 30 19 48 8 6.6 3.20E-06 2 3 28 19 3 30 19 48 8 8" 2 3 28 19 7.0 2.93E-06 3 30 19 48 9 3.0 f.65E-05 2 3 28 19 3 30 19 48 to 2.5 1.53E-05 2 3 28 19 3 30 19 48 to 2.2 2 f.85E-05

3 28 19 3 30 19 48 10 5.0 5.59E-06 -

2 3 28 19 3 30 19 48 ft 2.5 I 2

2.34E-05 3 28 19 3 30 19 48 12 4.0 0.0

.2 3 28 19 3 30 19 48 2 3 28 19 13 1.5 1.03E-05 3 30 19 48 13 2.9 3.45E-06 -

2 3 28 19 3 30 19 48 13 5.0 2

t.53E-06 '

3 28 39 3 10 19 48 14 6.2 4.95E-06 '

2 3 28 19 3 30 19 48 I 2 3 28 19 15 2.7 1.50E-05 -

3 30 19 48 15 3.5 1.08E-05 2 3 28 19 3 30 19 48 15 5.2 6.23E-06

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRAT!0tl NO. M D H M D H TIME NO MI. NICRO-CI/M*w3 ,

3 3 30 19 3 30 22 3 1 3.0 0.0 3 3 30 19 3 30 22 3 7.0 0.0 1

I 3 3 30 19 3 30 22 3 2 10.0 0.0 3 3 30 19 33022 3 3 2.6 i

0.0

3 3 30 19 3 30 22 3 3 3.0 0.0

3 3 30 19 3 30 22 3 3 10.0 0.0 3 3 30 19 3 30 22 3 4 t

3.5 0.0 i 3 3 30 19 3 30 22 3 4 6.6 0.0 3 3 30 19 3 30 22- 3 4 j

" 8.2 0.0 3 3 30 19 3 30 22 3 5 3.0 0.0 t 3 3 30 19 3 30 22 3 5 6.3 0.0 t-3 3 30 19 3 30 22 3 6

49 0.0 3 3 30 19 3 30 22 3 7 9 1.59E-04 3 3 3 30 19 3 30 22 3 7 5.3 i

6.84E-05 '

3 3 30 19 3 30 22 3 8 3.0 1.32E-04

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3 3 30 19 3 30 22 3 8 6.6 4.3fE-05 3 3 30 19 3 30 22 3 8 3 3 3 3 30 19 3 30 22 3 9 7.0 3.0 3.97E-05 0.0 1 3 3 30 19 33022 3 to 2.5 0.0 3 3 30 19 t 3 30 22 3 to 2.2 0.0 3 3 30 19 33022 3 to 5.0 0.0 {

3 3 30 19 3 30 22 3 11 2.5 0.0 4 3 3 30 19 33022 3 12 %.0 0.0 l' 3 3 30 19 3 30 22 3 13 1.5 0.0

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3 3 30 19 3 30 19 3 30 19 33022-33022 3 30 22 3

3 3 13 13 14 2.9 5.0 6.2 0.0 0.0 0.0 0

3 3 30 19 3 30 22 3 15 2.7 0.0 3 3 30 19

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3 30 30 22 22 3 3 15 15 3.5 5.2 0.0 0.0 Q

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'l s PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHOENTRATIDH NO. M D .H M D H TIME H0 MI. MICRO-CI/ Mum 3 4 3 30 22 4 1 6 32 1 3.0 0.0 g 4 3 30 22 4 1 6 32 1 7.0 0.0 4 3 30 22 4 1 6 32 2 10.0 0.0

4 3 30 22 4 1 6 32 3 2.6 0.0 4 3 30 22 4 1 6 32 3 3.0 0.0 g 4 3 30 22 4 1 6 32 3 10.0 0.0 i 4 3 30 22 4 1 6 32 4 3.5 2.35E-06 -

4 3 30 22 4 1 6 32 4 6.6 1.05E-06 -

4 3 30 22 4 5 6 32 4 8.2 7.87E-07 '

4 3 30 22 4 1 6 32 5 3.0 5.88E-06 4 3 30 22 4 1 6 32 5 6.3 2.17E-06 -

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4 3 30 22 4 1 6 32 6 6.9 1.55E-07 4 3 30 22 4 1 6 32 7 2.9 6.72E-07

4 3 30 22 4 1 6 32 7 5.3 3.03C-07 i 4 3 30 22 4 1 6 32 8 3.0 0.0 t

4 3 30 22 4 5 6 32 8 6.6 0.0 4 3 30 22 4 1 6 32 8 7.0 0.0 ' -

4 3 30 22 4 1 6 32 9 3.0 5.76E-06 .

4 3 30 22 4 5 6 32 10 2.5 1.06E-05 4 3 30 22 4 1 6 32 to 2.2 1.27E-05 ,

4 3 30 22 4 1 6 32 to 5.0 4.01E-06 ,

4 3 30 22 4 1 6 32 11 2.5 1.0tE-05 4 3 30 22 4 1 6 32 12 4.0 3.93E-06 4 3 30 22 4 5 6 32 13 1.5 2.52E-06 4 3 30 22 4 1 6 32 13 2.9 9.28E-07 '

4 3 30 22 4 1 6 32 13 5.0 4.46E-07 4 3 30 22 4 1 6 32 14 6.2 9.63E-07 4 3 30 22 4 1 6 32 15 2.7 f.80E-06 4 3 30 22 4 1 6 32 15 3.5 1.29F-06

4 3 30 22 4 1 6 32 15 5.2 7.51E-07 b

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l PERIOD TIME START TIME FINISil DELIA SECTOR DIST. CONCEHIRATION HO. M D- 11 M D ll TIME NO MI. IIICRO-CI/Mww3 5 4 8 6 4 3 3 45 1 3.0 5.99E-06 '

5 4 1 6 4 3 3 45 1 7.0 1.86E-06 5 4 1 6 4 3 3 45 2 10.0 6.67E-07 5 4 1 6 4 3 3 45 3 2.6 6.81E-06 5 4 1 6 4 3 3 45 3 3.0 5.53E-06

5 4 8 6 4 3 3 45 3 10.0 1.02E-06 5 4 1 6 4 3 3 45 4 3.5 3.72E-06 5 4 1 6 4 3 3 45 4 6.6 1.49E-06 5 4 I 6 4 3 3 45 4 8.2 1.10E-06 '

5 4 1 6 4 3 3 45 5 3.0 6.67E-06 5 4 1 6 4 3 3 45 5 6.3 2.25E-06 5 4 1 6 4 3 3 45 6 6.9 1.85E-06 5 4 1 6 4 3 3 45 7 2.9 4.84E-07

5 4 1 6 4 3 3 45 7 5.3 1.98E-07 5 4 5 6 4 3 3 45 8 3.0 0.0 5 4 1 6 4 3 3 45 8 6.6 0.0 5 4 1 6 4 3 3 45 8 7.0 0.0 %

5 4 5 6 4 3 3 45 9 3.0 0.0 5 4 1 6 4 3 3 45 to 2.5 0.0 5 4 1 6 4 3 3 45 to 2.2 0.0 5 4 1 6 4 3 3 45 to 5.0 0.0 5 4 1 6 4 3 3 45 ft 2.5 7.32E-06 5 4 1 6 4 3 3 45 12 4.0 3.88E-06 5 4 1 6 4 '3.3 45 13 1.5 0.0

.5 4 1 6 4 3 3 45 13 2.9 0.0 5 4 5 6 4 3 3 45 13 5.0 0.0 5 4 1 6 4 3 3 45 14 6.2 0.0 5 4 5 6 4 3 3 45 15 2.7 4.17E-06 5 4 5 6 4 3 3 45 15 3.5 2.84E-06 h

5 -4 1 6 4 3 3 45 15 5.2 1.6IE-06 t

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s-PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME HD MI. MICRO-CI/Nwu3

6 4 3 3 4 3 19 16 1 3.0 6.63E-07

6 4 3 3 4 3 19 16 1 7.0 1.92E-07 6 4 3 3 4 3 19 16 2 10.0 0.0 6 4 3 3 4 3 19 16 3 2.6 0.0 6 4 3 3 4 3 19 16 3 3.0 0.0 '

6 4 3 3 4 3 19 16 3 10.0 0.0 6 4 3 3 4 3 19 16 4 3.5 0.0 6 4 3 3 4 3 19 16 4 6.6 0.0 6 4 3 3 4 3 19 16 4 8.2 0.0 >

s 6 4 3 3 4 3 19 16 5 3.0 2.40E-06 'i 6 4 3 3 4 3 19 16 5 6.3 8.36E-07 6 4 3 3 4 3 19 16 6 6.9 0.0 i 6 4 3 3 4 3 19 16 7 2.9 0.0 '

6 4 3 3 4 3 19 16 7 5.3 0.0 6 4 3 3 4 3 19 16 8 3.0 0.0 -

6 4 3 3 4 3 19 16 8 6.6 0.0 6 4 3 3 4 3 19 16 8 7.0 0.0 6 4 3 3 4 3 19 16 9 3.0 0.0 .

6 4 3 3 4 3 19 16 to 2.5 0.0 6 4 3 3 4 3 19 16 to 2.2 0.0 6 4 3 3 4 3 s9 16 to 5.0 0.0 6 4 3 3 4 3 19 16 11 2.5 0.0

6 4 3 3 4 3 19 16 12 4.0 0.0 6 4 3 3 4 3 19 16 13 1.5 6.9tE-06 6 4 3 3 4 3 19 16 13 2.9 2.60E-06 6 4 3 3 4 3 19 16 13 5.0 1.17E-06 #

6 4 3 3 4 3 19 16 14 6.2 1.47E-06 6 4 3 3 4 3 19 16 15 2.7 4.21E-06

, 6 4 3 3 4 3 19 16 15 3.5 2.89E-06 6 4 3 3 4 3 19 16 15 5.2 1.6tE-06 b-D 1

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. MICRO-CI/Mu#3 7 4 3 19 4 3 23 4 1 3.0 8.90E-06 '

7 4 3 19 4 3 23 4 1 7.0 2.60E-06 7 4 3 19 4 3 23 4 2 10.0 3.44E-06 7 4 3 19 4 3 23 4 3 2.6 0.0 7 4 3 19 4 3 23 4 3 3.0 0.0 7 4 3 19 4 3 23 4 3 10.0 0.0 7 4 3 19 4 3 23 4 4 3.5 0.0 7 4 3 19 4 3 23 4 4 6.6 0.0 7 4 3 19 4 3 23 4 4 8.2 0.0 S

7 4 3 19 4 3 23 4 5 3.0 0.0 7 4 3 19 4 3 23 4 5 6.3 0.0 7 4 3 19 4 3 23 4 6 6.9 0.0 7 4 3 19 4 3 23 4 7 2.9 0.0 7 4 3 19 4 3 23 4 7 5.3 0.0 7 4 3 19 4 3 23 4 3 3.0 0.0 7 4 3 19 4 3 23 4 3 6.6 0.0 7 4 3 19 4 3 23 4 3 7.0 0.0 7 4 3 19 4 3 23 4 9 3.0 0.0 7 4 3 19 4 3 23 4 10 2.5 0.0 7 4 3 19 4 3 23 4 to 2.2 0.0 7 4 3 19 4 3 23 4 10 5.0 0.0 7 4 3 19 4 3 23 4 II 2.5 0.0 %

7 4 3 19 4 3 23 4 12 4.0 0.0 7 4 3 19 4 3 23 4 13 1.5 0.0 7 4 3 19 4 3 23 4 13 2.9 0.0 7 4 3 19 4 3 23 4 13 5.0 0.0 %

7 4 3 19 4 3 23 4 14 6.2 0.0 7 4 3 19 4 3 23 4 15 2.7 0.0 7 4 3 19 4 3 23 4 15 3.5 0.0 7 4 3 19 4 3 23 4 15 5.2 0.0 %

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATI0H HO. M D H M D H TIME HO MI. MICRO-CI/M4W3 'j 8 4 3 23 4 5 19 44 1 3.0 f.63E-06 '

8 4 3 23 4 5 19 44 1 7.0 4.73E-07 I s 8 4 3 23 4 5 19 44 2 10.0 3.46E-07 'l 4

8 4 3 23 4 5 19 44 3 2.6 4.29E-06 8 4 3 23 4 5 19 44 3 3.0 3.46E-06 44 10.0

8 4 3 23 4 5 19 3 6.14E-07 8 4 3 23 4 5 19 44 4 3.5 5.25E-06 8 4 3 23 4 5 19 44 4 6.6 2.08E-06 8 4 3 23 4 5 19 44 4 8.2 1.52E-06

8 4 3 23 4 5 19 44 5 3.0 1.73E-06 8 4 3 23 4 5 19 44 5 6.3 5.82E-07 8 4 3 23 4 5 19 44 6 6.9 2.14E-06 d 8 4 3 23 4 5 19 44 7 2.9 2.48E-06 j 8 4 3 23 4 5 19 44 7 5.3 1.06E-06 % ':

8 4 3 23 4 5 19 44 8 3.0 1.98E-06 8 4 3 23 4 5 19 44 8 6.6 6.24E-07 8 4 3 23 4 5 19 44 8 7.0 5.74E-07 8 4 3 23 4 5 19 44 9 3.0 1.19E-06 4 8 4 3 23 4 5 19 44 to 2.5 9.73E-07 8 4 3 23 4 5 19 44 10 2.2 1.18E-06 8 4 3 23 4 5 19 44 to 5.0 3.46E-07 i 8 4 3 23 4 5 19 44 ft 2.5 2.33E-06 &

8 4 3 23 4 5 19 44 12 4.0 2.43E-06 8 4 3 23 4 5 19 44 13 1.5 4.42E-06 8 4 3 23 4 5 19 44 13 2.9 f.56E-06 8 4 3 23 4 5 19 44 13 5.0 6.75E-07 &

8 4 3 23 4 5 19 44 14 6.2 2.38E-07 8 4 3 23- 4 5 19 44 15 2.7 0.0 8 4 3 23 4 5 1 -) 44 15 3.5 0.0 8 4 3 23 4 5 19 44 15 5.2 0.0 &

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4 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION No. M D 11 M D H TIME NO MI. MICRO-CI/MwW3 9 4 5 19 4 6 15 20 1 3.0 0.0 ?

9 4 5 19 4 6 15 20 1 7.0 0.0 9 4 5 19 4 6 15 20 2 10.0 0.0 9 4 5 19 4 6 15 20 3 2.6 0.0 9 4 5 19 4 6 15 20 3 3.0 0.0 9 4 5 19 4 6 15 20 3 10.0 0.0 9 4 5 19 4 6 15 20 4 3.5 0.0 9 4 5 19 4 6 15 20 4 6.6 0.0 9 4 5 19 4 6 15 20 4 8.2 0.0 9 4 5 19 4 6 15 20 5 3.0 0.0 9 4 5 19 4 6 15 20 5 6.3 0.0 9 4 5 19 4 6 15 20 6 6.9 0.0 9 4 5 19 4 6 15 20 7 2.9 0.0 9 4 5 19 4 6 15 20 7 5.3 0.0 %d 9 4 5 19 4 6 15 20 8 3.0 0.0 9 4 5 19 4 6 15 20 8 6.6 0.0 9 4 5 19 4 6 15 20 8 7.0 0.0 9 4 5 19 4 6 15 20 9 3.0 6.23E-07 %

9 4 5 19 4 6 15 20 to 2.5 4.73E-07 9 4 5 19 4 6 15 20 to 2.2 5.71E-07 9 4 5 19 4 6 15 20 to 5.0 1.73E-07 9 4 5 19 4 6 15 20 18 2.5 5.21E-08 &i 9 4 5 19 4 6 15 20 12 4.0 6.46E-08 9 4 5 19 4 6 15 20 13 1.5 6.73E-07 9 4 5 19 4 6 15 20 13 2.9 2.38E-07 i 9 4 5 19 4 6 15 20 13 5.0 1.06E-07 %

9 4 5 19 4 6 15 20 14 6.2 0.0 1 9 4 5 19 4 6 15 20 15 2.7 0.0 9 4 5 19 4 6 15 20 15 3.5 0.0 9 4 5 19 4 6 15 20 15 5.2 0.0 h bi b

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'T PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HD. M D H H D H TIME NO MI. MICRO-CI/MwW3 10 4 6 15 4 7 6 15 1 3.0 0.0 ,,

10 4 6 15 4 7 6 15 1 7.0 0.0 to 4 6 15 4 7 6 15 2 10.0 0.0 10 4 6 15 4 7 6 15 3 2.6 0.0 to 4 6 15 4 7 6 15 3 3.0 0.0 g, 10 4 6 15 4 7 6 15 3 10.0 0.0 10 4 6 15 4 7 6 15 4 3.5 0.0 to 4 6 15 4 7 6 15 4 6.6 0.0 10 4 6 15 4 7 6 15 4 8.2 0.0 *'

10 4 6 15 4 7 6 15 5 3.0 0.0 to 4 6 15 4 7 6 15 5 6.3 0.0 10 4 6 15 4 7 6 15 6 6.9 0.0 to 4 6 15 4 7 6 15 7 2.9 0.0

10 4 6 15 4 7 6 15 7 5.3 0.0 10 4 6 15 4 7 6 15 8 3.0 0.0 to 4 6 15 4 7 6 15 8 6.6 0.0 '

10 4 6 15 4 7 6 15 8 7.0 0.0 10 4 6 15 4 7 6 15 9 3.0 0.0 'i 10 4 6 15 4 7 6 15 10 2.5 0.0 10 4 6'15 4 7 6 15 to 2.2 0.0 to 4 6 15 4 7 6 15 to 5.0 0.0 '

to 4 6 15 4 7 6 15 11 2.5 0.0 10 4 6 15 4 '7 6 15 12 4.0 0.0 to 4 6 15 4 7 6 15 13 1.5 6.22E-07 to 4 6 15 4 7 6 15 13 2.9 2.18E-07 '

to 4 6 15 4 7 6 15 13 5.0 8.89E-08 i 10 4 6 15 4 7 6 15 14 6.2 2.97E-06 10 4 6.15 4 7 6 15 15 2.7 1.5tE-06 10 4 6 15 4 7 6 15 15 3.5 1.02E-06 ;

10 4 6 15 4 7 6 15 15 5.2 5.67E-07 ) j

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H H D H TIME H0 MI. MICRO-CI/M4W3 11 4 7 6 4 8 3 21 1 3.0 1.35E-06 '

11 4 7 6 4 8 3 21 1 7.0 3.94E-07 11 4 7 6 4 8 3 21 2 10.0 0.0 11 4 7 6 4 8 3 21 3 2.6 0.0 11 4 7 6 4 8 3 21 3 3.0 0.0 '

11 4 7 6 4 8 3 21 3 10.0 0.0 11 4 7 6 4 8 3 21 4 3.5 0.0 11 4 7 6 4 8 3 21 4 6.6 0.0 11 4 7 6 4 8 3 21 4 8.2 0.0 11 4 7 6 4 8 3 21 5 3.0 0.0 11 4 7 6 4 8 3 21 5 6.3 0.0 11 4 7 6 4 8 3 21 6 6.9 0.0 11 4 7 6 4 8 3 21 7 2.9 0.0 11 4 7 6 4 8 3 21 7 5.3 0.0 '

11 4 7 6 4 8 3 21 8 3.0 0.0 ft 4 7 6 4 8 3 21 8 6.6 0.0 11 4 7 6 4 8 3 21 8 7.0 0.0 11 4 7 6 4 8 3 21 9 3.0 0.0 %

11 4 7 6 4 8 3 21 10 2.5 0.0 11 4 7 6 4 8 3 21 10 2.2 0.0 e 11 4 7 6 4 8 3 21 10 5.0 0.0 11 4 7 6 4 8 3 21 11 2.5 0.0 %

i 11 4 7 6 4 8 3 21 12 4.0 3.21E-06

! 11 4 7 6 4 8 3 21 13 1.5 0.0 s l 11 4 7 6 4 8 3 21 13 2.9 0.0 11 4 7 6 4 8 3 21 13 5.0 0.0 %

11 4 7 6 4 8 3 21 14 6.2 1.92E-06 11 4 7 6 4 8 3 21 15 2.7 1.00E-05 11 4 7' 6 4 8 3 21 15 3.5 6.67E-06 11 4 7 6 4 8 3 21 15 5.2 3.83E-06 %

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. MICRO-CI/Muv3 12 4 8 3 4 9 5 26 1 3.0 8.56E-06 '

12 4 8 3 4 9 5 26 1 7.0 2.37E-06 12 4 8 3 4 9 5 26 2 10.0 5.77E-07 12 4 8 3 4 9 5 26 3 2.6 5.43E-06 12 4 8 3 4 9 5 26 3 3.0 4.47E-06 '

12 4 8 3 4 9 5 26 3 10.0 7.69E-07 12 4 8 3 4 9 5 26 4 3.5 1.87E-05 la 4 8 3 4 9 5 26 4 6.6 7.45E-06 12 4 8 3 4 9 5 26 4 8.2 5.48E-06

12 4 8 3 4 9 5 26 5 3.0 1.10E-05 12 4 8 3 4 9 5 26 5 6.3 3.73E-06 12 4 8 3 4 9 5 26 6 6.9 0.0 12 4 8 3 4 9 5 26 7 2.9 0.0 %

12 4 8 3 4 9 5 26 7 5.3 0.0 12 4 8 3 4 9 5 26 8 3.0 9.37E-06 12 4 8 3 4 9 5 26 8 6.6 1.27E-06 12 4 8 3 4 9 5 26 3 7.0 1.16E-06

12 4 8 3 4 9 5 26 9 3.0 2.55E-06 .

12 4 8 3 4 9 5 26 10 2.5 0.0 12 4 8 3 4 9 5 26 10 2.2 0.0 12 4 8 3 4 9 5 26 10 5.0 0.0 b

12 4 8 3 4 9 5 26 11 2.5 0.0 12 4 8 3 4 9 5 26 12 4.0 0.0 12 4 8 3 4 9 5 26 13 1.5 0.0 12 4 8 3 4 9 5 26 13 2.9 0.0 12 4 8 3 4 9 5 26 13 5.0 0.0 12 4 8 3 4 9 5 26 14 6.2 9.95E-07 12 4 8 3 4 9 5 26 15 2.7 0.0 12 4 8 3 4 9 5 26 15 3.5 0.0 12 4 8 3 4 9 5 26 15 5.2 0.0 )

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4 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION '

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HO. M D H M D H TIME NO MI. MICRO-CI/Mww3 %:

13 4 9 5 4 9 to 5 1 3.0 0.0 .

13 4 9 5 4 9 10 5 1 7.0 0.0 % i 13 4 9 5 4 9 to 5 2 10.0 0.0 j 13 4 9 5 4 9 to 5 3 2.6 0.0 :

13 4 9 5 4 9 to 5 3 3.0 0.0 :

13 4 9 5 4 9 10 5 3 10.0 0.0 %: '

13 4 9 5 4 9 to 5 4 3.5 0.0 13 4 9 5 4 9 10 5 4 6.6 0.0 I' 13 4 9 5 4 9 to 5 4 8.2 0.0 13 4 9 5 4 9 10 5 5 3.0 5.24E-05 ,

13 4. 9 5 4 9 10 5 5 6.3 1.77E-05 .

13 4 9 5 4 9 10 5 6 6.9 0.0 :

13 4 9 5 4 9 10 5 7 2.9 0.0 4 '

13 4 9 5 4 9 10 5 7 5.3 0.0 13 4 9 5 4 9 to 5 8 3.0 0.0 -

13 4 9 5 4 9 to 5 8 6.6 0.0 13 4 9 5 4 9 10 5 8 7.0 0.0 13 4 9 5 4 9 to 5 9 3.0 0.0 % ;

13 4 9 5 4 9 10 5 to 2.5 0.0 .

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13 4 9 5 4 9 to 5 18 2.5 0.0 %_

13 4 9 5 4 9 to 5 12 4.0 0.0 i j 13 4 9 5 4 9 10 5 13 1.5 0.0 '

13 4 9 5 4 9 10 5 13 2.9 0.0 13 4 9 5 4 9 10 5 13 5.0 0.0 %

13 4 9 5 4 9 to 5 14 6.2 0.0 t 13 4 9 5 4 9 10 5 15 2.7 0.0 13 13 4

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. 'COHCENTRATION HO. M D H M D H TIME NO MI. MICRO-C1/MwN3

14 4 9 10 4 10 16 30 1 3.0 0.0 14 4 '9 10 4 to 16 30 1 7.0 0.0 **

14 4 9 10 4 to 16 30 2 10.0 0.0 14 4 9 10 4 to 16 30 3 2.6 3.25E-07 14 4 9 10 4 10 16 30 3 3.0 2.62E-07 14 4 9 10 4 10 16 30 3 10.0 4.64E-08 %'

14 4 9 10 4 10 16 30 4 3.5 1.02E-07 14 4 9 to 4 to 16 30 4 6.6 4.05E-08 14 4 9 to 4 10 16 30 4 8.2 2.97E-08 14 4 9 10 4 10 16 30 5 3.0 0.0 %

14 4 9 10 4 10 16 30 5 6.3 0.0 14 4 9 10 4 10 16 30 6 6.9 0.0 14 4 9 to 4 to 16 30 7 2.9 0.0 14 4 9 to 4 10 16 30 7 5.3 0.0 %'

14 4 9 10 4 10 16 30 8 3.0 0.0 14 4 9 10 4 10 16 30 8 6.6 0.0 14 4 9 10 4 10 16 30 8 7.0 0.0 14 4 9 10 4 10 16 30 9 3.0 0.0 %

14 4 9 to 4 10 16 30 10 2.5 0.0 14 4 9 10 4 10 16 30 10 2.2 0.0 14 4 9 10 4.10 16 30 10 5.0 0.0 14 4 9 10 4 to 16 30 11 2.5 0.0 %-

14 4 9 to 4 10 16 30 12 4.0 0.0 14 4 9 10 4 10 16 30 13 1.5 3.96E-07 14 4 9 10 4 10 16 30 13 2.9 1.42E-07 14 4 9 to 4 to 16 30 13 5.0 6.37E-08 %

14 4 9 10 4 10 16 30 14 6.2 6.28E-08 14 4 9 10 4 10 16 30 15 2.7 3.04E-07 14 4 9 10 4 10 16 30 15 3.5 2.05E-07 14 4 9 to 4 to 16 30 15 5.2 1.14E-07 1 1 e e

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,3 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION MICRO-CI/M4M3 3 H0. M D. H M D H TIME H0 MI.

15 4 10 16 4 11 19 27 1 3.0 1.46E-07 '

15 4 10 16 4 11 19 27 1 7.0 3.8tE-08 15 4 10 16 4 11 19 27 2 10.0 3.02E-07 15 4 10 16 4 11 19 27 3 2.6 0.0 15 4 t o 16 4 11 19 27 3 3.0 0.0 '% '

15 4 10 16 4 11 19 27 3 10.0 0.0 15 4 to 16 4 11 19 27 4 3.5 2.97E-06 15 4 10 16 4 11 19 27 4 6.6 1.29E-06 15 4 10 16 4 11 19 27 4 8.2 9.62E-07 15 4 10 16 4 18 19 27 5 3.0 1.46E-06 '

15 4 to 16 4 11 19 27' 5 6.3 4.94E-07 15 4 10 16 4 11 19 27 6 6.9 0.0 15 4 10 16 4 11 19 27 7 2.9 0.0 15 4 10 16 4 11 19 27 7 5.3 0.0 15 4 10 16 4 11 19 27 8 3.0 0.0 15 4 10 16 4 11 19 27 8 6.6 0.0 15 4 10 16 4 11 19 27 8 7.0 0.0 15 4 10 16 4 11 19 27 9 3.0 2.02E-06 9 15 4 10 16 4 Il 19 27 to 2.5 1.28E-06 15 4 10 16 4 11 19 27 to 2.2 1.55E-06 15 4 to 16 4 11 19 27 to 5.0 5.03E-07 15 4 10 16 4 11 19 27 11 2.5 2.16E-06 %'

15 4 10 16 4 11 19 27 12 4.0 0.0 15 4 10 16 4 11 19 27 13 1.5 1.23E-05 15 4 10 16 4 11 19 27 13 2.9 4.69E-06 15 4 to 16 4 11 19 -

27 13 5.0 2.19E-06 %

15 4 10 16 4 11 19 27 14 6.2 0.0 15 4 10 16 4 11 19 27 15 2.7 4.03E-06 15 4 10 16 4 11 19 27 15 3.5 2.77E-06 15 4 10 16 4 11 19 27 15 5.2 1.61E-06 D 9

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION H0. M D H M D H TIME %

H0 MI. MICRO-CI/Mwv3 17 4 11 20 4 13 23 51 I 3.0 1.96E-06 '

17 4 11 20 4 13 23 51 1 7.0 5.89E-07 17 4 18 20 4 13 23 51 2 10.0 5.9tE-07 17 4 f t 20 4 13 23 51 3 2.6 5.89E-06 l 17 4 11 20 4 13 23 58 3 3.0 4.85E-06 !

17 4 f t 20 4 13 23 51 3 10.0 9.37E-07 T 17 4 18 20 4 13 23 51 4 3.5 1.75E-06 17 4 11 20 4 13 23 51 4 6.6 7.48E-07

, 17 4 11 20 4 13 23 51 4 8.2 5.56E-07 17 4 11 20 4 13 23 51 5 3.0 2.48E-06 %

. 17 4 11 20 4 13 23 51 5 6.3 8.69E-07 17 4 11 20 4 13 23 51 6 6.9 9.58E-07 17 4 11 20 4 13 23 51 7 2.9 1.68E-06 17 4 11 20 4 13 23 51 7 5.3 7.47E-07 %

, 17 4 11 20 4 13 23 51 8 3.0 0.0 17 4 11 20 4 13 23 51 8 6.6 0.0 17 4 11 20 4 13 23 51 8 7.0 0.0 17 4 11 20 4 13 23 51 9 3.0 1.50E-06 %

17 4 11 20 4 13 23 51 10 2.5 1.53E-06 17 4 11 20 4 13 23 51 10 2.2 1.94E-06 17 4 11 20 4 13 23 51 to 5.0 6.00E-07 17 4 11 20 4 13 23 51 11 2.5 0.0 %

17 4 11 20 4 13 23 51 12 4.0 5.00E-07 ,

17 4 11 20 4 13 23 51 13 1.5 1.54E-06 ,

17 4 11 20 4 13 23 5' 13 2.9 5.63E-07 17 4 11 20 4 13 23 51 13 5.0 2.54E-07 4 17 4 11 20 4 13 23 51 14 6.2 0.0 17 4 11 20 4 13 23 51 15 2.7 0.0 17 4 11 20 4 13 23 51 15 3.5 0.0 17 4 11 20 4 13 23 51 15 5.2 0.0 9 D

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH TIME NO. M D H M D H NO MI. MICRO-CI/MwN3 18 4 13 23 4 14 ft 12 1 3.0 4.81E-06

18 4 13 23 4 14 11 12 1 7.0 1.42E-06 18 4 13 23 4 14 11 12 2 10.0 0.0 18 4 13 23 4 14 11 12 3 2.6 3.30E-06 18 4 13 23 4 14 11 12 3 3.0 2.68E-06 '

18 9 13 23 4 14 11 12 3 10.0 4.63E-07 18 4 13 23 4 14 11 82 4 3.5 1.53E-06 18 4 13 23 4 14 11 12 4 6.6 6 .18 E- 0 7 18 4 13 23 4 14 11 12 4 8.2 4.5tE-07

18 4 13 23 4 14 11 12 5 3.0 6.11E-06 18 4 13 23 4 14 11 12 5 6.3 2.06E-06 18 4 13 23 4 14 11 12 6 6.9 0.0 18 4 13 23 4 14 11 12 7 2.9 0.0 4 14 11 7 5.3 %

18 4 13 23 12 0.0 i. .

18 4 13 23 4 14 11 12 8 3.0 0.0 18 4 13 23 4 14 11 12 8 6.6 0.0 18 4 13 23 4 14 11 12 8 7.0 0.0 18 4 13 23 4 14 11 12 9 3.0 0.0 %

IS .. 4 13 23 4 14 11 12 10 2.5 0.0 18 4 13 23 4 14 11 12 10 2.2 0.0 18 4 13 23 4 14 11 12 10 5.0 0.0 18 4 13 23 4 14 11 12 11 2.5 0.0 %

18 4 13 23 4 14 11 12 12 4.0 0.0 18 4 13 23 4 14 11 12 13 1.5 0.0 18 4 13 23 4 14 11 12 13 2.9 0.0 18 4 13 23 4 14 11 12 13 5.0 0.0 %

18 4 13 23 4 14 11 12 14 6.2 0.0 18 4 13 23 4 14 11 12 15 2.7 4.15E-06 18 4 13 23 4 l '; 11 12 15 3.5 2.82E-06 18 4 13 23 4 14 11 12 15 5.2 1.53E-06 I b

D 1

9

9 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH NO. M D H M D H TIME NO MI. MICRO-CI/M*N3 '

19 4 14 11 4 14 19 8 1 3.0 1.07E-05 '

19 4 14 ft 4 14 19 8 1 7.0 3.28E-06 19 4 14 11 4 14 19 8 2 10.0 0.0 19 4 14 11 4 14 19 8 3 2.6 0.0 19 4 14 11 4 14 19 8 3 3.0 0.0 '

19 4 14 11 4 14 19 8 3 10.0 0.0 19 4 14 11 4 14 19 8 4 3.5 0.0 19 4 14 11 4 14 19 8 4 6.6 0.0 19 4 14 11 4 14 19 8 4 8.2 0.0 19 4 14 11 4 14 19 8 5 3.0 0.0 19 4 14 11 4 14 19 8 5 6.3 0.0 19 4 14 11 4 14 19 8 6 6.9 0.0 19 4 14 11 4 14 19 8 7 2.9 0.0 19 4 14 11 4 14 19 8 7 5.3 0.0 4 19 4 14 11 4 14 19 8 8 3.0 0.0 19 4 14 11 4 14 19 8 8 6.6 0.0 19 4 14 11 4 14 19 8 8 7.0 0.0 19 4 14 11 4 14 19 8 9 3.0 0.0 %'

l 19 4 14 11 4 14 19 8 to 2.5 0.0 l 19 4 14 11 4 14 19 8 to 2.2 0.0 l 19 4 14 11 4 14 19 8 to 5.0 0.0 l 19 4 14 11 4 14 19 8 11 2.5 0.0 lb

! 19 4 14 11 4 14 19 8 12 4.0 0.0 l 19 4 14 11 4 14 19 8 13 1.5 0.0 l 19 4 14 11 4 14 19 8 13 2.9 0.0 19 4 14 11 4 14 19 8 13 5.0 0.0 %

19 4 14 11 4 14 19 8 14 6.2 0.0 19 4 14 11 4 14 19 8 15 2.7 7.27E-06 19 4 14 11 4 14 19 8 15 3.5 4.87E-06 19 4 14 11 4 14 19 8 15 5.2 2.75E-06 %

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I PERIOD TIME START TIME FINISit DELTA SECTOR DIST. CONCENTRATIDH NO. M D H H D H TIME NO MI. MICRO-CI/MwM3 *b 20 4 14 19 4 15 6 ft 1 3.0 9.36E-06 20 4 14 19 4 15 6 Il I 7.0 2.88E-06 %

l 20 4 14 19 4 15 6 11 2 10.0 0.0 20 4 14 19 4 15 6 11 3 2.6 0.0 20 4 14 19 4 15 6 11 3 3.0 0.0 20 4 14 19 4 15 6 11 3 10.0 0.0

20 4 14 19 4 15 6 11 4 3.5 0.0 20 4 14 19 4 15 6 11 4 6.6 0.0 20 4 14 19 4 15 6 11 4 8.2 0.0 i

30 4 14 19 4 15 6 11 5 3.0 0.0

I 20 4 14 19 4 15 6 11 5 6.3 0.0 20 4 14 19 4 15 6 11 6 6.9 1.56E-06 EO 4 14 19 4 15 6 11 7 2.9 2.9tE-05 20 4 14 19 4 15 6 11 7 5.3 1.26E-05 %

20 4 '14 19 4 15 6 11 8 3.0 0.0 20 4 14 19 4 15 6 11 8 6.6 0.0 20 4 14 19 4 15 6 11 8 7.0 0.0 20 4 14 19 4 15 6 11 9 3.0 2.8tE-06 # %

20 4 14 19 4 15 6 11 10 2.5 0.0 20 4 14 19 4 15 6 11 10 2.2 0.0 20 4 14 19 4 15 6 Il 10 5.0 0.0

, 20 4 14 19 4 15 6 11 11 2.5 0.0 9

! 20 4 14 19 4 15 6 11 12 4.0 8.15E-06 l 20 4 14 19 4 15 6 ft 13 1.5 3.25E-05 I 20 4 14 19 4 15 6 11 13 2.7 1.18E-05 l 20 4 14 19 4 15 6 11 13 5.0 5.45E-06 Ob i

20 4 14 19 4 15 6 11 14 6.2 0.0 l 20 4 14 19 4 15 6 11 15 2.7 0.0 20 4 14 19 4 15 6 11 15 3.5 0.0 20 4 14 19 4 15 6 11 15 5.2 0.0 &

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,g PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME HO MI. MICRO-CI/M*w3 21 4 15 6 4 15 8 2 1 3.0 0.0 %

21 4 15 6 4 15 8 2 1 7.0 0.0 21 4 15 6 4 15 8 2 2 10.0 0.0 21 4 15 6 4 15 8 2 3 2.6 0.0 21 4 15 6 4 15 8 2 3 3.0 0.0 %

21 4 15 6 4 15 8 2 3 10.0 0.0 21 4 15 6 4 15 8 2 4 3.5 0 ~. 0 21 4 15 6 4 15 8 2 4 6.6 0.0

'! 2 4 8.2 0.0

'21 4 15 6 4 15 8 %

21 4 15 6 4 15 8 2 5 3.0 0.0 21 4 15 6 4 15 8 2 5 6.3 0.0 21 4 15 6 4 15 8 2 6 6.9 0.0 21 4 15 6 4 15 8 2 7 2.9 0.0 21 4 15 6 4 15 8 2 7 5.3 0.0 21 4 15 6 4 15 8 2 8 3.0 0.0 21 4 15 6 4 15 8 2 8 6.6 0.0 21 4 15 6 4 15 8 2 8 7.0 0.0 21 4 15- 6 4 15 8 2 9 3.0 0.0 21 4 15 6 4 15 8 2 to 2.5 9.44E-05 e 21 4 15 6 4 15 8 2 10 2.2 1.15E-04 .

21 4 15 6 4 15 8 2 to 5.0 3.39E-05 4

21 4 15 6 4 15 8 2 11 2.5 0.0 21 4 15 6 4 15 8 2 12 4.0 0.0 21 4 15 6 4 15 8 2 13 1.5 0.0 21 4 15 6 4 15 8 2 13 2.9 0.0 '

Sb 21 4 15 6 4 15 8 2 13 5.0 0.0 21 4 15 6 4 15 8 2 14 6.2 2.54E-05 -

21 4 15 .6 4 15 8 2 15 2.7 0.0 21 4 15 6 4 15 8 2 15 3.5 0.0 21 4 15 6 4 15 8 2 15 5.2 0.0 D l

a 4 8

1 e

0 7

l .

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME '"

HO MI. MICRO-CI/Mww3 22 4 15 8 4 15 18 to 1 3.0 0.0 22 4 15 8 4 15 18 10 1 7.0 0.0 '"

22 4 15 8 4 15 18 to 2 10.0 0.0 1 23 4 15 8 4 15 18 to 3 2.6 0.0 22 4 15 8 4 15 18 to 3 3.0 0.0 22 to 1 4 15 8 4 15 18 3 10.0 0.0 22 4 15 8 4 15 18 10 4 3.5 0.0 22 4 15 8 4 15 18 10 4 6.6 0.0 22 4 15 8 4 15 18 to 4 8.2 0.0 22 4 15 8 4 15 18 to 5 3.0 0.0 1h .

22 4 15 8 4 15 18 10 5 6.3 0.0 22 4 15 8 4 15 18 10 6 6.9 0.0 22 4 15 8 4 15 18 to 7 2.9 0.0 :

22 4 15 8 4 15 18 to 7 5.3 0.0

i 22 4 15 8 4 15 18 to 8 3.0 0.0 22 4 15 8 4 15 18 10 8 6.6 0.0 22 4 15 8 4 15 18 to 8 7.0 0.0 22 4 15 8 4 15 18 to 9 3.0 0.0 I' 22 4 15 8 4 15 18 to 10 2.5 9.91E-06 22 4 15 8 4 15 18 to 10 2.2 1.20E-05 22 4 15 8 4 15 18 10 10 5.0 3.54E-06 32 4 15 8 4 15 18 10 11 2.5 0.0 %

22 4 15 8 4 15 18 10 12 4.0 0.0 22 4 15 8 4 15 18 to 13 1.5 6.66E-06 22 4.15 8 4 15 18 to 13 2.9 2.35E-06 32 4 15 8 4 15 18 10 13 5.0 1.08E-06 I 22 4 15 8 4 15 18 10 14 6.2 2.26E-06 22 4 15 8 4 15 18 to 15 2.7 1.33E-05 22 4 15 8 4 15 18 to 15 3.5 8.78E-06 22 4 15 8 4 15 18 to 15 5.2 4.99E-06 lb -

16 :

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! PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION

-HO. M D H M D H IIME H0 MI. MICRO-CI/Muv3 0 23 4 15 18 4 15 22 4 1 3.0 0.0 .'

23 4 15 13 4 15 22 4 1 7.0 0.0 23 4 15 18 4 15 22 4 2 10.0 0.0 23 4 15 18 4 15 22 4 3 2.6 0.0 23 4 15 18 4 15 22 4 3 3.0 0.0 '

23 4 15 18 4 15 22 4 3 10.0 0.0 23 4 15 18 4 15 22 4 4 3.5 0.0 23 4 15 18 4 15 22 4 4 6.6 0.0 33 4 15 18 4 15 22 4 4 8.2 0.0 4 23 4 15 18 4 15 22 4 5 3.0 0.0 23 4 15 18 4 15 22 4 5 6.3 0.0 23 4 85 18 4 15 22 4 6 6.9 0.0

, 33 4 15 18 4 15 22 4 7 2.9 0.0 %

23 4 15 18 4 15 22 4 7 5.3 0.0 23 4 15 18 4 15 22 4 8 3.0 0.0 23 4 15 18 4 15 22 4 8 6.6 0.0 1 l

23 4 15 18 4 15 22 4 8 7.0 0.0 %

23 4 15 18 4 15 22 4 9 3.0 0.0 23 4 15 18 4 15 22 4 10 2.5 0.0 23 4 15 18 4 15 22 4 10 2.2 0.0 23 4 15 18 4 15 22 4 10 5.0 0.0 %

23 4 15 13 4 15 22 4 11 2.5 0.0 23 4 15 18 4 15 22 4 12 4.0 0.0 33 4 15 18 9 15 22 4 13 1.5 0.0 23 4 15 18 4 15 4 13 2.9 0.0 4~15'22 22 13 0.0 %

23 4 15 13 4 5.0 23 4 15 18 4 15 22 4 14 6.2 4.59E-06 23 4 15 18 4 15 22 4 15 2.7 0.0 23 4 15 18 4 15 22 4 15 3.5 0.0 23 4 15 18 4 15 22 4 15 5.2 0.0 9 I

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION H0. M D H M D H TIME NO MI. MICRO-CI/MWw3 ;

24 4 15 22 4 15 24 2 1 3.0 0.0 '

24 4 15 22 4 15 24 2 1 7.0 0.0 24 4 15 22 4 15 24 2 2 10.0 0.0 24 4 15 22 4 15 24 2 3 2.6 0.0 i 24 4 15 22 4 15 24 2 3 3.0 0.0 '

24 4 15 22 4 15 24 2 3 10.0 0.0 24 4 15 22 4 15 24 2 4 3.5 0.0 24 4 15 22 4 15 24 2 4 6.6 0.0 24 4 15 22 4 15 24 2 4 8.2 0.0 % -

24 4 15 22 4 15 24 2 5 3.0 0.0 24 4 15 22 4 15 24 2 5 6.3 0.0 24 4 15 22 4 15 24 2 6 6.9 0.0 24 4 15 22 4 15 24 2 7 2.9 0.0

24 4 15 22 4 15 24 2 7 5.3 0.0 24 4 15 22 4 15 24 2 8 3.0 0.0 24 4 15 22 4 15 24 2 8 6.6 0.0 24 4 15 22 4 15 24 2 8 7.0 0.0 2 0.0 %'-

24 4 15 22 4 15 24 9 3.0 24 4 15 22 4 15 24 2 to 2.5 0.0 24 4 15 22 4 15 24 2 to 2.2 0.0 24 4 15 22 4 15 74 2 to 5.0 0.0 24 4 15 22 4 15 44 2 11 2.5 0.0 24 4 15 22 4 15 24 2 12 4.0 0.0 24 4 15 22 4 15 24 2 13 1.5 0.0 24 4 15 22 4 15 24 2 13 2.9 0.0 24 4 15 22 4 15 24 2 13 5.0 0.0 %

i 24 4 15 22 4 15 24 2 14 6.2 6.91E-06 24 4 15 22 4 15 24 2 15 2.7 0.0 !

24 4 15 22 4 15 24 2 15 3.5 0.0 24 4 15 22 4 15 24 2 15 5.2 0.0 9 D'

D 8

9 i

i-1

a PERIOD TIME START TIME FINISH DELTA SECTOR DIST, CONCENTRATION HO. M _D H N D H TIME H0 MI. MICRO-CI/Mwv3

25 4 15 24 4 16 4 4 1 3.0 0.0 25 4 15 24 4 16 4 4 1 7.0 0.0 %

35 4 15.24 4 16 4 4 2 10.0 0.0 25 4 15 24 4 16 4 4 3 2.6 0.0 25 4 15 24 4 16 4 4 3 3.0 0.0 25 4 15 24 4 16 4 4 3 10.0 0.0 %

25 4 15 24 4 16 4 4 4 3.5 0.0 25 4 15 24 4 16 4 4 4 6.6 0.0 25 4 15 24 4 16 4 4 4 8.2 0.0 25 4 15 24 4 16 4 4 5 3.0 0.0 %

25 4 15 24 4 16 4 4 5 6.3 0.0 25 4 15 24 4 16 4 4 6 6.9 0.0 25 4 15 24 4 16 4 4 7 2.9 0.0 25 4 15 24 4 16 4 4 7 5.3 0.0 %

25 4 15 24 4 16 4 4 8 3.0 0.0 25 4 15 24 4 16 4 4 8 6.6 0.0 25 4 15 24 4 16 4 4 8 7.0 0,0 35 4 15 24 4 16 4 4 9 3.0 0.0 %

25 4 15 24 4 16 4 4 10 2.5 0.0 25 4 15 24 4 16 4 4 to 2.2 0.0 25 4 15 24 4 16 4 4 10 5.0 0.0 25 4 15 24 4 16 4 4 11 2.5 0.0 1b 25 4 15 24 4 16 4 4 12 4.0 0.0 25 4 15 24 4 16 4 4 13 1.5 0.0 25 4 15 24 4 16 4 4 13 2.9 0.0

'25 4 15 24 4 16 4 4 13 5.0 0.0 4 25 4 15 24 '4 16 4 4 14 6.2 5.84E-06 25 4 15 24 4 16 4 4 15 2.7 4.50E-06 25 4.35 24 4 16 4 4 15 3.5 2.95E-06 25 4 15 24 4 16 4 4 15 5.2 1.64E-06 4 4

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION ,

HO. M D H M D H TIME HO MI. MICRO-CI/MwW3

' 4 16 8 4 0.0 26 4 16 4 8 3.0 ,-

26 4 16 4 4 16 8 4 1 7.0 0.0 26 4 16 4 4 16 8 4 2 10.0 0.0 g 26 4 16 4 4 16 8 4 3 2.6 0.0 .

26 4 16 '4 4 16 8 4 3 3.0 0.0 %

26 4 16 4- 4 16 8 4 3 10.0 0.0 26 4 16 4 4 16 8 4 4 3.5 0.0 :

26 4 16 4 4 16 8 4 4 6.6 0.0 .

26 4 16 4 4 16 8 4 4 8.2 0.0 % -

26 4 16 4 4 16 8 4 5 3.0 0.0 26 4 16 4 4 16 8 4 5 6.3 0.0 ,

26 4 16 4 4 16 8 4 6 6.9 0.0 26 4 16 4 4 16 8 4 7 2.9 0.0

26 4 16 4 4 16 8 4 7 5.3 0.0 26 4 16 4 4 16 8 4 8 3.0 0.0 26 4 16 4 4 16 8 4 8 6.6 0.0 26 4 16 4 4 16 8 4 8 7.0 0.C %

26 4 16 4 4 16 8 4 9 3.0 0.0 26 4 16 4 4 16 8 4 to 2.5 0.0 26 4 16 4 4 16 8 4 10 2.2 0.0 26 4 16 4 4 16 8 4 10 5.0 0.0 26 4 16 4 4 16 8 4 11 2.5 0.0 26 4 16 4 4 16' 8 4 12 4.0 0.0 ,

26. 4 16 4 4 16 8 4 13 1.5 4.44E-05 26 4 16 4 4 16 8 4 13 2.9 1.64E-05 ,

26 4 16' 4 4 16 8 4 13 5.0 7.36E-06 ) .

26 4 16 4 .4 16 8 4 14 6.2 1.53E-06 i 26 4 16 4 4 16 8 4 15 2.7 0.0

26 4 16 4 4 16 8 4 15 3.5 0.0

, 36 4 16 4 4 16 8 4 15 5.2 0.0 ) ';

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..g PERIOD TIME START TIME FINISH DELTA SECTOR DIST, CONCENTRATION l H0. M D H M D H TIME H0 MI. MICRO-CI/MwN3 %!

1 27 4 16 8 4 16 12 4 1 3.0 0.0 %

37 4 16 8 4 16 12 4 I 7.0 0.0 27 4 16 8 4 16 12 4 2 10.0 0.0 27 4 16 8 4 16 12 4 3 2.6 0.0 27 4 16 8 4 16 12 4 3 3.0 0.0 %

27 4 16 8 4 16 12 4 3 10.0 0.0 37 4 16 8 4 16 12 4 4 3.5 0.0 37 4 16 8 4 16 12 4 4 6.6 0.0 37 4 16 8 4 16 12 4 4 8.2 0.0 27 4 16 8 4 16 12 4 5 3.0 0.0 27 4 16 8 4 16 12 4 5 6.3 0.0 37 4 16 8 4 16 12 4 6 6.9 0.0 27 4 16 8 4 16 12 4 7 2.9 0.0 5.3 0.0 %

37 4 16 8 4 16 12 4 7 27 4 16 8 4 16 12 4 8 3.0 0.0 27 4 16 8 4 16 12 4 8 6.6 0.0 27 4 16 8 4 16 12 4 8 7.0 0.0 27 4 16 8 4 16 12 4 9 3.0 0.0 %1 27 4 16 8 4 16 12 4 10 2.5 0.0 37 4 16 8 4 16 12 4 10 2.2 0.0 37 4 16 8 4 16 12 4 to 5.0 0.0 4h j 27 4 16 8 4 16 12 4 11 2.5 0.0 '

27 4 16 8 4 16 12 4 12 4.0 0.0 27 4 16 8 4 16 12 4 13 1.5 3.71E-05 27 4 16 8 4 16 12 4 13 2.9 1.36E-05 27 4 16 8 4 16 12 4 13 5.0 6.07E-06 9 37 4 16 8 4 16 12 4 14 6.2 1.24E-06 27 4 16 8 4 16 12 4 15 2.i 0.0 27 4 16 8 4 16 12 4 15 3.5 0.0 27 4 16 8 4 16 12 4 15 5.2 0.0 9 6

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Ti PERIOD ' TIME START TIME F'INISH DELTA SECTOR DIST. COHCENTRATION NO. M D ll M D H TIME NO MI. MICRO-CI/Mww3

38 4 16 12 4 16 16 4 1 3.0 0.0 38 4 16 12 4 16 16 4 1 7.0 0.0 '"

38 4 16 12 4 16 16 4 2 10.0 0.0 28 4 16 12 4 16 16 4 3 2.6 0.0 38 4 16 12 4 16 16. 4 3 3.0 0.0 38 4 16 12 4 16 16 4 3 10.0 0.0 .%

38 4 16 12 4 16 16 4 4 3.5 0.0 28 4 16 12 4 16 16 4 4 6.6 0.0 28 4 16 12 4 16 16 4 4 8.2 0.0 28 4 16 12 4 16 16 4 5 3.0 0.0 4h ,

28 4 16 12 4 16 16 4 5 6.3 0.0 28 4 16 12 4 16 16 4 6 6.9 0.0 28 4 16 12 4 16 16 4 7 2.9 0.0 28 4 16 12 4 16 16 4 7 5.3 0.0 1b 28 4 16 12 4 16 16 4 8 3.0 0.0 28 4 16 12 4 16 16 4 8 6.6 0.0 28 4 16 12 4 16 16 4 8 7.0 0.0 28 4 16 12 4 16 16 4 9 3.0 0.0 I 28 4 16 12 4 16 16 4 to 2.5 0.0 28 4 16 12 4 16 16 4 10 2.2 0.0 28 4 16 12 4 16 16 4 10 5.0 0.0 28 4 16 12 4 16 16 4 11 2.5 0.0 %

28 4 16 12 4 16 16 4 12 4.0 0.0 28 4 16 12 4 16 16 4 13 1.5 7.38E-06 38 4 16 12 4 16 16 4 13 2.9 2.73E-06 28 4 16 12 4 16 16 4 13 5.0 1.21E-06 I 28 4 16 12 4 16 16 4 14 6.2 7.68E-07 28 4 16 12 4 16 16 4 15 2.7 5.31E-06 28 4 16.12 4 16 16 4 15 3.5 3.64E-06 28 4 16 12 4 16 16 4 15 5.2 f.97E-06 I

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. MICRO-C1/Mww3 29 4 16 16 4 16 18 2 1 3.0 0.0 '

39 4 16 16 4 16 18 2 1 7.0 0.0 39 4 16 16 4 16 18 2 2 10.0 0.0 29 4 16 16 4 16 18 2 3 2.6 0.0 29 4 16 16 4 16 18 2 3 3.0 0.0 '

29 4 16 16 4 16 18 2 3 10.0 0.0 29 4 16 16 4 16 18 2 4 3.5 0.0 29 4 16 16 4 16 18 2 4 6.6 0.0 29 4 16.16 4 16 18 2 4 8.2 0.0 4 29 4 16 16 4 16 18 2 5 3.0 0.0 29 4 16 16 4 16 18 2 5 6.3 0.0 29 4 16 16 4 16 18 2 6 6.9 0.0 29 4 16 16 4 16 18 2 7 2.9 0.0 29 4 16 16 4 16 18 2 7 5.3 0.0 29 4 16 16 4 16 18 2 8 3.0 0.0 29 4 16 16 4 16 18 2 8 6,6 0.0 29 4 16 16 4 16 18 2 8 7.0 0.0 29 4 16 16 4 16 18 2 9 3.0 0.0 29 4 16 16 4 16 18 2 to 2.5 0.0 29 4 16 16 4 16 18 2 to 2.2 0.0 39 4 16 16 4 16 18 2 to 5.0 0.0 29 4 16 16 4 16 18 2 11 2.5 0.0 %

29 4 16 16 4 16 18 2 12 4.0 0.0 29 4 16 16 4 16 18 2 13 1.5 0.0 29 4 16 16 4 16 18 2 13 2.9 0.0 29 4 16 16 4 16 18 2 13 5.0 0.0 %

29 4 16 16 4 16 18 2 14 6.2 5.84E-06 39 4 16 16 4 16 18 2 15 2.7 1.78E-05 29 4 16 16 4 16 18 2 15 3.5 1.19E-05 29 4 16 16 4 16 18 2 15 5.2 6.52E-06 %

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M D H M D H TIME H0 MI. MICRO-CI/Mww3

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. 30 4 16 18 4 16 24 6 1 3.0 0.0 ag

[ 30 4 16 18 4 16 24 6 1 7.0 0.0 l 30 4 16 18 4 16 24 6 2 10.0 0.0 i' 30 ,~4 16 18 4 16 24 6 3 2.6 0.0 30 4 16 18 4 16 24 6 3 3.0 0.0 30 4 16 18 4 16 24 6 3 10.0 0.0 *'

30 4 16 18 4 16 24 6 4 3.5 0.0 30 4 16 18 4 16 24 6 4 6.6 0.0 30 4 16 18 4 16 24 6 4 8.2 0.0 30 4 16 18 4 16 24 6 5 3.0 0.0

30 4 16 18 4 16 24 6 5 6.3 0.0 30 4 16 18 4 16 24 6 6 6.9 0.0 30 4 16 18 4 16 24 6 7 2.9 0.0 30 .%

4 16 18 4 16 24 6 7 5.3 0.0

< 30 4 16 18 4 16 24 6 8 3.0 0.0 l 30 4 16 18 4 16 24 6 8 6.6 0.0 30 4 16 -18 4 16 24 6 8 7.0 0.0 30 4 16 18 4 16 24 6 9 3.0 0.0 %

30 4 16 18 4 16 24 6 to 2.5 0.0 l 30 4 16 18 4 16 24 6 to 2.2 0.0 -

l 30 4 16 18 4 16 24 6 10 5.0 0.0 l 30 4 16 18 4 16 24 6 ft 2.5 0.0 %

i 30 '4 16 10 4 16 24 6 12 4.0 0.0 l

30 4 16 18 4 16 24 6 13 1.5 0.0 30 4 16 18 4 16 24 6 13 2.9 0.0 30 4 16 18 4 16 24 6 13 5.0 0.0 %

30 4 16 18 4 16 24 6 14 6.2 3.27E-06 30 4 16 18 4 16 24 6 15 2.7 4.64E-06 30 4 16 18 4 16 24 6 15 3.5 3.21E-06 l

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g, a PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HD. M D H .M D H TIME HD MI. MICRO-CI/Mww3 31 4 16 24 4 17 4 4 1 3.0 0.0 31 4 t' 24 4 17 4 4 1 7.0 0.0

31 4 16 24 4 17 4 4 2 10.0 0.0 31 4 16 24 4 17 4 4 3 2.6 0.0 31 4 16 24 4 17 4 4 3 3.0 0.0 31 4 16 24 4 17 4 4 3 10.0 0.0 4 31 4 16 24 4 17 4 4 4 3.5 0.0 31 4 16 24 4 17 4 4 4 6.6 0.0 31 4 16 24 4 17 4 4 4 8.2 0.0 31 4 16 24 4 17 4 4 5 3.0 0.0 %

31 4 16 24 4 17 4 4 5 6.3 0.0 31 4 16 24 4 17 4 4 6 6.9 0.0 31 4 16 24 4 17 4 4 7 2.9 0.0 31 4 16 24 4 17 4 4 7 5.3 0.0 4 31 4 16 24 4 17 4 4 8 3.0 0.0 31 4 16 24 4 17 4 4 8 6.6 0.0 1 31 4 16 24 4 17 4 4 8 7.0 0.0 31 4 16 24 4 17 4 4 9 3.0 0.0 4-31 4 16 24 4 17 4 4 10 2.5 0.0 31 4 16 24 4 17 4 4 10 2.2 0.0 31 4 16 24 4 17 4 4 10 5.0 0.0 ;

31 4 16 24 4 17 4 4 ft 2.5 0.0 %

31 4 16 24 4 17 4 4 12 4.0 0.0 31 4 16 24 4 17 4 4 13 1.5 0.0 31 4 16 24 4 17 4 4 13 2.9 0.0 31 4 16 24 4 17 4 4 13 5.0 0.0

4 31 4 16 24 4 17 4 4 14 6.2 0.0 31 4 16 24 4 17 4 4 15 2.7 6.87E-06 31 4 16 24 4 17 4 4 15 3.5 4.72E-06 r 31 4 16 24 4 17 4 4 15 5.2 2.63E-06 %'

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION NO. M D H M D H TIME HO MI. MICRO-CI/MwW3 32 4 17 4 4 17 9 5 1 3.0 0.0 g 32 4 17 4 4 17 9 5 1 7.0 0.0 32 4 17 4 4 17 9 5 2 10.0 0.0 32 4 17 4 4 17 9 5 3 2.6 0.0 32 4 17 4 4 17 9 5 3 3.0 0.0

32 4 17 4 4 17 9 5 3 10.0 0.0 32 4 17 4 4 17 9 5 4 3.5 0.0 32 4 17 4 4 17 9 5 4 6.6 0.0 32 .4 17 4 4 17 9 5 4 8.2 0.0 9

32 4 17 4 4 17 9 5 5 3.0 0.0 32 4 17 4 4 17 9 5 5 6.3 0.0 32 4 17 4 4 17 9 5 6 6.9 0.0 ,

32 4 17 4 4 17 9 5 7 2.9 0.0 32 4 17 4 4 17 9 5 7 5.3 0.0 32 4 17 4 4 17 9 5 8 3.0 0 1 32 4 17 4 4 17 9 5 8 6.6 0.0 32 4 17 4 4 17 9 5 8 7.0 0.0 32 4 17 4 4 17 9 5 9 3.0 0.0 %

32 4 17 4 4 17 9 5 to 2.5 0.0 32 4 17 4 4 17 9 5 to 2.2 0.0 32 32 4

4 17 17 4

4 4

4 17 17 9

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5 10 11 5.0 2.5 0.0 0.0 ): -

32 4 17 4 4 17 9 5 12 4.0 0.0 32 4 17 4 4 17 9 5 13 1.5 0.0 .

32 4 17 4 4 17 9 5 13 2.9 0.0 32 4 17 4 4 17 9 5 13 5.0 0.0 l i

32 4 17 4 4 17 9 5 14 6.2 0.0 ,

, 32 4 17 4 4 17 9 5 15 2.7 5.63E-06 '

32 4 17 4 4 17 9 3 15 3.5 3.83E-06 32 4 17 4 4 17 9 3 15 5.2 2.20E-06 %I i 5 1 I i :

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATI0H NO. M D 11 M D H TIME NO MI. MICRO-CI/Mww3 '%

33 4 17 9 4 17 13 4 I 3.0 0.0 33 4 17 9 4 17 13 4 1 7.0 0.0 '

33 4 17 9 4 17 13 4 2 10.0 0.0 33 4 17 9 4 17 13 4 3 2.6 0.0 33 4 17 9 4 17 13 4 3 3.0 0.0 33 4 17 9 4 17 13 4 3 10.0 0.0 33 4 17 9 4 17 13 4 4 3.5 0.0 33 4 17 9 4 17 13 4 4 6.6 0.0 33 4 17 9 4 17 13 4 4 8.2 0.0 33 4 17 9 4 17 13 4 5 3.0 0.0

33 4 17 9 4 17 13 4 5 6.3 0.0 33 4 17 9 4 17 13 4 6 6.9 0.0 33 4 17 9 4 17 13 4 7 2.9 0.0 33 4 17 9 4 17 13 4 7 5.3 0.0 5 33 4 17- 9 4 17 13 4 8 3.0 0.0 33 4 17 9 4 17 13 4 8 6.6 0.0 33 .4 17 9 4 17 13 4 8 7.0 0.0 33 4 17 9 4 17 13 4 9 3.0 0.0 %

33 4 17 9 4 17 13 4 10 2.5 0.0 33 4 17 9 4 17 13 4 10 2.2 0.0 33 4 17 9 4 17 13 4 10 5.0 0.0 33 4 17 9 4 17 13 4 11 2.5 0.0 %

33 4 17 9 4 17 13 4 12 4.0 0.0 33 4 17 9 4 17 13 4 13 1.5 0.0 33 4 17 9 4 17 13 4 13 2.9 0.0 33 4 17 9 4 17 13 4 13 5.0 0.0 &

33 4 17 9 4 17 13 -

4 14 6.2 0.0 33 4 17 9 4 17 13 4 15 2.7 2.35E-06 33 4 17 9 4 17 13 4 15 3.5 1.61E-06 33 4 17 9 4 17 13 4 15 5.2 8.84E-07 Ob 9

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/Mww3 34 4 17 13 4 17 17 4 1 3.0 0.0 mg 34 4 17 13 4 17 17 4 1 7.0 0.0 34 4 17 13 4 17 17 4 2 10.0 0.0 34 4 17 13 4 17 17 4 3 2.6 0.0 34 4 17 13 4 17 17 4 3 3.0 0.0 gg 34 4 17 13 4 17 17 4 3 10.0 0.0 .

34 4 17 13 4 17 17 4 4 3.5 0.0 34 4 17 13 4 17 17 4 4 6.6 0.0 34 4 17 13 4 17 17 4 4 8.2 0.0 ,g 34 4 17 13 4 17 17 4 5 3.0 0.0 34 4 17 13 4 17 17 4 5 6.3 0.0 '

34 4 17 13 4 17 17 4 6 6.9 0.0 -

34 4 17 13 4 17 17 4 7 2.9 0.0 lb -

34 4 17 13 4 17 17 4 7 5.3 0.0 34 4 17 13 4 17 17 4 8 3.0 0.0 -

i 34 4 17 13 4 17 17 4 8 6.6 0.0 -

34 4 17 13 4 17 17 4 8 7.0 0.0 34 4 17 13 4 17 17 4 9 3.0 0.0 lb 34 4 17 13 4 17 17 4 10 2.5 0.0 .

34 4 17 13 4 17 17 4 to 2.2 0.0 34 4 17 13 4 17 17 4 10 5.0 0.0 4 17 13 4 17 17 4 11 2.5 0.0 I

34 34 4 17 13 4 17 17 4 12 4.0 0.0 -

34 4 17 13 4 17 17 4 13 1.5 0.0

A 34 4 17 13 4 17 17 4 13 2.9 0.0 34 4 17 13 4 17 17 4 13 5.0 0.0 %i 34 4 17 13 4 17 17 4 14 6.2 0.0 :

15 2.7 4.83E-06 I 34 4 17 13 4 17 17 4 34 4 17 13 4 17 17 4 15 3.5 3.23E-06 i 34 4 17 13 4 17 17 4 15 5.2 1.80E-06 %*

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'% j PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D Il M D H TIME NO MI. MICRO-CI/MWN3 35 4 17 17 4 17 20 3 1 3.0 0.0 '

35 4 17 17 4 17 20 3 1 7.0 0.0 35 .4 17 17 4 17 20 3 2 10.0 0.0 35 4 17 17 4 17 20 3 3 2.6 0.0 35 4 17 17 4 17 20 3 3 3.0 0.0 %

35 4 17 17 4 17 20 3 3 10.0 0.0 35 4 17 17 4 17 20 3 4 3.5 0.0 35 4 17 17 4 17 20 3 4 6.6 0.0 35 4 17 17 4 17 20 3 4 8.2 0.0 4 35 4 17 17 4 17 20 3 5 3.0 0.0 35 4 17 17 4 17 20 3 5 6.3 0.0 35 4 17 17 4 17 20 3 6 6.9 0.0 35 4 17 17 4 17 20 3 7 2.9 0.0 4 35 4 17 17 4 17 20 3 7 5.3 0.0 35 4 17 17 4 17 20 3 8 3.0 0.0 35 4 17 17 4 17 20 3 8 6.6 0.0 35 4 17 17 4 17 20 3 8 7.0 0.0 9 3.0 0.0 %

35 4 17 17 4 17 20 3 35 4 17 17 4 17 20 3 10 2.5 0.0 35 4 17 17 4 17 20 3 to 2.2 0.0 35 4 17 17 4 17 20 3 10 5.0 0.0 35 4 17 17 4 17 20 3 11 2.5 0.0 9 35 4 17 17 4 17 20 3 12 4.0 0.0 35 4 17 17 4 17 20 3 13 1.5 0.0 35 4 17 17 4 17 20 3 13 2.9 0.0 4 17 20 3 13 5.0 0.0 %

35 4 17 17 35' 4 17 17 4 17 20 3 14 6.2 0.0 35 4 17 17 4 17 20 3 15 2.7 1.58E-05 35 4 17 17 4 17 20- 3 15 3.5 1.07E-05 35 4 17 17 4 17 20 3 15 5.2 5.94E-06 9 9

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T; PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH NO. M D H M D H TIME

NO MI. MICRO-CI/Muw3 36 4 17 20 4 17 24 4 1 3.0 0.0 3, 36 4 17 20 4 17 24 4 1 7.0 0.0 36 4 17 20 4 17 24 4 2 10.0 0.0 36 4 17 20 4 17 24 4 3 2.6 0.0 36 4 17 20 4 17 24 4 3 3.0 0.0 g 36 4 17 20 4 17 24 4 3 10.0 0.0 36 4 17 20 4 17 24 4 4 3.5 0.0 36 4 17 20 4 17 24 4 4 6.6 0.0 36 4 17 20 4 17 24 4 4 8.2 0.0 36 4 17 20 4 17 24 4 5 3.0 0.0

36 4 17 20 4 17 24 4 5 6.3 0.0 36 4 17 20 4 17 24 4 6 6.9 0.0 36 4 17 20 4 17 24 4 7 2.9 0.0 36 4 17 20 4 17 24 4 7 5.3 0.0 1b 36 4 17 20 4 17 24 4 8 3.0 0.0 36 4 17 20 4 17 24 4 8 6.6 0.0 36 4 17 20 4 17 24 4 8 7.0 0.0 36 4 17 20 4 17 24 4 9 3.0 0.0 ib i 36 4 17 20 4 17 24 4 10 2.5 0.0 36 '

4 17 20 4 17 24 4 to 2.2 0.0 36 4 17 20 4 17 24 4 to 5.0 0.0 36 4 17 20 4 17 24 4 11 2.5 0.0

36 4 17 20 4 17 24 4 12 4.0 0.0 l 36 4 17 20 4 17 24 4 13 1.5 f.94E-05 l 36 4 17 20 4 17 24 4 13 2.9 7.03E-06 36 4 17 20 4 17 24 4 13 5.0 3.16E-06 %

36 4 17 20 4 17 24 4 14 6.2 5.37E-06 36 4 17 20 4 17 24 4 15 2.7 0.0 36 4 17 20 4 17 24 4 15 3.5 0.0 36 4 17 20 4 17 24 4 15 5.2 0.0 %

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME H0 MI. MICRO-CI/M443 'S 37 4 17 24 4 18 4 4 1 3.0 0.0 37 4 17 24 4 18 4 4 1 7.0 0.0 N 37 4 17 24 4 18 4 4 2 10.0 0.0 37 4 17 24 4 18 4 4 3 2.6 0.0 37 4 17 24 4 18 4 4 3 3.0 0.0 37 4 17 24 4 18 4 4 3 10.0 0.0

! 37 4 17 24 4 18 4 4 4 3.5 0.0 l 37 4 87 24 4 18 4 4 4 6.6 0.0 37 4 17 24 4 18 4 4 4 8.2 0.0 37 4 17 24 4 18 4 4 5 3.0 0.0 T 37 4 17 24 4 18 4 4 5 6.3 0.0 37 4 17 24 4 18 4 4 6 6.9 0.0 37 4 17 24 4 18 4 4 7 2.9 0.0 37 4 17 24 4 18 4 4 7 5.3 0.0 4.

37 4 17 24 4 18 4 4 8 3.0 0.0 37 4 17 24 4 18 4 4 8 6.6 0.0 37 4 17 24 4 18 4 4 8 7.0 0.0 37 4 17 24 4 18 4 4 9 3.0 0.0 %

37 4 17 24 4 18 4 4 10 2.5 0.0 37 4 17 24 4 18 4 4 10 2.2 0.0 37 4 17 24 4 18 4 4 10 5.0 0.0

37 4 17 24 4 18 4 4 18 2.5 0.0 %"

37 4 17 24 4 18 4 4 12 4.0 7.78E-06 ,

37 4 17 24 4 18 4 4 13 1.5 3.03E-05 37 4 17 24 4 18 4 4 13 2.9 1.09E-05 37 4 17 24 4 18 4 4 13 5.0 4.86E-06 %

37 4 17 24 4 18 4 4 14 6.2 1.54E-06 37 4 17 24 4 18 4 4 15 2.7 0.0 -

37 4 17 24 4 18 4 4 15 3.5 0.0 l 37 4 17 24 4 18 4 4 15 5.2 0.0 t

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38 4 18 4 4 18 6 2 1 3.0 0.0 38 4 18 4 4 18 6 2 1 7.0 0.0 %

38 4 18 4 4 18 6 2 2 10.0 0.0 38 4 18 4 4 18 6 2 3 2.6 0.0 38 4 18 4 4 18 6 2 3 3.0 0.0 38 4 18 4 4 18 6 2 3 10.0 0.0 % 1 38 4 18 4 4 18 6 2 4 3.5 0.0 38 4 18 4 4 18 6 2 4 6.6 0.0 38 4 18 4 4 18 6 2 4 8.2 0.0 38 4 18 4 4 18 6 2 5 3.0 0.0 %

38 4 18 4 4 18 6 2 5 6.3 0.0 38 4 18 4 4 18 6 2 6 6.9 0.0 ;

38 4 18 4 4 18 6 2 7 2.9 0.0 '

38 4 18 4 4 18 6 2 7 5.3 0.0 % '

38 4 18 4 4 18 6 2 8 3.0 0.0 38 4 18. 4 4 18 6 2 8 6.6 0.0 38 4 18 4 4 18 6 2 8 7.0 0.0 38 4 18 4 4 18 6 2 9 3.0 0.0 t' 38 4 18 4 4 18 6 2 10 2.5 0.0 38 4 18 4 4 18 6 2 to 2.2 0.0 38 4 18 4 4 18 6 2 10 5.0 0.0 38 4 18 4 4 18 6 2 11 2.5 0.0 4 38 4 18 4 4 18 6 2 12 4.0 0.0 38 4 18 4 4 18 6 2 13 1.5 3.37E-05 l

38 4 18 4 4 18 6 2 13 2.9 1.22E-05 38 4 la 4 4 18 6 2 13 5.0 5.55E-06 9 38 4 18 4 4 18 6 2 14 6.2 0.0 38 4 18 4 4 18 6 2 15 2.7 1.30E-05 38 4 18 4 4 18 6 2 15 3.5 8.68E-06 38 4 18 4 4 18 6 2 15 5.2 4.92E-06 9 9

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39 4 18 6 4 18 8 2 1 3.0 0.0 39 4 18 6 4 18 8 2 1 7.0 0.0 % ^

39 4 18 6 4 18 8 2 2 10.0 0.0 39 4 18 6 4 18 8 2 3 2.6 0.0 39 4 IS 6 4 18 8 2 3 3.0 0.0 39 4 18 6 4 18 8 2 3 10.0 0.0 %

39 4 18 6 4 18 8 2 4 3.5 0.0 39 4 18 6 4 18 8 2 4 6.6 0.0 39 4 18 6 4 18 8 2 4 8.2 0.0 ;

39 4 18 6 4 18 8 2 5 3.0 0.0 %'

39 4 18 6 4 18 8 2 5 6.3 0.0 e 39 4 18 6 4 18 8 2 6 6.9 0.0 "

l 39 4 18 6 4 18 8 2 7 2.9 0.0 39 4 18 6 4 18 8 2 7 5.3 0.0 4 39 4 18 6 4 18 8 2 8 3.0 0.0 39 4 18 6 4 18 8 2 8 6.6 0.0 39 4 18 6 4 18 8 2 8 7.0 0.0 39 4 18 6 4 18 8 2 9 3.0 0.0 t 39 4 18 6 4 18 8 2 10 2.5 0.0 .

39 4 IS 6 4 18 8 2 to 2.2 0.0 -

l 39 4 18 6 4 18 8 2 to 5.0 0.0 '

39 4 18 6 4 18 8 2 11 2.5 0.0 lb 39 4 18 6 4 18 8 2 12 4.0 0.0 39 4 IS 6 4 18 8 2 13 1.5 0.0 39 4 18 6 4 18 8 2 13 2.9 0.0 39 4 18 6 4 18 8 2 13 5.0 0.0 Gb 39 4 18 6 4 18 8 2 14 6.2 4.84E-06 '

39 4 18 6 4 18 8 2 15 2.7 9.80E-06

39 4 18 6 4 18 8 2 15 3.5 6.94E-06 39 4 ,18 6 4 18 8 2 15 5.2 3.93E-06 1b O

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NO. M D H M~ D H TIME HO MI. MICRO-CI/M4w3 41 4 18 10 4 18 12 2 1 3.0 0.0 g:

41 4 18 le 4 18 12 .2 1 7.0 0.0 41 4 18 to 4 18 12 - 2 2 10.0 0.0 .

41 4 18 10 4 18 12 2 3 2.6 0.0 41 4 18 10 4 18 12 2 3 3.0 0.0 -

41 4 18 12 2 10.0 %'

4 18 10 3 0.0 41 4 18 to 4 18 12 2 4 3.5 0.0 :

41 4 18 10 .4 18 12 2 4 6.6 0.0 ;

41 4 18 to 4 18 12 2 4 8.2 0.0 ' % :*

41 4 18 to 4 18 12 2 5 3.0 0.0 41 4 18 10 4 18 12 2 5 6.3 0.0 ;

41 4 18 to 4 18 12 2 6 6.9 0.0 ;

41 4 18 10 4 18 12 2 7 2.9 0.0 :

41 4 18 to 4 18 12 2 7 5.3 0.0 %'

41 4 18 10 4 18 12 2 8 3.0 0.0 :

41 4 18 to 4 18 12 2 8 6.6 0.0 ,

41 -- 4 18 10 4 18 12 2 8 7.0 0.0 41 4 18 to 4 18 12 2 9 3.0 0.0 ib ::

41 4 18 10 4 18 12 2 10 2.5 0.0 :

41 4 18 10 4 18 12 2 10 2.2 0.0 41 4 18 10 4 18 12 2 to 5.0 0.0 .

41 4 18 10 4 18 12 2 11 2.5 0.0 lb

41 4 18 10 4 18 12 2 12 4.0 0.0 :

41 4 18 to 4 18 12 2 13 1.5 0.0 41 4 18 10 4 18 12 2 13 2.9 0.0 41 4 18 to 4 18 12 2 13 5.0 0.0 %>

41 4 18 10 4 18 *12 2 14 6.2 2.22E-07 ,

41 4 18 10 4 18 12 2 15 2.7 7.39E-07 4.79E-07 41 4 18 10 4 18 12 2 15 3.5 41 4 18 10 4 18 12 2 15 5.2 2.54E-07 %

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PERIOD TIME START COHCENTRATION NO. M D H M D H TIME -HD MI. MICRO-CI/MwW3

! 42 4 18 12 4 18 17 5 1 3.0 0.0

42 4 18 12 4 18 17 5 1 7.0 0.0 42 4 18 12 4 18 17 5 2 10.0 0.0 42 4 18 12 4 18 17 5 3 2.6 0.0 42 4 18 12 4 18 17 5 3 3.0 0.0

42 4 18 12 4 18 17 5 3 10.0 0.0 -

42 4 18 12 4 18 17 5 4 3.5 0.0 42 4 18 12 4 18 17 5 4 6.6 0.0 42 4 18 12 4 18 17 5 4 8.2 0.0

42 4 18 12 4 18 17 5 5 3.0 0.0 42 4 18 12 4 18 17 5 5 6.3 0.0 42 4 18 12 4 18 17 5 6 6.9 0.0 42 4 18 12 4 18 17 5 7 2.9 0.0 1h 42 4 18 12 4 18 17 5 7 5.3 0.0 42 4 13 12 4 18 17 5 8 3.0 0.0 I 42 4 18 12 4 18 17 5 8 6.6 0.0 42 4 18 12 4 18 17 5 8 7.0 0.0 l %

42 4 18 12 4 18 17 5 9 3.0 0.0 42 4 18 12 4 18 17 5 10 2.5 0.0 42 4 18 12 .4 18 17 5 to 2.2 0.0 42 4 18 12 4 18 17 5 10 5.0 0.0 lb 42 4 18 12 4 18 17 5 11 2.5 0.0 42 4 18 12 4 18 e7 5 12 4.0 0.0 42 4 18 12 4 18 17 5 13 1.5 0.0 42 4 18 12 4 18 17 5 13 2.9 0.0 13 0.0 lb 42 4 18 12 4 18 17 5 5.0 42 4 18 12 4 18 17 5 14 6.2 0.0 42 4 18 12 4 18 17 5 15 2.7 1.06E-06 42 4 18 12 4 18 17 5 15 3.5 7.36E-07 42 4 18 12 4 18 17 5 15 5.2 4.00E-07 %

l l

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/M483 '"%

43 4 18 17 4 18 18 1 1 3.0 8.6IE-06 43 4 18 17 4 18 18 1 1 7.0 2.63E-06

43 4 18 17 4 18 18 8 2 10.0 0.0 43 4 18 17 4 18 18 1 3 2.6 0.0 43 4 88 17 4 18 18 1 3 3.0 0.0 43 4 18 17 4 18 18 1 3 10.0 0.0 4 43 4 18 17 4 18 18 1 4 3.5 0.0 43 4 18 17 4 18 18 1 4 6.6 0.0 43 4 18 17 4 18 18 I 4 S.2 0.0 43 4 18 17 4 18 18 1 5 3.0 0.0 %

43 4 18 17 4 18 18 1 5 6.3 0.0 43 4 18 17 4 18 18 1 6 6.9 0.0 43 4 18 17 4 18 18 1 7 2.9 0.0 43 4 18 17 4 18 18 1 7 5.3 0.0 %

43 4 18 17 4~18 18 1 8 3.0 0.0 43 4 18 17 4 18 18 1 8 6.6 0.0 43 4 18 17 4 18 18 1 8 7.0 0.0 43 4 18 17 4 18 18 1 9 3.0 0.0 9h 43 4 18 17 4 18 18 1 to 2.5 0.0 43 4 18 17 4 18 18 1 to 2.2 0.0 43 4 18 17 4 18 18 1 to 5.0 0.0 43 4 18 17 4 18 18 8 Il 2.5 0.0 lb 43 4 18 17 4 18 18 1 12 4.0 0.0 43 4 18 17 4 18 18 1 13 1.5 0.0 43 4 18 17 4 18 18 1 13 2.9 0.0

'3 4 18 17 4 18 18 1 13 5.0 0.0 lb 43 4 18 17 4 18 18 1 14 6.2 0.0 43 4 18 17 4 18 18 1 15 2.7 0.0 43 4 18 17 4 18 18 1 15 3.5 0.0 43 4 18 17 4 18 18 1 15 5.2 0.0 D D

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST, CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/Muv3 45 4 18 24 4 19 4 4 1 3.0 3.60E-05 ^

45 4 18 24 4 19 4 4 1 7.0 1.16E-05 45 4 18 24 4 19 4 4 2 10.0 0.0 45 4 18 24 4 19 4 4 3 2.6 0.0 45 4 18 24 4 19 4 4 3 3.0 0.0 T

45 4 18 24 4 19 4 4 3 10.0 0.0 45 4 18 24 4 19 4 4 4 3.5 0.0 45 4 18 24 4 19 4 4 4 6.6 0.0 45 4 I8 24 4 19 4 4 4 8.2 0.0 45 4 18 24 4 19 4 4 5 3.0 0.0 45 4 18 24 4 19 4 4 5 6.3 0.0 45 4 18 24 4 19 4 4 6 6.9 0.0 45 4 18 24 4 19 4 4 7 2.9 0.0 45 4 18 24 4 19 4 4 7 5.3 0.0 45 4 18 24 4 19 4 4 8 3.0 0.0 45 4 18 24 4 19 4 4 8 6.6 0.0 45 4 18 24 4 19 4 4 8 7.0 0.0 45 4 18 24 4 19 4 4 9 3.0 0.0 4 45 4 18 24 4 19 4 4 10 2.5 0.0 45 4 18 24 4 19 4 4 10 2.2 0.0 45 4 18 24 4 19 4 4 to 5.0 0.0 45 4 IS 24 4 19 4 4 11 2.5 0.0 tb 45 4 18 24 4 19 4 4 12 4.0 0.0 45 4 18 24 4 19 4 4 13 1.5 0.0 45 4 18 24 4 19 4 4 13 2.9 0.0 45 4 18 24 4 19 4 4 13 5.0 0.0 9 45 4 18 24 4 19 4 4 14 6.2 0.0 45 4 18 24 4 19 4 4 15 2.7 0.0 45 4 IS 24 4 19 4 4 15 3.5 0.0 45 4 18 24 4 19 4 4 15 5.2 0.0 S D

D D~

e

u PERIOD TIME START TIME F.INISH DELTA SECTOR DIST. CONCENTRATIDH ,

NO. M D 11 M D H TIME NO MI. MICRO-CI/Mwv3

l 46 4 19 4 4 19 8 4 1 3.0 0.0

46 4 19 .4 4 19 8 4 1 7.0 0.0 46 4 19 4 4 19 8 4 2 10.0 0.0 46 4 19 4 4 19 8 4 3 2.6 2.2tE-05 46 4 19 4 4 19 8 4 3 3.0 1.82E-05 46 4 19 4 4 19 8 4 3 10.0 3.75E-06 46 4 19 4 4 19 8 4 4 3.5 0.0 '

46 4 19 4 4 19 8 4 4 6.6 0.0 46 4 19 4 4 19 8 4 4 8.2 0.0 46 4 19 4 4 19 8 4 5 3.0 0.0 46 4 19 4 4 19 8 4 5 6.3 0.0 46 4 19 4 4 19 8 4 6 6.9 0.0 46 4 19 4 4 19 8 4 7 2.9 0.0 46 4 59 4 4 19 8 4 7 5.3 0.0 46 4 19 4 4 19 8 4 8 3.0 0.0 46 4 19 4 4 19 8 4 8 6.6 0.0 46 4 19 4 4 19 8 4 8 7.0 0.0 46 4 19 4 4 19 8 4 9 3.0 0.0 46 4 19 4 4 19 8 4 to 2.5 2.55E-05 ,

46 4 19 4 4 19 8 4 to 2.2 3.0SE-05 46 4 19 4 4 19 8 4 to 5.0 9.89E-06 I 46 4 19 4 4 19 8 4 11 2.5 0.0 46 4 19 4 4 19 8 4 12 4.0 0.0 46 4 19 4 4 19 8 4 13 1.5 4.27E-05 46 4 19 4 4 19 8 4 13 2.9 1.64E-05 46 4 19 4 4 19 8 4 13 5.0 7.8tE-06 %

46 4 19 4 4 19 8 4 14 6.2 0.0 46 4 19 4 4 19 8 4 15 2.7 0.0 46 4 19 4 4 19 8 4 15 3.5 0.0 46 4 19 4 4 19 8 4 IS 5.2 0.0 % <.

9 e

P 1

6 0

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l 1

m l

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M'D H TIME NO MI. MICRO-CI/MWm3

47 4 19 8 4 19 12 4 1 3.0 4.43E-07 47 4 19 8 4 19 12 4 1 7.0 1.18E-07

47 4 19 8 4 19 12 4 2 10.0 0.0 47 4 19 8 4 19 12 4 3 2.6 0.0 47 4 19 8 4 19 12 4 3 3.0 0.0 47 4 19 8 4 19 12 4 3 10.0 0.0 '

47 4 19 8 4 19 12 4 4 3.5 0.0 47 4 19 8 4 19 12 4 4 6.6 0.0 47 4 19 8 4 19 12 4 4 8.2 0.0 47 4 19 8 4 19 12 4 5 3.0 0.0 \.

47 4 19 8 4 19 12 4 5 6.3 0.0 l 47 4 19 8 4 19 12 4 6 6.9 0.0 47 4 19 8 4 19 12 4 7 2.9 0.0 i 47 4 19 8 4 19 12 4 7 5.3 0.0 'N 47 4 19 8 4 19 12 4 8 3.0 0.0 47 4 19 8 4 19 12 4 8 6.6 0.0 47 4 19 8 4 19 12 4 8 7.0 0.0 47 4 19 8 4 19 12 4 9 3.0 0.0 %

47 4 19 8 4 19 12 4 10 2.5 0.0 47 4 19 8 4 19 12 4 10 2.2 0.0 ,

47 4 19 8 4 19 12 4 to 5.0 0.0 47 4 19 8 4 19 12 4 11 2.5 0.0 %,

i 47 4 19 8 4 19 12 4 12 4.0 0.0

! 47 4 19 8 4 19 12 4 13 1.5 0.0 47 4 19 8 4 19 12 4 13 2.9 0.0 47 4 19 8 4 19 12 4 13 5.0 0.0 %;

47 4 19 8 4 19 12 4 14 6.2 0.0 47 4 19 2 4 19 12 4 15 2.7 0.0 47 4 19 8 4 19 12 4 15 3.5 0.0 47 4 19 8 4 19 12 4 15 5.2 0.0 %;

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIOH NO. M D H M D H TIME NO MI. MICRO-CI/Muw3 48 4 19 12 4 19 14 2 1 3.0 0.0 "

48 4 19 12 4 19 14 2 1 7.0 0.0 48 4 19 12 4 19 14 2 2 10.0 0.0 ;

48 4 19 12 4 19 14 2 3 2.6 0.0 48 4 19 12 4 19 14 2 3 3.0 0.0 1b .j 48 4 19 12 4 19 14 2 3 10.0 0.0 '

48 4 19 12 4 19 14 2 4 3.5 0.0 48 4 19 12 4 19 14 2 4 6.6 0.0 '

48 4 19 12 4 19 14 2 4 8.2 0.0

48 4 19 12 4 19 14 2 5 3.0 0.0 48 4 19 12 4 19 14 2 5 6.3 0.0 '!

48 4 19 12 4 19 14 2 6 6.9 0.0 ,

48 4 19 12 4 19 14 2 7 2.9 0.0 %

48 4 19 12 4 19 14 2 7 5.3 0.0 48 4 19 12 4 19 14 2 8 3.0 0.0 48 4 19 12 4 19 14 2 8 6.6 0.0 48 4 19 12 4 19 14 2 8 7.0 0.0 %

48 4 19 12 4 19 14 2 9 3.0 0.0 Jj 48 4 19 12 4 19 14 2 10 2.5 0.0 -

48 4 19 12 4 19 14 2 to 2.2 0.0 48 4 19 12 4 19 14 2 to 5.0 0.0 %

48 4 19 12 4 19 14 2 11 2.5 0.0 48 4 19 12 4 19 14 2 12 4.0 0.0 48 4 19 12 4 19 14 2 13 1.5 0.0 48 4 19 12 4 19 14 2 13 2.9 0.0 4 19 14 2 13 5.0 0.0 % i 48 4 19 12 48 4 19 12 4 19 14 2 14 6.2 0.0 48 4 19 12 4 19 14 2 15 2.7 0.0 48 48 4

4 19 19 12 12 4

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3 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/M4w3 -

49 4 19 14 4 19 17 3 1 3.0 0.0 l 49 4 19 14 4 19 17 3 1 7.0 0.0 %

49 4 19 14 4 19 17 3 2 10.0 0.0 ;

l 49 4 19 14 4 19 17 3 3 2.6 0.0 49 4 19 14 4 19 17 3 3 3.0 0.0 49 4 19 14 4 19 17 3 3 10.0 0.0 4 49 4 19 14 4 19 17 3 4 3.5 0.0 49 4 19 14 4 19 17 3 4 6.6 0.0 49 4 19 14 4 19 17 3 4 8.2 0.0 l 49 4 19 14 4 19 17 3 5 3.0 0.0 % .

l 49 4 19 14 4 19 17 3 5 6.3 0.0 !

i 49 4 19 14 4 19 17 3 6 6.9 0.0

, 49 4 19 14 4 19 17 3 7 2.9 0.0 l 49 4 19 14 4 19 17 3 7 5.3 0.0 %

l 49 4 19 14 4 19 17 3 8 3.0 0.0 49 4 19 14 4 19 17 3 8 6.6 0.0 -

49 4 19 14 4 19 17 3 8 7.0 0.0 49 4 19 14 4 19 17 3 9 3.0 0.0 % '-

49 4 19 14 4 19 17 3 10 2.5 0.C 49 4 19 14 4 19 17 3 10 2.2 0.0 49 4 19 14 4 19 17 3 to 5.0 0.0 .

49 4 19 14 4 19 17 3 18 2.5 0.0 9 ^

49 4 19 14 4 19 17 3 12 4.0 0.0 49 4 19 14 4 19 17 3 13 1.5 0.0 '

49 4 19 14 4 19 17 3 13 2.9 0.0 49 4 19 14 4 19 17 3 13 5.0 0.0 %*

49 4 19 14 4 19 17 3 14 6.2 0.0 i 49 4 19 14 4 19 17 3 15 2.7 5.38E-06 1 49 4 19 14 4 19 17 3 15 3.5 3.49E-06

! 49 4 19 14 4 19 17 3 15 5.2 1.95E-06 %;i t

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I i

i Nf PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/Muu3 4 1

50 4 19 87 4 19 20 3 1 3.0 3.39E-06 #" ;

50 4 19 17 4 19 20 3 1 7.0 9.77E-07 :

50 4 19 17 4 19 20 3 2 10.0 9.4IE-07 50 4 19 17 4 19 20 3 3 2.6 0.0 ?

50 4 19 17 4 19 20 3 3 3.0 0.0 50 4 19 17 4 19 20 3 3 10.0 0.0 '%

50 4 19 17 4 19 20 3 4 3.5 0.0 1 50 4 19 17 4 19 20 3 4. 6.6 0.0 50 4 19 17 4 19 20 3 4 8.2 0.0 50 4 19 17 4 19 20 3 5 3.0 0.0 '% i l 50 4 19 17 4 19 20 3 5 6.3 0.0 l 50 4 19 17 4 19 20 3 6 6.9 0.0 .

50 4 19 17 4 19 20 3 7 2.9 0.0 50 4 19 17 4 19 20 3 7 5.3 0.0 %

50 4 19 17 4 19 20 3 8 3.0 0.0 l 50 4 19 17 4 19 20 3 8 6.6 0.0 ,

l 50 4 19 17 4 19 20 3 8 7.0 0.0 *

! 50 4 19 17 4 19 20 3 9 3.0 c.0 3 50 4 19 17 4 19 20 3 10 2.5 0.0

, 50 4 19 17 4 19 20 3 to 2.2 0.0 t

50 4 19 17 4 19 20 3 to 5.0 0.0 ,

! 50 4 19 17 4 19 20 3 11 2.5 0.0 i

50 4 19 17 4 19 20 3 12 4.0 0.0 1

50 4 19 17 4 19 20 3 13 1.5 0.0 50 4 19 17 4 19 20 3 13 2.9 0.0

! 50 4 19 17 4 19 20 3 13 5.0 0.0 %

50 4 19 17 4 19 20 3 14 6.2 0.0 50 4 19 17 4 19 20 3 15 2.7 0.0

! 50 4 19 17 4 19 20 3 15 3.5 0.0 50 4 19 17 4 19 20 3 15 5.2 0.0 4 ;

i l

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a PEDIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATI0H TIME MI. MICRO-CI/Muw3 *T NO. M D H M D H NO SI 4 19'20 4 19 24 4 1 3.0 0.0 %

51 4 19 20 4 19 24 4 1 7.0 0.0 51 4 19 20 4 19 24 4 2 10.0 7.71E-07 51 4 19 20 4 19 24 4 3 2.6 7.46E-06 51 4 19 20 4 19 24 4 3 3.0 5.97E-06 51 4 19 20 4 19 24 4 3 10.0 1.05E-06 3: '

51 4 19 20 4 19 24 4 4 3.5 0.0 51 4 19 20 4 19 24 4 4 6.6 0.0 51 4 19 20 4 19 24 4 4 8.2 0.0 51 4 19 20 4 19 24 4 5 3.0 0.0 51 4 19 20 4 19 24 4 5 6.3 0.0 51 4 19 20 4 19 24 4 6 6.9 0.0 58 4 19 20 4.19 24 4 7 2.9 0.0 l 58 4 19 20 4 19 24 4 7 5.3 0.0 %!

58 4 19 20 4 1% 24 4 8 3.0 0.0 51 4 19 20 4 19 24 4 8 6.6 0.0 i

51 4 19 20 4 19 24 4 8 7.0 0.0 4 3.0 0.0 9b l

51 4 19 20 4 19 24 9 l 51 4 19 20 4 19 24 4 to 2.5 0.0 l 51 4 19 20 4 19 24 4 to 2.2 0.0 51 4 19 20 4 19 24 4 to 5.0 0.0 l 51 4 19 20 4 19 24 4 11 2.5 0.0 lb l 51 4 19 20 4 19 24 4 12 4.0 0.0

( 51 4 19 20 4 19 24 4 13 1.5 0.0 51 4 19 20 4 19 24 4 13 2.9 0.0 i

4 19 24 4 13 5.0 0.0 $,

l 51 4 19 20 I 51 4 19 20 4 19 24 4 14 6.2 0.0 l 51 4 19 20 4 19 24 . 4 15 2.7 0.0 51 4 19 20 4 19 24 4 15 3.5 0.0 i

51 4 19 20 4 19 24 4 15 5.2 0.0 $

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST, CONCENTRATION HO. M D H

M D H TIME NO MI. MICRO-CI/ Mum 3 52 4 19 24 4 20 4 4 1 3.0 0.0 '

52 4 19 24 4 20 4 4 1 7.0 0.0 52 4 19 24 4 20 4 4 2 10.0 2.29E-06 52 4 19 24 4 20 4 4 3 2.6 1.53E-05 52 4 19 24 4 20 4 4 3 3.0 1.24E-05 '

52 4 19 24 4 20 4 4 3 10.0 2.29E-06 52 4 19 24 4 20 4 4 4 3.5 0.0 52 4 19 24 4 20 4 4 4 6.6 0.0 52 4 19 24 4 20 4 4 4 8.2 0.0 52 4 19 24 4 20 4 4 5 3.0 0.0 52 4 19 24 4 20 4 4 5 6.3 0.0 52 4 19 24 4 20 4 4 6 6.9 0.0 52 4 19 24 4 20 4 4 7 2.9 0.0 52 4 19 24 4 20 4 4 7 5.3 0.0

52 4 19 24 4 20 4 4 8 3.0 0.0 52 4 19 24 4 20 4 4 8 6.6 0.0 52 4 19 24 4 20 4 4 8 7.0 0.0

$2 4 19 24 4 20 4 4 9 3.0 5.73E-05

52 4 19 24 4 20 4 4 to 2.5 0.0 52 4 19 24 4 20 4 4 to 2.2 0.0 52 4 19 24 4 20 4 4 10 5.0 0.0 52 4 19 24 4 20 4 4 11 2.5 0.0 52 4 19 24 4 20 4 4 12 4.0 0.0 52 4 19 24 4 20 4 4 13 1.5 0.0 52 4 19 24 4 20 4 4 13 2.9 0.0 52 4 19 24 4 20 4 4 13 5.0 0.0 %

52 4 19 24 4 20 4 4 14 6.2 0.0 52 4 19 24 4 20 4 4 15 2.7 0.0 52 4 19 24 4 20 4 4 15 3.5 0.0 52 4 19 24 4 20 4 4 15 5.2 0.0 I t

t 4

1 4

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e

s PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION NO. M DH M D H TIME H0 Mt. MICRD-CI/M4w3 ' '

53 4 20 4 4 20 8 4 1 3.0 0.0 53 4 20 4 4 20 8 4 1 7.0 0.0 '

53 4 20 4 4 20 8 4 2 10.0 0.0 53 4 20 4 l 4 20 8 4 3 2.6 0.0 53 4 20 4 4 20 8 4 3 3.0 0.0 I 53 4 20 4 4 20 8 4 3 10.0 0.0 '

53 4 20 4 4 20 8 4 4 3.5 0.0 53 4 20 4 4 20 8 4 4 6.6 0.0 53 4 20 4 4 20 8 4 4 8.2 0.0 53 4 20 4 4 20 8 4 5 3.0 1.48E-04 T 53 4 20 4 4 20 8 4 5 6.3 5.48E-05 53 4 20 4 4 20 8 4 6 6.9 0.0 53 4 20 4 4 20 8 4 7 2.9 6.05E-05 53 4 20 4 4 20 8 4 7 5.3 2.73E-05 '

53 4 20 4 4 20 8 4 8 3.0 0.0 53 4 20 4 4 20 8 4 8 6.6 0.0 53 4 20 4 4 20 8 4 8 7.0 0.0 53 4 20 4 4 20 8 4 9 3.0 0.0 %

53 4 20 4 4 20 8 4 to 2.5 0.0 53 4 20 4 4 20 8 4 to 2.2 0.0 53 4 20 4 4 20 8 4 to 5.0 0.0 i

53 4 20 4 4 20 8 4 11 2.5 0.0 %,

53 4 20 4 4 20 8 4 12 4.0 0.0 53 4 20 4 4 20 8 4 13 1.5 1.9tE-04 !

53 4 20 4 4 20 8 4 13 2.9 7.77E-05 53 4 20 4 4 20 8 4 13 5.0 3.64E-05 9 i 53 4 20 4 4 20 8 4 14 6.2 0.0

! 53 4 20 4 4 20 8 .4 15 2.7 0.0 53 4 20 4 4 20 8 4 15 3.5 0.0 53 4 20 4 4 20 8 4 15 5.2 0.0 1b i

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Ti-1 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/M443 54 4 20 8 4 20 11 3 1 3.0 0.0 '

54 4 20 8 4 20 11 3 1 7.0 0.0 54 4 20 8 4 20 11 3 2 10.0 0.0 54 4 20 8 4 20 ft 3 3 2.6 0.0 54 4 20 8 4 20 11 3 3 3.0 0.0 '

54 4 20 8 4 20 11 3 3 .0 0.0 54 4 20 8 4 20 11 3 4 3.5 0.0 54 4 20 8 4 20 ft 3 4 6.6 0.0 54 4 20 8 4 20 ft 3 4 8.2 0.0 '

54 4 20 8 4 20 ft 3 5 3.0 0.0 54 4 20 8 4 20 11 3 5 6.3 0.0 54 4 20 8 4 20 11 3 6 6.9 0.0 54 4 20 8 4 20 11 3 7 2.9 0.0 4 54 4 20 8 4 20 ft 3 7 5.3 0.0 54 4 20 8 4 20 Il 3 8 3.0 0.0 54 4 20 8 4 20 11 3 8 6.6 0.0 54 4 20 8 .4 20 11 3 8 7.0 0.0 54 4 20 8 4 20 11 3 9 3.0 0.0 #

54 4 20 8 4 20 11 3 to 2.5 0.0 54 4 20 8 4 20 ft 3 to 2.2 0.0 54 4 20 8 4 20 11 3 to 5.0 0.0 54 4 20 8 4 20 11 3 11 2.5 0.0 %

54 4 20 8 4 20 11 3 12 4.0 0.0 54 4 20 8 4 20 11 3 13 1.5 0.0 54 4 20 8 4 20 11 3 13 2.9 0.0 54 4 20 8 4 20 ft 3 13 5.0 0.0 4b 54 4 20 8 4 20 ft 3 14 6.2 0.0 54 4 20 8 4 20 11 3 15 2.7 1.31E-06 54 4 20 8 4 20 ft 3 15 3.5 7.87E-07 54 4 20 8 4 20 11 3 15 5.2 3.86E-07 ,

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l

.3 PERIOD TIME START TIME FINIS!! DELTA SECTOR DIST. CONCEHIRATION NO. M D H M D H TIME NO MI. MICRO-CI/Mvw3 N i

l 55 4 20 ft 4 20 13 2 1 3.0 0.0 55 4 20 ft 4 20 13 2 1 7.0 0.0 '

55 4 20 11 4 20 13 2 2 10.0 0.0 55 4 20.11 4 20 13 2 3 2.6 0.0 55 4 20 ft 4 20 13 2 3 3.0 0.0 55 4 20 11 4 20 13 2 3 10.0 0.0

55 4 20 ft 4 20 13 2 4 3.5 0.0 l 55 4 20 11 4 20 13 2 4 6.6 0.0 55 4 20 11 4 20 13 2 4 8.2 0.0 55 4 20 ft 4 20 13 2 5 3.0 0.0 4 55 4 20.11 4 20 13 2 5 6.3 0.0 55 4 20 ft 4 20 13 2 6 6.9 0.0 55 4 20 ft 4 20 13 2 7 2.9 0.0 55 4 20 ft 4 20 13 2 7 5.3 0.0 - %

55 4 20 11 4 20 13 2 8 3.0 0.0 55 4 20 11 4 20 13 2 8 6.6 0.0 55 4 20 11 4 20 13 2 8 7.0 0.0 55 4 20 ft 4 20 13 2 9 3.0 0.0 %

55 4 20 ft 4 20 13 2 to 2.5 0.0 55 4 20 11 4 20 13 2 to 2.2 0.0 55 4 20 11 4 20 13 2 to 5.0 0.0 55 4 20 11 4 20 13 2 11 2.5 0.0 %

55 4 20 11 4 20 13 2 12 4.0 0.0 55 4 20 11 4 20 13 2 13 1.5 0.0 55 4 20 11 4 20 13 2 13 2.9 0.0 55 4 20 ft 4 20 13 2 13 5.0 0.0 1b 55 4 20 18 4 20 13 2 14 6.2 2.83E-07 55 4 20 ft 4 20 13 2 15 2.7 1.13E-06 55 4 20 11 4 20 13 2 15 3.5 8.68E-07 l 55 4 20 11 4 20 13 2 15 5.2 5.68E-07 1b l

4 9

9 E

g 9: .

b O #

I PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. NICRO-CI/MwW3 56 4 20 13 4 20 16 3 1 3.0 0.0 in 56 4 20 13 4 20 16 3 1 7.0 0.0 56 4 20 13 4 20 16 3 2 10.0 0.0 56 4 20 13 4 20 16 3 3 2.6 0.0 56 4 20 13 4 20 16 3 3 3.0 0.0

56 4 20 13 4 20 16 3 3 10.0 0.0 56 4 20 13 4 20 16 3 4 3.5 0.0 56 4 20 13 4 20 16 3 4 6.6 0.0 56 4 20 13 4 20 16 3 4 8.2 0.0

T 56 4 20 13 4 20 16 3 5 3.0 0.0 56 4 20 13 4 20 16 3 5 6.3 0.0 56 4 20 13 4 20 16 3 6 6.9 0.0 56 4 20 13 4 20 16 3 7 2.9 0.0 56 4 20 13 4 20 16 3 7 5.3 0.0 56 4 20 13 4 20 16 3 8 3.0 0.0 56 4 20 13 4 20 16 3 8 6.6 0.0 56 4 20 13 4 20 16 3 8 7.0 0.0 56 4 20 13 4 20 16 3 9 3.0 0.0 56 4 20 13 4 20 16 3 to 2.5 0.0

, 56 4 20 13 4 20 16 3 to 2.2 0.0 l 56 4 20 13 4 20 16 3 10 5.0 0.0 56 4 20 13 4 20 16 3 11 2.5 0.0 t 56 4 20 13 4 20 16 3 12 4.0 2.72E-07 56 4 20 13 4 20 16 3 13 1.5 0.0 56 4 20 13 4 20 16 3 13 2.9 0.0 56 4 20 13 4 20 16 3 13 5.0 G.0 9 56 4 20 13 4 20 16 3 14 6.2 2.48E-07 56 4 20 13 4 20 16 3 15 2.7 0.0 56 4 20 13 4 20 16 3 15 3.5 0.0 l

56 4 20 13 4 20 16 3 15 5.2 0.0 9 8

D i

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o

~

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION M3. M D H M D H TIME NO MI. MICRO-CI/Nww3 '%

57 4 20 16 4 20 20 4 1 3.0 0.0 ~

57 4 20 16 4 20 20 4 1 7.0 0.0 '%

57 4 20 16 4 20 20 4 2 10.0 0.0 57 4 20 16 42020 4 3 2.6 0.0 57 4 20 16 42020 4 3 3.0 0.0 57 4 20 16 42020 4 3 10.0 0.0 %

57 4 20 16 4 20 20 4 4 3.5 0.0 57 4 20 16 4 20 20 4 4 6.6 0.0 57 4 20 16 4 20 20 4 4 8.2 0.0 57 4 20 16 4 20 20 4 5 3.0 0.0 %

57 4 20 16 4 20 20 4 5 -6.3 0.0 57 4 20 16 4 20 20 4 6 6.9 0.0 57 4 20 16 4 20 20 4 7 2.9 0.0 57 4 20 16 4 20 20 4 7 5.3 0.0 57 4 20 16 4 20 20 4 8 3.0 0.0 57 4 20 16 4 20 20 4 8 6.6 0.0 57 4 20 16 4 20 20 4 8 7.0 0.0 57 4 20 16 4 20 20 4 9 3.0 4.58E-06 V 57 4 20 16 4 20 20 4 to 2.5 6.32E-06 '

57 4 20 16 4 20 20 4 10 2.2 7.75E-06 57 4 20 16 42020 4 10 5.0 2.29E-06 57 4 20 16 4 20 20 4 11 2.5 0.0 4 57 4 20 16 42020 4 12 4.0 2.22E-06 57 4 20 16 4 20 20 4 13 1.5 0.0 57 4 20 16 4 20 20 4 13 2.9 0.0 57 4 20 16 .4 20 20 4 13 5.0 0.0 %

57 4 20 16 4 20 20 4 14 6.2 0.0 57 4 20 16 4 20 20 4 15 2.7 2.68E-06 57 s 4 20 16 4 20 20 4 IS 3.5 8.8tE-06 57 4 20 16 42020 4 15 5.2 9.79E-07 %

9 9

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FV l .

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION ,_

r.

NO. M D H M D H TIME HO MI. MICRO-CI/Mww3 'b 58 42020 4 20 22 2 1 3.0 0.0 58 4 20 20 4 20 22 2 1 7.0 0.0 4h 58 4 20 20 4 20 22 2 2 10.0 0.0 '

58 4 20 20 4 20 22 2 3 2.6 0.0 58 42020 4 20 22 2 3 3.0 0.0 -

58 42020 42022 2 3 10.0 0.0 %

58 42020 4 20 22 2 4 3.5 0.0 58 4 20 20 42022 2 4 6.6 0.0 58 4 20 20 4 20 22 2 4 8.2 0.0 58 4 20 20 4 20 22 2 5 3.0 0.0 db 58 4 20 20 4 20 22 2 5 6.3 0.0 58 42020 4 20 22 2 6 6.9 0.0 58 42020 4 20 22 2 7 2.9 0.0 58 42020 42022 2 7 5.3 0.0 1b 58 42020 4 20 22 2 8 3.0 0.0 '.

58 4 20 20 4 20 22 2 8 6.6 0.0

-~

58 42020 4 20 22 2 8 7.0 0.0 58 42020 42022 2 9 3.0 8.33E-05 1h 58 4 20 20 4 20 22 2 to 2.5 0.0 58 4 20 20 4 20 22 2 to 2.2 0.0 58 4 20 20 4 20 22 2 10 5.0 0.0 58 4 20 20 4 20 22 2 ft 2.5 0.0 %

58 4 20 20 4 20 22 2 12 4.0 4.58E-05 58 4 20 20 4 20 22 2 13 1.5 0.0 58 42020 4 20 22 2 13 2.9 0.0 58 42020 42022 2 13 5.0 0.0 %

58 42020 4 20 22 2 14 6.2 0.0 58 4 20 20 4 20 22 2 15 2.7 0.0 58 4 20 20 4 20 22 2 15 3.5 0.0 58 4 20 20 4 20 22 2 15 5.2 0.0 I

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH s

MO. M D H M D H TIME H0 MI. MICRO-CI/M4w3 59 42023 4 21 3 4 1 3.0 0.0 '

59 42023 4 21 3 4 1 7.0 0.0 59 42023 4 21 3 4 2 10.0 0.0 59 42023 4 21 3 4 3 2.6 0.0 4 21 3 4 3 3.0 0.0 g 59 4 20 23 59 4 20 23 4 21 3 4 3 10.0 0.0 -

59 4 20 23 4 21 3 4 4 3.5 0.0 59 4 20 23 4 21 3 4 4 6.6 0.0 59 4 20 23 4 21 3 4 4 8.2 0.0

59 4 20 23 4 21 3 4 5 3.0 2.34E-05 59 4 20 23 4 21 3 4 5 6.3 8.85E-06 59 4 20 23 4 21 3 4 6 6.9 4.12E-06 59 4 20 23 4 21 3 4 7 2.9 0.0 '

59 4 20 23 4 21 3 4 7 5.3 0.0 59 4 20 23 4 21 3 4 8 3.0 0.0 59 42023 4 21 3 4 8 6.6 0.0 ,

59 4 20 23 4 21 3 4 8 7.0 0.0 '

59 4 20 23 42i 3 4 9 3.0 0.0 59 4 20 23 4 21 3 4 to 2.5 0.0 39 4 20 23 4 21 3 4 10 2.2 0.0 59 4 20 23 4 21 3 4 to 5.0 0.0 '

59 4 20 23 4 21 3 4 11 2.5 0.0 59 42023 4 21 3 4 12 4.0 3.28E-05 59 4 20 23 4 21 3 4 13 1.5 0.0 59 42023 4 21 3 4 13 2.9 0.0 #

! 59 4 20 23 4 21 3 4 13 5.0 0.0 l 59 42023 4 21 3 4 14 6.2 0.0 59 42023 4 21 3 4 15 2.7 0.0 59 4 20 23 4 21 3 4 15 3.5 0.0 I 59 42023 4 21 3 4 15 5.2 0.0 D

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R PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME H0 NI. MICRO-CI/MMw3 60 4 21 3 4 21 4 I I 3.0 0.0 60 4 21 3 4 21 4 1 1 7.0 0.0 60 4 21 3 4 21 4 1 2 10.0 0.0 60 4 21 3 4 21 4 1 3 2.6 0.0

, 60 4 21 3 4 21 4 1 3 3.0 0.0 60 4 21 3 4 21 4 1 3 10.0 0.0 60 4 21 3 4 21 4 1 4 3.5 0.0 60 4 21 3 4 21 4 1 4 6.6 0.0 60 4 21 3 4 21 4 1 4 8.2 0.0 60 4 21 3 4 21 4 1 5 3.0 0.0 60 4 21 3 4 21 4 1 5 6.3 0.0 60 4 28 3 4 21 4 1 6 6.9 0.0 8

60 4 21 3 4 21 4 1 7 2.9 3.03E-04 '

60 4 21 3 4 21 4 1 7 5.3 1.39E-04 60 4 21 3 4 21 8 1 8 3.0 0.0 60 4 21 3 4 21 9 1 8 6.6 0.0

' 60 4 21 3 4 21 4 1 8 7.0 0.0 60 4 21 3 4 21 4 1 9 3.0 0.0 C-60 4 21 3 4 21 4 1 to 2.5 0.0 60 4 21 3 4 21 4 1 10 2.2 0.0 60 4 21 3 4 21 4 1 10 5.0 0.0 i

?

60 4 21 3 4 21 4 1 11 2.5 0.g 1h l 60 4 21 3 4 21 4 1 12 4.0 0.0 l

60 4 21 3 4 21 4 1 13 1.5 0.0 60 4 21 $ 4 21 4 1 13 2.9 0.0 lI 60 4 21 3 4 21 4 1 13 5.0 0.0 %

60 4 21 3 4 21 4 1 14 6.2 0.0 60 4 21 3 4 21 4 1 15 2.7 0.0 60 4 21 3 4 21 4 1 15 3.5 0.0 4 60 4 21 3 4 21 4 1 15 5.2 0.0 4

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH NO. M D H M D H TIME NO MI. MICRO-CI/MwN3 61 4 21 4 4 21 8 4 1 3.0 0.0 '

61 4 21 4 4 21 8 4 1 7.0 0.0 61 4 21 4 4 21 8 4 2 10.0 0.0 61 4 21 4 4 21 8 4 3 2.6 0.0 61 4 21 4 4 21 8 4 3 3.0 0.0

61 4 21 4 4 21 8 4 3 10.0 0.0 61 4 21 4 4 21 8 4 4 3.5 8.85E-06 61 4 21 4 4 21 8 4 4 6.6 3.74E-06 61 4 21 4 4 21 8 4 4 8.2 2.82E-06

61 4 21 4 4 21 8 4 5 3.0 1.01E-05 61 4 21 4 4 21 8 4 5 6.3 3.86E-06 61 4 21 4 4 21 8 4 6 6.9 2.75E-06 61 4 21 4 4 21 8 4 7 2.9 0.0

61 4 21 4 4 21 8 4 7 5.3 0.0 61 4 21 4 4 21 8 4 8 3.0 0.0 '

61 4 21 4 4 21 8 4 8 6.6 0.0 61 4 21 4 4 21 8 4 8 7.0 0.0

61 4 21 4 4 21 8 4 9 3.0 0.0 61 4 21 4 4 21 8 9 10 2.5 0.0 61 4 21 4 4 21 8 4 10 2.2 0.0 61 4 21 4 4 21 8 4 10 5.0 0.0 61 4 21 4 4 21 8 4 11 2.5 0.0 61 4 21 4 4 21 8 4 12 4.0 0.0 I

61 4 21 4 4 21 8 4 13 1.5 0.0 61 4 21 4 4 21 8 4 13 2.9 0.0

61 4 21 4 4 21 8 4 13 5.0 0.0 61 4 21 4 4 21 8 4 14 6.2 0.0 61 4 21 4 4 21 8 4 15 2.7 0.0 61 4 21 4 4 21 8 4 15 3.5 0.0 61 4 21 4 4 21 8 4 15 5.2 0.0 g;

t t

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g d

tl s

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION s

HO. M D H M D H TIME NO MI. MICRO-CI/Mww3 62 4 21 8 4 21 12 4 1 3.0 3.82E-07 '

62 4 21 8 4 21 12 4 1 7.0 9.79E-08 62 4 21 8 4 21 12 4 2 10.0 0.0 62 4 21 8 4 21 12 4 3 2.6 0.0 62 4 21 8 4 21 12 4 3 3.0 0.0 '

62 4 21 8 4 21 12 4 3 10.0 0.0 62 4.21 8 4 21 12 4 4 3.5 0.0 62 4 21 8 4 21 12 4 4 6.6 0.0 62 4 21 8 4 21 12 4 4 8.2 0.0 62 4 21 8 4 21 12 4 5 3.0 0.0 62 4 21 8 4 21 12 4 5 6.3 0.0 62 4 21 8 4 21 12 4 6 6.9 0.0 62 4 21 8 4 21 12 4 7 2.9 1.22E-06 -

-62 4 21 8 4 21 12 4 7 5.3 4.76E-07 62 4 21 8 4 21 12 4 8 3.0 0.0 62 4 21 8 4 21 12 4 8 6.6 0.0 62 4 21 8 4 21 12 4 8 7.0 0.0

63 4 21 8 4 21 12 4 9 3.0 0.0 62 4 21 8 4 21 12 4 10 2.5 0.0 62 4 21 8 4 21 12 4 10 2.2 0.0 62 4 21 8 4 21 12 4 to 5.0 0.0 62 4 21. 8 4 21 12 4 11 2.5 2.98E-06 62 4 21 8 4 21 12 4 12 4.0 0.0 62 4 21 8 4 21 12 4 13 1.5 0.0 62 4 21 8 4 21 12 4 13 2.9 0.0 62 4 21 8 4 21 12 4 13 5.0 0.0 h.!

62 4 21 8 4 21 12 4 14 6.2 0.0 62 4 21 8 4 21 12 4 15 2.7 0.0 62 4 21 8 4 21 4 15 3.5 0.0 62 4 21 8 4 21 C. 4 15 5.2

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.u PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. MICRO-CI/MMM3 64 4 21 16 4 21 20 4 1 3.0 0.0 ,

64 4 21 16 42120 4 1 7.0 0.0 64 4 21 16 4 21 20 4 2 10.0 0.0 64 4 21 16 42120 4 3 2.6 0.0 64 4 21 16 4 21 20 4 3 3.0 0.0 64 4 21 16 42120 4 3 10.0 0.0 64 4 21 16 4 21 20 4 4 3.5 0.0 64 -

4 21 16 4 21 20 4 4 6.6 0.0 64 4 21 16 4 21 20 4 4 8.2 0.0 64 4 21 16 42120 4 5 3.0 0.0 64 4 21 16 4 21 20 4 5 6.3 0.0 64 4 21 16 4 21 20 4 6 6.9 3.78E-07 64 4 21 16 4 21 20 4 7 2.9 0.0 s 64 4 21 16 42120 4 7 5.3 0.0 64 4 21 16 42120 4 8 3.0 1.01E-06 64 4 21,16 4 21 20 4 8 6.6 3.24E-07 64 4 21 16 4 21 20 4 8 7.0 2.98E-07 g 64 4 21 16 42820 4 9 3.0 1.70E-06 64 4 21 16 4 21 20 4 to 2.5 f.IIE-06 64 4 21 16 42120 4 10 2.2 1.37E-06 64 42116 4 21 20 4 to 5.0 3.82E-07 %

64 4 21 16 4 21 20 4 11 2.5 0.0 64 4 21 16 4 21 20 4 12 4.0 0.0 64 4 21 16 4 21 20 4 13 f.5 0.0 64 4 21 16 4 21 20 4 13 2.9 0.0 64 4 21 16 4 21 20 4 13 5.0 0.0 %

64 4 21 16 4 21 20 4 14 6.2 0.0 64 4 21 16 4 21 20 4 15 2.7 0.0 64 4 21 16 42120 4 15 3.5 0.0 I

64 4 21 16 42120 4 15 5.2 0.0 t

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s PERIOD TIME START TIME FINISH CELTA SECTOR DIST. CONCENTRATION HG. M D H M D H TIME NO MI. MICRO-CI/Mww3 65 42120 4 22 1 5 1 3.0 0.0 3 65 42120 4 22 1 5 1 7.0 0.0 65 42120 4 22 1 5 2 10.0 0.0 65 4 21 20 4 22 1 5 3 2.6 0.0 65 42120 4 22 1 5 3 3.0 0.0 65 42120 4 22 1 5 3 10.0 0.0 65 42120 4 22 1 5 4 3.5 0.0 65 42120 4 22 1 5 4 6.6 0.0 65 4 21 20 4 22 1 5 4 8.2 0.0 65 4 21 20 4 22 1 5 5 3.0 0.0 65 4 21 20 4 22 1 5 5 6.3 0.0 65 4 21 20 4 22 1 5 6 6.9 0.0 '

65 4 21 20 4 22 1 5 7 2.9 1.31E-06 '

65 42120 4 22 1 5 7 5.3 5.23E-07 65 42120 4 22 1 5 8 3.0 6.80E-06 65 42120 4 22 1 5 8 6.6 2.20E-06 65 4 21 20 4 22 1 5 8 7.0 2.03E-06 65 4 21 20 4 22 1 5 9 3.0 1.97E-06 ':

65 4 21 20 4 22 1 5 to 2.5 0.0 I 65 42120 4 ';

2 2 1 5 10 2.2 0.0 l 65 4 21 20 4 22 1 5 to 5.0 0.0 % i 65 4 21 20 4 22 1 5 11 2.5 0.0 65 4 21 20 4 22 1 5 12 4.0 0.0 65 4 21 20 4 22 1 5 13 1.5 0.0 1 65 4 21 20 4 22 1 5 13 2.9 0.0 I

65 42120 4 22 1 5 13 5.0 0.0 65 42120 4 22 1 5 14 6.2 0.0 65 4 21 20 4 22 1 5 15 2.7 0.0 65 4 21 20 4 22 1 5 15 3.5 0.0 65 4 21 20 4 22 1 5 15 5.2 0.0 I S.

t 4 I t

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t 4!! >

r, PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME HD MI. MICRO-CI/MMN3 '

66 4 22 1 4 22 5 4 1 3.0 0.0 s 66 4 22 1 4 22 5 4 1 7.0 0.0 66 4 22 1 4 22 5 4 2 10.0 0.0 66 4 22 1 4 22 5 4 3 2.6 0.0 66 4 22 1 4 22 5 4 3 3.0 0.0 66 4 22 1 4 22 5 4 3 10.0 0.0 66 4 22 1 4 22 5 4 4 3.5 0.0 66 4 22 1 4 22 5 4 4 6.6 0.0 66 4 22 1 4 22 5 4 4 8.2 0.0 66 4 22 1 4 22 5 4 5 3.0 4.17E-06 66 4 22 l 4 22 5 4 5 6.3 1.57E-06 66 4 22 1 4 22 5 4 6 6.9 5.77E-06 -

66 4 22 1 4 22 5 4 7 2.9 5.35E-06

, 66 4 22 1 4 22 5 4 7 5.3 2.35E-06 66 4 22 1 4 22 5 4 8 3.0 0.0 66 4 22 1 4 22 5 4 8 6.6 0.0 66 4 22 1 4 22 5 4 8 7.0 0.0 66 4 22 1 4 22 5 4 9 3.0 0.0 '

66 4 22 1 4 22 5 4 10 2.5 0.0 66 4 22 1 4 22 5 4 to 2.2 0.0 ;

66 4 22 1 4 22 5 4 10 5.0 0.0 66 4 22 1 4 22 5 4 11 2.5 0.0 '

66 4 22 1 4 22 5 4 12 4.0 0.0 66 4 22 1 4 22 5 4 13 1.5 0.0 66 4 22 1 4 22 5 4 13 2.9 0.0

66 4 22 1 4 22 5 4 13 '

5.0 0.0 66 4 22 1 4 22 5 4 14 6.2 0.0 66 4 22 1 4 22 5 4 15 2.7 0.0 66 4 22 1 4 22 5 4 15 3.5 0.0 66 4 22 ,1 4 22 5 4 15 5.2 0.0 %

i i

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w 18 .

I

1 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCEllTRATION HO. M D H M D H TIME NO MI. MICRO-CI/M4N3 67 4 22 .

5 4 22 8 3 1 3.0 0.0 '

67 4 22 5 4 22 8 3 1 7.0 0.0 67 4 22 5 4 22 8 3 2 10.0 0.0 67 4 22 5 4 22 8 3 3 2.6 0.0 67 4 22 5 4 22 8 3 3 3.0 0.0 '

67 4 22 5 4 22 8 3 3 10.0 0.0 67 4 22 5 4 22 8 3 4 3.5 0.0 67 4 22 5 4 22 8 3 4 6.6 0.0 67 4 22 5 4 22 8 3 4 8.2 0.0 67 4 22 5 4 22 8 3 5 3.0 6.79E-06 67 4 22 5 4 22 8 3 5 6.3 2.29E-06 67 4 22 5 4 22 8 3 6 6.9 1.70E-06 67 4 22 5 4 22 8 3 7 2.9 1.54E-05 67 4 22 5 4 22 8 3 7 5.3 6.82E-06 %

67 4 22 5 4 22 8 3 8 3.0 0.0 67 4 22 5 4 22 8 3 8 6.6 0.0 - i 67 4 22 5 4 22 8 3 8 7.0 0.0 67 4 22 5 4 22 8 3 9 3.0 0.0 %

67 4 22 5 4 22 8 3 10 2.5 0.0 67 4 22 5 4 22 8 3 to 2.2 0.0 67 4 22 5 4 22 8 3 10 5.0 0.0 67 4 22 5 4 22 8 3 11 2.5 0.0 %

67 4 22 5 4 22 8 3 12 4.0 0.0 67 4 22 5 4 22 8 3 13 1.5 0.0 67 4 22 5 4 22 8 3 13 2.9 0.0 67 4 22 5 4 22 8 3 13 5.0 0.0 ) '

67 4 22 5 4 22 8 3 14 6.2 0.0 67 4 22 5 4 22 8 3 15 2.7 0.0 67 4 22 5 4 22 8 3 15 3.5 0.0 67 4 22 5 4 22 8 3 15 5.2 0.0 %

4 9

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I PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. MICRO-CI/Mww3 68 4 22 8 4 22 12 4 1 3.0 4.86E-06 '

68 4 22 8 4 22 12 4 1 7.0 1.44E-06 68 4 22 8 4 22 12 4 2 10.0 0.0 68 4 22 8 4 22 12 4 3 2.6 0.0 i 68 4 22 8 4 22 12 4 3 3.0 0.0 68 4 22 8 4 22 12 4 3 10.0 0.0 68 4 22 8 4 22 12 4 4 3.5 0.0 68 4 22 8 4 22 12 4 4 6.6 0.0 68 4 22 8 4 22 12 4 4 8.2 0.0 68 4 22 8 4 22 12 4 5 3.0 5.55E-06 68 4 22 8 4 22 12 4 5 6.3 1.95E-06 '

68 4 22 8 4 22 12 4 6 6.9 4.43E-07 63 4 22 8 4 22 12 4 7 2.9 0.0 '

68 4 22 8 4 22 12 4 7 5.3 0.0 68 4 22 8 4 22 12 4 8 3.0 1.15E-06 68 4 22 8 4 22 12 4 8 6.6 3.35E-07 ,

68 4 22 8 4 22 12 4 8 7.0 3.05E-07 %

69 4 22 8 4 22 12 4 9 3.0 0.0 68 4 22 8 4 22 12 4 to 2.5 0.0 68 4 22 8 4 22 12 4 to 2.2 0.0 68 4 22 8 4 22 12 4 to 5.0 0.0 68 4 22 8 4 22 ?2 4 11 2.5 0.0 68 4 22 8 4 22 12 4 12 4.0 0.0

< 68 4 22 8 4 22 12 4 13 1.5 0.0 68 4 22 8 4 22 12 4 13 2.9 0.0 68 4 22 8 4 22 12 4 13 5.0 0.0 68 4 22 8 4 22 12 4 14 6.2 0.0 ,

68 4 22 8 4 22 12 4 15 2.7 0.0 68 4 22 8 4 22 12 4 15 3.5 0.0 t 68 4 22 8 4 22 12 4 15 5.2 0.0 9i t

t If '

d

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'A t PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME H0 MI. MICRO-CI/Mww3

69 4 22 12 4 22 16 4 1 3.0 0.0 69 4 22 12 4 22 16 4 1 7.0 0.0

i 69 4 22 12 4 22 16 4 2 10.0 5.21E-07 ;

69 4 22 12 4 22 16 4 3 2.6 0.0 69 4 22 12 4 22 16 4 3 3.0 0.0 69 4 22 12 4 22 16 4 3 10.0 0.0 '

69 4 22 12 4 22 16 4 4 3.5 0.0 69 4 22 12 4 22 16 4 4 6.6 0.0 69 4 22 12 4 22 16 4 4 8.2 0.0 '

69 4 22 12 4 22 16 4 5 3.0 0.0 '

69 4 22 12 4 22 16 4 5 6.3 0.0 69 4 22 12 4 22 16 4 6 6.9 3.79E-07 -

69 4 22 12 4 22 16 4 7 2.9 3.64E-06 69 4 22 12 4 22 ,16 4 7 5.3 1.33E-06 %

69 4 22 12 4 22 16 4 8 3.0 0.0 ;

69 4 22 12 4 22 16 4 8 6.6 0.0 69 4 22 12 4 22 16 4 8 7.0 n.0 69 4 22 12 4 22 16 4 9 3.0 0.0 ib 69 4 22 12 4 22 16 4 to 2.5 1.0 69 4 22 12 4 22 16 4 to 2.2 0.0 69 4 22 12 4 22 16 4 to 5.0 0.0 69 4 22 12 4 22 16 4 11 2.5 0.0 lb 69 4 22 12 4 22 16 4 12 4.0 0.0 69 4 22 12 4 22 16 4 13 1.5 0.0 69 4 22 12 4 22 16 4 13 2.9 0.0 69 4 22 12 4 22 16 4 13 5.0 0.0 lb 69 4 22 12 4 22 16 4 14 6.2 0.0 69 4 22 12 4 22 16 4 15 2.7 0.0 69 4 22'12 4 22 16 4 15 3.5 0.0 69 4 22 12 4 22 16 4 15 5.2 0.0 lb 9

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PERIOD TIME START TIME FINISH DELT4 SECTOR DIST. CONCENTRATION HO. M D H M D H TIME NO MI. MICRO-CI/MMW3 ,

70 4 22 16 4 22 20 4 1 3.0 0.0 3 ,

70 4 22 16 4 22 20 4 1 7.0 0.0 70 4 22 16 4 22 20 4 2 10.0 0.0 70 4 22 16 4 22 20 4 3 2.6 0.0

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70 4 22 16 4 22 20 4 3 3.0 0.0 '

70 4 22 16 4 22 20 4 3 10.0 0.0 l 70 4 22 16 4 22 20 4 4 3.5 0.0 70 4 22 16 4 22 20 4 4 6.6 0.0 '

70 4 22 16 4 22 20 4 4 8.2 0.0 ' '

70 4 22 16 4 22 20 4 5 3.0 0.0 70 4 22 16 4 22 20 4 5 6.3 0.0 70 4 22 16 4 22 20 4 6 6.9 0.0

.70 4 22 16 42220 4 7 2.9 1.09E-05 '

70 4 22 16 4 22 20 4 7 5.3 4.48E-06 >

70 4 22 16 42220 4 8 3.0 0.0 70 4 22 16 4 22 20 4 8 6.6 0.0 '

70 4 22-16 4 22 20 4 8 7.0 0.0 '

70 4 22 16 4 22 20 4 9 3.0 2.01E-06 >

70 4 22 16 4 22 20 4 10 2.5 5.90E-06 ,

70 4 22 16 4 22 20 4 10 2.2 7.19E-06 :

70 4 22 16 4 22 20 4 10 5.0 2.08E-06 % !

70 4 22 16 4 22 20 4 11 2.5 0.0 70 4 22 16 4 22 20 4 12 4.0 0.0 70 4 22 16 4 22 20 4 13 1.5 0.0 -

70 4 22 16 4 22 20 4 13 2.9 0.0 >

70 4 22 16 4 22 20 4 13 5.0 0.0 %;

70 4 22.16 4 22 20 4 14 6.2 0.0

70 4 22 16 4 22 20 4 15 2.7 0.0 70 4 22 16 4 22 20 4 15 3.5 0.0

70 4 22 16 4 22 20 4 15 5.2 0.0 I ,,

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PERIOD TIME START TIME FINISH DELTA !ECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/Mww3 l 72 4 22 22 4 22 24 2 1 3.0 0.0 3 72 4 22 22 4 22 24 2 1 7.0 0.0 72 42222 42224 2 2 10.0 0.0 i 72 4 22 22 4 22 24 2 3 2.6 0.0 72 4 22 22 4 22 24 2 3 3.0 0.0 s 72 4 22 22 4 22 24 2 3 10.0 0.0 72 42222 4 22 24 2 4 3.5 0.0 i 72 4 22 22 4 22 24 2 4 6.6 0.0 72 4 22 22 4 22 24 2 4 8.2 0.0 72 4 22 22 4 22 24 2 5 3.0 0.0 s[

72 4 22 22 42224 2 5 6.3 0.0 72 42222 4 22 24 2 6 6.9 0.0 l 72 4 22 22 4 22 24 2 7 2.9 0.0 '

72 42222 4 22 24 2 7 5.3 0.0 72 4 22 22 4 22 24 2 8 3.C 4.17E-05 72 4 22 22 4 22 24 2 8 6.6 f.46E-05 I 72 4 22 22 4 22 24 2 8 7.0 1.35E-05 72 4 22 22 4 22 24 2 9 3.0 0.0 %!

72 4 22 22 4 22 24 2 to 2.5 4.37E-05 72 4 22 22 4 22 24 2 10 2.2 5.26E-05 72 42222 4 22 24 2 to 5.0 1.7tE-05 %

I 72 4 22 22 4 22 24 2 11 2.5 0.0 l 72 4 22 22 4 22 24 2 12 4.0 0.0 72 4 22 22 4 22 24 2 13 1.5 0.0 72 4 22 22 4 22 24 2 13 2.9 0.0 4 72 4 22 22 4 22 24 2 13 5.0 0.0 %'

72 4 22 22 4 22 24 2 14 6.2 0.0 72 4 22 22 4 22 24 2 15 2.7 0.0 72 42222 42224 2 15 3.5 0.0 I

72 4 22 22 4 22 24 2 15 5.2 0.0 I

1 h

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p

T PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION H0. M D H M D H TIME HD M1. MICRO-CI/MNN3 73 4 22 24 4 23 4 4 1 3.0 3.96E-06 '

73 4 22 24 4 23 4 4 1 7.0 1.30E-06 73 4 22 24 4 23 4 4 2 10.0 0.0 73 4 22 24 4 23 4 4 3 2.6 0.0 73 4 22 24 4 23 4 4 3 3.0 0.0

73 4 22 24 4 23 4 4 3 10.0 0.0 73 4 22 24 4 23 4 4 4 3.5 0.0 73 4 22 24 4 23 4 4 4 6.6 0.0 73 4 22 24 4 23 4 4 4 8.2 0.0

73 4 22 24 4 23 4 4 5 3.0 0.0 73 4 22 24 4 23 4 4 5 6.3 0.0 73 4 22 24 4 23 4 4 6 6.9 0.0 73 4 22 24 4 23 4 4 7 2.9 0.0

73 4 22 24 4 23 4 4 7 5.3 0.0 73 4 22 24 4 23 4 4 8 3.0 0.0 73 4 22 24 4 23 4 4 8 6.6 0.0 i

73 4 22 24 4 23 4 4 8 7.0 0.0 73 4 22 24 4 23 4 4 9 3.0 0.0 %.

73 4 22 24 4 23 4 4 10 2.5 1.98E-05 73 4 22 24 4 23 4 4 to 2.2 2.37E-05 >

73 4 22 24 4 23 4 4 10 5.0 7.8tE-06 4 23 4 4 18 2.5 0.0 %

73 4 22 24 .

73 4 22 24 4 23 4 4 12 4.0 0.0 73 4 22 24 4 23 4 4 13 1.5 0.0 73 4 22 24 4 23 4 4 13 2.9 0.0 73 4 22 24 4 23 4 4 13 5.0 0.0 73 4 22 24 4 23 4 4 14 6.2 0.0 73 4 22 24 4 23 4 4 15 2.7 1.2tE-05

73 4 22 24 4 23 4 4 15 3.5 8.33E-06 73 4 22 24 4 23 4 4 15 5.2 4.95E-06 I 4

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% j PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH HO. M D H M D H TIME H0 MI. MICRO-CI/Mww3 [

74 4 23 4 4 23 8 4 1 3.0 0.0 3 74 4 23 4 4 23 8 4 1 7.0 0.0 74 4 23 4 4 23 8 4 2 10.0 0.0 74 4 23 4 4 23 8 4 3 2.6 0.0 l 74 4 23 4 4 23 8 4 3 3.0 0.0 74 4 23 4 4 23 8 4 3 10.0 0.0 '!

74 4 23 4 4 23 8 4 4 3.5 0.0

-74 4 23 4 4 23 8 4 4 6.6 0.0 74 4 23 4 4 23 8 4 4 8.2 0.0 f 74 4 23 4 4 23 8 4 5 3.0 0.0 74 4 23 4 4 23 8 4 5 6.3 0.0 74 4 23 4 4 23 8 4 6 6.9 0.0 74 4 23 4 4 23 8 4 7 2.9 G.0 %

74 4 23 4 4 23 8 4 7 5.3 0.0 74 4 23 4 4 23 8 4 8 3.0 0.0 74 4 23 4 4 23 8 4 8 6.6 0.0 74 4 23 4 4 23 8 4 8 7.0 0.0 -

4 23 8 %

74 4 23. 4 4 9 3.0 0.0 74 4 23 4 4 23 8 4 10 2.5 0.0 74 4 23 4 4 23 8 4 10 2.2 0.0 74 4 23 4 4 23 8 4 10 5.0 0.0 74 4 23 4 4 23 8 4 11 2.5 0.0 %i 74 4 23 4 4 23 8 4 12 4.0 0.0 74 4 23 4 4 23 8 4 13 1.5 0.0 74 4 23 4 4 23 8 4 13 2.9 0.0 74 4 23 4 4 23 8 4 13 5.0 0.0 IL 74 4 23 4 4 23 8 4 14 6.2 0.0 4

'4 7 4 23 4 4 23 8 4 15 2.7 0.0 74 4 23 4 4 23 8 4 15 3.5 0.0 74 4 23 4 4 23 8 4 15 5.2 0.0 I

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.s PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH I

NO. M D H M D H TIME NO MI. MICRO-CI/MMM3 a

75 4 23 8 4 23 12 4 1 3.0 7.98E-07 '

75 4 23 8 4 23 12 4 1 7.0 2.09E-07 75 4 23 8 4 23 12 4 2 10.0 0.0 75 4 23 8 4 23 12 4 3 2.6 0.0 75 4 23 8 4 23 12 4 3 3.0 0.0 '

75 4 23 8 4 23 12 4 3 10.0 0.0 75 4 23 8 4 23 12 4 4 3.5 0.0

75 4 23 8 4 23 12 4 4 6.6 0.0 -

75 4 23 8 4 23 12 4 4 8.2 0.0 75 4 23 8 4 23 12 4 5 3.0 0.0 75 4 23 8 4 23 12 4 5 6.3 0.0 75 4 23 8 4 23 12 4 6 6.9 0.0 75 4 23 8 4 23 12 4 7 2.9 0.0 1h -

75 4 23 8 4 23 12 4 7 5.3 0.0 75 4 23 8 4 23 12 4 8 3.0 0.0 ^

75 4 23 8 4 23 12 4 8 6.6 0.0 75 4 23 8 4 23 12 4 8 7.0 0.0 %

75 4 23 8 4 23 12 4 9 3.0 0.0 75 4 23 8 4 23 12 4 to 2.5 0.0 75 4 23 8 4 23 12 4 to 2.2 0.0 75 4 23 8 4 23 12 4 to 5.0 0.0 %

75 4 23 8 4 23 12 4 11 2.5 0.0 75 4 23 8 4 23 12 4 12 4.0 0.0 75 4 23 8 4 23 12 4 13 1.5 0.0 75 4 23 8 4 23 12 4 13 2.9 0.0 %

75 4 23 8 4 23 12 4 13 5.0 0.0 75 4 23 8 4 23 12 4 14 6.2 0.0 75 4 23 8 4 23 12 4 15 2.7 1.23E-06 75 4 23 8 4 23 12 4 15 3.5 7.98E-07 75 4 23 8 4 23 12 4 15 5.2 4.25E-07 Il 3

D:

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0

m 11 .

l PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D H M D H TIME HO MI. MICRO-CI/MWW3 76 4 23 12 4 23 f6 4 1 3.0 0.0 3 76 4 23 12 4 23 16 4 1 7.0 0.0 76 4 23 12 4 23 16 4 2 10.0 0.0 76 4 23 12 4 23 16 4 3 2.6 0.0 76 4 23 12 4 23 16 4 3 3.0 0.0 76 4 23 12 4 23 16 4 3 10.0 0.0 76 4 23 12 4 23 16 4 4 3.5 0.0 76 4 23 12 4 23 16 4 4 6.6 0.0 76 4 23 12 4 23 16 4 4 8.2 0.0 ,

76 4 23 12 4 23 16 4 5 3.0 0.0 76 4 23 .12 4 23 16 4 5 6.3 0.0 76 4 23 12 4 23 16 4 6 6.9 0.0 76 4 23 12 4 23 16 4 7 2.9 0.0 s 76 4 23 12 4 23 16 4 7 5.3 0.0 76 4 23 12 4 23 16 4 8 3.0 0.0 76 4 23 12 4 23 16 4 8 6.6 0.0 76 4 23 12 4 23 16 4 8 7.0 0.0 '

76 4 23 12 4 23 16 4 9 3.0 0.0 '

76 4 23 12 4 23 16 4 10 2.5 0.0 76 4 23 12 4 23 16 4 10 2.2 0.0 76 4 23 12 4 23 16 4 10 5.0 0.0 % )

76 4 23 12 4 23 16 4 11 2.5 0.0 '

76 4 23 12 4 23 16 4 12 4.0 2.60E-06 76 4 23 12 4 23 16 4 13 1.5 0.0 76 4 23 12 4 23 16 4 13 2.9 0.0 76 4 23 12 4 23 16 4 13 5.0 n0 %j 76 4 23 12 4 23 16 4 14 6.2 2.53E-07 76 4 23 12 4 23 16 4 15 2.7 4.03E-07 76 4 23 12 4 23 16 4 15 3.5 3.12E-07 76 4 23 12 4 23 16 4 15 5.2 2.08E-07 %'

D D

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION !

NO. M D H M D H TIME HO MI. MICRO-CI/MwN3 77 4 23 16 4 23 20 4 1 3.0 0.0 -

77 4 23 16 4 23 20 4 1 7.0 0.0 77 4 23 16 4 23 20 4 2 10.0- 0.0 77 4 23 16 4 23 20 4 3 2.6 0.0 77 4 23 16 42320 4 3 3.0 0.0 77 4 23 16 4 23 20 4 3 10.0 0.0 77 4 23 16 4 23 20 4 4 3.5 0.0 77 4 23 16 4 23 20 4 4 6.6 0.0 77 4 23 16 42320 4 4 8.2 0.0 '

77 4 23 16 42320 4 5 3.0 0.0 77 4 23 16 4 23 20 4 5 6.3 0.0 77 4 23 16 4 23 20 4 6 6.9 0.0 77 4 23 16 4 23 20 4 7 2.9 0.0 '

77 4 23 16 4 23 20 4 7 5.3 0.0 77 4 23 16 4 23 20 4 8 3.0 0.0 77 4 23 16 4 23 20 4 8 6.6 0.0 77 4 23 16 4 23 20 4 8 7.0 0.0 T

77 4 23 16 4 23 20 4 9 3.0 0.0 77 4 23 16 4 23 20 4 to 2.5 5.87E-06 77 4 23 16 4 23 20 4 to 2.2 7 .18 E- 0 6 77 4 23 16 42320 4 to 5.0 2.13E-06 %

77 4 23 16 4 23 20 4 11 2.5 0.0 77 4 23 16 4 23 20 4 12 4.0 0.0 77 4 23 16 4 23 20 4 13 1.5 0.0 77 4 23 16 4 23 20 4 13 2.9 0.0 77 4 23 16 42320 4 13 5.0 0.0 %:

77 4 23 16 4 23 20 4 14 6.2 0.0 77 4 23 16 4 23 20 4 15 2.7 0.0 77 4 23 16 4 23 20 4 15 3.5 0.0 77 4 23 16 4 23 20 4 15 5.2 0.0 %f 9

9l t

+

4

v fl .

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIDH NO. M D H M D H TIME HQ MI. MICRO-CI/Mww3 78 4 23 20 4 23 22 2 1 3.0 0.0 '

78 42320 4 23 22 2 1 7.0 0.0 78 4 23 20 4 23 22 2 2 10.0 0.0 78 4 23 20 4 23 22 2 3 2.6 0.0 78 4 23 20 4 23 22 2 3 3.0 0.0 78 42320 4 23 22 2 3 10.0 0.0 78 4 23 20 4 23 22 2 4 3.5 0.0 78 4 23 20 4 23 22 2 4 6.6 0.0 78 4 23 20 4 23 22 2 4 8.2 0.0 '

78 4 23 20 4 23 22 2 5 3.0 0.0 78 4 23 20 4 23 22 2 5 6.3 0.0 78 4 23 20 42322 2 6 6.9 0.0 78 4 23 20 42322 2 7 2.9 0.0 '%

78 4 23 20 42322 2 7 5.3 0.0 78 4 23 20 42322 2 8 3.0 0.0 '

78 4 23 20 4 23 22 2 8 6.6 0.0 78 42320 4 23 22 2 8 7.0 0.0 9h 78 42320 4 23 22 2 9 3.0 0.0 78 4 23 20 4 23 22 2 10 2.5 0.0 78 42320 4 23 22 2 10 2.2 0.0 78 4 23 20 4 23 22 2 10 5.0 0.0 lb 78 42320 4 23 22 2 11 2.5 1.25E-05 78 42320 4 23 22 2 12 4.0 3.26E-06 78 42320 42322 2 13 1.5 0.0 78 42320 4 23 22 2 13 2.9 0.0 78 42320 4 23 22 2 13 5.0 0.0 78 4 23 20 4 23 22 2 14 6.2 0.0 78 4 23 20 4 23 22 2 15 2.7 0.0 78 4 23 20 4 23 22 2 15 3.5 0.0 %

78 4 23 20 42322 2 15 5.2 0.0 I )

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PER20D TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M D H M D H TIME NO MI. MICRO-CI/MWN3 79 4 23 22 4 23 24 2 1 3.0 0.0

79 42322 4 23 24 2 1 7.0 0.0 79 4 23 22 4 23 24 2 2 10.0 0.0 79 4 23 22 4 23 24 2 3 2.6 0.0 79 4 23 22 4 23 24 2 3 3.0 0.0 79 4 23 22 4 23 24 2 3 10.0 0.0

79 42322 4 23 24 2 4 3.5 0.0 79 42322 4 23 24 2 4 6.6 0.0 79' 42322 4 23 24 2 4 8.2 0.0

b 79 4 23 22 4 23 24 2 5 3.0 0.0 79 4 23 22 4 23 24 2 5 6.3 0.0 79 4 23 22 4 23 24 2 6 6.9 0.0 79- 4 23 22 4 23 24 2 7 2.9 0.0 79 4 23 22 4 23 24 2 7 5.3 0.0 lb 79 42322 4 23 24 2 8 3.0 0.0 79 4 23 22 4 23 24 2 8 6.6 0.0 79 42322 42324 2 8 7.0 0.0 79 4 23 22 4 23 24 2 9 3.0 2.29E-05 %

79 4 23 22 4 23 24 2 to 2.5 2.36E-C5 79 4 23 22 4 23 24 2 to 2.2 2.84E-05 79 4 23 22 4 23 24 2 to 5.0 9.03E-06 79 4 23 22 4 23 24 2 11 2.5 0.0 %

79 42322 4 23 24 2 12 4.0 0.0 79 4 23 22 4 23 24 2 13 1.5 0.0 '

79 4 23 22 4 23 24 2 13 2.9 0.0 79 79 42322 42322 4

4 23 23 24 24 2

2 13 14 5.0 6.2 0.0 0.0

)' i 79 42322 4 23 24 2 15 2.7 0.0 79 42322 4 23 24 2 15 3.5 0.0 79 4 23 22 4 23 24 2 15 5.2 0.0 )

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-s PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCEllTRATION N0. M D H M D H TIME HD MI. MICRO-CI/MWM3 80 4 23 24 4 24 4 4 1 3.0 0.0 '

80 4 23 24 4 24 4 4 1 7.0 0.0 80 4 23 24 4 24 4 4 2 10.0 0.0 80 4 23 24 4 24 4 4 3 2.6 0.0 80 4 23 24 4 24 4 4 3 3.0 0.0 80 42324 4 24 4 4 3 10.0 0.0 80 42324 4 24 4 4 4 3.5 0.0 80 4 23 24 4 24 4 4 4 6.6 0.0 80 42324 4 24 4 4 4 8.2 0.0 80 4 23 24 4 24 4 4 5 3.0 1.39E-05 80 4 23 24 4 24 4 4 5 6.3 5.18E-06 80 4 23 24 4 24 4 4 6 6.9 0.0 80 4 23 24 4 24 4 4 7 2.9 0.0 80 42324 4 24 4 '

4 7 5.3 0.0 80 4 23 24 4 24 4 4 8 3.0 7.98E-06 80 4 23 24 4 24 4 4 8 6.6 2.89E-06 80 4 23 24 4 24 4 4 8 7.0 2.67E-06 80 42324 4 24 4 4 9 3.0 0.0 %

80 4 23 24 4 24 4 4 to 2.5 0.0 80 42324 4 24 4 4 to 2.2 0.0 80 4 23 24 4 24 4 4 10 5.0 0.0 40 4 23 24 4 24 4 4 11 2.5 8.68E-06 1h 80 4 23 24 4 24 4 4 12 4.0 1.0lE-05 80 4 23 24 4 24 4 4 13 1.5 0.0 80 4 23 24 4 24 4 4 13 2.9 0.0 80 4 23 24 4 24 4 4 13 5.0 0.0 %

80 4 23 24 4 24 4 4 14 6.2 0'. 0 80 4 23 24 4 24 4 4 15 2.7 0.0 80 42324 4 24 4 4 15 3.5 0.0 80 4 23 24 4 24 4 4 15 5.2 0.0 9 D

D' D.

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s PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION HO. M D H M D H TIME H0 MI. MICRO-CI/MwN3 81 4 24 4 4 24 7 3 1 3.0 0.0 '

81 4 24 4 4 24 7 3 1 7.0 0.0 81 4 24 4 4 24 7 3 2 10.0 0.0 81 4 24 4 4 24 7 3 3 2.6 0.0 81 4 24 4 4 24 7 3 3 3.0 0.0 '

81 4 24 4 4 24 7 3 3 10.0 0.0 81 4 24 4 4 24 7 3 4 3.5 2.41E-06 81 4 24 4 4 24 7 3 4 6.6 9.87E-07 81 4 24 4 4 24 7 3 4 8.2 7.31E-07 '

81 4 24 4 4 24 7 3 5 3.0 7.10E-06 81 4 24 4 4 24 7 3 5 6.3 2.73E-06 '

81 4 24 4 4 24 7 3 6 6.9 0.0 81 4 24 4 4 24 7 3 7 2.9 0.0 *,

81 4 24 4 4 24 7 3 7 5.3 0.0 81 4 24 4 4 24 7 3 8 3.0 0.0 81 4 24 4 4 24 7 3 8 6.6 0.0 i 81 4 24 4 4 24 7 3 8 7.0 0.0 81 4 24 4 4 24 7 3 9 3.0 0.0 1b ,

81 4 24 4 4 24 7 3 to 2.5 0.0 ~ 1 81 4 24 4 4 24 7 3 to 2.2 0.0 !

81 4 24 4 4 24 7 3 10 5.0 0.0 81 4 24 4 4 24 7 3 11 2.5 0.0 %

81 4 24 4 4 24 7 3 12 4.0 0.0 i 81 4 24 4 4 24 7 3 13 1.5 0.0 ;

81 4 24 4 4 24 7 3 13 2.9 0.0 lb 81 4 24 4 4 24 7 3 13 5.0 0.0 81 4 24 4 4 24 7 3 14 6.2 0.0 81 4 24 4 4 24 7 3 15 2.7 0.0 81 4 24 4 4 24 7 3 15 3.5 0.0 0, 81 4 24 4 4 24 7 3 15 5.2 0.0 9

1 4

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION HD. M D H M D H TIME HD NI. MICRO-CI/MMM3 82 4 24 7 4 24 8 1 1 3.0 2.75E-05 3 82 4 24 7 4 24 8 1 1 7.0 7.97E-06 82 4 24 7 4 24 8 8 2 10.0 0.0 82 4 24 7 4 24 8 1 3 2.6 0.0 82 4 24 7 4 24 8 1 3 3.0 0.0 ,

82 4 24 7 4 24 8 1 3 10.0 0.0 82 4 24 / 4 24 8 1 4 3.5 0.0 82 4 24 7 4 24 8 1 4 6.6 0.0 82 4 24 7 4 24 8 1 4 8.2 0.0 ,

82 4.24 7 4 24 8 1 5 3.0 0.0 82 4 24 7 4 24 8 1 5 6.3 0.0 82 4 24 7 4 24 8 1 6 6.9 0.0 82 4 24 7 4 24 8 1 7 2.9 0.0 g 82 4 24 7 4 24 8 1 7 5.3 0.0 82 4 24 7 4 24 8 1 8 3.0 0.0 82 4 24 7 4 24 8 1 8 6.6 0.0 82 4 24 7 4 24 8 1 8 7.0 0.0 %

82 4 24 7 4 24 8 1 9 3.0 0.0 82 4 24 7 4 24 3 1 to 2.5 0.0 82 4 24 7 4 24 8 1 10 2.2 0.0 82 4 24 7 4 24 8 1 10 5.0 0.0 1h 1

82 4 24 7 4 24 8 1 11 2.5 0.0 82 4 24 7 4 24 8 1 12 4.0 0.0 82 4 24 7 4 24 8 1 13 1.5 0.0 82 4 24 7 4 24 8 1 13 2.9 0.0 82 4 24 7 4 24 8 1 13 5.0 0.0 9 82 4 24 7 4 24 8 1 14 6.2 0.0 82 4 24 7 4 24 8 1 15 2.7 0.0 82 4 24 7 4 24 8 1 15 3.5 0.0 82 4 24 7 4 24 8 1 15 5.2 0.0 lb 4

4 1

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D*H M D H TIME HO MI. MICRO-CI/MMM3 83 4 24 8 4 24 12 4 1 3.0 1.5tE-06 .g .

83 4 24 8 4 24 12 4 1. 7.0 4.37E-07 83 4 24 8 4 24 12 4 2 10.0 0.0 83 4 24 8 4 24 12 4 3 2.6 0.0 83 4 24 8 4 24 12 4 3 3.0 0.0 3r

83 4 24 8 4 24 12 4 3 10.0 0.0 6 4

83 4 24 8 4 24 12 4 4 3.5 0.0

, 83 4 24 8 4 24 12 4 4 6.6 0.0

83 4 24 8 4 24 12 4 4 8.2 0.0

83 4 24 8 4 24 12 4 5 3.0 4.17E-07 83 4 24 8 4 24 12 4 5 6.3 1.32E-07 4 83 4 24 8 4 24 12 4 6 6.9 0.0 83 4 24 8 4 24 12 4 7 2.9 0.0 g 83 4 24 8 4 24 12 4 7 5.3 0.0 83 4 24 8 4 24 12 4 8 3.0 f.18E-06 ,

83 4 24 8 4 24 12 4 8 6.6 3.35E-07 !

83 4 24 8 4 24 12 4 8 7.0 3.05E-07 '

83 4 24 8 4 24 12 4 9 3.0 0.0 83 4 24 8 4 24 12 4 10 2.5 0.0 83 4 24 8 4 24 12 4 10 2.2 0.0 83 4 24 8 4 24 12 4 to 5.0 0.0 83 4 24 8 4 24 12 4 11 2.5 0.0 1b '

83 4 24 8 4 24 12 4 12 4.0 0.0 83 4 24 8 4 24 12 4 13 f.5 0.0 83 4 24 8 4 24 12 4 13 2.9 0.0 83 4 24 8 4 24 12 4 13 5.0 0.0 I. ;

83 4 24 8 4 24 12 4 14 6.2 0.0 83 4 24 8 4 24 12 4 15 2.7 0.0 1 83 4 24 8 4 24 12 4 15 3.5 0.0 83 4 24 8 4 24 12 4 15 5.2 0.0 I:.

1D -

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION HO. M D*H M D H TIME HD MI. MICRO-CI/MMM3 84 4 24 12 4 24 16 4 1. 3.0 0.0 s 84 4 24 12 4 24 16 4 1 7.0 0.0 84 4 24 12 4 24 16 4 2' 10.0 0.0 84 4 24 12 4 24 16 4 3 2.6 0.0 84 4 24 12 4 24 16 4 3- 3.0 0.0 84 4 24 12 4 24 16 4 3' 10.0 0.0 84 4 24 12 4 24 16 4 4 3.5 0.0 84 4 24 12 4 24 16 4 4 6.6 0.0 84 4 24 12 4 24 16 4 4 8.2 0.0 84 4 24 12 4 24 16 4 5 3.0 3.99E-07 ',

84 4 24 12 4 24 16 4 5 6.3 1.22E-07 84 4 24 12 4 24 16 4 6 6.9 3.31E-07 :

84 4 24 12 4 24 16 4 7 2.9 0.0 !

84 4 24 12 4 24 16 4 7 5.3 0.0 .T !

84 4 24 12 4 24 16 4 8 3.0 0.0 !

84 4 24 12 4 24 16 4 8 6.6 0.0 ,

t 84 4 24 12 4 24 16 4 8 7.0 0.0 84 4 24 12 4 24 16 4 9 3.0 0.0 %!

84 4 24 12 4 24 16 4 10 2.5 0.0 'l 84 4 24 12 4 24 16 4 10 2.2 0.0 t

84 4 24 f2 4 24 16 4 10 5.0 0.0 84 4 24 12 4 29 16 4 11 2.5 0.0 1hl 84 4 24 12 4 24 16 4 12 4.0 0.0 84 4 24 12 4 24 16 4 13 1.5 0.0 84 4 24 12 4 24 16 4 13 2.9 0.0 84 4 24 12 4 24 16 4 13 5.0 0.0 lb 84 4 24 12 4 24 16 4 14 6.2 0.0 84 4 24 12 4 24 16 4 15 2.7 0.0 84 4 24 12 4 24 16 4 15 3.5 0.0 84 4 24 12 4 24 16 4 15 5.2 0.0 %

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ID 1D '

Il s.

il PERIOD TIME START TIME FINISH DELTA SECTOR DIST. C0HCENTRATIDH HO. M D*H M D H TIME HO MI. MICRO-CI/MMM3

85 4 24 16 4 24 20 4 1 3.0 0.0 85 4 24 16 4 24 20 4 4h i 1 . 7.0 0.0 4

85 4 24 16 4 24 20 4 2 10.0 0.0

, 85 4 24 16 4 24 20 4 3' 2.6 0.0

? 85 4 24 16 4 24 20 4 3 3.0 0.0 #" '

85 10.0 0.0 4 24 16 4 24 20 4 3 85 4 24 16 4 24 20 4 4 3.5 0.0 85 4 24 16 4 24 20 4 4 6.6 0.0 85 4 24 16 4 24 20 4 4 8.2 0.0 85 4 24 16 4 24 20 4 5 3.0 0.0 85 4 24 16 4 24 20 4 5 6.3 0.0 85 4 24 16 4 24 20 4 6 6.9 0.0 85 4 24 16 42420 4 7 2.9 0.0 3 85 4 24 16 4 24 20 4 7 5.3 0.0 85 4 24 16 4 24 20 4 8 3.0 2.60E-06 85 4 24 16 4 24 20 4 8 6.6 8.00E-07 85 4 24 16 4 24 20 4 8 7.0 7.34E-07 -

85 4 24 16 4 24 20 4 9 3.0 2.43E-C6

85 4 24 16 4 24 20 4 to 2.5 0.0 85 4 24 16 4 24 20 4 10 2.2 0.0 85 4 24 16 4 24 20 4 to 5.0 0.0 85 4 24 16 4 24 20 4 Il 2.5 0.0 85 4 24 16 4 24 20 4 12 4.0 0.0 85 4 24 16 4 24 20 4 13 1.5 0.0 85 4 24 16 4 24 20 4 13 2.9 0.0

85 4 24 16 4 24 20 4 13 5.0 0.0 85 4 24 16 4 24 20 4 14 6.2 0.0 85 4 24 16 4 24 20 4 15 2.7 0.0 85 4 24 16 4 24 20 4 15 3.5 0.0 85 4 24 16 4 24 20 4 15 5.2 0.0 )

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~ eg PERIOD TIME START TIME FINISH DELTA SECTOR DIST." CONCENTRATION H0. M D H M D H TIME HD MI. MICRO-CI/MMM3 86 4 24 20 4 24 24 4 l' 3.0 0.0 '

86 4 24 20 4 24 24 4 1 7.0 0.0 86 4 24 20 4 24 24 4 25 10.0 0.0 86 4 24 20 4 24 24 4 3, 2.6 0.0 86 4 24 20 4 24 24 4 3: 3.0 0.0 86 4 24 20 4 24 24 4 3 10.0 0.0 "

86 4 24 20 4 24 24 4 4 3.5 0.0 86 4 24 20 4 24 24 4 4 6.6 0.0 86 4 24 20 4 24 24 4 4 8.2 0.0 86 4 24 20 4 24 24 4 5 3.0 0.0' 86 4 24 20 4 24 24 4 5 6.3 0.0 86 4 24 20 4 24 24 4 6 6.9 1.12E-06 86 4 24 20 4 24 24 4 7 2.9 1.65E-06 4 86 4 24 20 4 24 24 4 7 5.3 7.01E-07 86 4 24 20 4 24 24 4 8 3.0 7.98E-07 86 4 24 20 4 24 24 4 8 6.6 2.55E-07 i

86 4 24 20 4 24 24 4 8 7.0 2.34E-07 %

86 4 24 20 4 24 24 4 9 3.0 0.0 86 4 24 20 4 24 24 4 10 2.5 0.0 86 4 24 20 4 24 24 4 to 2.2 0.0 86 4 24 20 4 24 24 4 10 5.0 0.0 86 4 24 20 4 24 24 4 11 2.5 0.0 %

86 4 24 20 4 24 24 4 12 4.0 0.0 86 4 24 20 4 24 24 4 13 1.5 0.0 86 4 24 20 4 24 24 4 13 2.9 0.0 86 4 24 20 4 24 24 4 13 5.0 0.0 - I 86 4 24 20 4 24 24 4 14 6.2 0.0 86 4 24 20 4 24 24 4 15 2.7 0.0 86 4 24 20 4 24 24 4 15 3.5 0.0 86 4 24 20 4 24 24 4 15 5.2 0.0 D D

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ll m

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION 5

HD. M D *H M D H TIME H0 MI. MICRO-CI/ mum 3 87 4 24 24 4 25 5 5 1' 3.0 0.0

87 4 24 24 4 25 5 5 1 7.0 0.0 87 4 24 24 4 25 5 5 2, 10.0 0.0 87 4 24 24 4 25 5 5 3 2.6 0.0 87 4 24 24 4 25 5 5 3' 3.0 0.0 '

87 4 24 24 4 25 5 5 3 10.0 0.0 87 4 24 24 4 25 5 5 4 3.5 0.0 87 4 24 24 4 25 5 5 4 6.6 0.0 87 4 24 24 4 25 5 5 4 8.2 0.0 '"

87 4 24 24 4 25 5 5 5 3.0 0.0-87 4 24 24 4 25 5 5 5 6.3 0.0 87 4 24 24 4 25 5 5 6 6.9 5.94E-07 87 4 24 24 4 25 5 5 7 2.9 1. 48 E- 0 6 1h 87 4 24 24 4 25 5 5 7 5.3 5.93E-07 87 4 24 24 4 25.5 5 8 3.0 0.0 87 4 24 24 4 25 5 5 8 6.6 0.0 87 4 24 24 4 25 5 5 8 7.0 0.0 1h 87 4 24 24 4 25 5 5 9 3.0 0.0 87 4 24 24 4 25 5 5 to 2.5 0.0 87 4 24 24 4 25 5 5 to 2.2 0.0 87 4 24 24 4 25 5 5 10 5.0 0.0 I 87 4 24 24 4 25 5 5 11 2.5 0.0 87 4 24 24 4 25 5 5 12 4.0 0.0 87 4 24 24 4 25 5 5 13 1.5 0.0 87 4 24 24 4 25 5 5 13 2.9 0.0 I

87 4 24 24 4 25 5 5 13 5.0 0.0 87 4 24 24 4 25 5 5 14 6.2 0.0 87 4 24 24 4 25 5 5 15 2.7 0.0 87 4 24 24 4 25 5 5 15 3.5 0.0 I

87 4 24 24 4 25 5 5 15 5.2 0.0 t-9 9

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11 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D*H M D H TIME NO MI. NICRO-CI/Mww3 88 4 25 5 4 25 7 2 1 3.0 0.0 3 88 4 25 5 4 25 7 2 I . 7.0 0.0 88 4 25 5 4 25 7 2 2 10.0 0.0 88 4 25 5 4 25 7 2 3 2.6 0.0

88. 4 25 5 4 25 7 2 3 3.0 0.0 ,

88 4 25 5 4 25 7 2 3 10.0 0.0 88 4 25 5 4 25 7 2 4 3.5 0.0 88 4 25 5 4 25 7 2 4 6.6 0.0 88 4 25 5 4 25 7 2 4 8.2 0.0 s.

88 .4 25 5 4 25 7 2 5 3.0 0. 0.

88 4 25 5 4 25 7 2 5 6.3 0.0

. 88 4 25 5 4 25 7 2 6 6.9 0.0 88 4 25 5 4 25 7 2 7 2.9 0.0 88 4 25 5 4 25 7 3' 2 7 5.3 0.0 88 4 25 5 4 25 7 2 8 3.0 0.0 88 4 25 5 4 25 7 2 8 6.6 0.0

+

88 4 25 5 4 25 7 2 8 7.0 0.0 88 4 25 5 4 25 7 2 9 3.0 0.0 I 88 4 25 5 4 25 7 2 to 2.5 0.0 88 4 25 5 4 25 7 2 to 2.2 0.0 88 4 25 5 4 25 7 2 10 5.0 0.0 88 4 25 5 4 25 7 2 11 2.5 0.0 %

88 4 25 5 4 25 7 2 12 4.0 0.0 88 4 25 5 4 25 7 2 13 1.5 0.0 88 4 25 5 4 25 7 2 13 2.9 0.0 88 4 25 5 4 25 7 2 13 5.0 0.0 lb 88 4 25 5 4 25 7 2 14 6.2 0.0 88 4 25 5 4 25 7 2 15 2.7 0.0 88 4 25 5 4 25 7 2 15 3.5 0.0 88 4 25 5 4 25 7 2 15 5.2 0.0 ll' 9

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9

Il

'N PERIOD TIME START TIME FINISH DELTA SECTOR DIST. COHCENTRATION N0. M D H M D H TIME HO MI. MICRO-CI/MMN3 :

89 4 25 7 4 25 12 5 f 3.0 0.0 #% '

89 4 25 7 4 25 12 5 1 7.0 0.0 89 4 25 7 4 25 12 5 1 10.0 0.0 89 4 25 7 4 25 12 5 3 2.6 0.0 89 4 25 7 4 25 12 5 3 3.0 0.0 sh ..

- 89 4 25 7 4 25 12 5 3 10.0 0.0 89 4 25 7 4 25 12 5 4 3.5 0.0 89 4 25 7 4 25 12 5 4 6.6 0.0

89 4 25 7 4 25 12 5 4 8.2 0.0 1h

89 4 25 7 4 25 12 5 5 3.0 0.0

~

89 4 25 7 4 25 12 5 5 6.3 0.0 89 4 25 7 4 25 12 5 6 6.9 1.89E-07

89 4 25 7 4 25 12 5 7 2.9 1.28E-06 1h .

5.00E-07 i

89 4 25 7 4 25 12 5 7 5.3

, 89 4 25 7 4 25 12 5 8 3.0 2.78E-07 4 89 4 25 7 4 25 12 5 8 6.6 7.90E-08 89 4 25 7 4 25 12 5 8 7.0 7.20E-04 4 89 4 25 7 4 25 12 5 9 3.0 0.0

89 4 25 7 4 25 12 5 10 2.5 4.55E-08 89 4 25 7 4 25 12 5 10 2.2 5.93E-08 89 4 25 7 4 25 12 5 10 5.0 1.11E-08 I 2 89 4 25 7 4 25 12 5 11 2.5 0.0

~

89 4 25 7- 4 25 12 5 12 4.0 0.0 89 4 25 7 4 25 12 5 13 1.5 0.0 89 4 25 7 4 25 12 5 13 2.9 0.0 3

89 4 25 7 4 25 12 5 13 5.0 0.0 89 4 25 7 4 25 12 5 14 6.2 0.0 89 4 25 7 4 25 12 5 15 2.7 0.0 89 4 25 7 4 25 12 5 15 3.5 0.0 89 4 25 7 4 25 12 5 15 5.2 0.0 1>

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r%-

PERIOD TIME START TIME FINISH DELTA SECTOR- DIST. C0HCENTRATIDH NO. M D H M D H TIME NO MI. MICRO-CI/MwM3 90 4 25 12 4 25 16 4 f 3.0 0.0 .,1 90 4 25 12 4 25 16 4 1 7.0 0.0 90 4 25 12 4 25 16 4 3 10.0 0.0 90 4 25 12 4 25 16 4 3 2.6 0.0 90 4 25 12 4 25 16 4 3 3.0 0.0 90 4 25 12 4 25 16 4 3 10.0 0.0 90 4 25 12 4 25 16 4 4 3.5 0.0 90 4 25 12 4 25 16 4 4 6.6 0.0 90 4 25 12 4 25 16 4 4 8.2 0.0 90 4 25 12 4 25 16 4 5 3.0 0.0-90 4 25 12 4 25 16 4 5 6.3 0.0 90 4 25 12 4 25 16 4 6 6.9 0.0 90 4 25 12 4 25 16 4 7 2.9 0.0 ,

90 4 25 12 4 25 16 4 7 5.3 0.0 90 4 25 12 4 25 16 4 8 3.0 2.62E-07 90 4 25 12 4 25 16 4 8 6.6 6.92E-08 90 4 25 12 4 25 16 4 8 7.0 6.28E-08 90 4 25 12 4 25 16 4 9 3.0 2.26E-07 I' -

90 4 25 12 4 25 16 4 10 2.5 7.98E-08 90 4 25 12 4 25 16 4 to 2.2 1.04E-07 90 4 25 12 4 25 16 4 10 5.0 1.9tE-08 90 4 25 12 4 25 16 4 11 2.5 0.0 9b -

90 4 25 12 4 25 16 4 12 4.0 0.0 90 4 25 12 4 25 16 4 13 1.5 0.0 to 4 25 12 4 25 16 4 13 2.9 0.0 90 4 25 12 4 25 16 4 13 5.0 0.0 lb .:

90 4 25 12 4 25 16 4 14 6.2 0.0 90 4 25 12 4 25 16 4 15 2.7 0.0 90 4 25 12 4 25 16 4 15 3.5 0.0 90 4 25 12 4 25 16 4 15 5.2 0.0 II -

1D :

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7 GD '

4

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D *H M D H TIME H0 MI. MICRO-CI/MMw3 91 4 25 16 4 25 20 4 1 3.0 0.0 ,

91 4 25 16 4 25 20 4 1 . 7.0 0.0 91 4 25 16 4 25 20 4 2' 10.0 0.0 91 4 25 16 4 25 20 4 3 2.6 0.0 91 4 25 16 4 25 20 4 3: 3.0 0.0 3 91 4 25 16 4 25 20 4 3' 10.0 0.0 91 4 25 16 '4 25 20 4 4 3.5 0.0 91 4 25 16 '4 25 20 4 4 6.6 0.0 91 4 25 16 42520 4 4 8.2 0.0

91 4 25 16 4 25 20 4 5 3.0 0.0.

91 4 25 16 4 25 20 4 5 6.3 0.0 91 4 25 16 4 25 20 4 6 6.9 0.0 91 4 25 16 42520 4 7 2.9 0.0 %

j 91 4 25 16 4 25 20 4 7 5.3 0.0

, 91 4 25 16 42520 4 8 3.0 1.34E-06 91 4 25 16 42520 4 8 6.6 4.13E-07

. 91 4 25 16 42520 4 8 7.0 3.79E-07 %

91 4 25 16 4 25 20 4 9 3.0 0.0 91 4 25 16 4 25 20 4 to 2.5 0.0 91 4 25 16 42520 4 to 2.2 0.0 91 4 25 16 4 25 20 4 10 5.0 0.0 91 4 25 16 4 25 20 4 11 2.5 0.0 lb 91 4 25 16 4 25 20 4 12 4.0 0.0

-, 91 4 25 16 4 25 20 4 13 1.5 0.0 91 4 25 16 4 25 20 4 13 2.9 0.0

91 4 25 16 4 25 20 4 13 5.0 0.0 D-91 4 25 16 4 25 20 4 14 6.2 0.0 91 4 25 16 4 25 20 4 15 2.7 0.0 0.0 98 4 25 16 4 25 20 4 15 3.5 91 4 25 16 42520- 4 15 5.2 0.0 I i

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r%

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATIOH ,

H0. M D H M D H TIME HO MI. MICRO-CI/MNN3

! 92 42520 4 25 24 4 l' '

3.0 0.0 '

I 92 42520 4 25 24 4 1 7.0 0.0 92 42520 4 25 24 4 25 10.0 0.0 92 4 25 20 4 25 24 4 3, 2.6 0.0 l 92 4 25 20 4 25 24 4 3: 3.0 0.0 '

92 42520 4 25 24 4 3 10.0 0.0 l 92 42520 4 25 24 4 4 3.5 0.0 92 4 25 20 4 25 24 4 4 6.6 0.0 92 4 25 20 4 25 24 4 4 8.2 0.0 '

92 4 25 20 4 25 24 4 5 3.0 0.0' 92 4 25 20 42524 4 5 6.3 0.0 92 4 25 20 4 25 24 4 6 6.9 1.89E-07 92 4 25 20 4 25 24 4 7 2.9 f.73E-06 '

92 4 25 20 4 25 24 4 7 5.3 7.04E-07 92 4 25 20 4 25 24 4 8 3.0 0.0 92 4 25 20 4 25 24 4 8 6.6 0.0 92 4 25 20 4 25 24 4 8 7.0 0.0 .%

92 4 25 20 4 25 24 4 9 3.0 0.0 i 92 4 25.20 4 25 24 4 to 2.5' O.0 92- 4 25 20 4 25 24 4 to 2.2 0.0 92 4 25 20 42524 4 to 5.0 0.0 l 92 4 25 20 4 25 24 4 11 2.5 0.0

! 92 4 25 20 4 25 24 4 12 4.0 0.0 l 92 4 25 20 4 25 24 4 13 1.5 0.0 I 92 4 25 20 4 25 24 4 13 2.9 0.0 l 92 4 25 20 4 25 24 4 13 5.0 0.0 II l 92 42520 4 25 24 4 14 6.2 0.0

[ 92 42520 4 25 24 4 15 2.7 0.0 92 4 25 20 4 25 24 4 15 3.5 0.0 4 25 24 4 15 5.2 0.0 I 92 4 25 20 I

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11 T

PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D.H M D H TIME H0 MI. MICRO-CI/MWM3 93 4 25 24 4 26 4 4 ) 3.0 0.0 93 4 25 24 4 26 4 4 3

1 7.0 0.0 93 4 25 24 4 26 4 4 2* 10.0 0.0 93 4 25 24 4 26 4 4 3 2.6 0.0 93 42524 4 26 4 4 3 3.0 0.0 in 93 4 25 24 4 26 4 4 3 10.0 0.0 93 4 25 24 4 26 4 4 4 3.5 0.0 93 4 25 24 4 26 4 4 4 6.6 0.0 93 4 25 24 4 26 4 4 4 8.2 0.0 93 4 25 24 4 26 4 4 5 3.0 2.43E-06 93 4 25 24 4 26 4 4 5 6.3 8.20E-07 93 4 25 24 4 26 4 4 6 6.9 4.37E-07 93 4 25 24 4 26 4 4 7 2.9 0.0 93 4 25 24 4 26 4 4 7 5,3 0.0 I 93 4 25 24 4 26 4 4 8 3.0 0.0 93 4 25 24 4 26 4 4 8 6.6 0.0 93 4 25 24 4 26 4 4 8 7.0 0.0 93 42524 4 26 4 4 9 3.0 0.0 93 4 25 24 4 26 4 4 to 2.5 0.0 93 4 25 24 4 26 4 4 to 2.2 0.0 93 4 25 24 4 26 4 4 to 5.0 0.0 93 4 25 24 4 26 4 4 11 2.5 0.0 I 93 4 25 24 4 26 4 4 12 4.0 0.0 93 4 25 24 4 26 4 4 13 1.5 0.0 93 4 25 24 4 26 4 4 13 2.9 0.0 .

93 4 25 24 4 26 4 4 13 5.0 0.0 I 93 4 25 24 4 26 4 4 14 6.2 0.0 93 42524 4 26 4 4 15 2.7 0.0 93 42524 4 26 4 4 15 3.5 C.0

93 4 25 24 4 26 4 4 15 5.2 0.0 I t

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11 .

PERIOD TIME START TIME FINISH DELTA SECTOR DIST, CONCENTRATIDH

. ^% -

HO. M D H M D H TIME H0 MI. MICRO-CI/MMM3 94 4 26 4 4 26 8 4 l' 3.0 0.0 -,

94 4 26 4 4 26 8 4 1 7.0 0.0 94 4 26 4 4 26 8 4 26 10.0 0.0 94 4 26 4 4 26 8 4 3 2.6 0.0 94 4 26 4 4 26 8 4 3' 3.0 0.0 94 4 26 4 4 26 8 4 3 10.0 0.0 94 4 26 4 4 26 8 4 4 3.5 0.0 94 4 26 4 4 26 8 4 4 6.6 0.0 94 4 26 4 4 26 8 4 4 8.2 0.0 94 4 26 4 4 26 8 4 5 3.0 0.0' 94 4 26 4 4 26 8 4 5 6.3 0.0 94 4 26 4 4 26 8 4 6 6.9 0.0 94 4 26 4 4 26 8 4 7 2.9 0.0 3 94 4 26 4 4 26 8 4 7 5.3 0.0 94 4 26 4 4 26 8 4 8 3.0 0.0 94 4 26 4 4 26 8 4 8 6.6 0.0 94 4 26 4 4 26 8 4 8 7.0 0.0 3, 94 4 26 4 4 26 8 4 9 3.0 0.0 94 4 26 4 4 26 8 4 to 2.5 0.0 94 4 26 4 4 26 8 4 10 2.2 0.0 94 4 26 4 4 26 8 4 10 5.0 0.0 I' 94 -4 26 4 4 26 8 4 Il 2.5 0.0 94 4 26 4 4 26 8 4 12 4.0 0.0 94 4 26 4 4 26 8 4 13 1.5 0.0 94 4 26 4 4 26 8 4 13 2.9 0.0

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94 4 26 4 4 26 8 4 13 5.0 0.0 94 4 26 4 4 26 8 4 14 6.2 0.0 94 4 26 4 4 26 8 4 15 2.7 0.0 94 4 26 4 4 26 8 4 15 3.5 0.0 lb 94 4 26 4 4 26 8 4 15 5.2 0.0 D

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11 3

1 PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D'H M D H TIME HD MI. MICRO-CI/ mum 3 95 4 26 8 4 26 12 4 1 3.0 0.0 3

< 95 4 26 8 4 26 12 4 1- 7.0 0.0

+

95 4 26 8 4 26 12 4 2 10.0 0.0

, 95 4 26 8 4 26 12 4 3 2.6 0.0 95 4 26 8 4 26 12 4 3 3.0 0.0 3 95 4 26 8 4 26 12 -4 3 10.0 0.0 1

95 4 26 8 4 26 12 4 4 3.5 0.0 95 4 26 8 4 26 12 4 4 6.6 0.0

95 4 26 8 4 26 12 4 4 8.2 0.0 3

95 4 26 8 4 26 12 4 5 3.0 0.0

. 95 4 26 8 4 26 12 4 5 6.3 0.0 95 4 26 8 4 26 12 4 6 6.9 2.53E-07 95 4 26 8 4 26 12 4 7 2.9 1.02E-06 g' 95 4 26 8 4 26 12 4 7 5.3 4.19E-07 95 4 26 8 4 26 12 4 8 3.0 4.17E-07 95 4 26 8 4 26 12 4 8 6.6 1.29E-07 95 4 26 8 4 26 12 4 8 7.0 1.18E-07 1h 95 4 26 8 4 26 12 4 9 3.0 0.0 I 95 4 26 8 4 26 12 4 10 2.5 0.0 95 4 26 8 4 26 12 4 to 2.2 0.0

95 4 26 8 4 26 12 4 to 5.0 0.0 I-95 4 26 8 4 26 12 4 11 2.5 0.0

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95 4 26 8 4 26 12 4 12 4.0 0.0 95 4 26 8 4 26 12 4 13 1.5 0.0 95 4 26 8 4 26 12 4 13 2.9 0.0 I

. 95 4 26 8 4 26 12 4 13 5.0 0.0 4 95 4 26 8 4 26 12 4 14 6.2 0.0 2 95 4 26 8 4 26 12 4 15 2.7 0.0 95 4 26 8 4 26 12 4 15 3.5 0.0 I

95 4 26 8 4 26 12 4 15 5.2 0.0

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-PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION

.HO. M D.H M D H TIME HD MI. MICRO-CI/MWM3 97 4 26 16 4 26 19 3 ) 3.0 0.0 ,<g i

97 4 26 16 4 26 19 3 1 7.0 0.0 97 4 26 16 4 26 19 3 2* 10.0 0.0 97 4 26 16 4 26 19 3 3 2.6 0.0 97 4 26 16 4 26 19 3 3 3.0 0.0 Mb 97 4 26 16 4 26 19 3 3 10.0 0.0 97 4 26 16 4 26 19 3 4 3.5 0.0 97 4 26 16 4 26 19 3 4 6.6 0.0

97 4 26 16 4 26 19 3 4 8.2 0.0 og-97 4 26 19 5 0.0 4 26 16 3 3.0 97 4 26 16 4 26 19 3 5 6.3 0.0 97 4 26 16 4 26 19 3 6 6.9 3.68E-07 97 4 26 16 4 26 19 3 7 2.9 6.05E-07 1b.

! .97 4 26 16 4 26 19 3 7 5.3 2.58E-07 l 97 4 26 16 4 26 19 3 8 3.0 0.0 97 4 26 16 4 26 19 3 8 6.6 0.0 97 4 26 16 4 26 19 3 8 7.0 0.0 97 4 26 16 4 26 19 3 9 3.0 0.0 97 4 26 16 4 26 19 3 10 2.5 0.0

97 4 26 16 4 26 19 3 to 2.2 0.0

[ 97 4 26 16 4 26 19 3 to 5.0 0.0 '

97 4 26 16 4 26 19 3 11 2.5 0.0 97 4 26 16 4 26 19 3 12 4.0 0.0 97 4 26 16 4 26 19 3 13 1.5 0.0 97 4 26 16 4 26 19 3 13 2.9 0.0 97 4 26 16 4 26 19 3 13 5.0 0.0 97 4 26 16 4 26 19 3 14 6.2 0.0 97 4 26 16 4 26 19 3 15 2.7 0.0 97 4 26 16 4 26 19 3 15 3.5 0.0 97 4 26 16 4 26 19 3 15 5.2 0.0 l

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PERIOD TIME START TIME FINISit DELTA SECTOR DIST. CONCENTRATION NO. M D'H M D H TIME NO MI. MICRO-CI/MWN3 ,

98 4 26 19 4 26 24 5 1 3.0 0.0 3 98 4 26 19 4 26 24 5 1, 7.0 0.0 98 4 26 19 4 26 24 5 2 10.0 0.0 98 4 26 19 4 26 24 5 3 2.6 1.36E-06 98 4 26 19 4 26 24 5 3 3.0 1.07E-06 g:

98 4 26 19 4 26 24 5 3 10.0 1.89E-07 98 4 26 19 4 26 24 5 4 3.5 3.67E-07 98 4 26 19 4 26 24 5 4 6.6 1.48E-07 98 4 26 19 4 26 24 5 4 8.2 1.08E-07 .

98 4 26 19 4 26 24 5 5 3.0 5.78E-07 98 4 26 19 4 26 24 5 5 6.3 1.98E-07 98 4 26 19 4 26 24 5 6 6.9 9.90E-08 98 4 26 19 4 26 24 5 7 2.9 8.10E-07 '.

98 4 26 19 4 26 24 5 7 5.3 3.27E-07 .

98 4 26 19 4 26 24 5 8 3.0 0.0 98 4 26 19 4 26 24 5 8 6.6 0.0 98 4 26 19 4 26 24 5 8 7.0 0.0 1

98 4 26 19 4 26 24 5 9 3.0 0.0 98 4 26 19 4 26 24 5 to 2.5 0.0 98 4 26 19 4 26 24 5 to 2.2 0.0 98 4 26 19 4 26 24 5 10 5.0 0.0 98 4 26 19 4 26 24 5 11 2.5 0.0 %

98 4 26 19 4 26 24 5 12 4.0 0.0 98 4 26 19 4 26 24 5 13 1.5 0.0 98 4 26 19 4 26 24 5 13 2.9 0.0 98 4 26 19 4 26 24 5 13 5.0 0.0 I 98 4 26 19 4 25 24 5 14 6.2 0.0

, 98 4 26 19 4 26 24 5 15 2.7 0.0 98 4 26 19 4 26 24 5 15 3.5 0.0 98 4 26 19 4 26 24 5 15 5.2 0.0 I' M .

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\;

-s PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M DH M D H TIME HO MI. MICRO-CI/MMM3 99 4 26 24 4 28 1 25 8 3.0 f.87E-07 99 4 26 24 4 28 25

1 1 7.0 5.53E-08 99 4 26 24 4 28 1 25 2 10.0 0.0 99 4 26 24 4 28 1 25 3 2.6 0.0 99 4 26 24 4 28 1 25 3 3.0 0.0 99 3 4 26 24 4 28 1 25 3 10.0 0.0 99 4 26 24 4 28 1 25 4 3.5 1.31E-07 99 4 26 24 4 28 1 25 4 6.6 5.24E-08 99 4 26 24 4 28 1 25 4 8.2 3.87E-08 99 4 26 24 4 28 1 25 5

3.0 0.0 99 4 26 24 4 28 1 25 5 6.3 0.0 99 4 26 24 4 28 1 25 6 6.9 4.06E-08 99 4 26 24 4 28 1 25 7 2.9 0.0 3 99 4 26 24 4 28 1 25 7 5.3 0.0 99 4 26 24 4 28 1 25 8 3.0 8.26E-08 99 4 26 24 4 28 8 25 8 6.6 2.62E-08 99 4 26 24 4 28 1 25 8 7.0 2.4tE-08 99 4 26 24 4 28 1 25 9 3.0 1.28E-07 99 4 26 24 4 28 1 - 25 10 2.5 3.20E-07 99 4 26 24 4 28 1 25 to 2.2 3.91E-07 99 4 26 24 4 28 1 25 to 5.0 1.15E-07 99 4 26 24 4 28 1 25 11 2.5 1.24E-07 99 4 26 24 4 28 1 25 12 4.0 1.84E-07 99 4 26 24 4 28 1 25 13 1.5 9.86E-08 99 4 26 24 4 28 1 25 13 2.9 3.65E-08 g 99 4 26 24 4 28 1 25 13 5.0 1.60E-08 99 4 26 24 4 28 1 25 14 6.2 5.10E-08 99 4 26 24 4 28 1 25 15 2.7 4.9tE-07 99 4 26 24 4 28 1 25 15 3.5 3.33E-07 99 4 26 24 4 28 1 25 15 5.2 1.87E-07 I 9

't

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST, COHCENTRATIDH

. ~s MO. M D H M D H TIME HO MI. MICRO-CI/Mww3 100 4 28 1 4 28 8 7 I 3.0 0.0 s' 100 4 28 1 4 28 8 7 1* 7.0 0.0 100 4 28 8 4 28 8 7 2 10.0 0.0 100 4 28 1 4 28 8 7 3 2.6 0.0 100 4 28 1 4 28 8 7 3 3.0 0.0 100 4 28 1 4 28 8 7 3 10.0 0.0 100 4 28 1 4 28 8 7 4 3.5 0.0 100 4 28 8 4 28 8 7 4 6.6 0.0 100 4 28 1 4 28 8 7 4 8.2 0.0 3, 100 . 4 28 1 4 28 8 7 5 3.0 0.0 100 4 28 1 4 28 8 7 5 6.3 0.0 100 4 28 1 4 28 8 7 6 6.9 0.0 100 4 28 1 4 28 8 7 7 2.9 0.0 3:

100 4 28 1 4 28 8 7 7 5.3 0.0 100 4 28 1 4 28 8 7 8 3.0 0.0 100 4 28 1 4 28 8 7 8 6.6 0.0 100 4 28 1 4 28 8 7 8 7.0 0.0 g 100 4 28 1 4 28 8 7 9 3.0 0.0 100 4 28 1 4 28 8 7 10 2.5 0.0

, 100 4 28 1 4 2r 8 7 10 2.2 0.0 l

100 4 28 1 4 28 8 7 10 5.0 0.0 ib 100 4 28 1 4 28 8 7 11 2.5 0.0 l 100 4 28 1 4 28 8 7 12 4.0 0.9 l 100 4 28 1 4 28 8 7 13 1.5 0.0 i 100 4 28 1 4 28 8 7 13 2.9 0.0 1I f 100 4 28 1 4 28 8 7 13 5.0 0.0 i 100 4 28 1 4 28 8 7 14 6.2 0.0 l 100 4 28 1 4 28 8 7 15 2.7 0.0 100 4 28 1 4 28 8 7 15 3.5 0.0 lb 100 4 28 1 4 28 8 7 15 5.2 0.0

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-'T PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. M D'H M D H TIME H0 MI. MICRO-CI/MWW3 tot 4 28 8 4 28 16 8 1 3.0 1.30E-08 ..g tot 4 28 8 4 28 16 8 1 7.0 5.6tE-09 101 4 28 8 4 28 16 8 2 10.0 0.0 101 4 28 8 4 28 16 8 3 2.6' O.0 101 4 28 8 4 28 16 8 3 3.0 0.0 fg '

101 4 28 8 4 28 16 8 3 10.0 0.0 101 4 28 8 4 28 16 8 4 3.5 0.0 101 4 28 8 4 28 16 8 4 6.6 0.0

- 1st 4 28 8 4 28 16 8 4 8.2 0.0 g 101 4 28 8 4 28 16 8 5 3.0 0. 0 -

101 4 28 8 4 28 16 8 5 6.3 0.0 101 4 28 8 4 28 16 8 6 6.9 0.0 101 4 28 8 4 28 16 8 7 2.9 2.31E-07 101 4 28 8 4 28 16 8 7 5.3 9.10E-08 I 101 4 28 8 4 28 16 8 8 3.0 0.0

101 4 28 8 4 28 16 8 8 6.6 0.0 101 4 28 8 4 28 16 8 8 7.0 0.0 I

101 4 28 8 4 28 16 8 9 3.0 1.95E-07 i tot 4 28 8 4 28 16 8 10 2.5 0.0 101 4 28 8 4 28 16 8 10 2.2 0.0 101 4 28 8 4 28 16 8 10 5.0 0.0 '.

101 4 28 8 4 28 16 8 11 2.5 0.0 101 4 28 8 4 28 16 8 12 4.0 9.55E-09

101 4 28 8 4 28 16 8 13 1.5 3.25E-08 i'

101 4 28 8 4 28 16 8 13 2.9 1.67E-08 101 4 28 8 4 28 16 8 13 5.0 9.98E-09 I 101 4 28 8 4 28 16 8 14 6.2 0.0 101 4 28 8 4 28 16 8 15 2.7 0.0 101 4 28 8 4 28 16 8 15 3.5 0.0 101 4 28 8 4 28 16 8 15 5.2 0.0 %-

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PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION NO. M DH M D H TIME HO MI. MICRO-CI/Muu3 I

102 4 28 16 4 28 24 8 1 3.0 0.0 l 102 4 28 16 4 28 24 8 1, 7.0 0.0 l 102 4 28 16 4 28 24 8 2 10.0 0.0 e 102 4 28 16 4 28 24 8 3 2.6 0.0 l 102 4 28 16 4 28 24 8 3 3.0 0.0 l 102 4 28 16 4 28 24 8 3 10.0 0.0 102 4 28 16 4 28 24 8 4 3.5 0.0 102 4 28 16 4 28 24 8 4 6.6 0.0 102 4 28 16 4 28 24 8 4 8.2 0.0

102 4 28 16 4 28 24 8 5 3.0 0.0 102 4 28 16 4 28 24 8 5 6.3 0.0 102 4 28 16 4 28 24 8 6 6.9 0.0 102 4 28 16 4 28 24 8 7 2.9 0.0 s 102 4 28 16 ' 4 28 24 8 7 5.3 0.0 102 4 28 16 4 28 24 8 8 3.0 0.0 102 4 28 16 4 28 24 8 8 6.6 0.0 102 4 28 16 4 28 24 8 8 7.0 0.0

! 102 4 28 16 4 28 24 8 9 3.0 0.0 4

j 102 4 28 16 4 28 24 8 10 2.5 3.77E-07 102 4 28 16 4 28 24 8 to 2.2 4.54E-07 102 4 28 16 4 28 24 8 10 5.0 1.35E-07 102 4 28 16 4 28 24 8 11 2.5 1.52E-07 102 4 28 16 4 28 24 8 12 4.0 0.0 102 4 28 16 4 28 24 8 13 1.5 0.0 102 4 28 16 4 28 24 8 13 2.9 0.0 102 4 28 16 4 28 24 8 13 5.0 0.0 .II 102 4 28 16 42824 8 14 6.2 6.78E-08 102 4 28 16 4 28 24 8 15 2.7 5.32E-07 102 4 28 16 4 28 24 8 15 3.5 3.64E-07

! 102 4 28 16 4 28 24 8 15 5.2 2.01E-07 lb l

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If PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCEHIRATIDH NO. M D*H M D H TIME HO MI. MICRO-CI/Mww3 # I 103 4 28 24 4 29 24 24 1 3.0 0.0 ' ' --

103 4 28 24 4 29 24 24 1 7.0 0.0

103 4 28 24 4 29 24 24 2 10.0 0.0 103 4 28 24 4 29 24 24 3' 2.6 0.0 103 4 28 24 4 29 24 24 3 3.0 0.0 #' '

103 4 28 24 42924 24 3 10.0 0.0 103 4 28 24 4 29 24 24 4 3.5 0.0 103 4 28 24 4 29 24 24 4 6.6 0.0 103 4 28 24 4 29 24 24 4 8.2 0.0

- 103 .4 28 24 4 29 24 24 5 3.0 0.0

103 4 28 24 4 29 24 24 5 6.3 0.0 4

103 4 28 24 4 29 24 24 6 6.9 0.0 ,

103 4 28 24 4 29 24 24 7 2.9 0.0 i

103 4 28 24 42924 24 7 5.3 0.0 'T' 103 4 28 24 4 29 24 24 8 3.0 0.0 103 4 28 24 4 29 24 24 8 6.6 0.0 a" 103 4 28 24 4 29 24 24 8 7.0 0.0 24 T' 103 4 28 24 4 29 24 9 3.0 0.0 .

103 4 28 24 4 29 24 24 to 2.5 0.0 103 4 28 24 4 29 24 24 10 2.2 0.0

. 103 4 28 24 4 29 24 24 10 5.0 0.0

~%-

1 103 4 28 24 4 29 24 24 11 2.5 0.0 103 4 28 24 4 29 24 24 12 4.0 0.0 103 4 28 24 4 29 24 24 13 1.5 1.46E-06 103 4 28 24 4 29 24 24 13 2.9 5.52E-07

~

103 4 28 24 4 29 24 24 13 5.0 2.51E-07 )

103 4 28 24 4 29 24 24 14 6.2 2.35E-07

+

103 4 28 24 42924 24 15 2.7 3.37E-07 i 103 4 28 24 4 29 24 24 15 3.5 2.3fE-07 103 4 28 24 4 29 24 24 15 5.2 1. 25 E-0 7 lb . '

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PERIOD TIME START TIME FINISH DELTA SEC[0R DIST. CONCENTRATION NO. M D.H M D H TIME HO MI. MICRO-CI/Muu3 I

i 104 4 29 24 4 30 24 24 1 3.0 9.33E-08 194 4 29 24 4 30 24 24 1 7.0 2.50E-08 ISO 4 29 24 4 30 24 24 2 10.0 0.0 104 42924 4 30 24 24 3- 2.6 0.0 i 104 4 29 24 4 30 24 24 3 3.0 0.0 l 104 42924 4 30 24 24 3 10.0 0.0

! 104 42924 4 30 24 24 4 3.5 0.0 l 194 4 79 24 4 30 24 24 4 6.6 0.0 .

I 104 4 29 24 4 30 24 24 4 8.2 0.0 g i 104 4 29 24 4 30 24 24 5 3.0 0.0 .;

194 4 29 24 4 30 24 24 5 6.3 0.0 104 42924 4 30 24 24 6 6.9 0.0 ,

let 4 29 24 4 30 24 24 7 2.9 4.76E-09

194 4 29 24 4 30 24 24 7 5.3 2.72E-09 104 4 29 24 4 30 24 24 8 3.0 1.4tE-06 ,

104- 42924 4 30 24 24 8 6.6 4.77E-07 104 42924 4 30 24 24 8 7.0 4.40E-07 T, 104 42924 4 30 24 24 9 3.0 1.63E-06 l 104 42924 4 30 24 24 10 2.5 2.45E-87 104 4 29 24 4 39 24 24 10 2.2 2.93E-07 104 4 29 24 4 30 24 24 10 5.9 8.68E-08 104 4 29 24 4 30 24 24 11 2.5 6.94E-09 lb ,

104 42924 4 30 24 24 12 4.0 2.62E-07

' 104 42924 4 30 24 24 13 1.5 1.10E-06 104 4 29 24 4 30 24 24 13 2.9 3.89E-07 104 4 29 24 4 30 24 24 13 5.9 f.79E-97 lb 194 42924 4 30 24 24 14 6.2 4.14E-08 l 104 4 29 24 4 30 24 24 15 2.7 5.49E-08

! 104 4 29 24 4 30 24 24' 15 3.5 3.66E-08 184 4 29 24 4 30 24 24 15 5.2 2.91E-08 I.!

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PERIOD TIME START TIME FINISH DELTA 5'ECTOR DIST. CONCENTRATIDH NO. M .D 11 M D H TIME NO MI. MICRO-CI/Mww3 -

109 5 4 24 5 5 24 24 '

1 3.0 0.0 109 5 4 24 5 5 24 24 8 7.0 0.0 109 5 4 24 5 5 24 24 '2 10.0 0.0 109 5 4 24 5 5 24 24 5 3 2.6 0.0

' 109 5 4 24 5 5 24 24 3 3.0 0.0 109 5 4 24 5 5 24 24 3 10.0 0.0 109 5 4 24 5 5 24 24 4 3.5 0.0 109 5 4 24 5 5 24 24 4 6.6 0.0 109 5 4 24 5 5 24 24 4 8.2 0.0 109 5 4 24 5 5 24 24 5 3.0 0.0 101 5 4 24 5 5 24 24 5 6.3 0.0 109 5 4 24 5 5 24 24 6 6.9 0.0 109 5 4 24 5 5 24 24 7 2.9 5.32E-08 109 5 4 24 5 5 24 24 7 5.3 2.30E-08

l. 109 5 4 24 5 5 24 24 8 3.0 0.0 l 109 5 4 24 5 5 24 24 8 6.6 0.0 l 109 5 4 24 5 5 24 24 8 7.0 0.0 109 5 4 24 5 5 24 24 9 3.0 0.0 l

109 5 4 24 5 5 24 24 to 2.5 4.05E-07 109 5 4 24 5 5 24 24 10 2.2 4.87E-07 109 5 4 24 5 5 24 24 10 5.0 1.59E-07

109 5 4 24 5 5 24 24 11 2.5 5.79E-08 l 't09 5 4 24 5 5 24 74 12 4.3 0.0 l 109 5 4 24 5 5 24 24 13 1.5 0.0 109 5 4 24 5 5 24 24 13 2.9 0.0

, 109 5 4 24 5 5 24 24 13 5.0 0.0

! 109 5 4 24 5 5 24 24 14 6.2 8.39E-09 109 5 4 24 5 5 24 24 15 2.7 2.27E-08 109 5 4 24 5 5 24 24 15 3.5 1.59E-08 109 5 4 24 5 5 24 24 -15 5.2 8.78E-09 l

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d ll PERIOD TIME START TIME FINISH DELTA SECTOR DIST. CONCENTRATION HO. il D H M D H TIME HG MI. MICRO-CI/M*w3 110 5 5 24 5 6 24 24 i 1 3.0 0.0 110 5 5 24 5 6 24 24

1 7.0 0.0 110 5 5 24 5 6 24 24 2 10.0 0.0 110 5 5 24 5 6 24 24 $

3 2.6 0.0 110 5 5 24 5 6 24 24 3 3.0 0.0 110 5 5 24 5 6 24 24 3 10.0 0.0 110 5 5 24 5 6 24 24 4 3.5 0.0 110 5 5 24 5 6 24 24 4 6.6 0.0 110 5 5 24 5 6 24 24 4 8.2 0.0 110 5 5 24 5 6 24 24 5 3.0 f.IlE-08 110 5 5 24 5 6 24 24 5 6.3 ~3.40E-09 115 5 5 24 5 6 24 24 6 6.9 0.0 110 5 5 24 5 6 24 24 7 2.9 2.79E-08 110 5 5 24 5 6 24 24 7 5.3 1.10E-08 110 5 5 24 5 6 24 24 8 3.0 5.32E-00 110 5 5 24 5 6 24 24 8 6.6 1.70E-08 110 5 5 24 5 6 24 24 8 7.0 1.56E-08 110 5 5 24 5 6 24 24 9 3.0 2.05E-07 110 5 5 24 5 6 24 24 to 2.5 1.64E-08 110 5 5 24 5 6 24 24 to 2.2 2.02E-08 110 5 5 24 5 6 24 24 10 5.0 5.40E-09 150 5 5 24 3 5 24 24 11 2.5 5.35E-08 110 5 5 24 5 6 24 24 12 4.0 6.27E-08 110 5 7, 24 5 6 24 24 13 1.5 0.0 110 5 5 24 5 6 24 24 13 2.9 0.0 110 5 5 24 5 6 24 24 13 5.0 0.0 110 5 5 24 5 6 24 24 14 6.2 9.32E-08 110 5 5 24 5 6 24 24 15 2.7 1.35E-07 110 5 5 24 5 6 24 24 15 3.5 9.16E-08 110 5 5 24 5 6 24 24 15 5.2 5.50E-08 4

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Comments on NYS Report - Xe-133

1. I spoke with John Goll and he said that overall meteorological conditions after the accident do not preclude the possibility of a cloud from TMI passing over the Albany area.

2. The concentrations measured by the authors (3,900 pCi/m3 ) are well

within the state-of-the-art for Xe-133 detection by at least two orders of magnitude.

1

3. Based on our own calculations (TLD-X/Q approach) of doses to the -

population around TMI, the concentration at 30 miles from the plant in the Albany direction for the releases over the first 28 hours3.240741e-4 days 0.00778 hours 4.62963e-5 weeks 1.0654e-5 months would be expected to be somewhere between 200,000 and 10,000 pCi/m3 ,

As there were atmospheric trajectories toward Albany over the release period, and following it, it's not unreasonable to have measured 3,900 pCi/m3 around the Albany area.

4. I checked their dose calculations and find them to be correct.

5. I don't think we should have any problems with this paper as it generally confirms that doses beyond the near field are insignificant.

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. . . . . . . _ , __ ._. _ . . , . . . . . . . _ - . . , . _ . . _ . . . , . . . . __.v.,, ._.-._....__.,,_y ...,-..._. ,

CO,7he hH produced by $ SL-4 may ther degradM to yield NH.. In the cyc!c mediated carbon-nitrogen cycle could be firsi be converted, by way of t .wicty of stown in Fig. I, how-ver, NH, is re- signifiernt because of the larga wmbers _ . ;

I nitrifying micioorganisms, to nitrate. Ni- Icased by initial conversion d a plant of plants thst produce cyanogeruc glyco- L trate ma/ then be incorporated by product (cyanide) to fonrunide, fol- sides.

RosERT C. TH ATCHER i

' plzn;r or the NH3 may be incorporated lowed by 1.W M c vieb the NH,. In TERRY L. WEAVER directly without oxidation. Pseudo- addition to the utilizasa of a product monas Sted possesses the enzyme form- from a living plant, this cycle differs from leboratory ofMicrobiology, i amide amidohydrolase (E.C. 3.5.l A), that involving proteins and nucleic acids Cornell university.

}

which pe forms reaction I, and formate in that the compound involved in miner- Ithaca, New York 14833 dehydrogenase (E.C. I.2.1.2), which per- alization (fonnsmide) is a single-carbon s h umsa d Ps sa l forms reaction 2. Since the nitrogen / car- compound, as opposed to the multi- 1. w. Fry and D. Munch, Proc. A=. PA 7sopa:Aot. ..

bon ratio is high in formamide, nitrogen carbon amino acids and nitrogenous gujig , l is in excess. We have observed that for- bases mvolved above. Furthermore, the 3. w. Fry and R. W,nar. Ann. s,acerm. s ophys. ,

mtte does not accumulate and CO: and carbon-nitrogen compound is a microbial (58pyQ ,,

5. M. Aksandu, museet EMoeHWhy. New ;

NH are the major products. product, as compared with urea and uric i

acid, which are produced by higher orga- . g (*M8/.= auppand e pan by (ded 5="* nisms. fundmerivd u=de ou Hatch Act.

While quantitatively not as important 23 January W6: revised M March M6 f HC(O)-NH + H O **

(1) l HCOOH + NH3 l .

I

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.',,,,7,,, Xenon-133: Ambient Activity from Nuclear Power Stations -- -

Abstract. The average activity of xenon-133 within and at approximately 100 ki-CDs + NADH + H* (2; lometersfrom Albany, New York,from April to July 1973 was 2.6 picocuries per cu-where NAD is nicotinamide adenine bic meter of air. Ths source was gaseous epluents from boiling water reactors Io- i

. i dinucleotide and NADH is its reduced cated in the northeastern United States. Its 3.29-day half-hfe males senon-133 arr

?

form. appropriate isotope to observe for the study of regional and hemispheric dispersion Pseudomonas SL-4 grosing on form- ofpollutants.

amide therefore occupies a position simi-lar to that of organisms which hydrolyze Although "Xe is an important gas- tem permitted collection of grab samples urea (reaction 3) in that the same prod- cous radioactive fission product released at any desired location.

ucts are produced. in nuclear weapons tests and in the nor- Air samples of I m2 were collected '

mal operation of the nuclear fuel cycle,it with a portable air compressor and 15-li-H N-C(0)-NH, + H30 """ has usually been considered a local prob- ter stainless steel vessels containing i to ;

i lem. With few exceptions, measure- 5 cm of8 stable xenon carrier.The kryp-2NH* + CO' (3) ments of *Xe have been attempted pri- ton and xenon fractions were separated While P. SL 4 also possesses urease ac- marily at the site boundaries of nuclear from the samples by cryogenic adsorp-tivity, it is incapable of growth on urea as facilities. During 1964 and 1%$, how- tion and gas chromatography, as follows.

the sole carbon, nitrogen, and energy ever. Scholch et al. (1) measured the ac- The air sample in the high-pressure ves-source. tivity of *Xe in atmospheric air samples set was leaked at a reduced pressure of.

Sorghum has been shown to contain taken from a location in West Germany. approximately 300 torr through a system up to 1.6 mAf cyanide as cyanogenic They observed an average activity of containing threc traps in series. %e ftrst glycosides (4). Since fungal infection of about 0.1 pchn'. De source f::,r this ac- trap, empty and at Dry Ice temperature.

Sorghum converts up to 90 percent of tivity was not evident. However a maxi- removed water vapor. The second trap, 3.

the cyanide present to formamide (I), sig- mum was obtained in June 1965, possibly filled with glass beads and held at liquid

nifican, quantities of formamide (1.4 attributable to a Chinese nuclear bomb nitrogen temperature, vernoved CO,.

mM) are available for utilization by P. test. - he third trap, a column 1.5 m lo ; and SL 4. In addition to Sorghum, other cy- In 1975 we undertook to measure the 1.25 cm in diameter filled with activated tsogenic plants have been shown to be average ambient background of *Xe in charcoal and maintained at liquid nitro-infected by pathogenic fungi which con- northeastern New York State and to de- gen temperature, retained the menon and v:rt cyanide to formamide O). Since tennine the source of this activity. From krypton. After the sample had been over 1000 species of cyanogenic plants April to July we collected samples at passed through, the charcoal-filled trap have been demonstrated (2), significant, various locations within and at approxi- was warmed to 15*C, under vacuum, to quantities of carbon and nitrogen may be mately 100kmfrom Albany (Fig.1).*Ihe remove most of the adsorbed nitrogen, cycled in this manner. pattern was designed to ensure that the oxygen, and argon. It was then heated to I

l De two major sources of nitrogen for activity we were measuring was not from 200*C to drive off xenon and krypton, .

mineralization are the proteins and nucle- a local source, such as a hospital or labo- which were collected on a small molecu.

ic c.cids ofliving organisms and the e xcre- ratory using "Xe, but was an ambient lar-sieve trap at liquid nitrogen temper-tion of simple nitrogenous compounds activity for this section of the state. Most ature.

(urea and uric acid) by animals 0). The .of the samplinglocations were 100 km or De krypton and xenon fractions are nitrogen content of the first sources is lib- 'more from the nearest nuclear power re- chromatographically separated and puri-l cr:.ted upon the death of the cells; pro- actor releasing "Xe. Whereas samples fled by using a column 4.6 m long and I

teins are hydrolyzed to amino acids and in the West German study were obtained 0.63 cm in diameter filled with 94 percent nucleic acids to purines and pyrimidines. from an air liquefaction plant, our sys- type-5A molecular sieve and 6 percent 1235 j 18 JUNE M6 ,

t

Fig 1. Samoling area for "Xe survey. Table I. Activity levels of Xe and "Kr around Albany. New York.

Marked sites are t+) sampling locations. Aprii to july 1975.

t a l boiling water reactors, and (a) pressurized Date Activity (pc/m')

, w ater reactors.

' Col- Location lected "Xe ** K r

2 Apnl Albany 0.5220.09

- - " 2 April Albany 0./520.11 16."121.5 29 April Albany 4.4 2 0.3 16.2 s 1.3 f 29 April Albany 3.4

0.3 16.320.9 l soo w vt 18 May Albany -^* 3.9 20.2 17.821.5 l 18 May Albany 4.0 20.2 18.421.7 l

"" 27 May Little Falls 1.3220.08 14.321.4 l A wr e 4 June Kingston 3.1820.15 14.821.2

- ' 55 11 June Albany 7.5 2 0.2 14.821.2 i ( --

a Greenfield, Mass. 0.4220.05 18 June 17.2 2 I.8 a 'O n 23 June Albany 1.29 2 0.13 16.5 2 I.0 pe ==

"8 24 June Albany 2.9 20.3 16.521.1 25 June Albany

0.3220.07 16.121.2 a 7 July Lake George 2.3720.16 18.421.0

, . y Average 2.6 16.5 activated charcoal. Mass spectrometric Standards *Xe standard, and the half- about two or three orders of magnitude j - analysis has shown that the separated lives determined for several of the sam- more *Xe than the pressurized water fractions contained less than I percent pies agreed with the 5.29-day half-life of reactors, they are evidently the pre-

-' l

N, and He. impurities. .The separated "Xe. Samples collected in duplicate, dominant source of activity-

.i ' fractions are loaded into gas-proportion- then processed and counted several days A regional dispersion'model proposed i I

al detectors, the speci6c volumes are apart, were also in agreement. by Machta et al. (5) for estimating long-measured, and the recovery fraction of An average ambient activity of 2.6 pc/ term air concentrations was used to cal.

U* each is determined from the known car- m8 was obtained for SXe (Table 1). De culate an average expected value of rier volume of xenon added or from the variation of the "Xe activities measured *Xe from the six boiling water reactors known abundance of krypton in air. Re- for all locations is consistent with values shown in Fig.1. We used their phase 2 covery fractions averaged 70 percent for anticipated for regional sources, in- equation, which estimates concentrations each. dicating that the levels obtained are not in the region at distances representing a The counting system for "Kr has been due to a local source but represent the few hours to several days' travel from the described (2)..The counting system for ambient activity for this section of the source. and assumed that the wind fre-

! Xe is a beta. gamma coincidence sys. Northeast. The observed average value quency is equalin all directions. In view of tem with a 45-cm' gas-proportional detec- of 16.5 pc/m* for."Kr (Table 1) is in the geographie distribution of the sources tor with thin aluminum walls and a 7.6 by agreement with the values measured by relative to the sampling sites, we believe 17.8 cm Na!(T1) well detector. It in- the Environmental Radiation Ambient that any errors inherent in this assumption cludes a plastic scintillation anticoinci- Monitoring System (4). would tend to cancel out. We further as-dence cosmic-ray guard, with all com- The observed levels of "Xe represent sumed that each boiling water reactor re-ponents enclosed in a 15.2-cm-thick steel no signincant health hazard at the pres. leases "Xe at a rate of 6.4 x 10-* c/sec shield. De puri6ed xenon sample is ent time. However, the genetically sig. per megawatt (electric) capacity (6) and mixed with P-10 counting gas and load- ni$ cant dose from *Xe is about three that each plant operates at 80 percent ca-Y ed. The counting rates in the *Cs x ray times greater than that from ambient pacity. We also corrected for decay during

region and the 81-kew gamma-ray region "K r. diffusion. The calculated value of 3.3 of the photon spectrum are used to quan- Nuclear power reactors are apparently pc/m' is in good agreement with the tify the "Xe. In the x ray region the the source of the *Xe activity.De inter- observed average of 2.6 pc/m ,8 especially background is 0.018 count / min, and the action of cosmic rays with stable xenon allowing for the approximations used in efficiency is 0.26 count / min per dis- cannot account for the observed levels, the nt 4 % . . y

=

t integration per minute Under the usual and there were no atmospheric tests for Models for estimatmg concentrations ,

conditions of recovery and decay and for nuclear weapons during the 4 months over a short period, such as a few hours, a 1-m* sample volume, the detection lim. when our measurements were made.De would require wind data monitored at a -

it, defined as 3 standard deviations over Soyiet Union conducted two under. number of stations to determine wind tra-I background (J), is 0.05 pc/m*.

ground tests on 28 April and 10 June jectories combin de with measurement:

Intermingled with the whole air sam- 1975. However, our $ndings before and of the release rate of "Xe from all ples,13 system blanks consisting of com. after these tests show no indication that sources. His information was not avail-pressed, aged air were also processed. gaseous venting following these tests able. The activity levels for 23, 24, and The results showed that the observed ac- made a signi$ cant contribution of "Xe 25 June, however, do show the in6uence tivities were not an artifact of the sys- to the ambient level in the Northeastern of weather patterns. On 23 and 24 June tem. Spectral shapes and halflife mea- United States. De locations of the oper. the Albany area was under an inversion

surements con $rmed that the observed sting nuclear power reactors within a ra. layer that had originated to the south-

{ activity in the zenon fraction was due to dius of about 500 km from the sampling east. During the night of 24 June a e "Xe. All sample spectra had the same area are included in Fig.1. Since boiling cold front moved through the area.

l shape as that of a National Bureau of water reactors of current design release On 25 June the area was under the i 12x sctENCE. YOL.192 l i

, , c 4-

1 l

influence of a high-pressure system Lymphocyte-Induced Angiogenesis in Tumor-Bearing Mice wSch had moved in from the north-west. The activity level decreased from Abstract. The presence ofa growing tumor can lead to a significant curtailment of 2.9 to 0.32 pcim' after the weather a graft-s ersus-host reaction as measured by the ability of allageneic spleen cells to front moved through. induce a host vascular response. This interference Mth the normalpattern ofimmu-Almost all the nuclect reactors cut- nological reactions may be a reasonfor the survival of sumors in an immunologically rently in operation are located in the alien environment.

middle latitudes of the Northern Hemi-sphere. Dispersion of the effluent from In describing the effect ofintradermal a few hours previously with 3-rays (800 these reactors is fairly rapid iatitudinally transfer of immunocompetent lympho- roentgens). After 2 to 3 days. the animals and also vertically up to the mean mixing cytes on the host vascular system (l), we were ki!!cd with ether, the injection sites height. It takes about 30 days (5) for the hase called the host response-which is were exposed by dissection, and the effluent to travel around the earth, but in manifested by increased vascular tor. number of scar-associated vascular a matter of hours it reaches its mean mix- tuosity, visualization of more vessels, branches was determined. We used the ing height, which varies from about 200 and histological changes reflecting endo. C57BU6 C755 mammary carcinoma to 4000 m, depending on location, weath- thelial cell differentiation-lymphocyte. cells grown either in C57BL/6 or BDF, er conditions, and season (7). Vertical induced angiogenesis(LIA). (C57BU6 x DBA/2) hosts, while donor dispersion above the mean mixing height At the same time, we remarked on the spleen cells were obtained from Ha'lCR c.nd beyond the temperate latitudes pro- similarity between the vascular response 0I2-4) CBA OI2-k). BALB/c (H2 d). l ceeds more slowly.requinng I to 2 S cars induced by foreign lymphocytes and that and C57Bl>6 (H2-b) strains of mice.

The results are shown in Fig. I. As .

for dispersion throughout the earth's at- induced by grafted tumor tissues (1).

mosphere. Subsequently we reported in more detail was expected, no vascular responses The half-life of 5.29 days for *Xe is on that similarity (2). We now report on were seen in syngencic combinations. In such that dispersion on a regional and the effects of the presence of a growing confirmation of our earlier uork. 2 x 10' -

P' hemispheric scale can be followed. Iso- tumor on the capacity of the host ani- allogencic spleen cells inocufated into ir.

topes with significantly longer half.lises, mal's vascular system to respond to the radiated normal recipients gave a typical such as **Kr (10.76 years), accumulate inoculation of foreign immunocompetent vascular response (43 mice; the mean number of s essels was 22.3). In contrast, throughout the atmosphere, making re- lymphocytes.

gional dispersion measurements diffi- The methods used for induction and an equivalent number of allogencic cells cult. Further measurements of ambient quantitative evaluation of the vascular re- inoculated into mice bearing a large C755

Xe could be correlated with rnore de- sponse have been desenbed (1). In brief, mammary carcinoma elicited on!y a tailed intormation on the amount of *Xe cell suspensions were prepared from weak response (43 animals; the mean being discharged from the various spleens of normal mice of various number of vessels was 8.6). Hosts with sources and on the climatologic and geo- strains. the concentration was adjusted moderate tumors gave intermediate ves-Fraphic parameters. Such an approach so that an inoculum of 0.1 ml would con- sel counts (seven mice; the mean num-would provide a more comprehensive tain 2 x 10' cells. and trypan blue was ber of vessels was 11.0). Similar results model for estimating regional and hemi- added to facilitate later visualization of have been obtained in preliminary ex-spheric dispersion of all airborne pollu- the site of injection. Cells were injected periments with line 129'J mice bearing tants, both radioactive and non. intradermally into recipient tumor bear- OTT6050 teratoma.

radioactive. ing or control normal animals irradiated We have no ready explanation for our C.O.Ktwz C. J. PArt alttto '

- o .

Division ofLaboratories and Research, ho"uAL "OsTs -

New York State Deparrment ofHealth ~

Albany 12201 ,z f TuuoR-atamissG Mosts

' Rarernmens and Neees W

I. 3. Schosch. W. Sech. K, O. Munmch. Tehs 18.

s 29s (19 % ).

40 -

i' 2. C. J. PaperieBo. peger pmented et the Noble Gases Sys posum, us Vegas. Nev.,24 to 2s Fig.1. Mean and standard september IM).

~

m error of extra blood wessels mr

3. SUP AC Cameenaean.Jacerror*em cel and os-copares preewes y Amerysis. Appender,, observed in lethally irra- ,,,

g I se Tessen,e Nameerdentre. sy=6ats, unu, diated normal and tumor- .a m

w sad Jamadeeds (laurumoonal Usee Piere and bearing hosts in response % f. ,

^%,D **d"aston. D.C.,1972), to the intradermal inocula- 0*

~

no 1 r

4. Othce of adeaua,'n Programs. IEnvironmen. tion of 2 = 10'auoreneic or 1 tal Protection Agency %ashington, D C., pn. scrniallogencic spleen eclis; h 20~ op

' Nm *n na S ar T 5 ochta,G. eder J. L Hether.in PA3 si. w -

,,I,

, est 8ehavior af Aed eerra e Coasemeasarts da' . 85 8hown tn Parentheses. a

4e Afmesphere Unsernanonal Atom *e E.nergy'

j go-Agenc y. V eenna,1914). p. 411. psi

6. "The safety of susclear poetr reactm and re. y I insed facdotees,' U3ALC Rep. % A5H m0 gy

_ m

7. G (1973). pp. 4-13.

Holzwann. Mos. It'earAce Fer. 89. 235 p, 7[

8. We thank J. M Matusad for tus valuable ad- Doeson, estetes meiste cea satore enretse estore wice and T. W. Milner for techn caJ asustance.

12 January 1976; tewsoed 7 April 1976 Mosi: - ----- - . e s t e L i s ------ - - ---- 0 0 F, --- -

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.Y . f ! ' E- C 1 3.5 t T F "1 3 .55 ?I-C1. J .553I-01 3.55tE-;1 3.5522-C1 1 1;gg,;; 3,;53 g + g y 9,,,7; c .; g "y 3, , 75q3 n . y 7, ,

M P C 1 ~ 7 _ . C . ___ _ . 3.5!2:-C 1. 3 2 q + q 3. 3 r,q i + ;3 --

01C# 3+

6.3 6 ti+s 6 1.4 4 ? E +(e 5.%:?i+;4 1.973[.;51.4.67;I ;4 09 6 E - 0 2. 4. 41

F - 01 2.

4 6i - 0 4 1. 0 4 3E-6 5 0. 0 6 4 6- 0 7. 7. !d C ~ -0 -

[ 1 47FE*LE 7.??5E*C2 3.;~5E+C1 1.it!E+0;

, e. 7 0111. __ C . _ . 7.7+Cr+r4 t.c.;C+C3 C.27.treC1 2.5 7 CE*;C 1.24tE-31 6. 064 E-137 32.3 0' +46E-C4 03 .2 .i d 9 1E e403:E-;5 3_S .13 6.951 I+ C 2, J E-0

. S S7 I E3.3/oE-C6 t C 2.1 + / * :J t.u4~ ..;

F0111M 0.

p P 0112--. S ._.____ _ _6. t S E E + 5_2. 9 E 7 E + C 5 1 31 C E *: S 5.7 2 0 E+ 3 4 .2. 5 3 2E+ 0 4 .1. Q9 4E + 3 4 A. - - - -

__ _ _ _ - - _ -___-m_ ., _ _ _ _ __ _ . - _ . _ _ _ _ _ . -- _ . _ _ _ _ _ _ . _

2.+.1621E*;J ;

Av!48GE 2CwEFtra ;

T 4 Ei MILE I!Ls.D - u11T 2 AVERAGE FLUXtH/C*t+2-5EC). 3.42u33E+13 2 62315E*;5 i

.. FISS T Cn ar cDoC T! r:rC* CECAy oMASE TCTAL CUTnu7 (Hw D) '

. . huCLICE. LISTING P a5:3 = 41.49 92 MTu Cor * - - ~~ --- ~ ~ -- -

a.1 0 9.c G ,, 13 . . t.

CADID&CTIVITY - OUPIE1 ---

- -5.0 0 6.c 0 ~7.0 D !

INIT!*L

- - ~ ~

1.06 2.C~0 3.3 0 4.C n 4.1. 32SE +;4 . 3. ! 6 2 E + C 3 .1 122E + G 3 .3 261 C + C3. 2.

3 47.

2 i4 7

+(: 7 ~ . 01. ,

J~ hu ~CLICE INPUT 5 3ttE*C%.1.$t4E+CE_S.41EE+05,1.5/4E+05.4.573E*: 3.33SE**1 3 3 79E *C1 J.370E+C1 3.36;E*01 3.351E*C1 4._AG1C9M__C.

c. 5.e22E*05 3.426E+C1 3.416E*01 3.407E+01 3.396E+;13 .2 42 0E

3 3 .2.414E + 03 2 4 0 7E+ C2 64+05 2. 4J 5 6C E+ 3 3 2 3 2E.ra AG110 3..AG11CM__C.

= 2 414E+ C 3_2 447E + C 3.2.440 E* :3 2.4 3 bE+3 3_2.42 7I+ 3 1.1 T7E + ~ 8 1.0 7 ]E + 56 5.7 75E+ C5 e . 9 0 SE

C 5 8.1!5E + C5 7.4 0 0 E + ;

1 423E*C6 1.291E+C6 84111 g_J011t*

C.

n- t.4712t F.1. 0 65 Et t1_S .123L* 1_2 513C 4 1 295E+J4 + 35.662E C_1. + C221E3 2.4 75E*+01_5.93 23E-3 E- 0 6. 2. 743_2.? 6 E -; 7. 3 a 191E 1 261E*;/

D~ r..-. C 4 i c.

3G112 r_AG113._.0.. 6.659E+ C5 3.64 3 E + C5 1.5512 + 05 6.731E

J 4 2.564E+

1.2i CE *0 2 1 2 62 F+ 02 1.262E+ 2 2 1.262E 2 2 1.262 E + G2 1. 262E +12cE+ 0 4. 6 741E + G 4.4. 3 4C

5.C 76E+

1 944E+04.1 424E+C-C . 5_ .

CD113.1 C.

6 CD115 -- 0 * ~33.4CIE+G4 175E* S5_2. 3 33.J51E*C4 3 E + C5.1.713E 3.3CCE+C4

+ C5.1. 25 6E+ JS_5. 3.245E+04 23 3.155E+G4 1.3.144E+04 ; S E-17-ti. 755 E 3.1CIF+C4

7 -4 53 P E-17_ 3.J

0. -

263 2- 12 9 4 4Si -15 3. 314 r -17 C0115M

,_43117 S- 2+.2C 3Et C 5_3.C53E + C2.6 412 Er3 L_1.* 6067

2. 994E E-53_1.

2.2 45E-cd 1.6: 9E 7 *C0 76E-J

2. 011 E + 06. G .I 2.

C . 9 ? 955E 2.055E*CG ) E C O .1 ~ 9. 4.9 2 3 9 5 6E . '.

2.02/Eas; CD117M . 1.2 ES E* C5 9.4 61E + C 2 7.0 7 6E + :3 5. 3 2 2E- C2 3.95 22-J4

e_I N114 __.C .

IN114% 0.

4.2 2 321~*C 72E* C C. 2. 212 E + IC . 2.137 E

0 4E+ C*04.

.6.3 53E D3.3252E+3 15 47E 2.036E+04+ C2.1;2E*S4 C.2.12 1 555Eu7E+

a.513i-li s C j n_Ih115M_.2 3.17 5E+C 5.2.546E* C5.1.8 T1E

C5 1.3 71E

D5.1. 3. 6400 S E *2.7 6E-06 05.3 7. 0E-361 C e 2.C 4 72-1C 1. 53 5 E- 12 1.15 2 E -147J C. 2 1 ? ? E + J 5 1.

71 E + C J a .347 E + 6

6. 7

1 E- 32 1 t

IN117

! 13 INILIM-_rG..

4.

4.7:5E+C1 e 11E- 4.4 0

75f +

42.

(1 bis 4.202E +

E/

31 4.0 C 46E 5.2* 3 3

.4 7 3.e4LE+G1 2 Lt C3_1..C 3.674E+31 1.181E + C 3.49 6E + h 3.1.17 C1 E C E +

3. 3+2 7E 3 3 1 C17

+1_S G 1 3.16.7C 5 E + 0 3 E*3

.1.171 11 3.

F 4 +

CF.-J2 0

14 f + C 1 4.

3.1 3 1(A a.C56E*;JE

2. 3 2

C 6 C6 3

F +S 1.145

~

f EN117M 1 t E* 2 3_1 10 5E + 0 3 1 15 2 2 + 1.1 155 E + C 3.1.131E + C 3 .1 1./55E+4 9.64f E

0 3 5.156E+ C 3 7.2.13 E E + 37 1 45S E .

53 6 E- C 1. 7. E G ?.E -01 7.557E 1 _ ,

n S N119 M_ 0 -

0.

3.5EEE +C5 2 15C E + C5 1 155E+;5 6.211F+** 3.239E*04 E-31 7.54* E-01. 7 594 E-01 4*96*..

SN121 9.Sf2E*04 9.511 E

3 4 9.46Cr*:4 9 u.SN1211.

SN121 0.

C .___.. __ 7. E C

E-G 1 T .C J C E- C 1 T . 6

C E ~ 1.7. 5 3 5 E- 01 7.Sii!- 01.7. 5 S.72CE +C 4 9.$ 75 E

C4 3.123E

C 4 5.7 7 0E+ 04 i.715F+04 S. 666F E+*5.R.77: +]4 E + 9.614E+C4 0 5. 2 5 7E i+ 35. 2.39 9 E

05_ Z. 2 3 3 E + C5. 2. 0 l ..

' 4.IC2f *C 5.3 357 E? C5. 3.5SOE+ :5 3.4!tE+.;5_f.17 tE+.C5 2.3.25CE.00 3.22CE+0C 9 76 3.2 CCi+ J O J.2 G Ci+ 3 C 3.2J C E+ 3C 3.2 30 E .;& 3.215-. . ;

n.Jb125___0. 1 411 E- 21 5. 5* ?E -2 5 2 14 7 E -P -

3.20CE*03 3.2GCE+C3 3.20 E+00 3.23 3E* 3C

~ SN126 C.

2.622C+ C 6.1.C25 E + C3

4. * :e E-01 1.5 6 7E-34_6 126 E-OL 2.2iSE-11 9.3521-15 3 66*E-183.2 50- -45 1 4617- 5 2 6. 569 E 7.2 30 E- It C..?

..Sn127__ c._

C. 5.'7ECE+*6 3 3!7C-C1 1.7 7 CE- 0 3 7.15 EE-16 f.577E-23 E*15 1.1t 0E + C 2 9 194E* 0 2 7.12;E+ 3 2 5.523E *C 2 4.2 7 :

1.604?-10 1. 2 4C E + 3 3 1. 2 2i f . . !

$N12? -- _. 5. 4'2E + 6 3 4.2 42E + C 3 3.2 '3:

C3 2 .54 3 ~ * ,7.1 9 7 5 E + C 3 1. 531

7.53122 _3 m 1 311E+J3 1. 29 A E

41 1.2 2 4 E

J 3 1.2 69 E + C 3 1 25 4 E+ 3.1 .

1.375f +C 6.115f+24 6 121E+ C4. 6 14 2 E+ 04 6. i t 4E

C 4 .6.16 5 E

+ C3 4_5.*

1.1bCE 20 *L+C 23 41.3

.6,;44E42i +G4 0 36 10 129E 63 f +*34.4.

)3 Ct 2i+ ;4. 6. C3 !E +

3. 1.5:5....

59124 4.955E C4 3. 2J L E+ 0C 3.?CCE%3 3. 2;2' . . 1.634

g_S212 5___0 -

2.6EGE*G4 2 5C6E*C4 2 17CE+04 2 241E* C4 ?.11cr +1.2 ~C:E4 +2.004E+G4 C C 1. 2 0 0 E +G C 1 1COE +3 6 1.?55d+04 9 919 E + G5 f. 265E 1 +;5 792E+04 4.C A TI .e 59126 0. 3 2G;C+C3 3.200E*CD 3.2C3E+00 3 2:CE+QC 3.233E+23 '

720E+C4 ..L58E*:0 1.714E+46 1429E+06 33EE*30 2 103E-C1 3 313!-02 5.2172-I n_SB126M_.-

58177 C. 4. 2 C 5i+

6 1.566E + C6 2.c63E + 0 6 2 46 9 E* *3641EE*02 5.3?5E*i1 P.461E* s 11.3 46E-45 1 77 4E-52 7.9 75 E-6G 3.56 5C -6 i

53.??4E*C6 5EEE*C5 0.754E+C4 1.! T9 E

3 4 2.171E

339. 65 3 E-16 4.3 4? E- 2 3 1. iG2E- 3.1547-:-

l 2;$9128-__0.. 4.77GE-C1 2 14tE-CD 54 5E-10 CT *1 8 .74e7E-C 7 E-3 e '6. C E84 E -;. i SB178 9 C. 310-G2

wSC129__.S.

TE1239 0.

1 7 E 4E* C T_3.l ti E + CS * .3 E4E+ C 3.1.3 C SE* C2 3 913E + Co' f.556f-;2

.3 7 C E-C2 + . ?? 1E- 3 2 8 2 7 3 E -0 2 8 7.J14E*03

6. 653E + C 2 6. 756E + 01 6.143d + 3 3 6.9 21E

J 3 6.315t* 1 6 4r4E *

3 6.4 43 E

2 3 6 561E* 336 2.1tBE+C6 1. a E

E + C 6 1.6 C li

C 6 1 3 734

3 6 1 141E.06 1. 0 36 E + 2 6 2 26E-0 2 3.11 7.C995*3B E- 072103~.; 5.1

3. 4 6 21. ,

. T E 12 5 M _3 m__. .__ __ 2 702E +C5 2 693E*05 2 69 2E* C5 2 6-4E 45 21. 670 l

TE127 0. 3. 7'FE*C6 3.511E

C6 3 3 22E+ C6 2.5 71E+ e32-..

2.E4EE *C5 2.E 63E + C5 2 6?5E+0 5 2.63 6C+ C5 2 039+;6

2. 7 31.qc1C+C6 2E* e5 2170 95GE*J6 3E + 15 1.413 E + C6 1.o71c**6 2,.TE127M .C.___., ' 3.~ 0 t E. 0 6.2. 9 47 E

2 6 2.s /A E . :. !

l 1 551F +C 7 2.610E46 2 172E*C6 2.119E**.6 2.C75E.(6 E 6.3.70. E +16 3.136E + b E 3.C 71i+G 6 1.5522+;4 1.121 E * '. 6. 4 4 c i . . t

. 3.5*2 E

C E.3 4 7t E + C 6 J .4 C TC+ C 6 3.117E* 06 . 3. 26S +5.11dE+04 3 393E+04 TE 120 0. I p.Til293.. 3. C TE1J1 3. 5.: T 4E +C 7 1.4 59 E

C 4 5 6 3& E

5 3.12 3E

35 1 77 179'.+ C 6 1. 711E + 36 6E + 352 1.

2 717E+C7 3 30 E 115E*37 + 151.t!*r+C5 1.773E*07 1 433C*;7 5.645E+05 1 14A6. 7 1 24

.. - _ ! .0! C E + c5 5.11/i + L6 26 1765+G7 %.152E+37 4.162E*37 3.16tE*17 5.9 22 { - ?J

sTE1311 9 78 4? +4 7 7.J 12 f + C 7 1 17e C-4 C 1 7 64E-40 2.641 E- 56. '3.9 55 c-64 TE132 Q.

2 5C 4E +

7 1.S o4 1.573E-55 2.3reE-63 3.52*i-7 r .T E13 3 _ C u __ . 6.21 Ei + C 7 s . 31 F.E -41 1.?E-C 45E-36 1 22.C3 42 E-Ji 3.5 A SE-16

72-17 6.25 21-25.7.t 65E-3 ?i-01.

1.12eE-24 34.675E-12 2.;13 ;- C7.015d-40 1 2. 014 ~ -1.C51E-47 1 2 31^ t ' ;

3. 96 71 -c.-

T(1339 C.

p._212 3 2113

_0 . .

C. 1.0 2.667E*C4 74E-C 1 1.12 2C- C1.1. 9. 72-C1.1.9 1.* 27E

0 3 4. 77 6E

0 2 1. 2 49E + 704.C13E*07 ? 2 E-C1 1.9 :-S E- 01_1 39 2 3. 2 64E

01 A.5 3 4E + 0 C 2.2 31C +3 C 5.63 3 E-2.6C1E*:7 2.2 63E

C 7 1.029E+07 1.47(2+C7 1 154 . 7

/

! p 1131 __3.

C.

__ 6.551E *:1 6.3 t9E + CT . S .61? E+ C7 5.17 3E+ JT .4. 75 7E + 07 4. 374.Go 32EE + C9.E5 :E

C

-E 6 2. 7 7 3( - / -

1132 1.467E-49 3.419E- 56 u__I133

.4E tt + ~! .5.9 :6C + C7. 3.1C 4E* C 7 1.19 5E+ 37 6.2697 + 0 5 C ._2. 35.11.Qu..:r.1-i? 1, 5 0 4 f d :.

(

e 1134 0. 1.EC2C 1.4 f 22++C03_1.122D 9 4.0 7 3 UE L9+7 C 4 Ea0 2.3r 5._C465-01Z3E+.3h8 1 35.24 52E-16 2E t G 7.7G 3._4.13 3.74 7E*1C-25 0033.4362

+024.454E -13E+2.556C-41 3,C74T.+.01_.?.

+3 ; 3.151 C0 7. 65;E 9 3 3+C ? C 2 65* : . ; ,

l n_.I115 _3- 3. 6.332E*C0 5.7 79 E + cc 5 219E+ C 0 4.86 0 E*GL 4.45bE

do 4.CC GE *0 08 E *3 5. 4.110EJ45. b 0 J1I.t:5_.19h 3 Er X E124 M .w322E*;5.4.329 E+ C5._4.315E+35 h .23 5EGS_h. M9E.1CS 4 1 1 la - - *em a 3. . .. e . e

- v -

di avo :s: a Cw E v o.a 2.-pai.:+:3 r ise:cs .. ... v; i s i .e s . *.t* 1..om - u c i e r r ;7 DECev ewasr Avr4ans FLur in/c1**?-SFC) ? . 6 29 ' 3 f .13 _

t.ufLIOE L:5~;q; 2.t4315E*G5 "1515 = 91.8932 eTU COPE TOTAL BGRNUP(MWD)

S &h: 3 A CT 1 VI T Y - Cert?'

A C '. 0

~

T6*?:#L 10 6 -2.0 0 3.0 0 4.c D 5.0 0 6.G 0 7.00 40 0 c.C 0

~ t.UCL 10 E It.PuT 1. C 4 5i + 0 6. 5. 3 O ? E + 17. .e .2 61 E + c 7 7.:112E*C7 6.*592+07 5.658c.0/ 5.C'22E+;7 _

o_ FE13 3 _ C .._. .. 1. 41 t E + C ' 1 150E+C3 1 232E*0P 1 164C+06 YE133N C. 2.115E + 3 7 1.9 3 7 E + C 7 1.594E + C 7 1 2 4 7 E+ c 7 9.43 7 5 + 6 7.111E + C 6 5 262E

c 6 3.9 3 JE + J 6 2.37 5 E+ 0 6 2 113 5 06 1.552E*;3

_

E13 5_ 3. .._ 3.3(7E+E7 3.516E + C T t .11C C + C 6 1. 512E + C 6. 2.616E

35. 4.3 ? 5E + 0 4 7.2 44 E

0 3.1 18 S E

J 1 1 94 3 E. 0 2 ? .171 E .01 5 171E*;J... _

4. 414E-01 3. 5 J 4 E- 3 2 2. 8 76 E '.1 2.5 0;E -C4 X E 1351 c. 2.601E+07 1 715E + f 6 1.1722 +3 5 1 0 3 F E

0 4 8.7*CE+02 7.023E+01 5.616 E + G G 3.si 3E + C 5.3.4 7h E *. C5_3.h 75E ;5_3.4 7 2E? 05. 3 96?! + Q S._J. 465E30 5_3.4 6 2 E t 05_3.459 E

C5_3. 45 6E

0 5. 3 3 53 E r; 5 . 's . 449 E . :s. . . . . . . ^

3_C 313 4___0 - 6.313E

0 5 2.C 33 E

0 3 6.5 78 E + ;G 2.12 2E-J 2 6.8 4 TE-05 2. 2C')E-0 7 7 12 7E-10 2.29)E-12 7.33 6 E-15-1 60 sE-17 -1 6 *E -i r CS1341 0.

p_CS135._.0. 2.10!E+G3 3.24CE+CO.J.256E+C3.3.255E+00 1.259 E

JG 3.26GE + 1G 3.76 CE + CC 3.2 6]E

0 0. 3. 76]E+ 0 0 3. 2 EG E + C J 3.26;E*;.

C?134 4. 7.323E*G5 6.594 E

C5 6 616E + C 5 6.291 E + 0 5 5.965 E

05 5. 655E + 0 5 5.3 61E + G5 5.0 8 3C + c 5 4.c11E + 0 5 4 5 65 E

J 5 4.3J1(+C 6 CS137.__3.- 9 45 tE*C 5.9 4 56E

C5 5 455E + 0 5 9.435E

35.9 494E + 05_9.49 3E

C5. 9.49 3E + C5. 3.4 J 2E + us 9 412E+ C5. 9. 4c1E + C5 9.4 S O*

821351 c. 2.156E+J1 1 2 Ct t + C 1 6. 764E + 0 0 3.7 8 a E + 0 0 2 1215 + 0 0 1.18%I*C0 6.65JE-J1 3 .12 6 E -01 2 .;S T E- 31 1.1 ES E -G 1 6.545E-02 1.121E + " 5.1 120 E+ C 5. L.162 E + C 5 1. ;; 7 E + 35 .9 5 4 3 E

0 4_9. C 4 3 E + 3 4_B .5 7:E + 0 4_3.13 2 E * :4_7. /1 C E + C 4 .7.110 E + 5 4 . 6. 9 3 ; E

0 = __ __ , .

&_P11351_.I- 3.C s 5E +C5 a .943 E + C5 f .93 2E +;51.)b 2E+ C5 9.9*1I+ C5 c.4 31E + 05 a.li CE + 05 3.S o 0E *J 5 c .4/ 3 ~. 05 2.9 73 E *C G 6.17 et + c .

6 A13 7 4 6.

.CA13?__

. ._1.1.3;$E+Ct 35.7E

0 1.25CE+C5 3 9 3 76 E +1.151E+38 C2. 6 17F 1.124E*C2 E -0 3.3 3 51 2069E+30 E- 04 2. 1415E-13 1.513 E-t e 9.44 2E-2 4. 5.5 04E-29 1.69 ? E- 34 2 3 C9 E - % .1. 4 4 4 E -

012E*06 9.591E + G 7 9.J O SE *3 7 a .6 5I+ 3 7 8 152 E

0 7 7.721E*0/

CA143 C.

n. L A 140 .L_S . .1.3 7 5E

C 8 1 3 46 E + Cb .1.14 4E + 3 3.1.2 5 si+12.1.211 ~ + 3 0 .1 14 5E + 3 A _1 0 91 E

C 8 1.C 3 7E + G 8 9.J4 7 E + 0 7 S. 3 44 E

0 7 .a . d 62E

C 7 _.

LA141 3. 1.273E+0F 1.e73E+C6 2.552E+34 3.465E+ C2 4.735E +C0 6.33 35-32 8.676C-C4 1.17a E -3 5 1.M C E- 0 7 2.1/ 2 E -;9 2.353E-11 160E -25. 4.15 S E - 10.c .511E -15 1.73rE-39__,_.._,

.L A14 2. __ . .1. 2( 2E + C 1.2 4 ti! + C 1._5 91CI-C Z 1 2 01E-06_2 444E .11.4. 9 74E.- 16 .t .012I -2 0_.2 CE141 C. 1.C41C+Ce 1.G26E+C4 1. 0

5 E

3 5 9 . 3 3 4 E + G 7 1. 6 2 7 ~ + 3 7 9 424E*J7 4.225E*07 1.031E*C7 3..*41E+G7 0.654E*GI 5.4/2E*C7 u_CC143__ 0. 1. 2f 2f +C 8 .7.616 E + C T .4.6 0 2E + C 7 2. F S C E + 1 E._1.6 7CE + 0 7 1 014E +1/ 6 12 6E + C 6 1. 7 C C E

3 6 .2.23 5 E + 0 6 1. 3 5 0 E .0 6 4.15 6 E . ~ % ' ~ ~ ~ ^ ' '

CE144 3. 2.9 2 7E

c 7 2 6 01 E + C 7 2.S i4 E + 7 2.Si1E*07 2.542i+C7 2.575E+17 2.5 65E

0 7 2.563I+C7 2.557E+C7 2.55GE.;7 2.544E+;/

3.123E+;5 1.136E+C5 9 517E+C4 2 352E+14.9 176E*13 4 145E+31 1 7 4 0E + 3 3 7.1J 2E

3 2,3.0657.+ 0 2 1 2 *({ +0 2,5. 3 3 5E

01 u FR142__ 0.___.._ 1. 3 ;*E + 3 $ 9.5 7 6E + C 7 9.124E

C7 c .6e 4I+ 3 7 3 261i.;7 7. OSSE *C7 pc 14 3 3. 1. is 2C+ 21 1 15%E + C f 1 111 E +0 3 1.2 s 3 E + 31 1.049E+:6 2.6.5 f t;7.2.6 ;1E + C T. 2.50 4E

3 7. 2 5 $ t E + 17. 2 5 9 2 E + G 7 2. 5 75E +1/ .2.5 6 97 + 0 7_2.5 6 3 E

c 7 .2.55 / I+ 3 7 2. 5 53 ? +; 7 2.5==se;7,_____

l..P*.144.__2.__

PS144w 3. 3.1 ?eC +J 5 3.121 E + C 5 3.11J E + 0 5 3.13 E E + 3 5 3.0 9 t E + 3 5 3 39 3 E + 3 5 3.3 6 3E + G 5 3.J 7 5E + C 5 3. 364 E + 3 5 3. 0 00 E

05 3.C53E+:S

.. . FR 14 5__ . : . 3.2 73 E + C 7 5.2 41E

C E. 3.2 4EE + QS 2.311E + C4 .1.2 45 E + G 3 7 714E

31 4.7 7d E + C C 2.9 59 E-01.1.

3 3E- 0 2.1.13 5E -0 3 7.3322-09 .

ND147 C. 4.? 4 4!

C 7 4.6 45 E + C 7 4.161E

3 7 4.0 iSE + 3 7 1.e44f+07 3. 601E + 3 7 3.3 E 9E + C 7 3.1 + 2 E + G 7 2.92 7 E + G 7 2.tCSE*;7 2 61JE*C/

n.40149 ...C. _ .._ 2.5!2E+C7 1.73II+C3 1 151E *1 7.72 7E-34 5.15CE-1C ?.4335-14 2.2 7,8E-18 1. 5 25 E-22 1. C t / E-2 6 6. 7 7 7 E - 31 4.516E-1s .

AD154 :. 1.72 3!

C 6 1 6 3

E + C6 1.41C E +

6 1. 3 6 2 E +

6 1.2 4 6E + 16 1 131E + 3 6 1.0 41 E + C 6 9.S t 9E *C 5 a . 70 3 E + 0 5 7 9 57 E * :S /.2 75r +05 3.pn147 2. 2. 71:2 + C 6.2. 7 50E + JL.2 7 22E + 0 6.2. J11E+ :6 2.21/ i+ C 6 2 16 2E + 3 6 2.ie 6E

0 6 2.9 0 7E *0 6.t.52 7 E + 3 6 2 146E + :6.2.1662.;% . .

PM144 c. 2.523E+;7 1.?13E+C7 1 1RE*07 1 0 22E* 07 7. 4 7 4E + 3 6 5. 4C.E + :6 3. 39 5E + C 6 2.12]E + C 6 2 13 5 E + 0 6 1.561E*i6 1.141E.06

n. PM 15 0__ C . ___ . __ 2. 5 21E + C 5 5. 2 C1 E *

2 1 3 4 t E + J J 2 .111E-; 3 4. 25 2 E -3 6 t . 5 6 FE - 11 1.726E-11 1. 4 f 3 E-14-9. 531 E- 16 -1. t i15 9 5 31 E -16 FM151 3. 1.115E*C7 6.75)E+C4 3. 4 7 A E + 6 1.116 E+ 3 6 1. C 7 / E + ;6 4. 49 7 E * *.5 3 3 3

E + 05 1.? stE *C5 1 3 3 4

3 5 5. 7 56E .;4 3.200E.;s

( 2; FM15 4 -- 3

_. .. .. 2.17 7 E *; 6 1. 6 3 C E + C 6 1.4 ? C E + C6 1.3 6 3 E + ;6,1. 2 4 6I+ 3 E 1 13)I*C5 1.141E + C E 3.5 2 2E *;5 S . 7~ 6 I + 0 5 7.9 59 5 ;5 7 277E+0,

1. t 2 5 E

0 4 1.!25~+~4 1 52GE+~~

! SF151 0. 1. 7+ tE *G 4 1.?*6E+C4 1.*13E*14 1 313E*04 1.??2E+34 11.421E+14 2! 6E + 06 1.424E+C4 9.3 C 5E + C 1.125E+C4 5_6.3

6E + 35_4.41 G E + C5 3. 3 f 3 i e:S 2 1E6 E + ;5 _.

' : Sn151 n- _. 7. L2 5E+ 3 6. 5.3 47E+ :6. 3. !.44 E t3 5_Z .62 2E+ ;6.1.2 36 + 36 _

7.53;E*C5 1.3s1E+~5 2.216E*34 3. 77 6E+03 6 434 ~ + 37 1.046E+22 1.S60E+01 1.16 2 ~

0 5 5. % 12- 31 1 217 f. -< 2 1. 5 7- E . ?

19156 c. 4.+ 2 3_ + 31 4. 32 9 E + J 1 % .3 2J i ;1 4.J27;.;1

EU152__3._._ .. 4.!:4E+01 4.s24E+C1 4 132E+G1 4.232E+31 4.f!1i+ 1 4.631E+31 4.4 3 0i + 01 *2 1. 5 66 E-0 2 2. 617 E- C 3 4. 3 75 E -1* 7.3t-E 6' EV1529 C. 4.2c E.; 3 7.175 E.E 2 1 1 pt.0 2 2.* C S E+ 01 3.392E+CC 5.6L'E-11 1.166d 9.6 7 5!+ C 3 5.6 7 3E

C J S.6'1E+C3 9.669E+03 i.667E + 3 3 9 66GE +51 9.66 IE *

3 3.E 61E

0 3 1.4 5 S E + J 3 5. E 5E i . ; 3 0 654 E 0 3

. EU15 4 ___ . ..

1.727E+C4 1 73:E+C4 1.737E+C4 1.7 3 6 E

3 4 1 716E+34 1 735E+44 1 734E+04 1./34E+;4 1. /3 3 E+ 0 4 1. 7.5 2 i + ~ 4 1. 7 3 2 E

D.

EU14% 0.

1. 714 E +

6.1. 6 6 3 E + C6.1. 531E+ Q E.1. 521E+ 3 6.1 4 5 ?I + 0 6_1. l e ! E + 3 6 1.12 6E + 3 6 1.2 67 E + 3 6,1. 211 E + 0 6, t .15 7 E * ;6 1 105E.G4 .

..EU156.___ C .__. 1. s

6E + 11 6.113f+C2 2.113E+G2 7.C/3E+01 ?.367E.;1 /.1245.G EU147 3. 4.647E*25 1 5C2E+C5 5.2212+C4 1 613 E+14 5.614 E + 3 3

3.CD151 3 ._ 5.ES TI+C C 5 641E

CC 5 625E+ t u 5.635E+00 4.533r+JC 5 577E+10 s.56 0i+ 0 C %.5 4 4- + 0 3 5.62 9 E

0 0 5. 513E +:0 5. 45 72 G G3159 c. 1.0 ? 4 ! *; 4 4.554E+C4 1.*42C+G4'7.613E+33 1 113E+;3 1 2 7 5E + 13 5. ? L 3' 4 0 2 2.12 7 E + C 2 3.69 3 E + 01 3.556E.C1 1.454i*;;

asI215 3 3 ._ __ 1.572E+ 3 1.656E+C3 1 641E + 0 3 1. 62 5E+ 3 3 1.6 3'.1.E3+* J2 3.1.5? -: + 1441E253+ 11E 1.5

+ 14741 E

0 3.1.

131E

1451.023C+;4 6 4E + 3 3_1. 9.255s9 4 EE+ + 03 33 5.3 1 514 76 E F+ 3 1.

13 7.5519E 7 A i+ +C C 33 70161 0. 2.C(JE+04 1. 4 6 7 E + C 4 1.6+ 5'* C 4 1.52SE*J4 2 2B161M n- 3. C t e i + C 2.1.3 2 2 E .C L 1.G _.42.- J 4_6.2 3 9E-J 2_3. 5 ? 2 E- 11. 2 0 6

E- 14 1.161 tt 17_6. 2 5 4E- 2 L 3.54 6~- 2 4 .2. 212 E- 27. 1. 3 0 e E - 4 :. . _ . . . . .

CY16% 3. 4.7f9E+G2 4 344E-C1 3.406E-04 2.472E-J7 2.42CE-1C 2.C3*) -15 1./13E-16 1.44JE-11 1 22 0 E-2 2 1.C 2 A E -25 4.66 ? E -27 a DY16&___n- 6.2f31*01 5.123E+C1 4.17 7d

3 L.3.4 3 6E

C1. 2 7 7 / E

01.2 2 64E + 01 1.b 4 6E

C 1.1. 5 3 5E + 01_.1. 22 7 5+ 01.1 0 01 E +:1.0.16CE*c. .

.M4166 C. 5 111E+C1 6.9 61 E + C 1 5.862E+01 4.Se0E+31 4.033E+C1 3. 314 E

J 1 2 721c+01 2.227E+31 1.4 2 0 E

G 1 1.4h6E*J1 1 213E+ct 27 - - - _ .. . . . . . . .

1.222E 1* 2.173 E+ C3 1.6 31E+ c9 1.476E+ 0) 1.341E +:9 1+ 23 *E + 39 1.157E

G9 1+0 9E +Cs 1 031E + 09 9.8 s1E +C6 9 3 56E*Co ., .. _.

TOTAL c. .

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Review of Station Vent Effluent Monitor Strip Chart A copy of the strip chart recorded for the following station monitors was ,

reviewed:

a. station vent

b. control room intake duct i

c. fuel handling building exhaust duct upstream of filters

d. fuel handling building exhaust duct downstream of~fi-iter -

c. Rx building hydrogen purge duct Each of these station monitors has three separate channels; one each for particulate, iodine and noble gas monitoring. There are therefore a total of 15 data points recorded on the strip chart. Each monitoring channel is identified by a separate number recording on the strip chart.

Because this review was made from a xerox copy of the original chart and because many of the recorded points overlap, it is quite difficult to read and interpret results. Considering these factors, the following is a best interpretation of the chart. l l

3/28/79 i

Approximately 04:30 Several channels began to show an increased l

countrate of about 560-1000 cpm. It is d'ifficult l

--%, ,T i -

L'U a . k*i as,1l5lG *- _IG:, .;; r :wa;* :- :;: ,, "h - ICh% r :~-~~ _ , . _ 3_-- ~ - :* r. : a. :; -

' - , w ?- [j ;h- . -

.. [I$[,_ ,f , .}-)'.k -

,3

(.

1

( 1

\

to read just what channels increased but it does appear that the fuel building exhaust duct (upstream) particulate monitor and the fuel building exhaust duct (downstream) iodine monitor were two of the five or six channels which showed an increase.

0700 This is the next prominant change in countrate after that which occurred at 0430. At.this time '

all channels but the control room gas, particulate, and iodine channels show a sharp increase, culminating to an offscale reading in a period of approximately one hour.

.a Theparticulate,iodineandnoblegasmonitorsA /

2o...w5 .

started rising. The particulate channel rose

{ e<4cw2 I the highest (from 500 cpm to about 104cpm).

The maximum rise on the iodine channel was about 3000 cpm. The noble gas moni. tor was quite variable but appeared ,to have a maximum of about 2000 cpm.

1 2

?3 -

. . , .:= . . . . . . . . . . . =;=

"} ,

)3 M The control room gas and particulate showed a return to a slightly elevated concentrateon.The e

iodine channel showed a gradual decrease.

3 Subsequerst readings of all monitors except the control room were off scale. he control room continued to show minor fluctuations but generally f*

stayed # 103 cpm until approximately 0130 hours0.0015 days 0.0361 hours 2.149471e-4 weeks 4.9465e-5 months on 3/29 when an increase 3

on all 3 control room monitors existed until the end of the chart at 1610 on 3/29. During the 0130-1610 time period the maximum gas reading was about 5000 cpm, maximum iodine was about 600 cpm and maximum noblb particulate was about 200 cpm. Normal countrate for most the instruments was less than 100 cpm.

... .9

- ~ ~ . - - . . - . . - . . .

. . . . . . . . . . . _ _ _ ,., ..=..

~

L . .-- -.--.....-.............==:.:...:....._.:.. .: a . .. .. ..;..;....

.....~"^"~~~

7 .

UNIT 2 EFFLUENT MONITOR READINGS Date: 4/2/79 i Measurements (cpm)

Times Monitor 0130 0655 0907 1450 2200 '."" ^ '

HPR-219 i Cs-137 2 x 105 2 x 105 1.5 x 105 1.5 x 105 1.5 x 105 !.'

I-131 1.5 x 105 1.5 x 105 1.5 x 105 2 x 105 2.5 x 105 Kr-85 FullScale(kl08) + + + +

HPR-220 - I

^

Cs-137 100 100 70 100 90

I-131 30 20 20 18 20 Kr-85 60 65 30 30 25 HPR-221A ;

Cs-137 5 x 104 5 x 104 3 x 104 4 x 104 4 x 104 I-131 Full Scale (le'108) + + + +

Kr-85 Full Scale (kl08) + + + +

HPR-221B , .

Cs-137 8 x 104 9 x 104 8 x 104 6 x 104 6 x 104 I-131 Full Scale (l'108) + + + +

Kr-85 Full Scale (kl08) + + 9 x 105 108

i HPR-229 Cs-137 2 x 105 2 x 105 1.5 x 105 1.5 x 105 1.6 x 105 I I-131 Full Scale (Il0s) . . . , ,

, Kr-85 Full Scale (710s) + + + 10s

. HPR-225 3.9 x 105 3 x 105 3 x 105 2.5 x 105 2.9 x 105 Cs-137 I-131 9 x 10s 9 x 105 9 x 105 9 x 105 Full scale Kr-85 Full Scale (2108) + + + Full scale 4

9

_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . 3i _ _ _ _

. _ . _ _ _ - _ - . - .- .- . _ _ = _ =

UNIT 2 EFFLUENT MONITOR READINGS Date: 4/2/79 i

. t Measurements (cpm)

! Times ' ' '

Monitor 0130 0655 0907 1450 2200 HPR-226 Cs-137 3 x 105 3 x 105 2.5 x 105 2 x 105 2 x 105 :

I-131 7 x 105 7 x 105 7 x 105 7 x 105 9 x 105 i Kr-85 FullScale(kl08) + + + + ,

HPR-222 Out of Service HPR-228.

. Cs-137 4 x 105 4 x 105 3 x 105 2.5 x 105 2.5 x 105 l I-131 3.8 x 105 . 4 x 105 4 x 105 5 x 105 5 x 105 Kr-85 Full Scale (410s) . . . .

HPR-227 ,

i Out of Service 4

4 l

A i

o

, ~.e.. ...%,. .

4 4

k ?*

UNIT 2 EFFLUENT MONITOR READINGS Date: 4/3/79 ,

4 T

i Measurements (cpm)

. Times Monitor 0115 0355 0905 1515 1747 2125 ,

H)R-219 Cs-137 3 x 105 2 x 105 1.5 x 105 1.5 x 105 1.5 x 105 1.5 x 105 I-131 3 x 105 1.5 x 105 1.5 x 105 1.5 x 105 1.5 x 105 1.5 x 105 Kr-85 FullScale(flos) . .

HPR-220 '

Cs-137 100 100 150 100 70 65

- I-131 30 25 22 22 22 24 Kr-85 30 35 2 x 103 ? 150 30 30 i

i HPR-221A

'Cs-137 5 x 104 5 x 104 5 x 104 7 x 104 8 x 104 9 x 104

+ + + + +

I-131 2108)

Kr-85 Full Full Scale Scale (,210s)

( 4 4 , , ,

HPR-221B Cs-137 1 x 105 8 x 104 6 x 104 7 x 104 7 x 104 8 x 104

, 4 , .

I-131 410s) 4 Kr-85 Full Scale( (fl0s)

Full Scale . . .+ + 9.ix 105 HPR-229 Cs-137 2 x 105 2 x 105 1.7 x 105 1.5 x 105 2 x 105 7.5 x 10s 4 , .

I-131 Full Scale ('210s) 4 4

, 4

. 4 Kr-85 Full Scale (/10s) , ,

HPR-225 ' '

Cs-137 3.5 x 105 3 x 105 3 x 105 2.5 x 105 2 x 10s 2 x 105 i I-131 9 x 10s 9 x 105 9 x 105 9 x 105 9 x 105 8.2xlok I

Kr-85 FullScale(kl0k) if-+ /-+ J'- 7'-+ lr 7 i -

1 4

34

~ '

UNIT 2 EFFLUENT MONITOR READINGS Date: 4/3/79 i Measurements (cpm)

Times Monitor 0115 0355 0905 1515 1747 2125 HPR-226 Cs-137 3 x 105 3 x 105 2.5 x 105 2 x 105 1.8 x 105 1.5 x 105 I-131 7 x 105 7 x 105 7 x 105 7 x 105 7 x 105 6 x 105 Kr-85 FullScale(fl0) 8 + + + + +

HPR-222 -

Out of Service HPR-228

^ Cs-137 4 x 105 3 x 105 3 x 105 2 x 105 2 x 105 2 x 105 I-131 6 x 105 2 x 105 3.5 x 105 4 x 105 4 x 105 4 x 10s Kr-85 FullScale(2108) . .

HPR-227 Out of Service 4

i

)

I s

- ~

_ _ _ _ _ _ _ _ _ _ _ _ __ kY __E ____

UNIT 2 EFFLUENT. MONITOR READINGS Date: 4/4/79 '.

Measurements (cpm)

Times '" "

Monitor 0315 0900 1500 1900 2325 HPR-219 Cs-137 1.2 x 105 6 x 105 9 x.105 9 x 105 8 x 10s I-131 1.5 x 105 2.2 x 105 2.3 x 105 2 x 105 1.8 x 105 -

+ + +

Kr-85 Off Scale (kl08) +

HPR-220 .

Cs-137 60 40 Out of Service '

I-131 <10 <10 Kr-85 4J 30 HPR-221A Cs-137 5 x 104 5 x 104 6 x 104 6 x 104 8 x 104 I-131 OffScale($10s) , . ,

+ +

Kr-85 Off Scale (/108) + +

HPR-2218 Cs-137 4.5 x 105 2.5 x 104 3 x 104 3 x 104 3.5 x 104 I-131 Off Scale (>108) + 4 Kr-85 Off Scale (>108) 8 x 105 9 x 105 8 x 105 9 x 105 HPR-229 Cs-137 1.5 x 10s 1 x 105 1.2 x 105 1.2 x 105 1.2 x 105 I-131 Off Scale (>108) + + + +

Kr-85 . . . ,

Off Scale (>10s)

HPR-225 Cs-137 2 x 105 1.1 x 105 1.5 x 105 1.5 x 105 1.5 x 105 I-131 9 x 105 9 x 105 75 x 105 9 x 105 9 x 105 Kr-85 Off Scale (>108) 4 w * - aw w

e

- - - _- _ - - - a

UNIT 2 EFFLUENT. MONITOR READINGS Date: 4/4/79 .

Measurements (cpm)

Times Monitor 0315 0900 1500 1900 2325 HPR-226 Cs-137 1.5 x 105 9 x 104 1.1 x 105 1.1 x 105 1 x 105 I-131 6.5 x 105 7 x 105 7 x 105 6 x 105 7 x 105

+ + +

Kr-85 Off scale (>108) +

HPR-222 Out of Service HPR-228 Cs-137 2 x 105 9 x 105 1.2 x 10s 1.2 x 105 1.1 x 105 I-131 4 x 105 1.5 x 10s 2 x 105 2 x 105 2 x 105

+

Kr-85 Off Scale (>108 ) + + +

HPR-227 Out of Service S

n,

UNIT 2 EFFLUENT MONITOR READINGS Date: 4/5/79 ,

5 Measurements (cpm)

- Times 1820 2140 2326 Monitor 0235 HPR-219 Cs-137 7 x 104 4 x 104 3 x 104 2.(rx104 '

I-131 2 x 105 2 x 105 1.5 x 105 1.5 x 105

+ + + ,

Kr-85 Full Scale (>108)

HPR-220 Out of Service 100 60 110 Cs-137 10 15 75 I-131 35 Kr-85 400 40 HPR-221A Cs-137 8 x 104 1 x 105 1 x 105 1.2 x 105 Full Scale (>108) 3.5 x 105 4 x 105 4 x 105 I-131 Kr-85 Full Scale (>108) 8 x 105 3 x 105 2.5 x 105 HPR-2218 '

Cs-137 3 x 104 1.8 x 104 6 x 103 5.5 x 103 I-131 Full Scale (>108) 1 x 10s 1 x 10s 1 x 105 Kr-85 9 x 105 5'x 10s 1.5 x 105 1 x 105 ,

i HPR-229

~

Cs-137 1.2 x 105 1 x 105 8 x 104 8 x 104 -

I-131 Full Scale (>108) 6.5 x 105 6 x 105 6 x 105 Kr-85 8 Full Scale (>10 ) + 4 x 105 4 x 105 HPR-225 Cs-137 1.3 x 105 6.8 x 104 3 x 104 2.5 x 104 I-131 9 x 105 9 x 105 8 x 105 8 x 105 Kr-85 Full Scale (>108) + 3 x 105 4 x 105 b

Date: 4/5/79 - IT2EFFLUENTMONITORREADI!jGS h .

Monitor Measurements (com)

~0235

' Tim

.' iiPR-226 ~~~es Cs-137~

9 x 104

,' 1820 ~

2140 I-131 2??6 6.5 x 105 4 x 104 Kr-85 7 x 105 1.5 x 104 Full Scale (>108) + 7 x 105 1.8 x 105 7 x 105

- HPR-222 5 x 10s Out of Service G x 105 HPR-228 Cs- 137~ .

I-131 l x 105 7.5 x 104 5 x 104 Kr-85 1.5 x 105 1 x 104 Full Scale (>108) + 2 x 105 1.2 x 104 4 HPR-227 6 x 105 2 x 105 Cs-137' 7 x 105 I-131 Out of Service Kr-85 Full Scale +

8 x 10s +

Full scale 8 x 105

+ 8 x 105

+

f a

1 T

s k

AR

UNIT 2 EFFLUENT MONITOR READINGS Date: 4/6/79 ,

' ,' Measurements (cpm) l , Times . .,

Monttor 0135

i HPR-219 Cs-137 1.5 x 104 ,

! I-131 1.5 x 105 Kr-85 4 x 105 jl HPR-220

Cs-137 180 I I-131 <10 Kr-85 35 HPR-221A Cs-137 1.3 x 105

' I-131 4.5 x 105 Kr-85 -

HPR-221B

Cs-137 -

2.5 x 103 4

I-131 1 x 105 Kr-85 2.5 x 104 i . l

)

HPR-229 Cs-137 '8 x 104 I-131 7 x 105 Kr-85 1.5 x 105 HPR-225 Cs-137 1.5 x 104

. 1-131 9 x 105 Kr-85 7 x 104 .

! i i

. I i

UNIT 2 EFFLUENT HONITOR READINGS Date: 4/6/79 ,

i Measurements (cpm)

. Times Monitor 0135 HPR-226 Cs-137 8.5 x 103 '

1-131 2 x 105 Kr-85 1.9 x.105 HPR-222 Out of Service HPR-228

- Cs-137 4 x 103 :

I-131 1.8 x 105 Kr-85 3 x 105 HPR-227 Cs-137 Full Scale (>10s)

I-131 8 x 105 ,

Kr-185 Full Scale (>10s)

I

m. _ _ _ __ __ .. .,. - -- -

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s %

..,, , y 3 g% .. . - . $ N TYhi:5h '

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_ Time Activity (uc/cc)

E 1 4/10(1608 - 4/11 (1800)

. i 2.3 x 10-8 4/11 (1920 - 4/13 (2315) 1.2 x 10-7 i 4/14 (1030 - 4/14 (1915) 1.4 x 10-7 4/14 1915 ) - 4/15 (0525) t,-c., 4/15 ((0525 2.5 x 10-7 )

-4/15(0804) 2.7.x 10-7

'{

Il '

h 4/15 (0805)) - 4/15 (1802) 3.8 x 10-7 l 1

4/15 (1802) - 4/15 (2140) 2.1 x 10-7

k. .. ' . J _': 4/15 2140 - 4/15 2357) i- --~ . . 4/16 0408 - 4/16 0758) 2.5 x 10-7 3

~ '

4/16 2.3 x 10-7 s

115G - 4/16 1550) 2.1 x'10'7 d

'-y 4/16 (1556) - 4/16 (1810) 3.6 x l'0-7 4/16 (1810) - 4/16 (2355) IM'

? ! 1.4 x 10-7 Q 4/16Il2356 - 4/17 (0402) 1.2 x 10-7 0) 4/17 I g'.g !

g<, 4/17 0402))-4/17(0803)

-4/17(1226) 1.2 x 10-7

,.i 4/17 ((,0803 1.4 x 10-7 i

i

?

1226 )i-4/17(1634) 1.3 x 10-7

.l 0

}y' '. 4/17(1640) - 4/17 (1946 2.3 x 10-7 !

4/17(1958)-4/17(2357)) 0 he; - , _ - 2.1 x 10-7 4/17 (2357) - 4/18 (0405) 2.2 x 10-7 N

[N 1 . . . .

4/18 (0405) - 4/18 (0550) 4.5 x 10-7 d;< ' . e-4/18 (0550) - 4/18 (0800) 2.1 x 10-7 (f

6~

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! Shs .i 4/18 (0805) - 4/18 (0945) 1.8 x 10-7 Q-

f'- 4/18 (0945) - 4/18 (1200) 1.4 x 10-7

~ 12yv; ' .

4/18 (1204) - 4/18 (1647) 7.2 x 10-8

[:I('N 4/19(0001)-4/19(0358)8 7.5 x 10-8

.I. ;$ 4/19 (0358) - 4/19 (0800)

?:

4/19 0803 - 4/19 (1210 6.6 x 10-8 v3 ...- 4/19 1226 1.0 x 10-7 i

i;.- t 4/19 -4/19(1634)1 1.8 x 10-7

' :-- - 1728 - 4/19 (2025) 1.8 x 10-7 4/19 2025 - 4/20 (0001 1.2 x 10-7

! "1 4/20 (0001) - 4/20 (0351)l 3.3 x.10-7

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I-131 RELEASES Source of Data: TDR-TMI-ll6, " Assessment of Offsite Radiation Doses From Th Three Mile Island Unit 2 Accident," July 31, 1979.

Actual measurements from the charcoal cartridge at HPR-219 are used wherever possible. When these data are not available, linear interpolation is used from the surrounding time periods that would maximize the release. An asterisk indicates which releases were calculated in this manner.

Time Period Curies I-131 Released Total Curies I-131' From Tct For Time Period Released from Accident 0400 3/28 1900 3/28 0.22 (I) 0.22 1900 3/28 1900 3/30 3.90 4.12 1900 3/30 2200 3/30 0.49

4.61 2200 3/30 0600 4/1 0.31 4.92 0600 4/1 0315 4/3 1.57 6.49 0315 4/3 1905 4/3 0.13 6.62 1905 4/3 2232 4/3 0.09 6.7P 2232 4/3 1830 4/5 1.15 7.86 1830 4/5 1516 4/6 0.03 7.89 1516 4/6 0600 4/7 0.36

8.25 0600 4/7 0245 4/8 0.51 8.76 0245 4/8 0425 4/9 1.17 9.93 l

(I) Based on auxiliary and fuel handling building release rates.

l l

l

Time Period Curies I-131 Released Total Curies I-131 From 3 For Time Period Released from Accident 0425 4/9 0925 4/9 0.23

10.16 0925 4/9 1608 4/10 0.05 10.21 1608 4/10 1840 4/11 0.12 10.33 1840 4/11 1920 4/11 0.01

10.34 1920 4/11 2315 4/13 0.39 10.73 2315 4/13 1030 4/14 0.24

10.97 0.19 11.16 1030 4/14 1915 4/14 1915 4/14 0522 4/15 0.24 11.40 0522 4/15 0804 4/15 0.08 11.48 0804 4/15 1802 4/15 0.51 11.99 1802 4/15 2140 4/15 0.09 12.08 2140 4/15 2346 4/15 0.05 12.13 2346 4/15 0408 4/16 0.10 12.23 0408 4/16 0758 4/16 0.08 12.31 0758 4/16 1156 4/16 0.07 12.38 1156 4/16 1550 4/16 0.05 12.43 1556 4/16 1810 4/16 0.09 12.52 1810 4/16 2356 4/16 0.13 12.65 2356 4/16 0402 4/17 0.04 12.69 0402 4/17 0835 4/17 0.05 12.74 0835 4/17 _

1226 4/17 0.03 12.77 l

1226 4/17 1634 4/17 0.03 12.80 1640 4/17 1946 4/17 0.06 12.86 h

r

. Time Period Curies I-131 Released Total Curies I-131 From T_o, For Time Period Released from Accident ,

1958 4/17 2357 4/17 0.07 12.93 2357 4/17 0405 4/18 0.08 13.01 0405 4/18 0550 4/18 0.05 13.06 0550 4/18 0800 4/18 0.05 13.11 0800 4/18 0945 4/18 0.02 13.13 0950 4/18 1200 4/18 0.01 13.14 1204 4/18 1647 4/18 0.03 13.17 . _ .

1650 4/18 1823 4/18 0.01 13.18 1823 4/18 2347 4/18 0.07

13.25 2347 4/18 0358 4/19 0.05 13.30 0358 4/19 0800 4/19 0.03 13.33 i

0803 4/19 1210 4/19 0.03 13.36

~

1212 4/19 1355 4/19 0.00 13.36 1355 4/19 1725 4/19 0.05 13.41 1728 4/19 2025 4/19 0.05 13.46 2025 4/19 0001 4/20 0.04 13.50 0001 4/20 0351 4/20 0.11 13.61 0351 4/20 0821 4/20 0.10 13.71 0821 4/20 1105 4/20 0.05 13.76 1105 4/20 1700 4/20 0.05 13.81 1300 4/20 1620 4/20 0.04 13.85 2019 4/20 0.04 13.89 1620 4/20 2023 4/20 2204 4/20 0.03 13.92

v. -

-4_

Time Period Curies I-131 Released Total Curies I-131 From To For Time Period Released from Accident .

2249 4/20 0317 4/21 0.03 13.95 0320 4/21 0402 4/21 0.03 13.98 0404 4/21 0819 4/21 0.02 14.00 0819 4/21 1201 4/21 0.02 14.02 1204 4/21 1624 4/21 0.02 14.04 1628 4/21 2017 4/21 0.02 14.06 2018 4/21 0103 4/22 0.03 14.09 '.-

0105 4/22 0441 4/22 0.02 14.11 0447 4/22 0804 4/22 0.02 14.13 0807 4/22 1229 4/22 0.02 14.15 1230 4/22 1621 4/22 0.03 14.18 1624 4/22 2024 4/22 0.04 14.22 2036 4/22 2130 4/22 0.00 14.22 2130 4/22 0004 4/23 0.03 14.25 0007 4/23 0406 4/23 0.03 14.28 0358 4/23 0758 4/23 0.02 14.30 0801 4/23 1201 4/23 0.02 14.32 1223 4/23 1614 4/23 0.05 14.37 1617 4/23 2010 4/23 0.01 14.38 2014 4/23 2156 4/23 0.01 14.39 2159 4/23 0015 4/24 0.01 14.40

~

0004 4/24 0404 4/24 0.02 14.42 0408 4/24 0637 4/24 0.01 14.43 0642 4/24 0813 4/24 0.01 14.44

. _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _______________._._.___.-_________.___m__._ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ . _ _ _ . _ _ . _ _ _ _ _ _ _ . _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _

Time Period Curies I-131 Released Total Curies I-131 From Tc[ For Time Period Released from Accident 0815 4/24 1215 4/24 0.01 14.45 1217 4/24 1600 4/24 0.01 14.46 1600 4/24 1955 4/24 0.02 14.48 1958 4/24 0001 4/25 0.01 14.49 0004 4/25 0512 4/25 0.01 14.50 0520 4/25 0658 4/25 0.00 14.50 ,- -

0701 4/25 1200 4/25 0.01 14.51 1200 4/25 1555 4/25 0.01 14.52 1557 4/25 2010 4/25 0.01 14.53 2013 4/25 0013 4/26 0.01 14.54 0016 4/26 0357 4/26 0.01 14.55 0400 4/26 0802 4/26 0.00 14.55 0805 4/26 1220 4/26 0.01 14.56 1220 4/26 1558 4/26 0.00 14.56 1606 4/26 1913 4/26 0.01 14.57 1913 4/26 0006 4/27 0.01 14.58 0011 4/27 0038 4/28 0.03 14.61 0042 4/28 0830 4/28 0.00 14.61 0832 4/28 1625 4/28 0.01 14.62 1645 4/28 0025 4/29 0.01 14.63 0028 4/29 0008 4/30 0.05 -

14.68 -

0010 4/30 0010 5/1 0.04 14.72 0000 5/1 0000 5/2 0.04 14.76 0000 5/2 0000 5/3 0.01 14.77 r,-- - ,, , - - - . - . --. - - , . , e

Time Period Curies I-131 Released Total Curies I-131 From To For Time Period Released from Accident 0000 5/3 0000 5/4 0.01 14.78 0000 5/4 0000 5/5 0.01 14.79 0000 5/5 0000 5/6 0.01 14.80 0000 5/6 0000 5/7 0.01 14.81 0000 5/7 0000 5/8 Neg.

0000 5/8 0000 5/9 Neg.

All Further Releases Negligible.

Stack Capped May 20, 1979.

k e

EPA. Sampling 4%nitoring Locations

. f'

{: Station AZ Dist. Associated. Town __

.. 001 29s 6.2 .

..Fr.,^ 12..Pa. Robert Sess Gulf station

.Eggt 320. 5.2' *fMghspire, Pa. 6. Fire Sta. No.1

. 303 325- 3.5 Maade neights, Pe. - Marrisburg Int. Airport 006 360- 3.0' *ftlddTetown. Pa. - Ehmods's. Sunoco station 4 005 040 2.6- Repaltown, Pe..- L::i :2c.j Township 81dg.

d .

{

, ,, .00s ~ 055 3.0 Royalteun. Pe. - 81andfaa Hershberger Res. :

. 007 000 5.5 Elftsturtfrtmun. Pa. - mesor's Fruf t Market

..,- 90s 079 8.2' *9elhfre. Pt. - Robert. Risser Residence

.-1909 100 3.0 Neuville..'Pe. -Brooks Farm. Earl Hissig Residence 010 095 6.3 *titaatethtown. Pe- - Arco Service Station en 130- 2.' 9 - Falmouth, Pa. - Charius Brooks Residence i

. 012 126 6.9- Maytown. Pa - Bassier's. Church 913 190- 3.0 e ..

Falmouth. Pt. - Dick Libhart Residence g34 145 5.3 *Sainbridge, Pa. - Batabridge Fire C w g 015 . 155 - 6.6. *Saginaw . pm. - Untted -Methodist Church .,

.p .cas ' Iso 7.e - *seanchester. Pa. - ftmachester Fire Dept.

- $17 ~190 3.0;

Tork Haven. Pa. York Haven Fire Statica .

018 220 2'. 5 Mensamt Erove. Pa. .- Geenge Ziegler Res. -i 629 .

206 550 5tripas4==. Pa. - Brwuner Mobt) Service Station

.s

- er, ." .

205 2.5 1

g .-

Woodside. Pa. - Zone Geeser Residance et1 j.250- 48-.

Ilmeerrytown, En. - EXNOR Ibrick Station a g<

s ,

.A

.. e Ott.- N.R5 Vocushw, Pa. - IIE. Frgfght Yare

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- 'l'6((

- "samp : sa 1sul14ated tous. Other sampling stations are 4( ~ -

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i Staties AI Dist. Associated Tama I 423. 205- 2.9 Goldet=wo.. Pa. - Maoi3ar Residence i 004... . 275 26 *Carlisle, Pa. - Untes Fire Compary No.1

~

i 825 38D 7 *Hummelstown. Pa. - muffer's EXION Service Station

.826 .I OtS 10 *nershey, Pa. - Arce Service Station

' 027 , 040- 10 Campbelltown6 Pa. - Gulf Service Station

.) < -

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055 20- *Lebanan. Pa. - Goodw111 Fire Company nn 025 Lencaster. Pa-. ~ Southern Manhiam Fire Co.

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13 180 *Vorb Pa. - Springetts Fire Co. No.1

$ - 270 1.'5

Goldsboro, Pa. - Deaty Miller Residence i

L5

,.. 255- Goldsboro, Pa. - Narold Bare Residence

fg* .-

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V ,- 205 2.2 Pleasant Grove. Pa. - 4eonge Shaffer Res.

. i *g.

sq 305 2.7 Plainfield.. Pa. - PeHtes Residence

" 055' '3 [

068 3.5 Royaltown, Pus. - Geenge Hershharger Residence

, ~$m. ,

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ML20197E430

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