EPA 904/R-94/012
DILUTION STUDY
KEY WEST POTW DISCHARGE
KEY WEST, FL
MAY 9 - 16, 1994
U.S.E.P.A.
ENVIRONMENTAL SERVICES DIVISION
ECOLOGICAL SUPPORT BRANCH
COLLEGE STATION ROAD
ATHENS, GEORGIA 30605-2720
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TABLE OF CONTENTS
PROJECT PERSONNEL	ii
ACKNOWLEDGEMENTS	ii
LIST OF TABLES	iii
LIST OF FIGURES	iii
INTRODUCTION 	 1
CONCLUSIONS 	 1
STUDY AREA	2
STUDY OBJECTIVES	2
METHODS AND RESULTS 	 3
HYDROGRAPHIC DATA 	 3
DYE DILUTION STUDY 	 4
DILUTION MODEL PREDICTIONS	5
NUTRIENT ENRICHMENT 	 7
QUALITY ASSURANCE	9
APPENDICES
A.	HYDROGRAPHIC AND METEOROLOGICAL DATA
B.	CORMIX MODEL RUNS
C.	AGPT

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PROJECT PERSONNEL
TOM CAVINDER - ESD
MARK KOENIG
DON LAWHORN
DEAN ULLOCK - WMD
CHRIS McCARTHUR
ACKNOWLEDGEMENT
We sincerely appreciate the cooperation and support provided
by the following; Mr R.J. Hebling and Mr Gus Rios of the Florida
Department of Environmental Protection at Marathon, Florida, Mr Ed
Castle of Operations Management International, Inc. and his staff
who operate the City of Key West Wastewater treatment plant and,
the United States Coast Guard Group - Key West. Their assisstance
and insight are greatly appreciated.
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LIST OF TABLES
TABLE NUMBER	DESCRIPTION
1.	CHEMICAL DATA (MG/L). MAY 1994
2.	ALGAL GROWTH POTENTIAL TESTS
LIST OF FIGURES
FIGURE NUMBER	DESCRIPTION
1.	STUDY AREA
2.	SITE DETAIL
3.	CURRENT DIRECTION AND SPEED
4.	WIND DATA
5.	SOUTH CURRENT METER-OYSTER PLOT
6.	SOUTH CURRENT METER-POLAR HISTOGRAM
7.	SOUTH CURRENT METER-PROGRESSIVE VECTOR PLOT
8.	NORTH CURRENT METER-OYSTER PLOT
9.	NORTH CURRENT METER-POLAR HISTOGRAM
10.	NORTH CURRENT METER-PROGRESSIVE VECTOR PLOT
11.	EAST CURRENT METER-OYSTER PLOT
12.	EAST CURRENT METER-POLAR HISTOGRAM
13.	EAST CURRENT METER-PROGRESSIVE VECTOR PLOT
14.	TIDE RECORD
15.	KEY WEST POTW-EFFLUENT PUMP CYCLES
16.	TRACER CONCENTRATION IN EFFLUENT
17.	DYE TRACER ISOPLETHS-INITIAL PERIOD 5/12
18.	DYE TRACER ISOPLETHS-LOW TIDE 5/12
19.	DYE TRACER ISOPLETHS-HIGH TIDE 5/13
20.	DYE TRACER ISOPLETHS-LOW TIDE 5/13
21.	DYE TRACER ISOPLETHS-HIGH TIDE 5/14
22.	MODEL PREDICTIONS-ZONE OF INITIAL DILUTION
23.	MODEL PREDICTIONS-NEAR FIELD DILUTION
24.	MODEL PREDICTIONS-FAR FIELD DILUTION
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INTRODUCTION
The Environmental Protection Agency as part of their NPDES
permit review process is evaluating the impacts of several
municipal discharges to the coastal environment. This initiative
includes a determination of appropriate measurement techniques for
identification of effects to both the water column as well as the
benthic communities.
As part of this process, the Water Management Division (WMD)
requested the assistance of the Environmental Services Division
(ESD) to identify the circulation/dilution patterns in the vicinity
of the Key West outfall. The results of this study will be used to
guide sampling protocols for further investigations of both the
water column and the substrate in the vicinity of the wastewater
plume migration.
In proceeding with this request, the ESD, in conjunction with
the WMD planned and subsequently conducted a hydrographic study
during the period of May 9 through May 16, 1994. The study focused
on defining the dilution and dispersion patterns of the Key West
POTW effluent as it mixes with the marine waters.
CONCLUSIONS
~	The outfall line appears to have separated at approximately
1000 meters from shore. In its existing configuration the
discharge is through a single port at the 6 meter contour as
opposed to a reported design which featured a diffuser at
the 10 meter contour.
~	Currents measured north of the outfall are aligned with the
navigation channel paralleling the western shore of Key
West. South of the outfall the current regime is dominated
by the easterly flowing Florida Current.
~	Effluent from the Key West POTW was diluted 6:1 at the
effluent boil, 93:1 750 meters from the boil and, to 1900:1
at 4300 meters from the boil.
~	Flood tides carried the traced wastewaters along the western
shore of Key West via the navigation channel and continued
through Garrison Bite above Flemming Key.
~	On the ebb tide, currents directed the plume southeasterly
for approximately 1000 meters, then the Florida Current
directed the flow in a more easterly direction paralleling
the southern shoreline of Key West.
~	Mathematical model simulations were in close agreement with
the field tracer data.
~	Simulation of the dilution afforded by use of a diffuser
section indicates that levels of dilution at 200 meters from
the outfall could be an order of magnitude greater than with
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the existing single port configuration.
~	Nutrient levels measured in the boil and within the plume
reflected enrichment above background within the first 200
meters from the outfall.
~	Algal growth potential tests indicate nutrient enrichment is
moderate 200 meters from the boil. The limiting nutrient was
nitrogen.
~	Semi-diurnal tides with a mean range of 1.3 feet was
recorded during the survey.
~	Winds were from the east-southeast and averaged 5 knots.
STUDY AREA
The study area is located in the vicinity of Key West, Florida
(Figure 1) . Tides in this area are ..semi-diurnal with a mean range
of 1.3 feet (NOS tide tables).
The City of Key West POTW discharges an average daily flow of
6 MGD through a submerged outfall which is directed southwesterly
from the southern tip of Key West into the marine waters. The
discharge line, extends from the shore near the southwest portion
of the island southwesterly toward the navigation channel (Figure
1). Reportedly, the discharge line, originally extended to the 10
meter contour and included a diffuser section. Recent diver surveys
(NOAA) as well as this EPA study however, indicate that the
discharge line has separated and now discharges through a single
port located approximately 1000 meters from shore at the 6 meter
contour.
STUDY OBJECTIVES
The overall study objective was to define the dilution
characteristics of the discharge as it mixes with the marine
waters. In order to accomplish this objective, an intensive survey
was conducted. The following were the specific objectives at the
Key West site:
~	Determine the dilution variability in the receiving
waters during a tidal cycle.
~	Estimate the build-up concentration of wastewater under
long term conditions.
~	Measure the characteristics of the currents in the
vicinity of the outfall.
f Determine the nutrient enrichment in the discharge plume.
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METHODS AND RESULTS
The basic strategy at the Key West site involved releasing a
dye tracer (Rhodamine WT) into the POTW discharge line to the ocean
in a continuous fashion for a full 25 hour tidal cycle. Boat
mounted flow-through fluorometers were then used to measure the
circulation and dilution of these traced waters in the oceanic
system. Measurements of tracer concentration were made in these
ambient waters during the initial 25 hour injection period as well
as at 6 to 12 hour slack tide intervals for 2 to 3 days following
the tracer injection.
Hydrographic Data
Prior to commencing the tracer study, marker buoys as well as
three recording current meters were deployed in the vicinity of the
outfall (Figure 2) . In addition, a water level recorder and
recording wind speed and direction instrumentation were deployed at
the Trumble Point United States Coast Guard Station located on Key
West.
The buoys, placed at a distance of 200 meters from the
outfall, served to provide a high degree of position control in the
near field zone of the waste plume. Placement of the three current
meters deployed during this survey (Figure 2) was based primarily
upon historic current data. These data sources include National
Oceanic and Atmospheric Administration (NOAA) Tidal Current Table
information (6 sites shown), short term information from an
existing instrument deployed near the outfall by NOAA's Acoustical
Laboratory in Miami and, data from two instruments deployed by ESD
during a short term study conducted in February, 1994. As shown by
the depiction of this historic data (Figure 3), ebb and flood
currents generally align with the passages between the keys.
However, currents seaward of the outfall are dominated by easterly
currents associated with the Florida Current which traverses
easterly from the Gulf of Mexico toward the Atlantic Ocean.
Based on this information, the current meters were deployed in
locations (shown on Figure 2) anticipated to be within the path of
the traced effluent. All the meters were deployed within 1000
meters from the outfall to provide information within the dynamic
near field region of the plume. The meters deployed at mid-depth
were programmed to collect temperature, conductivity, salinity and,
current speed and direction at 5 minute intervals during the period
of 5/11-14/94.
Winds were from the northeast during the early part of the
study and then rotated to a east/southeast direction during the
later portion of the study (Figure 4 and Appendix A). Wind speeds
averaged 2.5 meters/second.
Results of the current meter deployments are shown on Figures
5-13 and in Appendix A. The current meter located near channel
marker 13 north of the outfall as well as the meter located south
of the outfall near channel marker 12 (Figure 2) revealed current
patterns very similar to the historic trends shown earlier on
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Figure 3. As depicted on Figures 5-7 for the south meter and
Figures 8-10 for the north meter, currents aligned with the
navigation channel in nearly a north-south pattern and featured a
net displacement to the south (Figures 7 & 10) . However, in the
case of the current meter deployed near the front range marker east
of the outfall, currents were in an east-west alignment in a
fashion more representative of the Florida Current (Figures 11-13).
The principal feature of the currents recorded by this east meter
deployment was the dominance of the western component of the
currents. Net displacement at this location as shown by Figure 13
was to the west. Apparently, a localized vortex is formed in the
waters immediately southwest of Key West as the result of mixing of
the north-south currents aligned with the navigation channel and
the easterly bias of the Florida Current.
Tide record established at the USCG Station at Trumble Point
is shown on Figure 14. The average tide range during the survey
period was 1.3 feet with minimum and maximum excursions of 0.5 and
2.1 feet respectively. The mean range reported in the NOAA Tide
Tables is 1.3 feet.
Dye Dilution Study
The 25 hour tracer injection period was planned to coincide
with a high tide predicted to occur at 1110 on Thursday May 12. As
shown on Figure 14, this high tide was followed by a low tide at
1800 and then by a weaker high and low before completing the cycle
with a high tide occurring at 1215 on May 13. During this period,
the Rhodamine WT tracer was introduced into the discharge line
(after effluent dechlorinization) in a continuous fashion by means
of a precision metering pump. The tracer injection commenced 2 1/2
hours (0825 on 5/12) prior to the predicted occurrence of the high
tide to compensate for residence time of the wastewater in the
outfall line.
Effluent flow rate, which averaged 6.4 MGD, was monitored (at
the parshall flume upstream of the chlorine contact chamber) at 3 0
minute intervals so that the tracer injection pump could be
adjusted to pace effluent flow characteristics in attempt to
develop a mixed tracer/effluent concentration in the discharge line
of 1000 PPB. A total volume of 25.4 liters of Rhodamine WT dye was
injected over this period. As shown on Figure 15 the effluent pump
operates at a rate of 5735 GPM. When the pump is off, the effluent
continues to discharge by means of siphoning through the effluent
pump. During the "off" cycle the effluent flow rate is 1500 GPM.
The resultant tracer concentration in the effluent as measured
from samples collected from a sampling port on the effluent line at
the POTW was 925 ppb (Figure 16).
The tracer release into the effluent wet well commenced at
0825 on 5/12/94. Monitoring for these traced wastewaters in the
ocean began at 0930 on 5/12 and was accomplished by two crews
utilizing boat-mounted flow-through fluorometers with the pump
intake positioned at the 1 meter depth. Monitoring locations were
concentrated on transects established along Loran lines, as well as
keyed to channel markers and other fixed navigational aids. Loran
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instrumentation was verified/adjusted by taking position readings
at fixed navigation locations so that TD grids could be adjusted to
known positions. In the vicinity of the outfall, buoys placed at
200 meters from the outfall provided a higher degree of positioning
control near the zone of initial dilution (ZID).
Figures 17-21 depict the dye tracer isopleths described by the
monitoring. During the initial monitoring period and the subsequent
low tide sampling period on the afternoon and evening of 5/12 the
traced waters followed a south by southeast pattern within the
first 1000 meters from the outfall and then turned more easterly in
nearly a parallel fashion in respect to the southern shoreline of
Key West (Figures 17 & 18). As shown on Figure 18 tracer levels of
150 ppb were recorded at the boil and the 10 ppb isopleth extended
750 meters from the boil. Effluent dilution then, based upon a
tracer concentration of 925 ppb in the effluent line, was 6:1 at
effluent boil (925 ppb in effluent/150 ppb in the boil) and reached
93:1 (925 ppb/10 ppb) within 750 meters from the outfall.
During the flood tide (0930-1330 5/13/94) the currents
distributed the traced wastewaters northerly along the navigation
channel boarding the western end of Key West (Figure 19). Traced
effluent west detected along the western extent of Fleming Key and
then northeasterly through Garrison Bite.
Figures 20 and 21 depict the results of the monitoring on the
slack tides after completion of the tracer release and serve to
indicate the level of traced waters remaining/returning to the
vicinity of the outfall. As shown on Figure 20 very little traced
effluent remained in the area 6 hours after secession of the tracer
release, After 24 hours (1045-1400 5/14/94) only a very small dye
patch remained above detection levels (Figure 21).
The single port discharge configuration made monitoring the
traced effluent very difficult in the zone near the outfall. With
in the first 50 - 100 meters from the outfall a traverse of 10 or
20 meters would often produce a fluctuation of 1 - 2 orders of
magnitude in fluorometric readings. With distance from the outfall
the mixing process became more complete.
Dilution Model Predictions
In an attempt to predict dilution levels of the Key West
wastewater under existing conditions a plume model was applied. The
model used was Cormix developed by G.H. Jirka and P.J. Akar of
Cornell University (1991). Input data included effluent discharge
characteristics, outfall design and geometric dimensions as well
as, the receiving water density and velocity characteristics. The
data base used and comparison period chosen was the first ebb tide
occurring on 5/12/94 as shown on Figure 18.
Results of the modeling run with a listing of the input
parameter values used are given in Appendix B. Comparisons of model
predictions under existing conditions to the field data are
provided in Figures 22,23 &,24. The model predictions compare
favorably with the field tracer data. For example, dilution near
the edge of the zone of initial dilution (ZID) where the plume is
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experiencing dilution due to buoyancy and discharge velocities the
model results, as depicted by the inflection point on Figure 22, is
6:1. This can be compared to a similar value obtained in the field
measurements.
Figures 23 and 24 depict the extension of the predictions
further away from the outfall. A comparison of far field dilution
as shown in Figure 24, indicates that the tracer data describes a
slightly lower degree of dilution with distance than does the model
predictions. This disparity is small, as shown dilution measured at
the limit (4300 meters) of the dye tracer transects was 1900:1 as
compared to 2000:1 predicted by the model.
This calibrated model was then used to predict dilution that
could occur; 1) under a different ambient velocity regime or, 2) if
a diffuser section was added to the existing outfall configuration.
Figures 25 and 26 depict the dilution levels predicted by the
model under ambient velocities ranging from 0.2 fps (0.06 m/s) to
0.7 fps (0.21 m/s). All other model input parameters were held the
same as in the calibration phase. As shown on these figures, with
increasing ambient currents, dilution increases. The magnitude of
the differences becomes more pronounced with distance from the
outfall. For example, at 200 meters from the outfall the model
predicts dilutions ranging from 11:1 to 14:1 with these velocities,
however at 2000 meters the dilutions predicted range from 100:1 to
370:1.
In order to provide an evaluation of dilution available with
the discharge distributed over a greater area, the model was run
with the calibration parameters (including velocity) but with a
diffuser section added to the existing configuration. The simulated
diffuser design selected for illustrative purposes consists of a 25
meter diffuser placed perpendicular to and attached to the end of
the existing pipe. Six ports, each with a diameter of 0.25 meters
are equally spaced along the diffuser section. The ports directed
upward to the water surface are at 90° to the header pipe.
Results of the dilution predictions with the simulated
diffuser are compared to the existing single port configuration in
Figures 27 and 28 (model runs are in Appendix B). Readily apparent
in the predictions is the improvement in dilution with the addition
of the diffuser section. The inflection points shown on Figure 27
at approximately 100 meters for the diffuser design and at 10
meters for the existing configuration is the edge of the
hydrodynamic mixing zone which is most sensitive to discharge
configuration in the model. In this zone, the buoyancy of the
effluent coupled with the distribution and velocity provided by the
outfall design govern the dilution process. Outside this zone the
dispersion characteristics of the receiving waters are prevalent in
achieving further dilution. As shown in Figure 27, at 200 meters
from the outfall the simulated diffuser section increased dilution
levels ten fold (150:1 vs 13:1) over those obtained in the existing
configuration. This simulation serves to illustrate the potential
improvement in effluent dilution and dispersion obtainable through
the use of a diffuser section. The design simulated is only one
example of a variety of possible configurations.
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Nutrient Enrichment
Samples were collected within the discharge plume for chemical
analysis during two sampling events. These events coincided with a
flooding and an ebbing tide during the tracer release. During each
of the two sampling events, samples were collected in the discharge
boil, in the plume, and upstream of the outfall. Samples were
preserved in the field and returned to ESD laboratories for
analysis of TOC, N02-N03, NH3, TKN, and T-P.
Results of the analysis are given in Table 1.
TABLE 1
CHEMICAL DATA (MG/L). MAY 1994
(Tracer concentration noted is in ppb)
STA DATE/TIME LOCATION	NH3 N02-N03 TKN T-P TOC
KW-1 5/12 1740 AT BOIL*	<0.05 0.21 0.33- 0.18 6.6
(Tracer 150)
KW-2 5/12 1751 2 0 0M NORTH	<0.05 <0.05 0.17 0.02 2.6
(Tracer 0.0)
KW-3 5/12 1732 200M SOUTH* <0.05 <0.05 0.23 0.02 1.4
(Tracer 6.3)
KW-4 5/13 0950 200M SOUTH	0.05 <0.05 0.28 0.02 1.0
(Tracer 0.0)
KW-5 5/13 1126 NEAR BOIL*	0.05 0.08 0.22 0.06 1.0
(Tracer 31.1)
KW-6 5/13 1142 200M NORTHWEST* <0.05 0.05 0.25 0.03 1.0
(Tracer 15.9)
* DENOTES SAMPLE TAKEN WITHIN DISCHARGE PLUME
As seen from the above table, nutrient levels within the boil,
sample KW-1 and to a lesser extent KW-5, taken near the boil
reflect the presence of the wastewaters. This is particularly true
in the case of the nitrite-nitrate nitrogen and total phosphorus
forms of the nutrients present. The two samples taken from within
the plume at a distance of 200 meters from the boil (KW-3, KW-6) had
nearly similar nutrient levels to those of the samples taken out of
the plume (KW-2,KW-4).
Algal growth potential tests (AGPT) were performed on samples
collected in conjunction with those for analytical analysis. These
AGPT tests serve two functions. They measure maximum growth
potential of marine algae based upon the available nutrients in the
sample. Secondly, nutrients added to the sample in the laboratory
serve to determine the limiting nutrients relative to growth
potential of the test organism. Samples for AGPT analysis were
shipped to ESD laboratories for testing.
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Table 2 provides the results of the AGPT tests and, Appendix
C contains the laboratory report.
TABLE 2
ALGAL GROWTH POTENTIAL TEST
MAXIMUM STANDING CROP (MSC) OF DUNALIELLA TERTIOLECTA
DRY WEIGHT (mg/L)
STATION/
LOG #
TREATMENT*
REP 1
HIGH
REP 2
LOW
REP 3
MEAN
RANGE
KW-1
CONTROL
46.42
40 .17
42 .11
42 . 90
6 . 25

C+N
100.47
91.12
91. 68
94 .42
9.35

C+P
34 . 88
30 . 97
31. 51
32.45
3 . 91
KW_-2
CONTROL
	
14 . 70
13 .36
14 . 03
1. 34

C+N
14 . 65
16 . 02
13 . 05
14 .57
2 . 97

C+P
18 .19
13 . 58
17.45
16 .41
4 . 61
KW-3
CONTROL
20.28
14 . 88
17 . 75
17 . 64
5.40

C+N
22 .28
18 . 62
19 . 68
20.19
3 . 66

C+P
22 . 34
18 . 04
19.74
20 . 04
4 .30
KW-4
CONTROL
9. 19
7.23
7 . 94
8 .12
1. 96

C+N
11. 33
9 . 71
10 . 55
10 .53
1. 62

C+P
14 . 76
12 .29
13 . 79
13 .61
2.47
KW-5
CONTROL
24 . 89
21.48
22 . 93
23 .10
3.41

C+N
41.41
36.45
38 . 19
38.68
4 . 96

C+P
28 . 55
21. 86
24 . 7
25 . 04
6 .69
KW-6
CONTROL
24 . 56
14 .74
19 . 72
19.67
9 . 82

C+N
31.87
25.29
27. 94
28.37
6 . 58

C+P
22 .45
17.3
17.64
19.13
5 .15
*C+N = Control + Nitrogen
*C+P = Control + Phosphorus
Although there are no published marine AGPT dry weight levels which are
dicative of enrichment, the Florida Department of Environmental Protection
8

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considers a level of 10 mg/1 as enriched. Laboratory results indicate that
up-current stations KW-2 and KW-4 would be slightly enriched, boil stations
KW-1 and KW-5 were grossly enriched (42.9 and 23.1 mg/1) and, down-current
thin plume stations KW-3 and KW-6 are moderately enriched, but diluted
able 2).
Nutrient limitation studies indicate that the samples collected from the
boil or from within the plume were strongly nitrogen limited. The remaining
stations were co-limiting to both nitrogen and phosphorus, meaning both
nutrients were required to stimulate growths greater than the untreated
samples.
QUALITY ASSURANCE
Field activities and sampling protocols followed ESD standard operating
procedures (SOP) manuals.
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FIGURE 8
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FIGURE 9
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FIGURE 10
ENDECO Type 1 NORTH CURRENT METER ,py Current Meter
PROGRESSIVE VECTOR PLOT
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
i
-------
FIGURE 11
EAST CURRENT METER
OYSTER PLOT
KEY WEST OUTFALL STUDY - EAST-SOUTHEAST CURRENT METER
Speed Class Interval = 20.00
0
\
/
315
45
270
90
225
135
CD
OJ
/
\
nj
o
OJ
OJ
180
CD
OYSTER PLOT OF SPEED AND DIRECTION
o
From ll-MAY-94 Td 14-MAY-94
No. of Obs.
ENDEC0 Type 174SSM Solid State Memory Current Meter
-------
FIGURE 12
EAST CURRENT METER
POLAR HISTOGRAM
KEY WEST OUTFALL STUDY - EAST-SOUTHEAST CURRENT METER
225
135
180
POLAR HISTOGRAM OF DIRECTION
From ll-MAY-94 To 14-MAY-94
ENDECO Type 174SSM Solid State Memory Current Meter
-------
FIGURE 13
ENDECO Type 17< EAST CURRENT METER / Current Meter
PROGRESSIVE VECTOR PLOT
KEY WEST OUTFALL-STUDY - EAST-SOUTHEAST CURRENT METER
i
ro-
ro
LTl
o
o
-75.00
Displacement North [cm]	*104
0.00 - 75.00	150.00 225.00 300.00 375.00
~ ui
M.o
O) b
TJ O
QJ
CD -nj-
3 cji
CD
13
rf
o
o
m
CD q
W ¦ -
n
LTT
o
O
X
o ur
o
o
ro
ro-
CJl
o
o
-------
FIGURE 14
TIDE RECORD - KEY WEST AT TRUMBLE PT.
KEY WEST, FLORIDA MAY 11-14/94
5/11	5/12	5/13	5/14
DATE - TIME
-------
<
DC
LU
LL
ii i
FIGURE 15
KEY WEST POTW - EFFLUENT PUMP CYCLES
MAY 12- 13, 1994
10,000
Q.
CD
^ 8,000
LU
6,000
4,000
2,000
0
PUMP ON
PUMP OFF
t

m
mM
^ s *s
!:
K"! " 1
% -V:
¦rft ¦ ¦



m
1


JSB!!
S3
. .
0	4	8	12	16	20	24	28
ELAPSED TIME SINCE STARTING DYE RELEASE (HOURS)
-------
FIGURE 16
TRACER CONCENTRATION IN EFFLUENT
5/12 -13/94
2,000
Oh
£
o
M
H
2
H
Z
W
u
z
o
u
P4
W
U
2
1,500
AVERAGE TRACER CONCENTRATION IN THE EFFLUENT WAS 925 PPB
95% CONFIDENCE IS +/- 39 PPB
1,000 --
500 --
0
10	15	20
ELAPSED TIME (HOURS)
25
30
-------
A*
7 A
SA
SCALE
i	i
0	500
METERS
FIGURE 17
DYE TRACER ISOPLETHS (UG/L)
INITIAL PERIOD 1130-1530 5/12
KEY WEST, FL
MAY, 1994
-------
FIGURE 18
' DYE TRACER ISOPLETHS (UG/L)
LOW TIDE 1700-1945 5/12
KEY WEST, FL
MAY, 1994
-------
SCALE
i	1
0	300
METERS
A*
7 A
FIGURE 19
E TRACER ISOPLETHS (UG/L)
HIGH TIDE 0930-1330 5/13
KEY WEST, FL
MAY, 1994
-------
-------


J 8+
*12
A»
7 ~
SCALE
i	1
0	300
METERS
FIGURE 21
DYE TRACER ISOPLETHS (UG/L)
HIGH TIDE 1045-1400 5/14
KEY WEST, FL
MAY, 1994
-------
FIGURE 22
MODEL PREDICTIONS - ZONE OF INITIAL DILUTION
CORMIX MODEL - MAY,1994
20
15
z
o
t-H
H
D
-J
10 --
5 --
0
0
50	100	150
DISTANCE FROM OUTFALL (METERS)
200
-------
FIGURE 23
MODEL PREDICTIONS - NEAR FIELD DILUTION
CORMIX MODEL - MAY, 1994
DISTANCE FROM OUTFALL (METERS)
-------
FIGURE 24
MODEL PREDICTIONS - FAR FIELD DILUTION
CORMIX MODEL - MAY ,1994
DISTANCE FROM OUTFALL (METERS)
-------
FIGURE 25
MODEL PREDICTIONS - ZID
CORMIX MODEL - VARIABLE AMBIENT CURRENT
DISTANCE FROM OUTFALL (METERS)
-------
FIGURE 26
MODEL PREDICTIONS - NEAR FIELD
CORMIX MODEL - VARIABLE AMBIENT CURRENT
500
400
VELOCITY = 0.2 FPS (0.06 M/S) VELOCITY = 0.3 FPS (0.09 M/S) VELOCITY = 0.4 FPS (0.12 M/S)
	o			m			a	
VELOCITY = 0.5 FPS (0.15 M/S) VELOCITY = 0.6 FPS (0.18 M/S) VELOCITY = 0.7 FPS (0.21 M/S)
Z 300
o
I—I
H
D
J
3 200 -
/


- -
S3"
100	
0
I

.1
-o
-o
a
. O'
*-
#
"o7

.A ¦
¦ 9"
1
0
500	1,000	1,500
DISTANCE FROM OUTFALL (METERS)
2,000
-------
FIGURE 27
MODEL PREDICTIONS - ZONE OF INITIAL DILUTION
CORMIX MODEL - DIFFUSER ADDED
200
150 --
O
HH
H
P
i—I
100
50






/






/


-6-
0
50	100	150
DISTANCE FROM OUTFALL (METERS)
200
-------
FIGURE 28
MODEL PREDICTIONS - NEAR FIELD DILUTION
CORMIX MODEL - DIFFUSER ADDED
DISTANCE FROM OUTFALL (METERS)
-------
APPENDIX A
* WIND DATA *
-------
WIND DATA
TRUMBO PT
MAY 12-14
KEY WEST, FL
DATE
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
WIND
WIND
DIR
SPEED
DIR
STD DEV
M/S
DEG

2 . 929
140 .3
14 .36
2 .79
145 . 9
20 .17
2 . 889
159 .4
22 .25
2.859
167 .4
20 . 92
2 .543
165.8
23 .21
2.562
175 .1
29 . 87
3.156
165 .1
28.42
3.078
168 .8
26 .12
3 .171
189 .3
25 . 82
2.303
205.3
24 .44
2 . 724
228
22 . 86
2 . 908
190 . 9
25 .45
3 .192
218 .4
21 .44
3 . 899
243 .5
14 .41
4 .29
255 .4
8 . 63
4 .57
258 .3
7.37
4 . 243
256
11.89
4.2
259 .5
9 .97
3 . 755
257 . 8
11. 66
3.815
262
8 .47
3.947
256 .5
6.379
3 . 731
256.3
7 . 81
3.729
248 .5
8.53
3.369
250 . 3
11.19
3 . 69
254 . 7
7 . 98
3 .464
249 . 6
8 .11
3 .404
252
9 .56
3 . 393
267 . 8
21. 73
3 .169
294 . 5
12 .57
3.012
297.6
15 .52
2 . 693
295.6
15 .18
2 .281
1.493
31.34
2 . 976
9.55
27 .42
2 . 676
5 . 768
29 .47
2 .475
10 .17
30.5
2.656
11.85
25 .57
2.356
11.27
30 .19
2.319
13 .4
26.92
2 .237
12 .7
27 .75
2 .682
8 .79
21.53
2 .588
12 .41
24 .3
2.703
9.25
23 .24
2.334
11.27
26 . 72
2.276
8 . 98
25 . 64
2 .179
7 . 07
30 .22
1.954
7 .16
33 .6
2 .347
354 .2
34 .33
TIME
MIN
1020
1030
1040
1050
1100
1110
1120
1130
1140
1150
1200
1210
1220
1230
1240
1250
1300
1310
1320
1330
1340
1350
1400
1410
1420
1430
1440
1450
1500
1510
1520
1530
1540
1550
1600
1610
1620
1630
1640
1650
1700
1710
1720
1730
1740
1750
1800
Page 1
-------
WIND DATA
TRUMBO PT
MAY 12-14
KEY WEST, FL
DATE
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
12
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
WIND
WIND
DIR
SPEED
DIR
STD DEV
M/S
DEG

2 .58
5 . 664
30.88
2 .767
8.47
28 .27
2 .966
11 . 84
24
2 .992
14 .28
22 .55
2 .814
15.84
24 .49
2 . 91
13 .41
22 .47
2 .703
10 .3
24 .29
2 . 805
8 . 66
27 . 7
2 .774
7.83
25 .11
2 .509
9 . 77
25 . 31
2 . 718
10.38
24 . 6
2 .533
9.49
23 . 95
3 .129
7.46
27 .1
3 . 37
9.26
24 .37
3 .134
11 .34
20 .48
2 . 878
12 . 71
21. 9
3 .416
9 .12
21.4
3 .487
11.33
19.28
3 .491
11.27
21
3 .67
7.13
17.2
3 . 397
10 .19
19 .28
3 .763
13 .17
12 . 01
4 . 696
8 .23
16 .25
4 .33
8.63
15.93
4 .188
6 . 888
18 .31
3 . 987
10.23
12 . 25
4.669
6 .402
14 . 69
4.764
7.6
12 .19
4 .594
11.55
12 .14
4 .449
12.38
11.83
4.683
12 . 74
11. 58
4.592
7.65
15.34
4 .429
7.02
13 .63
4 . 527
11.69
11.8
4 . 671
7.14
14 .26
4 .412
9 . 76
12 .03
4.545
10.73
11.18
4 .184
7.41
15 .47
4 .053
6 . 771
20 . 65
4.408
6.94
17 . 71
4 . 713
5 . 883
17 .98
4 .457
7 . 95
18
4 . 976
6.662
16 .8
4 . 846
16.48
13 .14
4 . 922
14 . 6
10 .78
4 . 626
23 .14
11. 82
5.049
23.88
10.89
Page 2
TIME
MIN
1810
1820
1830
1840
1850
1900
1910
1920
1930
1940
1950
2000
2010
2020
2030
2040
2050
2100
2110
2120
2130
2140
2150
2200
2210
2220
2230
2240
2250
2300
2310
2320
2330
2340
2350
0
10
20
30
40
50
100
110
120
130
140
150
-------
WIND DATA
TRUMBO PT
MAY 12-14
KEY WEST, FL
DATE
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
WIND
WIND
DIR
SPEED
DIR
STD DEV
M/S
DEG

4 . 624
23 .77
11.18
4 .439
22 .64
11 .64
4 .435
29 .64
8 .96
4 .205
29.27
9 .53
3 . 628
31.93
8 .14
3 .918
31.14
8.38
3 . 641
31.4
7 .71
3 . 73
29 .88
8 .53
2 .234
47 .05
30.27
1.224
77 . 7
29 .78
2 .26
101.8
22 .11
2 .277
102 .4
15 .39
2 .348
104 . 6
17 . 88
1.194
90.3
19 .85
1.199
85
26.32
1. 077
69.8
27 . 8
1. 005
79.4
26 .49
.972
73 . 8
30
1 . 051
71. 3
33 . 08
. 896
48 .38
47 . 78
1.176
61.63
30.36
.845
44 .1
31.71
. 879
66 .45
31.88
. 821
65 .84
28 .62
. 888
68 .35
37 .52
1.712
98.3
20.59
1.805
103 .7
16 .93
1.352
99 .1
17 .25
1. 851
101.4
15 .22
2 .118
106.2
14 .67
1. 98
104 . 9
15 .19
1 .425
101.4
16 .97
1 .231
99 .1
16
1.254
97 . 8
18 .41
1.832
108.7
18 .02
1. 345
108 . 3
17 . 7
.943
87.1
26 .79
. 854
94.1
32 .1
.908
90.3
29.21
.825
87.7
27 .44
.965
102
34 .14
. 878
89 . 8
60.64
.663
69.86
33 .22
. 697
87.5
70.3
1
79.4
50 .76
. 823
49.85
51.4
.885
56 .74
45 .68
Page
3

TIME
MIN
200
210
220
230
240
250
300
310
320
330
340
350
400
410
420
430
440
450
500
510
520
530
540
550
600
610
620
630
640
650
700
710
720
730
740
750
800
810
820
830
840
850
900
910
920
930
940
-------
WIND DATA
TRUMBO PT
MAY 12-14
KEY WEST, FL
DATE
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
WIND
WIND
DIR
SPEED
DIR
STD DEV
M/S
DEG

2 . 552
102 .1
39.83
3 .413
112 . 9
17 .08
4 . 604
124 . 2
15 .59
4.912
130 .4
13 .16
4 .372
122 .5
20 .53
4 . 821
129 .5
16 .14
4 .178
114 . 8
15 .43
3 .325
121
17 .46
3 .174
122
15 .91
3 .282
115 . 9
17 .58
3 . 848
124 . 6
17 .4
4.44
126 .4
13 .77
5 . 028
127 .4
12 .95
4 .227
118.9
16 .41
3 . 829
120 .2
16 .82
3 .135
122 .5
27 .51
3 .522
119.6
16 .07
3 . 722
127 .3
19 .93
3 . 611
128 .3
17 .79
2 .402
106 . 3
20.46
2 . 832
117 . 2
16 .64
1. 321
92 .8
52 .83
1.01
56 . 92
47 .97
1.214
68 . 76
46 .62
1.144
70
25 .18
1.183
78.8
25 .13
1. 038
71. 8
23 .31
1. 031
78 . 7
34 .3
1.291
102 .1
34 .62
1.174
103 .3
42 .92
1.297
92 .1
53 .56
1 . 676
117 . 7
28 .01
2 . 781
126 .4
21.38
3 .192
132 .3
20.99
2 .393
115 .4
23 .14
1.256
88 .3
51.94
. 976
92 .3
52 .96
1. 746
127.7
36.56
1.538
111. 6
38 .07
1.499
104 .1
55 .21
2.43
130
48 .18
1.281
141.3
33 .81
1.315
347 .5
75
1.631
325 .1
27 .81
1.988
242 . 6
27 .61
1.679
294 .4
43 .87
1.315
324 .1
52 .61
Page 4
TIME
MIN
950
1000
1010
1020
1030
1040
1050
1100
1110
1120
1130
1140
1150
1200
1210
1220
1230
1240
1250
1300
1310
1320
1330
1340
1350
1400
1410
1420
1430
1440
1450
1500
1510
1520
1530
1540
1550
1600
1610
1620
1630
1640
1650
1700
1710
1720
1730
-------
WIND DATA
TRUMBO PT
MAY 12-14
KEY WEST, FL
DATE
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
13
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
WIND
WIND
DIR
SPEED
DIR
STD DEV
M/S
DEG

1.683
8 .35
27 .49
1.419
353
32 .59
1.449
345.3
35.98
1.383
347 . 8
34 .33
2.36
292 .5
18 .22
2 .207
284 . 8
13 . 71
1.648
265 .5
15.36
1.985
243 .1
20 .42
2 .162
292 .4
22 .33
1.936
146 .5
63 . 76
2 .432
115 . 7
19 . 64
3 .117
124 .3
16 . 62
3 .317
125 . 8
13 . 5
3 .459
127 .1
15 . 65
3 .677
129 . 7
10 . 19
3 .35
132 .4
10 . 65
3 .263
120 .5
15 . 03
2 .764
113 . 6
15 . 71
2 .258
106 .1
14 .52
2 .016
102 .1
19 .19
2 .254
101.6
15.63
2 .258
106 .1
15 . 99
2 .494
102 . 6
15 .47
2 .635
109 .1
15 .17
2 .361
106 .5
17 . 02
1.854
100 .3
18 . 84
2 .289
102 . 6
15 . 05
2 .379
107 .4
15.02
2 .519
105 .2
16 . 24
1.971
104 . 8
17 .48
2 .12
101
17 . 07
2 .062
100 .5
20.28
2 .094
101.5
17 .26
1 .997
103 .4
15 .57
1.921
103
29 . 08
2 .467
108 .2
16 . 01
2.386
106 . 8
14 .79
2 .365
105 .2
18.61
1.973
103 .5
16 .59
2 .556
106
15 .26
2 .692
110 .3
15 . 93
2 .348
103 .6
17 . 05
2 .476
105 .3
15.96
2 .854
106 .2
14 .56
2 .559
103 .6
14 . 65
2 .192
105 .3
16 .54
2 .352
104.3
16 .38
TIME
MIN
1740
1750
1800
1810
1820
1830
1840
1850
1900
1910
1920
1930
1940
1950
2000
2010
2020
2030
2040
2050
2100
2110
2120
2130
2140
2150
2200
2210
2220
2230
2240
2250
2300
2310
2320
2330
2340
2350
0
10
20
30
40
50
100
110
120
Page 5
-------
WIND DATA
TRUMBO PT
MAY 12-14
KEY WEST, FL
DATE
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
14
1994
5
13
1994
5
14
1994
5
14
1994
5
14
1994
WIND
WIND
DIR
SPEED
DIR
STD DEV
M/S
DEG

2 .429
105 .2
16 .55
2 . 86
106 .2
15 .42
2 .501
104 .5
16 .15
2 .483
104 .3
16 .88
2 .435
106
16 . 64
2 .332
105 .5
15 .61
2 .219
101.5
15 .97
1.933
104 . 9
15 .02
1. 904
105 .3
17 .24
2 .167
105 . 6
15 .42
2 . 001
105.9
17 .13
1.989
104 . 9
16 .57
2 . 612
109 . 7
15 .57
2 . 037
103 .6
16 .27
1. 798
102 .8
15 .43
1. 851
105 . 5
14 .43
1.75
104 . 7
17 .62
1. 692
101.4
15 .03
1. 825
102 .6
15 .82
1. 84
100
15
2 . 015
103 .3
15 .14
2 .064
103
15 .57
2 .192
103 . 7
15 .73
2 . 01
104 .4
16 .22
2 .002
103 .2
14 .77
2 .131
103 .7
15 .43
2 . 054
103 . 7
15 .79
1. 921
99 .3
15 .47
1. 812
102 .3
16 .61
1. 894
100 . 7
15 .18
1. 97
101
13 .77
2 .399
105 . 8
16 .4
2 .102
104 .2
15 .69
1.966
104 .3
14 .85
2 .093
101. 6
14 .78
2 .222
106 .3
16 .26
2 .501
110 .5
16 .08
2 .09
107
16 .3
2 .465
108
16 .77
2.616
113 .1
15 .87
2 .564
105
17 .24
2.479
102.9
18.87
2 .174
98
18.5
2.018
99.8
22 .4
2 . 025
98 .9
26 .83
2 . 593
107 . 8
20 .88
3 .357
113 . 8
15 . 6
TIME
MIN
130
140
150
200
210
220
230
240
250
300
310
320
330
340
350
400
410
420
430
440
450
500
510
520
530
540
550
600
610
620
630
640
650
700
710
720
730
740
750
800
810
820
830
840
850
900
910
Page 6
-------
- X
ST
TE
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
FL

TIME
WIND
WIND
DIR

MIN
SPEED
DIR
STD DEV


M/S
DEG

1994
920
2.934
113 .1
19.19
1994
930
3.4
110 . 6
15 .57
1994
940
3 .314
120
14 . 64
1994
950
3 .085
121.5
15 .34
1994
1000
2 . 758
116 .1
21.24
1994
1010
2 . 862
109.1
16.98
1994
1020
2 .482
109
20 .85
1994
1030
3 .621
111.1
14 .44
1994
1040
3.48
113 . 2
16 .1
1994
1050
3 .728
125 . 7
18 . 91
1994
1100
3 .137
128 .1
17 .51
1994
1110
3 . 087
125 .3
17 .33
1994
1120
4 .222
135 . 2
10 .49
1994
1130
4 . 348
139
9 . 97
1994
1140
4 .198
134 . 8
14 .5
1994
1150
3 . 618
127 . 4
15 .55
1994
1200
3 .88
134 .7
18 .43
1994
1210
2 . 861
112 .3
20.1
1994
1220
3 .603
122 .3
14 .53
1994
1230
3 .19
117 . 7
20 . 97
1994
1240
3 .426
128 .6
18 .25
1994
1250
3 .681
121. 5
17 .22
1994
1300
4 . 794
129.2
14 . 61
1994
1310
4 .552
127 . 6
14 .51
1994
1320
4 .439
124 .4
19.46
1994
1330
4 .83
119 . 2
17
1994
1340
4 . 718
117 .1
15 .58
1994
1350
4 .278
120.3
18.85
1994
1400
4.143
117 .3
17 .51
1994
1410
3 . 997
131
17 .15
1994
1420
4.489
124
15 .48
1994
1430
4 . 829
130 . 9
14 .44
1994
1440
5 . 073
132 .3
14 .19
1994
1450
4 .322
119 .3
21 . 58
2 . 744
Page 7
-------
APPENDIX A
* SOUTH CURRENT METER DATA *
-------
KEY WEST OUTFALL STUDY - SOUTH-SOUTHEAST CURRENT METER
O
lO~l
CO
in-
10
in	
131
¦i
Jy va-
132
133
134
135
136
137
13B
139
CJl
<\r
or
A
J vy
—i—
135
131
132
133
134
136
137
13B
139
ID
crn
o
CO
y*\
o
131
o
o
o
—I—
132
—I—
135
133
134
136
137
138
139
o
ID"
O
O
131
132
135
136
137
130
139
JULIAN DAYS	ll-MAY-94 to 14-MAY-94
Endeco Type 174SSM Current Meter
Page: 1
-------
KEY WEST OUTFALL STUDY - SOUTH-SOUTHEAST CURRENT METER
	1	1	1	1	1	i	i	i
131	132	133	134	135	136	137	130	139
JULIAN DAYS	ll-MAY-94 to 14-MAY-94
Endeco Type 174SSM Current Meter
Page: 1
-------
KEY WEST OUTFALL STUDY - SOUTH-SOUTHEAST CURRENT METER
131
I
135
136
137
138
I
139
\AA-a ft
—I—
132
—I—
134
131
133
—I—
135
—I—
136
137
138
139
JULIAN DAYS
ll-MAY-94 to 14-MAY-94
Endeco Type 174SSM Current Meter
Page: 1
-------
Record Period: ll-MAY-94 to 14-MAY-94
ENDECO Type	M Solid State Memory Current Meter
Speed	Direction Distribution
KEY WEST OUTFALL STUDY - SOUTH-SOUTHEAST CURRENT METER
SPEED
(CM/SC)
.10
. 20
.30
.40
.50
.60
. 70
. 80
. 90
1. 00
1.10
1.20
1.30
1.40
1.50
1. 60
1	. 70
1.80
1. 90
2	.00
30
60
90
DIRECTION
120	150	180	210
2	10	1
240
270
300
330
-------
TOTAL	0	2	2	14
PERCENT	.00 3.64 3.64 1.82 7.27
STATION AVERAGE = .242 (CM/SC)
19	6	0	1	3
34.55 10.91	.00 1.82 5.45 20.00 10.
-------
CO Type 174SSM Solid State Current Me	Page: 1
KEY nno-L OUTFALL STUDY - SOUTH-SOUTHEAST CURRENT" misTER	174SSM0046
Date: WED ll-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
12:30:00	29.89
12:40:00	31.65
12:50:00	33.66
13:00:00	36.93
13:10:00	38.43
13:20:00	40.19
13:30:00	48.22
13:40:00	55.00
13:50:00	57.52
14:00:00	54.26
14:10:00	51.74
14:20:00	57.77
14:30:00	55.51
14:40:00	57.77
14:50:00	59.52
15:00:00	59.28
15:10:00	61.79
15:20:00	54.75
15:30:00	24.37
15:40:00	32.65
15:50:00	51.24
16:00:00	49.73
16:10:00	57.52
16:20:00	52.75
16:30:00	46.97
16:40:00	46.47
16:50:00	44.96
17:00:00	37.93
17:10:00	33.15
17:20:00	27.38
17:30:00	29.89
17:40:00	23.10
17:50:00	16.82
18:00:00	12.31
18:10:00	2.01
18:20:00	6.28
18:30:00	2.51
18:40:00	3.27
18:50:00	4.77
19:00:00	8.29
19:10:00	7.79
19:20:00	12.56
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.16	56.31	35.70
27.16	56.46	35.81
27.55	56.78	35.74
27.45	56.62	35.70
27.55	56.62	35.63
27.84	57.09	35.73
27.84	57.09	35.73
28.04	57.09	35.59
28.04	57.09	35.59
28.14	57.25	35.62
28.33	57.41	35.59
28.33	57.41	35.59
28.43	57.57	35.62
28.43	57.57	35.62
28.53	57.72	35.66
28.53	57.72	35.66
28.72	57.88	35.62
28.82	58.04	35.66
28.92	58.04	35.58
29.21	58.67	35.80
29.21	58.51	35.69
29.51	58.82	35.69
29.51	58.82	35.69
29.70	59.14	35.76
29.90	59.29	35.72
29.70	59.14	35.76
30.00	59.45	35.75
29.90	59.14	35.61
29.80	59.14	35.68
29.80	59.14	35.68
29.90	59.45	35.83
29.51	58.98	35.79
29.02	58.19	35.62
29.12	58.51	35.76
29.02	58.35	35.73
28.82	58.04	35.66
28.72	58.04	35.73
28.72	58.04	35.73
28.82	58.19	35.77
28.82	58.19	35.77
28.92	58.04	35.58
28.92	58.19	35.69
DIR
(TRU)
137
143
145
147
154
159
162
161
162
159
162
164
165
165
167
168
167
169
169
169
172
174
174
174
174
172
178
174
176
176
175
167
171
176
178
178
228
302
318
325
328
331
-------
19:30:00
J.31
19:40:00
.56
19:50:00
13 . 81
20:00:00
10.55
20:10:00
2 .51
20:20:00
2 . 51
20:30:00
.51
20:40:00
1. 51
20:50:00
13 . 31
21:00:00
17 . 08
21:10:00
15 . 82
21:20:00
16 .08
28.82	58.19	35.77
28.92	58.04	35.58
28.92	58.19	35.69
28.92	58.04	35.58
28.82	58.04	35.66
28.72	58.04	35.73
28.63	57.88	35.69
28.33	57.41	35.59
28.53	57.72	35.66
28.14	56.94	35.40
27.55	56.78	35.74
27.65	56.78	35.66
330
327
331
332
338
344
167
344
344
347
345
339
-------
CO Type 174SSM Solid State Current Me	Page: 2
KEY Wilctl OUTFALL STUDY - SOUTH-SOUTHEAST CURREini i-inTER	174SSM0046
Date: WED ll-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
21:30:00
17 .58
21:40:00
17 .33
21:50:00
17 .33
22:00:00
15 .82
22:10:00
16 .33
22:20:00
15 .07
22:30:00
13 .31
22:40:00
13 .06
22:50:00
14 .32
23:00:00
14 .32
23:10:00
11 .05
23:20:00
10 .55
23:30:00
8 .04
23:40:00
6.28
23:50:00
5.77
Means:

TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.65	56.62	35.55
27.65	56.62	35.55
27.65	56.62	35.55
27.75	56.78	35.59
27.75	56.78	35.59
27.75	56.78	35.59
27.75	56.78	35.59
27.75	56.78	35.59
27.84	56.78	35.51
27.94	56.94	35.55
27.94	56.94	35.55
27.75	56.78	35.59
27.84	56.78	35.51
27.75	56.78	35.59
27.75	56.62	35.48
28.51	57.69	35.65
DIR
(TRU)
338
341
344
347
352
348
344
349
2
6
356
6
5
15
30
-------
CO Type 174SSM Solid State Current Me	Page: 3
KEY	OUTFALL STUDY - SOUTH-SOUTHEAST CURRL... .^TER	174SSM0046
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
00:00:00	2.01
00:10:00	2.76
00:20:00	5.53
00:30:00	8.54
00:40:00	12.31
00:50:00	16.82
01:00:00	3.77
01:10:00	18.09
01:20:00	28.89
01:30:00	30.14
01:40:00	31.14
01:50:00	33.91
02:00:00	32.90
02:10:00	39.18
02:20:00	43.95
02:30:00	46.72
02:40:00	50.99
02:50:00	51.49
03:00:00	48.47
03:10:00	51.74
03:20:00	50.74
03:30:00	49.98
03:40:00	54.75
03:50:00	53.75
04:00:00	51.99
04:10:00	55.00
04:20:00	54.75
04:30:00	54.75
04:40:00	49.98
04:50:00	54.00
05:00:00	50.48
05:10:00	44.21
05:20:00	50.74
05:30:00	48.98
05:40:00	41.19
05:50:00	40.19
06:00:00	37.93
06:10:00	34.41
06:20:00	30.65
06:30:00	24.37
06:40:00	18.33
06:50:00	15.32
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.94	57.09	35.66
28.04	57.09	35.59
27.84	56.78	35.51
27.75	56.78	35.59
27.55	56.46	35.51
27.65	56.62	35.55
27.55	56.46	35.51
27.45	56.46	35.59
27.36	56.31	35.55
27.36	56.31	35.55
27.45	56.46	35.59
27.65	56.62	35.55
27.65	56.62	35.55
27.94	56.94	35.55
27.84	56.94	35.62
27.75	56.78	35.59
28.04	57.25	35.70
27.94	57.09	35.66
28.24	57.41	35.66
28.33	57.41	35.59
28.24	57.57	35.77
28.33	57.57	35.70
28.24	57.57	35.77
28.43	57.57	35.62
28.63	57.72	35.58
28.63	57.72	35.58
28.63	57.88	35.69
28.63	57.88	35.69
28.82	58.04	35.66
28.82	58.04	35.66
28.92	58.19	35.69
29.02	58.35	35.73
29.02	58.35	35.73
29.02	58.35	35.73
29.12	58.35	35.65
29.21	58.51	35.69
29.12	58.51	35.76
29.12	58.51	35.76
29.21	58.51	35.69
29.02	58.35	35.73
29.02	58.35	35.73
29.02	58.35	35.73
DIR
(TRU)
54
100
113
124
124
133
131
138
143
145
147
151
158
161
164
159
159
162
162
165
165
165
167
167
168
167
171
168
169
171
169
171
172
174
172
174
176
176
176
174
167
167
-------
07:00:00
1. 56
07:10:00
4.52
07:20:00
1. 00
07:30:00
.25
07:40:00
2 . 01
07:50:00
8 . 54
08:00:00
11. 30
08:10:00
11. 81
08:20:00
11. 56
08:30:00
12 .31
08:40:00
10 . 80
08:50:00
16 .58
28.92	58.19	35.69
28.63	57.88	35.69
28.63	57.88	35.69
28.63	58.04	35.80
28.63	58.04	35.80
28.63	57.88	35.69
28.43	57.72	35.73
28.43	57.72	35.73
28.43	57.57	35.62
28.43	57.57	35.62
28.43	57.72	35.73
28.33	57.41	35.59
162
176
196
168
334
341
339
323
323
328
331
335
-------
(ECO Type
KEY	 OUTFALL
Date: THU 12-MAY-1994
TIME	SPEED
(CM/SC)
09:00:00	17.08
09:10:00	12.31
09:20:00	12.56
09:30:00	11.56
09:40:00	12.05
09:50:00	12.56
10:00:00	10.80
10:10:00 9.29
10:20:00 8.54
10:30:00 9.04
10:40:00 7.03
10:50:00 6.53
11:00:00 5.28
11:10:00 4.02
11:20:00 3.77
11:30:00 3.27
11:40:00 2.01
11:50:00 5.03
12:00:00 8.04
12:10:00	10.80
12:20:00	13.56
12:30:00	17.08
12:40:00	19.34
12:50:00	22.61
13:00:00	25.37
13:10:00	28.38
13:20:00	29.38
13:30:00	30.14
13:40:00	31.65
13:50:00	29.14
14:00:00	32.40
14:10:00	37.42
14:20:00	36.42
14:30:00	40.69
14:40:00	37.17
14:50:00	37.17
15:00:00	36.67
15:10:00	38.93
15:20:00	38.43
15:30:00	37.67
15:40:00	39.69
15:50:00	39.94
Solid State Current M
- SOUTH-SOUTHEAST CURR-
Julian date: 132
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
28.24	57.25	35.55
28.24	57.25	35.55
28.14	57.25	35.62
28.04	57.09	35.59
28.14	57.25	35.62
27.65	56.62	35.55
27.55	56.62	35.63
27.45	56.62	35.70
27.55	56.46	35.51
27.45	56.62	35.70
27.45	56.46	35.59
27.36	56.31	35.55
27.36	56.31	35.55
27.26	56.31	35.63
27.45	56.46	35.59
27.36	56.46	35.66
27.65	56.78	35.66
27.45	56.62	35.70
27.16	56.15	35.59
27.16	56.31	35.70
27.26	56.31	35.63
27.16	56.31	35.70
27.36	56.31	35.55
27.16	56.15	35.59
27.26	56.31	35.63
27.36	56.31	35.55
27.45	56.46	35.59
27.75	56.94	35.70
27.84	56.94	35.62
27.84	56.94	35.62
28.04	57.09	35.59
28.14	57.25	35.62
28.33	57.41	35.59
28.33	57.41	35.59
28.43	57.57	35.62
28.43	57.57	35.62
28.53	57.72	35.66
28.72	57.88	35.62
28.72	57.72	35.51
28.72	57.88	35.62
28.72	57.88	35.62
28.82	58.04	35.66
174SSM
STUDY
DIR
(TRU)
338
337
339
347
355
334
347
345
345
347
356
12
19
27
36
39
58
82
99
109
119
129
140
140
141
144
147
148
151
152
161
158
157
159
161
162
164
162
164
164
165
165
Page: 4
„ ..ETER	174SSM0046
Magnetic Variation: 2.5
-------
16:00:00	10.69
16:10:00	39.69
16:20:00	38.18
16:30:00	36.67
16:40:00	38.43
16:50:00	33.15
17:00:00	30.89
17:10:00	29.14
17:20:00	28.38
17:30:00	25.62
17:40:00	24.86
17:50:00	21.60
28.92	58.19	35.69
29.21	58.51	35.69
29.12	58.35	35.65
29.41	58.51	35.54
29.70	58.98	35.65
29.60	58.98	35.72
29.90	59.29	35.72
30.00	59.29	35.65
29.90	59.14	35.61
30.00	59.45	35.75
30.09	59.45	35.68
30.09	59.45	35.68
165
165
167
165
168
167
169
168
169
171
169
172
-------
'O Type
KEY . OUTFALL
Date: THU 12-MAY-19 9 4
TIME
SPEED

(CM/SC)
18:00:00
20.09
18:10:00
17 . 58
18:20:00
12 . 05
18:30:00
8 . 79
18:40:00
4 .77
18:50:00
3 .27
19:00:00
2 .26
19:10:00
. 00
19:20:00
.00
19:30:00
2 . 01
19:40:00
3 . 77
19:50:00
5 .53
20:00:00
6 .53
20:10:00
9 . 04
20:20:00
10 .80
20:30:00
12 .31
20:40:00
12 .05
20:50:00
12 .05
21:00:00
11.56
21:10:00
12 .56
21:20:00
15 . 57
21:30:00
13 . 06
21:40:00
12 . 05
21:50:00
11. 81
22:00:00
10 . 55
22:10:00
11.56
22:20:00
11. 56
22:30:00
11.30
22 :40:00
12 .31
22 :50:00
10.55
23:00:00
10 .30
23:10:00
9 . 04
23:20:00
7.03
23 :30:00
7 . 03
23 :40:00
6.03
23:50:00
6 .03
Solid State Current Met
- SOUTH-SOUTHEAST CURREN
Julian date: 132
TEMP	COND SALN
(C)	(MS/CM)	(PPT)
30.19	59.61	35.72
30.19	59.61	35.72
30.00	59.29	35.65
29.51	58.67	35.58
29.41	58.51	35.54
29.51	58.67	35.58
29.21	58.51	35.69
29.12	58.35	35.65
29.12	58.51	35.76
29.12	58.51	35.76
29.02	58.19	35.62
28.82	58.04	35.66
28.72	57.88	35.62
28.63	57.72	35.58
28.63	57.72	35.58
28.43	57.41	35.51
28.33	57.25	35.48
28.24	57.25	35.55
28.14	56.94	35.40
27.65	56.78	35.66
27.84	56.94	35.62
27.84	56.78	35.51
27.84	56.78	35.51
27.94	56.78	35.44
27.94	56.94	35.55
28.04	57.09	35.59
27.75	56.78	35.59
27.84	56.94	35.62
27.84	56.94	35.62
27.84	56.94	35.62
28.04	56.94	35.48
27.84	56.94	35.62
28.24	57.09	35.44
27.84	56.94	35.62
27.75	56.78	35.59
27.55	56.62	35.63
174SSM
STUDY
DIR
(TRU)
172
174
165
159
158
155
141
131
258
12
354
349
352
344
337
337
345
352
356
352
342
347
347
345
342
347
338
338
342
337
342
344
348
1
356
358
Means:
28 .35
57 .49
35 . 63
Page: 5
	TER	174SSM0046
Magnetic Variation: 2.5
-------
ICO Type 174SSM Solid State Current Me	Page: 6
KEY	OUTFALL STUDY - SOUTH-SOUTHEAST CURRENT- ivi£TER	174SSM0046
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
00:00:00
4 .52
00:10:00
3 .77
00:20:00
2 .51
00:30:00
2 . 76
00:40:00
2.26
00:50:00
3 . 01
01:00:00
3 .77
01:10:00
4 .27
01:20:00
6.53
01:30:00
9.80
01:40:00
10 .80
01:50:00
13 . 81
02:00:00
15 .32
02:10:00
17 .58
02:20:00
18.09
02:30:00
20 . 85
02:40:00
25 . 62
02:50:00
27 .38
03:00:00
30 . 89
03:10:00
33.41
03:20:00
35 .91
03:30:00
36 .67
03:40:00
34 .66
03:50:00
35 .66
04:00:00
38 .43
04:10:00
37 . 67
04:20:00
37 .17
04:30:00
36 . 93
04:40:00
40 . 94
04:50:00
35 .42
05:00:00
36 . 93
05:10:00
36.67
05:20:00
36 .17
05:30:00
37 .17
05:40:00
36 . 93
05:50:00
35 .17
06:00:00
4 .77
06:10:00
4 .27
06:20:00
21. 35
06:30:00
. 51
06:40:00
.51
06:50:00
.00
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.55	56.62	35.63
27.45	56.62	35.70
27.45	56.62	35.70
27.45	56.46	35.59
27.36	56.46	35.66
27.36	56.31	35.55
27.45	56.46	35.59
27.45	56.62	35.70
27.45	56.46	35.59
27.55	56.62	35.63
27.55	56.62	35.63
27.55	56.62	35.63
27.55	56.62	35.63
27.45	56.46	35.59
27.65	56.62	35.55
27.65	56.78	35.66
27.65	56.62	35.55
27.94	57.25	35.77
27.94	57.09	35.66
27.84	56.94	35.62
28.04	57.09	35.59
27.94	57.09	35.66
28.33	57.57	35.70
28.33	57.25	35.48
28.33	57.57	35.70
28.43	57.57	35.62
28.53	57.72	35.66
28.63	57.72	35.58
28.72	57.88	35.62
28.92	58.04	35.58
28.82	58.19	35.77
28.92	58.19	35.69
29.02	58.35	35.73
29.12	58.51	35.76
29.21	58.51	35.69
29.21	58.51	35.69
29.21	58.67	35.80
29.21	58.67	35.80
29.31	58.82	35.83
29.31	58.67	35.73
29.31	58.67	35.73
29.21	58.51	35.69
DIR
(TRU)
352
9
9
23
43
98
130
131
136
136
145
144
144
145
145
145
155
159
162
161
158
159
164
164
164
164
165
168
168
171
168
172
171
168
176
176
172
182
183
181
181
176
-------
07:00:00
. 00
07:10:00
. 00
07:20:00
. 00
07:30:00
.00
07:40:00
.00
07:50:00
. 00
08:00:00
. 00
08:10:00
.00
08:20:00
.00
08:30:00
.00
08:40:00
. 00
08:50:00
.51
29.21 58.51	35.69
29.02	58.19	35.62
28.82	58.04	35.66
28.53	57.72	35.66
28.63	57.72	35.58
28.63	57.72	35.58
28.72	58.04	35.73
28.82	58.04	35.66
28.72	58.04	35.73
28.82	58.04	35.66
27.75	56.78	35.59
27.75	56.78	35.59
174
169
186
171
55
157
82
292
124
300
296
302
-------
CO Type 174SSM Solid State Current Me'
KEY	OUTFALL STUDY - SOUTH-SOUTHEAST CURRE1,
Date: FRI 13-MAY-1994	Julian date: 133
TIME
SPEED
DIR
TEMP
COND
SALN

(CM/SC)
(TRU)
(C)
(MS/CM)
(PPT)
09:00:00
.00
311
27.65
56 . 78
35 . 66
09:10:00
. 00
320
27 . 65
56 . 78
35 . 66
09:20:00
.25
317
27 .55
56 . 62
35 . 63
09:30:00
. 00
323
27 .55
56 . 62
35 . 63
09:40:00
. 00
314
28 .33
57 . 57
35 .70
09:50:00
. 00
61
28 .53
57 . 88
35 . 77
10:00:00
. 00
335
28 .53
57 . 72
35 . 66
10:10:00
. 00
342
28 .43
57 . 72
35 . 73
10:20:00
. 00
359
28 . 33
57 . 5*7
35 . 70
10:30:00
. 00
344
27 . 94
57 . 09
35 . 66
10:40:00
. 00
325
27 . 55
56 . 62
35 . 63
10:50:00
. 00
321
27 . 55
56 . 62
35 . 63
11:00:00
. 00
325
27.55
56 . 62
35 . 63
11:10:00
.00
55
27 .55
56 . 62
35 . 63
11:20:00
.00
154
27 .65
56 . 78
35 . 66
11:30:00
. 00
158
27 .65
56 . 78
35 . 66
11:40:00
. 00
158
27 . 65
56 . 78
35 . 66
11:50:00
. 00
162
27 . 75
56 . 78
35 . 59
12:00:00
. 00
175
27 .75
56 . 78
35 . 59
12:10:00
.25
189
27 . 65
56 . 78
35 . 66
12:20:00
. 75
100
27 . 65
56 . 78
35 . 66
12:30:00
. 00
296
27 . 65
56 . 78
35 . 66
12:40:00
1.25
143
27 . 65
56 . 62
35 .55
12:50:00
4 . 52
145
27.65
56 . 78
35 . 66
13:00:00
. 25
150
27 .65
56 . 62
35 . 55
13:10:00
16 . 08
150
27 . 65
56 . 78
35 . 66
13:20:00
23 .61
147
27 .55
56.62
35 . 63
13:30:00
28.38
148
27 . 65
56 . 78
35 . 66
13:40:00
30 . 65
147
27 . 75
56 . 78
35 . 59
13:50:00
35 .17
148
27 .75
56 . 94
35 . 70
14:00:00
39.69
147
28 .04
57 .25
35 . 70
14:10:00
40 . 94
148
27 . 75
56 . 94
35 . 70
14:20:00
39 .43
154
27 .94
57 . 09
35 . 66
14:30:00
45 . 71
159
28 .24
57 .41
35 . 66
14:40:00
49 . 73
159
28 .24
57 .41
35 .66
14:50:00
46 .97
158
28 .33
57 .41
35 .59
15:00:00
50 . 74
161
28 . 53
57 . 72
35 . 66
15:10:00
54 .26
159
28 . 53
57 . 57
35 . 55
15:20:00
57 . 02
164
28 . 63
57 . 72
35 . 58
15:30:00
58 .27
162
28 . 72
57 . 88
35 . 62
15:40:00
55 .76
165
28 . 63
57 .88
35 . 69
15:50:00
58 . 52
164
28 . 82
57 . 88
35 . 55
Page: 7
...ETER	174SSM0046
Magnetic Variation: 2.5
-------
16:00:00	56.01
16:10:00	58.78
16:20:00	63.55
16:30:00	58.78
16:40:00	56.76
16:50:00	56.76
17:00:00	55.51
17:10:00	54.51
17:20:00	50.99
17:30:00	48.73
17:40:00	46.22
17:50:00	43.95
28.82	58.04	35.66
28.82	58.04	35.66
28.92	58.19	35.69
29.02	58.19	35.62
29.21	58.35	35.58
29.41	58.67	35.65
29.31	58.51 35.62
29.51	58.98 35.79
29.51	58.67	35.58
29.60	58.98	35.72
29.80	59.14	35.68
29.60	58.82	35.61
165
165
165
167
165
167
168
169
169
169
171
169
-------
CO Type
KEY V* DCTJL OUTFALL
Date: FRI 13-MAY-1994
TIME	SPEED
(CM/SC)
18:00:00
9 . 54
18:10:00
. 51
18:20:00
.25
18:30:00
. 51
18:40:00
.51
18:50:00
.75
19:00 : 00
2 .01
19:10:00
.25
19:20:00
13 . 06
19:30:00
6 . 78
19:40:00
.75
19:50:00
1.25
20:00:00
4 .27
20:10:00
8 .29
20:20:00
10 . 80
20:30:00
11 .30
20:40:00
10.30
20:50:00
10 .55
21:00:00
12 .81
21:10:00
14 .82
21:20:00
16 .33
21:30:00
16 .58
21:40:00
17 .33
21:50:00
17 . 84
22:00:00
17 .33
22:10:00
16 .58
22:20:00
17 .58
22:30:00
18 . 09
22:40:00
17 . 84
22:50:00
18 .58
23:00:00
20 .34
23:10:00
20 . 09
23:20:00
18 .33
23:30:00
16 .33
23:40:00
16 .58
23:50:00
16 .08
Means:

Solid State Current Me
- SOUTH-SOUTHEAST CURRE.
Julian date: 133
TEMP	COND SALN
(C)	(MS/CM)	(PPT)
29.70	58.98	35.65
29.80	59.14	35.68
29.70	58.98	35.65
29.60	58.98	35.72
29.80	58.98	35.58
29.60	58.82	35.61
29.51	58.82	35.69
29.70	59.14	35.76
29.70	59.14	35.76
29.31	58.67	35.73
29.21	58.67	35.80
29.21	58.51	35.69
29.12	58.35	35.65
28.82	58.04	35.66
28.82	58.19	35.77
28.82	58.04	35.66
28.82	58.04	35.66
28.72	58.04	35.73
28.72	57.88	35.62
28.72	58.04	35.73
28.53	57.72	35.66
28.63	57.88	35.69
28.43	57.41	35.51
28.24	57.25	35.55
28.14	57.09	35.51
28.04	56.94	35.48
28.14	57.09	35.51
28.04	57.09	35.59
27.84	57.09	35.73
27.84	56.94	35.62
27.84	56.94	35.62
27.75	56.78	35.59
27.75	56.94	35.70
27.75	56.78	35.59
27.84	56.94	35.62
27.84	57.09	35.73
28.39	57.57	35.65
174SSM
STUDY
DIR
(TRU)
171
169
172
174
174
172
174
178
172
174
181
341
352
337
321
320
330
332
341
338
338
339
341
344
348
352
349
342
341
321
327
328
331
328
324
323
Page: 8
.-.JTER	174SSM0046
Magnetic Variation: 2.5
-------
X) Type 174SSM Solid State Current Me	Page: 9
KEY V.n.cnI OUTFALL STUDY - SOUTH-SOUTHEAST CURRE^ ^TER	174SSM0046
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
00:00:00	15.07
00:10:00	14.32
00:20:00	13.31
00:30:00	12.81
00:40:00	11.05
00:50:00	9.54
01:00:00	8.29
01:10:00	7.28
01:20:00	6.03
01:30:00	4.02
01:40:00	3.52
01:50:00	6.03
02:00:00	10.05
02:10:00	13.06
02:20:00	14.82
02:30:00	13.31
02:40:00	17.84
02:50:00	23.86
03:00:00	26.62
03:10:00	32.15
03:20:00	35.66
03:30:00	35.66
03:40:00	37.93
03:50:00	39.94
04:00:00 48.47
04:10:00	50.74
04:20:00	49.23
04:30:00	50.74
04:40:00	49.98
04:50:00	52.24
05:00:00	53.50
05:10:00	54.51
05:20:00	55.00
05:30:00	58.02
05:40:00	56.51
05:50:00	46.72
06:00:00	50.48
06:10:00 47.98
06:20:00 39.43
06:30:00 35.66
06:40:00 33.91
06:50:00 29.14
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.84	57.09	35.73
27.84	56.94	35.62
27.84	56.94	35.62
27.75	56.78	35.59
27.75	56.94	35.70
27.75	56.94	35.70
27.75	56.94	35.70
27.75	56.94	35.70
27.94	56.94	35.55
27.75	56.94	35.70
27.75	56.94	35.70
27.75	56.94	35.70
27.75	56.94	35.70
27.75	56.94	35.70
27.84	56.94	35.62
27.94	57.09	35.66
27.84	56.94	35.62
27.84	56.94	35.62
28.04	57.25	35.70
27.94	57.09	35.66
27.75	56.78	35.59
27.84	57.09	35.73
27.94	57.09	35.66
28.04	57.09	35.59
27.84	56.94	35.62
28.04	57.25	35.70
28.24	57.41	35.66
28.33	57.41	35.59
28.24	57.41	35.66
28.33	57.57	35.70
28.24	57.41	35.66
28.33	57.57	35.70
28.24	57.57	35.77
28.43	57.72	35.73
28.43	57.72	35.73
28.43	57.72	35.73
28.53	57.88	35.77
28.63	57.88	35.69
28.63	57.88	35.69
28.72	58.04	35.73
28.72	58.04	35.73
28.53	57.72	35.66
DIR
(TRU)
324
325
316
302
300
303
296
290
297
287
226
196
181
168
168
175
172
164
162
157
155
158
164
168
164
161
167
167
169
169
171
172
169
175
176
176
182
185
179
185
186
193
-------
07:00:00	>3.36
07:10:00	L9 . 34
07:20:00	17.33
07:30:00	15.57
07:40:00	7.53
07:50:00	6.78
08:00:00	8.79
08:10:00	13.81
08:20:00	15.32
08:30:00	18.33
08:40:00	19.84
08:50:00	19.60
28.43	57.72	35.73
28.63	58.04	35.80
28.72	58.04	35.73
28.53	57.88	35.77
28.33	57.57	35.70
28.33	57.57	35.70
28.24	57.41 35.66
27.94	57.09	35.66
27.94	56.94	35.55
27.94	56.94	35.55
27.94	57.09	35.66
27.94	56.94	35.55
189
182
179
176
186
238
252
269
276
278
285
287
-------
X) Type 174SSM Solid State Current Met!	Page: 10
KEY	OUTFALL STUDY - SOUTH-SOUTHEAST CURREN1—TER	174SSM0046
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
09:00:00
22 .36
09:10:00
24 . 61
09:20:00
24 .37
09:30:00
22 .36
09:40:00
22 .36
09:50:00
23 . 61
10:00:00
22 .61
10:10:00
24 .61
10:20:00
25 .37
10:30:00
23 . 86
10:40:00
22 . 86
10 : 50:00
22 . 61
11:00:00
21. 60
11:10:00
19 . 60
11 : 20 : 00
18 . 84
11:30:00
17 .33
11 :40:00
14 .82
11 : 50 : 00
12 .81
12:00 : 00
12 .56
12:10:00
10 .05
12:20:00
8.29
12:30:00
5 .77
12 : 4 0:0 0
3 .01
12:5 0:0 0
. 75
13 : 00 : 00
.25
Means:

TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.94	56.94	35.55
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.84	57.09	35.73
27.94	57.09	35.66
27.94	57.25	35.77
28.04	57.25	35.70
28.04	57.25	35.70
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.25	35.77
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
27.94	57.09	35.66
28.06	57.24	35.67
DIR
(TRU)
292
292
296
300
302
302
302
302
303
306
313
314
311
311
313
316
316
316
317
323
314
318
323
321
138
-------
APPENDIX A
* NORTH CURRENT METER DATA *
-------
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
O
ID!
CD
ID"
CO
ID"
i\A"
V'
—i—
136
131
132
133
134
135
I
137
138
139
o
m"
CO
or
OS
A
IN ! ^

V
131
o
CD
rn
o
CD
o
131
o
o
o
—I—
132

132
—I—
133
133
134
135
136
137
138
139
135
136
I
137
138
—I
139
o
in*
AT vV\
o
131
JULIAN DAYS
	 I—
134	135
ll-MAY-94 to 14-MAY-94
I
136
137
138
139
Endeco Type 174SSM Current Meter
Page: 1
-------
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
	1—
131	132
JULIAN DAYS
—I—
133
134
I
135
136
137
138
139
ll-MAY-94 to 14-MAY-94
Endeco Type 174SSM Current Meter
Page: 1
-------
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
in—j
a: ^
s «
o
o
If)
r-»-
131
132
—I—
133
I
134
—I—
135
—I—
136
137
130
1
139
in —i
r--
CO c_3
¦< CO
UJ \
o
IT)

	1—
131	132
JULIAN DAYS


133
134
—I
135
—I—
136
—I
137
130
139
ll-MAY-94 to 14-MAY-94
Endeco Type 174SSM Current Meter
Page: 1
-------
ENDECO Type	SM Solid State Memory Current Meter
Power-spectral Densisty Listing
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
Record Period: ll-MAY-94 to 14-MAY-94
FREQUENCY	PERIOD	(CM*2/SECA2)/(CYCLE/HR)	95% CONFIDENCE - HIGH	95% CONFIDENCE - LOW
(CY/HR)
(HR)
SPEED
SPEED
SPEED
.000

.000
. 000
. 000
.036
27.801
38 .269
340 . 752
13 . 756
.072
13.900
350 . 507
1743 . 958
145 . 620
. 108
9 .267
556 . 724
2069.373
254 . 053
. 144
6.950
. 588
1. 825
.287
. 180
5.560
545.126
1492 . 854
280.311
.216
4 . 633
471.157
1176.053
252.536
.252
3 .972
3 . 926
9 .117
2 .177
.288
3 .475
26 .431
57.923
15 . 090
.324
3 . 089
144.616
302 . 078
84 . 641
.360
2 . 780
40 .368
80 . 977
24 .144
.396
2 . 527
268 . 675
520 . 568
163 . 798
.432
2 .317
225 .257
423 .466
139 . 690
.468
2 .139
1200 . 672
2198.044
756 . 094
.504
1. 986
11390.780
20366.940
7273 . 440
.540
1. 853
167.700
293 . 586
108.448
.576
1.738
128 . 261
220 .304
83.912
. 611
1.635
147.694
249.334
97 . 666
. 647
1.544
37 . 653
62 . 569
25 . 146
. 683
1.463
19.831
32 .479
13 .366
. 719
1.390
254.780
411.749
173.207
. 755
1.324
36.732
58 . 633
25.172
. 791
1.264
. 802
1.266
. 554
. 827
1.209
17.107
26 . 707
11.896
. 863
1.158
193.842
299.617
135 . 698
. 899
1.112
63.634
97 .439
44 . 829
5 .116
. 195
7 . 756
11.772
5 .497
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
.000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
.000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
-------
DATA POINTS USED SEGMENT LENGTH NO. SEGMENTS
442	512	1
SUMMARY
FREEDOM DECIMATION FACTOR FREQ. RESOLUTION NYQU
2	1	.036
-------
ENDECO Type	3M Solid State Memory Current Meter
Powej. o^ectral Densisty Listing
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
Record Period: ll-MAY-94 to 14-MAY-94
FREQUENCY	PERIOD	(CMA2/SEC^2)/(CYCLE/HR)	95% CONFIDENCE - HIGH	95% CONFIDENCE - LOW
(CY/HR)
(HR)
V (N)
V (E)
V (N)
V (E)
V (N)
V (E)
.000

. 000
.000
.000
.000
. 000
. 000
.036
27.801
552 . 289
.017
4917 . 683
. 153
198.527
. 006
. 072
13 . 900
22.955
11.593
114.213
57.684
9.537
4 . 817
. 108
9 .267
19 . 905
.131
73 . 990
.487
9 . 084
. 060
. 144
6 .950
505.677
17 .217
1569 .148
53.425
246.891
8 .406
. 180
5 .560
3799 . 979
17 .418
10406.430
47 .701
1954.001
8 . 957
.216
4 . 633
1524 . 676
5 .476
3805 . 737
13.668
817.214
2 . 935
.252
3 . 972
369 .450
.145
858 . 030
.336
204.917
. 080
.288
3 .475
474 . 338
1 .329
1039 .501
2 . 913
270.807
. 759
.324
3 . 089
953.374
5 .379
1991 .431
11.235
557.987
3 .148
.360
2 . 780
188.551
.306
378 . 228
. 615
112.772
. 183
.396
2 . 527
220.692
11.779
427 .599
22 . 823
134.545
7 .181
.432
2 .317
2 . 500
3 . 981
4 . 700
7 .484
1. 550
2 .469
.468
2 .139
321.570
19 .224
588.691
35 .193
202.501
12.106
. 504
1 . 986
1013.409
74 .155
1811.995
132 .591
647.099
47 . 351
.540
1.853
86 . 976
2 . 977
152.265
5 .211
56.245
1. 925
.576
1 . 738
8 .423
.352
14 .468
. 604
5 . 511
. 230
. 611
1. 635
27.958
.467
47 . 199
. 789
18.488
.309
. 647
1.544
4 . 683
5 . 939
7 . 781
9 . 869
3 .127
3 . 966
. 683
1.463
11. 715
.057
19 . 186
. 093
7 . 896
. 038
. 719
1.390
6 . 860
.145
11.087
.234
4 . 664
. 098
. 755
1. 324
.320
26 .062
.510
41. 602
.219
17.861
.791
1.264
8 . 993
.266
14 . 191
.420
6.209
. 184
. 827
1.209
5 . 027
.004
7 . 849
. 006
3.496
. 003
. 863
1.158
173.489
.403
268 .158
. 622
121.450
.282
.899
1.112
2 . 888
1 .152
4 . 421
1.764
2 . 034
. 812
5 . 116
.195
10 .549
.962
16 . 011
1.461
7 .476
. 682
.000
. 000
. 000
.000
. 000
.000
. 000
. 000
.000
.000
.000
.000
. 000
.000
. 000
. 000
.000
.000
. 000
.000
. 000
. 000
. 000
. 000
. 000
.000
.000
.000
. 000
. 000
.000
.000
.000
. 000
. 000
.000
. 000
. 000
. 000
. 000
. 000
.000
.000
.000
. 000
. 000
. 000
. 000
. 000
. 000
. 000
.000
. 000
. 000
. 000
. 000
.000
. 000
. 000
.000
. 000
. 000
. 000
. 000
-------
DATA POINTS USED SEGMENT LENGTH NO. SEGMENTS
442	512	1
SUMMARY
FREEDOM DECIMATION FACTOR FREQ. RESOLUTION NYQU
2	1	.036
-------
3C0 Type 174SSM Solid State Current Me	Page: 1
..JIST OUTFALL STUDY - NORTHWEST CURRENT	174SSM0182
Date: WED ll-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME
12:00:00
12:10:00
12:20:00
12:30:00
12:40:00
12:50:00
13 : 0 0:0 0
13:10:00
13:20:00
13 : 30 : 00
13 :40:00
13	: 50 : 00
14:00:00
14:10:00
14	:20:00
14:30:00
14:40:00
14:50:00
15:00:00
15:10:00
15:20:00
15	: 30 : 00
15:40:00
15:50:00
16:00:00
16:10:00
16:20:00
16	: 30:00
16 :40:00
16:50:00
17:00:00
17:10:00
17:20:00
17:30:00
17:40:00
17:50:00
18:00:00
18:10:00
18:20:00
18:30:00
18 : 40:00
18:50:00
V(N) V(E)
(CM/SC) (CM/SC)
-1
0
-8
1
-27
0
-29
-1
-32
-2
-44
-4
-44
-3
-61
-3
-57
-3
-47
-2
-67
-6
-57
-4
-51
-5
-60
-6
-61
-7
-54
-6
-71
-7
-46
-6
-56
-8
-57
-7
-54
-7
-57
-8
-45
-5
-56
-7
-46
-7
-43
-5
-40
-6
-35
-5
-34
-5
-29
-4
-32
-5
-17
-3
-17
-3
-6
-1
-6
-2
1
1
1
1
9
4
8
7
1
10
-7
0
-4
-1
-------
19:00:00
2
19:10:00
5
19:20:00
10
19:30:00
12
19 :40:00
17
19 : 50:00
16
20:00:00
15
20:10 : 00
27
20:20:00
20
20:30:00
33
20 : 40 : 00
24
20:50:00
26
1
0
0
1
1
0
1
2
0
0
1
0
-------
X) Type 174SSM Solid State Current Me	Page: 2
Kcx -™r.ST OUTFALL STUDY - NORTHWEST CURRENT	174SSM0182
Date: WED ll-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME
21:00:00
21:10:00
21:20:00
21:30:00
21:40:00
21:50:00
22:00:00
22:10:00
22:20:00
22:30:00
22	:40:00
22:50:00
23:00:00
23	:10:00
23:20:00
23:30:00
23 :40 : 00
23 :50:00
V(N) V(E)
(CM/SC) (CM/SC)
26
1
26
0
35
0
36
-2
23
-1
25
-1
24
1
21
2
12
1
13
1
9
1
13
1
6
0
16
2
5
0
4
0
-4
-1
-11
-2
-------
CO Type 174SSM Solid State Current Me	Page: 3
Kdx .mST OUTFALL STUDY - NORTHWEST CURRENT heteK	174SSM0182
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME
00:00:00
00:10:00
00:20:00
00:30:00
00:40:00
00:50:00
01:00:00
01:10:00
01:20:00
01:30:00
01:40 : 00
01:50:00
02:00:00
02:10:00
02:20:00
02:30:00
02:40:00
02:50:00
03:00:00
03:10:00
03:20:00
03:30:00
03 :40:00
03:50:00
04:00:00
04:10:00
04:20 : 00
04:30:00
04:40:00
04:50:00
05:00:00
05:10:00
05:20:00
05:30:00
05:40:00
05:50:00
06:00:00
06:10:00
06:20:00
06 : 30:00
06:40:00
06 : 50:00
V(N) V (E)
(CM/SC) (CM/SC)
-6
-1
-4
-1
-11
-12
12
-5
5
-2
-8
1
-16
1
-19
0
-31
-2
-42
-2
-40
-4
-41
-2
-48
-2
-58
-4
-48
-2
-42
-5
-50
-5
-58
-5
-51
-6
-53
-4
-59
-7
-54
-4
-51
-7
-45
-5
-55
-8
-49
-6
-38
-5
-51
-7
-45
-6
-40
-5
-38
-5
-35
-4
-21
-3
-25
-3
-16
-2
-19
-3
-10
-2
-10
-2
-12
-2
-2
0
2
1
8
3
-------
07:00:00
6
07:10:00
-7
07:20:00
-15
07:30:00
-11
07:40:00
0
07:50:00
17
08:00:00
18
08:10:00
19
08:20:00
19
08:30:00
10
08:40:00
34
08:50:00
27
4
6
2
2
0
3
0
1
2
1
1
0
-------
UO Type 174SSM Solid State Current Me	Page: 4
Km -wnST OUTFALL STUDY - NORTHWEST CURRENT METER	174SSM0182
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME
09:00:00
09:10:00
09:20:00
09:30:00
09:40:00
09:50:00
10:00:00
10:10:00
10:20:00
10:30:00
10:40:00
10:50:00
11:00:00
11:10:00
11:20:00
11:30:00
11:40:00
11:50:00
12:00:00
12:10:00
12:20:00
12:30:00
12:40:00
12:50:00
13:00:00
13:10:00
13:20:00
13:30:00
13:40:00
13:50:00
14:00:00
14:10:00
14:20:00
14:30:00
14:40:00
14:50:00
15:00:00
15:10:00
15:20:00
15:30:00
15:40:00
15:50:00
V (N) V (E)
(CM/SC) (CM/SC)
30
0
27
-1
25
-1
28
0
26
-1
34
-1
27
0
22
-1
30
-1
20
-1
18
0
10
1
10
1
1
0
0
0
-5
-1
-10
-2
-11
-6
-10
-15
15
-14
14
-6
1
0
-25
3
-18
0
-14
-1
-35
-1
-31
-3
-33
-2
-47
-3
-51
-3
-48
-2
-50
-4
-59
-5
-50
-5
-47
-4
-55
-6
-52
-4
-64
-6
-54
-6
-59
-6
-53
-6
-56
-7
-------
16:00:00
-61
16:10:00
-52
16:20:00
-49
16:30:00
-50
16:40:00
-43
16:50:00
-53
17:00:00
-41
17:10:00
-48
17:20:00
-24
17:30:00
-22
17 :40:00
-28
17:50:00
-34
5
6
6
5
5
6
5
5
3
3
4
4
-------
) Type 174SSM Solid State Current Me	Page: 5
KEx WES-f OUTFALL STUDY - NORTHWEST CURRENT mktjsk	174SSM0182
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME
18:00:00
18:10:00
18:20:00
18:30:00
18:40:00
18:50:00
19:00:00
19:10:00
19:20:00
19:30:00
19:40:00
19:50:00
20:00:00
20:10:00
20:20:00
20:30:00
20:40:00
20:50:00
21:00:00
21:10:00
21:20:00
21:30:00
21:40:00
21:50:00
22:00:00
22:10:00
22:20:00
22:30:00
22:40:00
22:50:00
23:00:00
23:10:00
23:20:00
23:30:00
23:40:00
23:50:00
V(N) V(E)
(CM/SC) (CM/SC)
-19
-3
-9
-2
-8
-2
8
2
13
4
9
8
5
17
-7
6
-7
1
7
2
4
1
12
2
15
0
13
-1
11
-1
10
-1
18
-1
26
-1
29
-2
15
-1
19
-1
26
-1
19
0
34
-1
12
0
19
1
21
2
19
1
19
1
20
1
14
1
6
0
10
1
12
0
15
2
5
0
-------
.'0 Type 174SSM Solid State Current	Page: 6
KLi wcdT OUTFALL STUDY - NORTHWEST CURRENT muths*.	174SSM0182
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
00:00:00
00:10:00
00:20:00
00:30:00
00:40:00
00:50:00
01:00:00
01:10:00
01:20:00
01:30:00
01:40:00
01:50:00
02:00:00
02:10:00
02:20:00
02:30:00
02:40:00
02:50:00
03:00:00
03:10:00
03:20:00
03:30:00
03:40:00
03:50:00
04:00:00
04:10:00
04:20:00
04:30:00
04:40:00
04:50:00
05:00:00
05:10:00
05:20:00
05:30:00
05:40:00
05:50:00
06:00:00
06:10:00
06:20:00
06:30:00
06:40:00
06:50:00
V (N) V (E)
(CM/SC) (CM/SC)
7
0
1
0
1
0
-9
-1
-8
0
3
0
0
0
5
-2
-2
0
0
0
-16
0
-17
0
-28
-2
-35
-2
-38
-4
-38
-2
-49
-3
-56
-4
-57
-2
-50
-5
-53
-4
-49
-6
-42
-4
-49
-6
-45
-4
-43
-6
-46
-6
-41
-6
-36
-4
-39
-5
-43
-7
-33
-4
-32
-4
-29
-5
-29
-4
-19
-3
-10
-1
-24
-5
-13
-1
-12
-1
-9
-1
-1
0
-------
07:00:00
0
07:10:00
4
07:2 0:00
8
07:30:00
5
07:40:00
-9
07:50:00
-8
08:00:00
-8
08:10:00
0
08:20:00
0
08:30:00
9
08:40:00
12
08:50:00
13
0
1
4
8
7
1
2
0
0
1
0
1
-------
> Type 174SSM Solid State Current Me	Page: 7
KfclY^WEST OUTFALL STUDY - NORTHWEST CURRENT METKK	174SSM0182
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
09:00:00
09:10:00
09:20:00
09:30:00
09 :40:00
09:50:00
10:00:00
10:10:00
10:20:00
10:30:00
10:40:00
10:50:00
11:00:00
11:10:00
11:20:00
11:30:00
11:40:00
11:50:00
12:00:00
12:10:00
12:20:00
12:30:00
12:40:00
12:50:00
13:00:00
13:10:00
13:20:00
13:30:00
13:40:00
13:50:00
14:00:00
14 :10:00
14:20:00
14:30:00
14:40:00
14:50:00
15:00:00
15:10:00
15:20:00
15:30:00
15:40:00
15:50:00
V (N) V (E)
(CM/SC) (CM/SC)
18
0
14
0
13
-1
13
0
16
0
28
-1
22
-1
13
-1
12
0
13
-1
10
0
10
0
14
0
18
-1
4
0
4
0
1
0
-7
0
-4
-1
-2
0
1
0
-11
-2
-1
0
0
0
-1
0
-2
0
-16
0
-24
0
-24
-1
-49
-2
-43
-4
-46
-2
-53
-3
-64
-3
-57
-5
-59
-4
-57
-5
-59
-5
-61
-6
-74
-8
-54
-6
-52
-6
-------
16:00:00
-52
16:10:00
-62
16:20:00
-50
16:30:00
-63
16:40:00
-63
16:50:00
-55
17:00:00
-47
17:10:00
-56
17:20:00
-51
17:30:00
-44
17:40:00
-44
17:50:00
-42
6
8
6
8
6
7
6
7
6
6
5
6
-------
:0 Type 174SSM Solid State Current Mel	Page: 8
KEi «cdT OUTFALL STUDY - NORTHWEST CURRENT Nibiek	174SSM0182
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
18:00:00
18:10 :00
18:20 :00
18:30:00
18:40:00
18:50 :00
19:00:00
19:10:00
19:20:00
19:30:00
19:40:00
19:50:00
20:00:00
20:10:00
20:20:00
20:30:00
20:40 : 00
20:50:00
21:00:00
21:10:00
21:20:00
21:30:00
21:40:00
21:50:00
22:00:00
22:10:00
22:20:00
22:30:00
22:40:00
22	: 50:00
23	:00:00
23:10:00
23:20: 00
23 : 30:00
23 :40 :00
23 : 50 :00
V (N) V (E)
(CM/SC) (CM/SC)
-21
-3
-20
-3
-25
-5
-26
-4
-8
-1
-6
-1
-7
-3
-1
-1
7
5
3
8
-5
10
-16
-1
0
0
13
2
21
3
21
0
16
-1
16
0
16
0
14
1
28
-1
24
-1
30
0
27
1
33
1
27
1
34
0
42
-3
32
-2
34
-3
21
-1
23
-1
17
-1
27
-1
23
0
13
0
-------
TO Type 174SSM Solid State Current Me	Page: 9
K__ 	3T OUTFALL STUDY - NORTHWEST CURRENT	174SSM0182
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME
00:00:00
00:10:00
00:20:00
00:30:00
00:40:00
00:50:00
01:00:00
01:10:00
01:20:00
01:30:00
01:40:00
01:50:00
02:00:00
02:10:00
02:20:00
02:30:00
02:40:00
02:50:00
03:00:00
03:10:00
03:20:00
03:30:00
03:40:00
03:50:00
04:00:00
04:10:00
04:20:00
04:30:00
04:40:00
04:50:00
05:00:00
05:10:00
05:20:00
05:30:00
05:40:00
05:50:00
06:00:00
06:10:00
06:20:00
06:30:00
06:40:00
06:50:00
V (N) V (E)
(CM/SC) (CM/SC)
10
0
20
0
14
0
8
0
13
0
10
0
4
0
0
0
-4
0
-6
0
-16
-2
-4
2
5
1
4
0
-7
0
-17
0
-18
1
-40
-2
-40
-3
-38
-4
-45
-4
-47
-3
-56
-4
-63
-6
-62
-5
-52
-6
-62
-7
-55
-8
-45
-4
-40
-6
-47
-7
-33
-5
-42
-8
-40
-5
-31
-5
-32
-6
-36
-6
-31
-5
-17
-3
-25
-8
-18
-4
-22
-5
-------
07:00:00
-20
-6
07:10:00
-21
-6
07:20:00
-23
-7
07 :30:00
-9
-4
07 :40:00
-13
-5
07:50:00
-3
-2
08:00:00
3
2
08:10:00
0
0
08:20:00
3
7
08:30:00
-14
11
08:40:00
-3
0
08:50:00
1
0
-------
0 Type 174SSM Solid State Current Me	Page: 10
Km ivfibT OUTFALL STUDY - NORTHWEST CURRENT WJiTKK	174SSM0182
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME
09:00:00
09:10:00
09:20:00
09:30:00
09:40:00
09:50:00
10:00:00
10:10:00
10:20:00
10:30:00
10:40:00
10:50:00
11:00:00
11:10:00
11:20:00
11:30:00
11:40:00
11:50:00
12:00:00
12:10:00
12:20:00
12:30:00
12:40:00
12:50:00
13:00:00
13:10:00
13:20:00
13:30:00
V (N) V (E)
(CM/SC) (CM/SC)
11
1
12
1
16
1
21
1
13
1
32
1
17
0
22
-2
31
-3
32
-3
22
-2
28
-2
14
-1
20
-1
23
-1
15
-1
19
-1
6
-1
4
-1
9
-1
3
0
-6
1
-8
3
-3
2
-3
12
9
5
10
-3
-1
0
-------
.10
.20
.30
.40
. 50
. 60
. 70
.80
. 90
. 00
. 10
. 20
.30
.40
.50
.60
. 70
.80
.90
. 00
ENDECO Type	M Solid State Memory Current Meter
Speed ana Direction Distribution
KEY WEST OUTFALL STUDY - NORTHWEST CURRENT METER
11-MAY-94 to 14-MAY-94
30	60	90
120
150
DIRECTION
180	210
240
270
300
1
1
1
1
1
1
1
1
-------
TOTAL	6	2	0	0	1
PERCENT	21.43 7.14	.00	.00 3.57
STATION AVERAGE = .825 (CM/SC)
4	6	0	0	1	5
14.29 21.43	.00	.00 3.57 10.71 17.86
-------
!0 Type 174SSM Solid State Current Me	Page: 1
Kqi— *vndT OUTFALL STUDY - NORTHWEST CURRENT MmsK	174SSM0182
Date: WED ll-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
12:00:00	1.26
12:10:00	8.33
12:20:00	26.76
12:30:00	29.13
12:40:00	32.05
12:50:00	43.94
13:00:00	44.05
13:10:00	60.61
13:20:00	56.61
13:30:00	47.01
13:40:00	66.89
13:50:00	56.81
14:00:00	51.33
14:10:00	60.33
14:20:00	61.78
14:30:00	54.40
14:40:00	71.47
14:50:00	46.77
15:00:00	56.65
15:10:00	57.21
15:20:00	54.78
15:30:00	57.39
15:40:00	45.56
15:50:00	56.21
16:00:00	46.47
16:10:00	43.14
16:20:00	40.84
16:30:00	35.81
16:40:00	34.19
16:50:00	28.86
17:00:00	31.99
17:10:00	17.67
17:20:00	16.91
17:30:00	5.63
17:40:00	6.63
17:50:00	1.38
18:00:00	1.49
18:10:00	10.06
18:20:00	11.03
18:30:00	9.95
18:40:00	7.43
18:50:00	3.81
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.36	56.51	35.71
27.42	56.54	35.67
27.46	56.67	35.75
27.51	56.73	35.77
27.65	56.82	35.67
27.85	57.01	35.68
27.67	56.82	35.68
27.88	56.98	35.62
27.92	56.98	35.62
27.94	57.13	35.72
28.14	57.29	35.67
28.16	57.29	35.63
28.26	57.35	35.59
28.26	57.29	35.56
28.35	57.45	35.56
28.39	57.48	35.59
28.55	57.57	35.54
28.55	57.66	35.57
28.63	57.76	35.59
28.63	57.63	35.50
28.68	57.76	35.61
28.84	57.97	35.57
28.70	57.72	35.51
29.23	58.47	35.60
29.29	58.53	35.64
29.03	58.13	35.57
29.46	58.78	35.72
29.09	58.13	35.53
29.39	58.65	35.64
29.48	58.72	35.63
29.11	58.25	35.58
29.31	58.50	35.60
29.52	58.75	35.61
29.48	58.75	35.64
29.58	58.90	35.70
29.56	58.75	35.61
29.46	58.65	35.59
29.46	58.65	35.60
29.52	58.72	35.60
29.31	58.47	35.61
28.94	57.94	35.50
28.88	57.91	35.52
DIR
(TRU)
168
175
178
182
183
184
183
183
182
182
185
184
185
185
186
185
185
187
187
187
187
187
186
186
188
186
189
188
189
188
188
190
191
189
196
23
28
25
41
86
176
187
-------
19:00:00	(2.12
19:10:00	4.59
19:20:00	10.30
19:30:00	12.01
19:40:00	16.67
19:50:00	16.27
20:00:00	14.86
20:10:00	27.42
20:20:00	20.06
20:30:00	33.33
20:40:00	24.51
20:50:00	25.52
28.51	57.45	35.46
28.47	57.63	35.63
28.55	57.82	35.69
28.51	57.82	35.75
28.26	57.51	35.73
27.75	56.95	35.68
27.73	56.95	35.70
27.90	57.13	35.72
27.96	57.13	35.70
27.67	56.86	35.69
27.67	56.95	35.78
27.69	56.92	35.75
15
2
1
356
355
358
355
356
359
0
2
1
-------
to Type 174SSM Solid State Current Mel	Page: 2
KEj. ™^oT OUTFALL STUDY - NORTHWEST CURRENT METER	174SSM0182
Date: WED ll-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
21:00:00
25 .51
21:10:00
26 .47
21:20:00
34 . 65
21:30:00
35 .56
21:40:00
22 . 71
21:50:00
25 .26
22:00:00
24 .21
22:10:00
21. 24
22:20:00
12 . 24
22:30:00
13 . 09
22:40:00
9 .29
22:50:00
12 . 90
23:00:00
6 .42
23:10:00
15 . 87
23:20:00
5.38
23:30:00
3 . 67
23:40:00
4 . 52
23:50:00
11 . 39
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.71	56.95	35.72
27.81	57.13	35.80
28.06	57.23	35.67
28.10	57.29	35.68
28.00	57.29	35.77
27.96	57.20	35.75
27.77	57.01	35.75
27.61	56.82	35.76
27.59	56.73	35.65
27.67	56.86	35.70
27.50	56.70	35.71
27.48	56.70	35.77
27.42	56.61	35.68
27.40	56.61	35.75
27.44	56.61	35.69
27.38	56.54	35.73
27.40	56.54	35.65
27.40	56.64	35.76
DIR
(TRU)
1
0
359
357
357
357
1
4
3
4
5
4
4
5
4
6
187
188
Means:
28 . 31
57.48
35 . 65
-------
CO Type 174SSM Solid State Current Me'	Page: 3
K^i-muST OUTFALL STUDY - NORTHWEST CURRENT hnriwi	174SSM0182
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
00:00:00	5.74
00:10:00	4.49
00:20:00	16.38
00:30:00	12.86
00:40:00	5.53
00:50:00	7.69
01:00:00	15.68
01:10:00	18.53
01:20:00	31.14
01:30:00	42.39
01:40:00	40.63
01:50:00	41.14
02:00:00	48.12
02:10:00	58.06
02:20:00	48.32
02:30:00	41.99
02:40:00	50.33
02:50:00	58.56
03:00:00	51.13
03:10:00	52.78
03:20:00	59.10
03:30:00	54.49
03:40:00	51.66
03:50:00	44.95
04:00:00	55.06
04:10:00	49.83
04:20:00	38.66
04:30:00	51.34
04:40:00	45.56
04:50:00	40.04
05:00:00	38.77
05:10:00	35.56
05:20:00	21.04
05:30:00	24.89
05:40:00	16.32
05:50:00	19.38
06:00:00	10.50
06:10:00	10.09
06:20:00	12.26
06:30:00	2.08
06:40:00	2.35
06:50:00	8.21
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.42	56.58	35.69
27.44	56.61	35.69
27.59	56.82	35.72
27.53	56.76	35.75
27.38	56.54	35.73
27.46	56.73	35.78
27.55	56.82	35.80
27.59	56.73	35.66
27.59	56.76	35.68
27.77	56.98	35.74
27.85	57.10	35.75
27.67	56.79	35.64
27.69	56.89	35.72
27.96	57.17	35.72
27.94	57.13	35.68
28.14	57.45	35.78
28.20	57.48	35.74
28.22	57.51	35.73
28.22	57.48	35.75
28.33	57.54	35.68
28.29	57.60	35.75
28.66	57.91	35.70
28.43	57.72	35.77
28.74	58.03	35.71
28.63	57.97	35.73
28.68	58.03	35.75
28.74	58.00	35.71
28.68	57.91	35.67
28.74	58.07	35.74
28.70	57.94	35.71
28.64	57.85	35.64
28.64	57.94	35.75
28.59	57.60	35.52
28.61	57.79	35.66
28.68	57.88	35.61
28.68	57.88	35.63
28.59	57.66	35.54
28.47	57.54	35.59
28.53	57.63	35.59
28.51	57.63	35.60
28.59	57.76	35.69
28.78	58.00	35.69
DIR
(TRU)
193
197
226
339
338
175
176
179
183
183
184
183
182
183
181
186
185
185
186
184
187
184
187
186
187
186
187
187
187
187
187
186
188
187
187
189
190
191
190
187
17
22
-------
07:00:00	6.75
07:10:00	9.21
07:20:00	15.40
07:30:00	11.69
07:40:00	.16
07:50:00	17.63
08:00:00	18.16
08:10:00	18.62
08:20:00	19.24
08:30:00	10.40
08:40:00	34.31
08:50:00	26.55
28.84	58.13	35.67
28.57	57.79	35.68
28.51	57.63	35.60
28.39	57.41	35.58
28.33	57.38	35.54
28.14	57.26	35.60
28.06	57.32	35.69
27.69	56.92	35.76
27.59	56.76	35.68
27.63	56.89	35.77
27.59	56.79	35.70
27.48	56.64	35.71
32
136
188
190
32
9
0
356
355
353
358
359
-------
10 Type 174SSM Solid State Current Me	Page: 4
KEYTTEST OUTFALL STUDY - NORTHWEST CURRENT METER	174SSM0182
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
09:00:00	30.44
09:10:00	26.52
09:20:00	24.86
09:30:00	28.27
09:40:00	26.12
09:50:00	34.36
10:00:00	26.67
10:10:00	22.00
10:20:00	29.53
10:30:00	20.49
10:40:00	18.22
10:50:00	9.85
11:00:00	10.05
11:10:00	.68
11:20:00	.35
11:30:00	4.96
11:40:00	10.30
11:50:00	12.82
12:00:00	18.61
12:10:00	20.46
12:20:00	15.70
12:30:00	1.50
12:40:00	25.16
12:50:00	17.96
13:00:00	14.46
13:10:00	35.10
13:20:00	30.88
13:30:00	33.14
13:40:00	46.95
13:50:00	50.88
14:00:00	48.41
14:10:00	50.47
14:20:00	59.51
14:30:00	50.43
14:40:00	47.34
14:50:00	55.69
15:00:00	51.84
15:10:00	64.45
15:20:00	54.74
15:30:00	59.00
15:40:00	53.75
15:50:00	56.46
TEMP COND	SALN
(C)	(MS/CM)	(PPT)
27.38	56.58	35.71
27.38	56.61	35.71
27.40	56.61	35.74
27.38	56.61	35.75
27.36	56.58	35.74
27.36	56.54	35.75
27.50	56.73	35.73
27.69	56.92	35.70
27.87	57.10	35.71
27.83	57.01	35.70
27.63	56.76	35.65
27.50	56.73	35.74
27.53	56.73	35.71
27.50	56.79	35.81
27.50	56.73	35.77
27.57	56.82	35.74
27.46	56.67	35.72
27.44	56.67	35.73
27.44	56.61	35.69
27.42	56.64	35.72
27.48	56.79	35.78
27.53	56.73	35.72
27.59	56.82	35.73
27.73	56.95	35.74
27.83	57.04	35.74
27.94	57.17	35.72
27.92	57.13	35.68
27.88	57.13	35.74
28.08	57.32	35.74
28.18	57.35	35.71
28.20	57.38	35.65
28.31	57.51	35.65
28.33	57.48	35.63
28.45	57.60	35.63
28.49	57.63	35.65
28.49	57.69	35.69
28.66	57.82	35.63
28.64	57.82	35.63
28.66	57.88	35.65
28.72	57.91	35.66
28.78	57.94	35.62
28.86	58.03	35.63
DIR
(TRU)
359
358
358
359
358
357
0
358
357
357
359
5
7
335
310
190
193
208
235
316
335
342
174
179
183
182
185
183
183
182
182
184
185
185
184
186
184
185
186
186
186
187
-------
16:00:00	0.74
16:10:00	-2.58
16:20:00	49.06
16:30:00	50.23
16:40:00	43.69
16:50:00	53.70
17:00:00	41.49
17:10:00	48.12
17:20:00	23.96
17:30:00	22.39
17:40:00	28.12
17:50:00	34.18
28.78	57.85	35.58
29.01	58.25	35.69
28.96	58.13	35.57
29.37	58.59	35.63
29.39	58.69	35.70
29.21	58.31	35.55
29.42	58.69	35.64
29.56	58.84	35.66
29.39	58.56	35.62
29.66	58.96	35.66
29.37	58.53	35.63
29.44	58.62	35.55
184
186
187
186
186
186
186
186
186
187
187
187
-------
^0 Type 174SSM Solid State Current Me	Page: 5
Khx	OUTFALL STUDY - NORTHWEST CURRENT mutter	174SSM0182
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
18:00:00
19 .59
18:10:00
9 .54
18:20:00
8 .64
18:30:00
7.81
18:40:00
13 .91
18:50:00
12 .23
19:00:00
17 .32
19:10:00
9 .00
19:20:00
7.40
19:30:00
7 .13
19:40:00
3 .57
19:50:00
12 .36
20:00:00
14 .86
20:10:00
12 .75
20:20:00
11.30
20 :30:00
9 .88
20:40:00
17 . 73
20:50:00
25 .62
21:00:00
28.93
21 : 10:00
15 .02
21:20:00
18 .93
21:30:00
25 .87
21:40:00
18 . 73
21:50:00
34 .00
22 :00:00
11 .87
22:10:00
19 .34
22:20:00
21.19
22:30:00
19 .38
22:40:00
18 .93
22:50:00
19 .54
23:00:00
14 .47
23:10:00
5 .73
23:20:00
10 .50
23:30:00
12 .39
23:40:00
15 .52
23:50:00
5 .18
Means:

TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
29.68	58.90	35.60
29.74	59.06	35.67
29.87	59.21	35.67
29.87	59.24	35.71
29.72	59.03	35.64
29.76	59.06	35.68
29.77	59.03	35.60
29.77	59.15	35.72
29.40	58.53	35.54
29.17	58.31	35.64
28.55	57.60	35.55
28.59	57.66	35.55
28.53	57.72	35.62
28.55	57.79	35.68
28.43	57.69	35.69
28.08	57.35	35.73
27.96	57.26	35.73
27.88	57.20	35.81
27.96	57.20	35.73
28.12	57.32	35.71
28.20	57.45	35.72
28.31	57.60	35.73
28.29	57.48	35.65
28.22	57.48	35.69
28.04	57.26	35.70
27.81	57.07	35.73
27.73	56.92	35.68
27.73	56.92	35.70
27.69	57.01	35.81
27.71	56.95	35.70
27.67	56.89	35.71
27.69	56.95	35.74
27.67	56.98	35.79
27.71	56.92	35.72
27.65	56.82	35.70
27.65	56.86	35.71
28.26	57.48	35.69
DIR
(TRU)
190
191
193
14
15
43
74
138
172
20
10
7
1
357
355
354
356
358
356
356
357
357
358
358
0
4
4
2
2
2
2
3
3
1
5
2
-------
CO Type 174SSM Solid State Current Me	Page: 6
Kux-msST OUTFALL STUDY - NORTHWEST CURRENT wh-ijik	174SSM0182
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
00:00:00	6.62
00:10:00	1.17
00:20:00	1.42
00:30:00	8.99
00:40:00	8.44
00:50:00	2.57
01:00:00	.00
01:10:00	5.31
01:20:00	2.12
01:30:00	.51
01:40:00	16.02
01:50:00	17.01
02:00:00	28.06
02:10:00	35.51
02:20:00	38.32
02:30:00	38.16
02:40:00	49.06
02:50:00	55.75
03:00:00	57.00
03:10:00	49.87
03:20:00	53.24
03:30:00	49.73
03:40:00	41.87
03:50:00	49.50
04:00:00	45.46
04:10:00	43.04
04:20:00	46.75
04:30:00	41.83
04:40:00	35.91
04:50:00	39.23
05:00:00	43.55
05:10:00	33.45
05:20:00	32.00
05:30:00	29.59
05:40:00	29.22
05:50:00	18.82
06:00:00	9.72
06:10:00	24.54
06:20:00	13.32
06:30:00	12.40
06:40:00	9.50
06:50:00	.82
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.67	56.92	35.75
27.71	56.98	35.73
27.79	57.01	35.74
27.67	56.95	35.75
27.65	56.86	35.67
27.65	56.86	35.72
27.53	56.82	35.78
27.50	56.79	35.80
27.50	56.67	35.68
27.53	56.76	35.73
27.63	56.82	35.73
27.67	56.92	35.75
27.71	56.82	35.62
27.88	57.07	35.69
28.00	57.26	35.74
27.81	57.01	35.73
27.79	56.86	35.60
27.98	57.20	35.74
27.96	57.13	35.63
28.22	57.51	35.77
28.16	57.35	35.69
28.16	57.38	35.71
28.41	57.63	35.68
28.35	57.57	35.67
28.72	58.00	35.70
28.57	57.82	35.71
28.84	58.13	35.69
28.92	58.22	35.70
28.86	58.25	35.80
29.01	58.31	35.72
28.84	58.22	35.77
28.90	58.19	35.73
29.00	58.25	35.68
28.96	58.31	35.75
28.72	57.85	35.65
28.72	57.82	35.54
28.88	58.07	35.60
29.13	58.53	35.73
28.82	58.00	35.68
28.59	57.57	35.54
28.61	57.69	35.56
28.74	57.94	35.63
DIR
(TRU)
4
1
358
184
183
6
150
341
174
326
178
180
183
183
185
183
183
183
182
185
184
187
186
187
184
188
186
187
187
187
188
187
187
190
188
189
187
190
186
186
187
181
-------
07:00:00
.42
07:10:00
3.90
07:20:00
8 . 93
07:30:00
9.27
07:40:00
11.04
07:50:00
7 . 74
08:00:00
8.00
08:10:00
. 30
08:20:00
.23
08:30:00
8 . 54
08:40:00
12 . 25
08:50:00
13 .06
28.94	58.25	35.71
28.96	58.25	35.69
28.96	58.34	35.74
29.11	58.50	35.73
29.07	58.50	35.82
28.98	58.31	35.75
28.92	58.25	35.71
28.55	57.72	35.64
28.24	57.41	35.64
28.22	57.51	35.77
28.00	57.26	35.71
27.75	56.95	35.69
358
16
29
59
143
187
193
306
204
3
358
357
-------
D Type 174SSM Solid State Current Me	Page: 7
KEj.	OUTFALL STUDY - NORTHWEST CURRENT hdidiv	174SSM0182
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
09:00:00	17.98
09:10:00	13.81
09:20:00	13.51
09:30:00	13.36
09:40:00	15.81
09:50:00	28.27
10:00:00	22.29
10:10:00	13.04
10:20:00	12.44
10:30:00	13.51
10:40:00	10.29
10:50:00	9.78
11:00:00	14.37
11:10:00	18.37
11:20:00	4.32
11:30:00	4.12
11:40:00	.81
11:50:00	7.42
12:00:00	3.92
12:10:00	1.54
12:20:00	1.33
12:30:00	11.51
12:40:00	1.18
12:50:00	.26
13:00:00	.51
13:10:00	1.67
13:20:00	15.71
13:30:00	23.96
13:40:00	24.09
13:50:00	49.03
14:00:00	43.02
14:10:00	46.21
14:20:00	52.74
14:30:00	64.05
14:40:00	57.50
14:50:00	59.58
15:00:00	57.61
15:10:00	59.05
15:20:00	61.48
15:30:00	74.78
15:40:00	54.75
15:50:00	52.40
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.69	56.92	35.75
27.57	56.82	35.75
27.57	56.82	35.75
27.57	56.79	35.72
27.59	56.82	35.74
27.57	56.82	35.75
27.57	56.73	35.71
27.57	56.82	35.75
27.55	56.79	35.73
27.51	56.76	35.74
27.50	56.76	35.78
27.51	56.76	35.78
27.83	57.13	35.76
28.31	57.63	35.77
28.22	57.51	35.76
28.06	57.35	35.76
27.75	56.98	35.73
27.57	56.82	35.75
27.61	56.82	35.73
27.65	56.89	35.75
27.73	56.95	35.71
27.75	57.04	35.79
27.69	56.89	35.72
27.63	56.82	35.69
27.61	56.82	35.74
27.71	56.89	35.69
27.88	57.10	35.71
28.00	57.35	35.82
28.12	57.38	35.77
28.02	57.26	35.71
28.10	57.38	35.74
28.16	57.41	35.75
28.31	57.51	35.67
28.37	57.60	35.68
28.39	57.72	35.80
28.49	57.63	35.63
28.53	57.76	35.68
28.59	57.85	35.67
28.57	57.82	35.69
28.64	57.85	35.62
28.74	57.91	35.63
28.74	58.00	35.70
DIR
(TRU)
359
359
356
0
359
357
358
357
358
357
357
357
1
356
358
353
2
181
188
189
355
189
183
289
179
183
178
180
183
182
184
183
183
183
184
183
185
185
185
185
186
186
-------
16:00:00	52.33
16:10:00	i2.59
16:20:00	50.12
16:30:00	63.14
16:40:00	63.63
16:50:00	55.86
17:00:00	47.67
17:10:00	56.91
17:20:00	51.49
17:30:00	44.80
17:40:00	44.50
17:50:00	42.14
28.78	58.00	35.64
28.68	57.76	35.58
28.90	58.13	35.64
28.94	58.10	35.56
28.88	58.00	35.54
29.03	58.25	35.71
29.11 58.31	35.61
29.21 58.41	35.58
29.00	58.13	35.60
29.25	58.47	35.63
28.96	58.07	35.61
29.03	58.13	35.57
186
186
186
186
185
187
187
187
186
187
186
188
-------
!0 Type 174SSM Solid State Current M	Page: 8
Kfir-nisbT OUTFALL STUDY - NORTHWEST CURRENT METER	174SSM0182
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
18:00:00	21.73
18:10:00	20.75
18:20:00	25.45
18:30:00	26.25
18:40:00	7.69
18:50:00	5.73
19:00:00	7.92
19:10:00	1.19
19:20:00	9.17
19:30:00	8.54
19:40:00	11.55
19:50:00	15.99
20:00:00	.51
20:10:00	13.21
20:20:00	21.17
20:30:00	20.59
20:40:00	16.17
20:50:00	15.88
21:00:00	15.62
21:10:00	14.41
21:20:00	28.27
21:30:00	24.09
21:40:00	29.88
21:50:00	27.22
22:00:00	33.40
22:10:00	27.07
22:20:00	34.30
22:30:00	41.64
22:40:00	32.15
22:50:00	33.85
23:00:00	21.39
23:10:00	22.96
23:20:00	17.33
23:30:00	27.51
23:40:00	22.86
23:50:00	13.46
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
28.90	57.97	35.59
29.19	58.44	35.59
29.64	59.00	35.71
29.35	58.53	35.63
29.23	58.38	35.64
29.23	58.47	35.64
29.31	58.56	35.65
29.40	58.65	35.67
29.62	58.93	35.66
29.58	58.96	35.74
29.07	58.16	35.61
28.74	57.79	35.57
28.59	57.60	35.55
28.61	57.63	35.55
28.70	57.94	35.68
28.70	58.03	35.74
28.39	57.72	35.78
28.33	57.60	35.70
28.18	57.41	35.69
27.88	57.13	35.71
27.85	57.10	35.75
27.77	57.04	35.77
27.77	57.01	35.72
27.83	57.10	35.74
27.87	57.17	35.78
27.81	57.04	35.73
27.83	57.10	35.75
28.26	57.54	35.74
28.10	57.38	35.77
28.08	57.38	35.79
28.06	57.38	35.78
28.04	57.29	35.72
27.98	57.29	35.78
27.96	57.29	35.78
28.00	57.29	35.73
27.94	57.20	35.69
DIR
(TRU)
188
189
191
189
189
190
200
204
36
66
118
181
18
7
8
358
358
359
359
2
358
358
359
1
1
1
0
355
356
355
356
357
358
357
359
0
Means:
28 .32
57 . 55
35 . 70
-------
X) Type 174SSM Solid State Current Me	Page: 9
Km-rvcST OUTFALL STUDY - NORTHWEST CURRENT	174SSM0182
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
00:00:00	10.34
00:10:00	19.93
00:20:00	14.03
00:30:00	7.73
00:40:00	13.20
00:50:00	9.67
01:00:00	4.09
01:10:00	.28
01:20:00	4.33
01:30:00	6.33
01:40:00	15.81
01:50:00	4.65
02:00:00	5.15
02:10:00	4.26
02:20:00	6.57
02:30:00	17.17
02:40:00	17.81
02:50:00	40.37
03:00:00	39.83
03:10:00	38.62
03:20:00	45.32
03:30:00	47.07
03:40:00	56.60
03:50:00	63.09
04:00:00	62.19
04:10:00	52.62
04:20:00	62.22
04:30:00	55.50
04:40:00	45.34
04:50:00	40.47
05:00:00	47.09
05:10:00	33.10
05:20:00	42.49
05:30:00	40.49
05:40:00	31.40
05:50:00	32.84
06:00:00	36.57
06:10:00	30.89
06:20:00	17.18
06:30:00	26.23
06:40:00	18.89
06:50:00	22.50
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.88	57.20	35.77
27.88	57.17	35.75
27.88	57.10	35.71
27.88	57.10	35.73
27.87	57.13	35.75
27.88	57.13	35.71
27.87	57.17	35.75
27.87	57.17	35.75
27.90	57.13	35.74
27.88	57.13	35.74
27.85	57.10	35.74
27.79	57.10	35.80
27.77	57.01	35.72
27.83	57.10	35.72
27.87	57.17	35.71
27.92	57.17	35.71
27.79	57.07	35.73
27.75	57.01	35.77
27.87	57.13	35.76
27.94	57.20	35.71
27.71	56.89	35.74
27.67	56.86	35.69
28.00	57.26	35.71
27.96	57.23	35.78
28.06	57.29	35.70
28.14	57.45	35.79
28.22	57.45	35.68
28.18	57.45	35.74
28.41	57.66	35.73
28.27	57.54	35.71
28.45	57.72	35.72
28.57	57.91	35.76
28.39	57.69	35.74
28.63	57.97	35.77
28.70	58.03	35.75
28.49	57.88	35.82
28.66	57.97	35.71
28.78	58.10	35.74
28.80	58.22	35.78
28.72	58.13	35.82
28.70	58.00	35.72
28.74	58.00	35.69
DIR
(TRU)
357
359
358
1
359
359
356
46
183
179
186
148
5
3
177
178
177
182
184
185
185
183
183
185
184
186
186
188
185
187
188
188
191
187
189
190
189
189
190
196
192
192
-------
07:00:00
!l. 12
07:10:00
J2 .23
07:20:00
24 .28
07:30:00
9 .31
07:40:00
13 .72
07:50:00
3 .99
08:00:00
3 .61
08:10:00
.27
08:20:00
7.66
08:30:00
17 . 92
08:40: 00
3.28
08:50:00
1.00
28.84	58.22	35.77
28.88 58.31	35.77
28.96 58.50	35.87
28.90 58.38	35.84
28.82	58.13	35.70
28.86	58.31	35.82
28.92	58.34	35.77
28.84	58.34	35.85
28.78	58.22	35.80
28.80	58.22	35.79
28.78	58.25	35.82
28.43	57.76	35.78
195
195
197
202
202
210
30
147
67
140
186
0
-------
CO Type 174SSM Solid State Current Me	Page: 10
KhiY—WEST OUTFALL STUDY - NORTHWEST CURRENT METER	174SSM0182
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
09:00:00
11.21
09:10:00
12 .40
09:20:00
16 .26
09:30:00
21.23
09:40:00
12 .74
09:50:00
32 .44
10:00:00
17 .20
10:10:00
22 . 54
10 :20:00
30 . 84
10:30:00
32 . 09
10:40:00
22 .20
10:50:00
27 . 66
11:00:00
14 .47
11:10:00
19 .68
11:20:00
23 .40
11:30:00
14 .56
11:40:00
18 . 89
11:50:00
6 .16
12:00:00
4 .53
12 :10:00
8 . 95
12:20:00
3 .16
12:30:00
5 . 77
12:40:00
8.83
12:50:00
3 .16
13:00:00
12 . 22
13:10:00
10 . 80
13:20:00
10.20
13:30:00
.87
Means:

TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
28.24	57.45	35.68
28.04	57.29	35.71
28.04	57.29	35.71
28.00	57.29	35.74
27.98	57.23	35.71
27.88	57.13	35.71
27.85	57.10	35.73
27.77	56.98	35.71
27.79	56.98	35.71
27.85	57.07	35.72
27.90	57.20	35.77
27.90	57.17	35.72
27.90	57.13	35.72
27.85	57.10	35.72
27.87	57.10	35.74
27.87	57.13	35.78
27.90	57.13	35.72
28.04	57.29	35.73
27.96	57.20	35.73
27.98	57.29	35.75
27.96	57.26	35.75
28.10	57.38	35.75
28.16	57.45	35.74
28.22	57.41	35.66
28.14	57.45	35.75
28.10	57.35	35.73
28.02	57.23	35.70
27.98	57.26	35.71
28.18	57.47	35.74
DIR
(TRU)
3
2
4
2
2
1
359
355
355
355
355
355
356
356
357
357
357
354
352
355
352
173
162
145
102
29
345
157
-------
APPENDIX A
* EAST CURRENT METER DATA *
-------
CD
irn
in"
KEY WEST OUTFALL STUDY - EAST-SOUTHEAST CURRENT METER
Vi/rfV. J
\Ar^
|T T
U
"V
ID
ID"
131
132
133
134
135
I
136
137
130
139
CD
an
m
or
r^
CO"
W"V>J
' lAv
ft
" "	\rl
V
—I—
132
—I
139
131
133
134
135
136
137
138
o
ID
m
o
CD
'¦n
IT i 1/
o
131
o
o
o
132
133
134
135
136
137
138
139
o
ID"
O
O"	
131
132
I
133
134
—I—
135
I
136
137
138
139
JULIAN DAYS	ll-MAY-94 to 14-MAY-94
Endeco Type 174SSM Current Meter
Page: 1
-------
KEY WEST OUTFALL STUDY - EAST-SOUTHEAST CURRENT METER
\\

—i—
132
T
—I
139
T
131
133
JULIAN DAYS
134	135
1l-MAY-94 to 14-MAY-94
13B
137
I
130
Endeco Type 174SSM Current Meter
Page: 1
-------
KEY WEST OUTFALL STUDY - EAST-SOUTHEAST CURRENT METER
CD-I
CM
fc °
£ c/)
p \
o
o
GO
OJ-
131
132
133
134
1
135
136
I
137
I
138
139
Endeco Type 174SSM Current Meter
Page: 1
-------
ENDECO Type	M Solid State Memory Current Meter
Speed ana Direction Distribution
KEY WEST OUTFALL STUDY - EAST-SOUTHEAST CURRENT METER
Record Period: ll-MAY-94 to 14-MAY-94
SPEED	0	30	60	90
(CM/SC)
.10
.20
.30
.40
.50
. 60
.70
. 80
. 90
1. 00
1. 10
1.20
1.30
1.40
1.50
1.60
1.70
1.80
1.90
2 . 00
DIRECTION
120
150
180
210
240
270
300
330
-------
TOTAL	0	0	0	0	1
PERCENT	.00	.00	.00	.00 5.26
STATION AVERAGE = .741 (CM/SC)
2	1	8	5	2	0
10.53 5.26 42.11 26.32 10.53	.00	.00
-------
^0 Type 174SSM Solid State Current Me	Page: 1
KEY	OUTFALL STUDY - EAST-SOUTHEAST CURRENT"TTEThiR	174SSM0118
Date: WED 11-MAY-1994	Julian date: 131	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
16:45:00	.51
16:55:00	3.27
17:05:00	5.28
17:15:00	5.77
17:25:00	7.53
17:35:00	7.28
17:45:00	7.28
17:55:00	8.04
18:05:00	9.29
18:15:00	9.29
18:25:00	11.30
18:35:00	13.56
18:45:00	14.82
18:55:00	16.08
19:05:00	16.33
19:15:00	16.82
19:25:00	15.82
19:35:00	14.57
19:45:00	15.82
19:55:00	17.33
20:05:00	17.08
20:15:00	18.58
20:25:00	20.34
20:35:00	22.36
20:45:00	22.61
20:55:00	22.61
21:05:00	22.10
21:15:00	20.85
21:25:00	20.34
21:35:00	20.09
21:45:00	19.34
21:55:00	18.84
22:05:00	18.33
22:15:00	18.84
22:25:00	17.84
22:35:00	17.08
22:45:00	15.57
22:55:00	15.07
23:05:00	12.31
23:15:00	11.30
23:25:00	9.29
23:35:00	7.53
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.38	57.47	36.36
27.48	57.32	36.18
27.38	57.32	36.25
27.57	57.47	36.21
27.38	57.32	36.25
27.28	57.16	36.22
27.28	57.16	36.22
27.18	57.01	36.18
27.28	57.01	36.10
27.28	57.16	36.22
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.32	36.18
27.48	57.16	36.06
27.38	57.16	36.14
27.38	57.16	36.14
27.28	57.01	36.10
27.28	57.01	36.10
27.28	57.01	36.10
27.28	57.01	36.10
27.18	57.01	36.18
27.28	57.01	36.10
27.38	57.16	36.14
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.01	35.95
27.48	57.16	36.06
27.57	57.16	35.99
27.57	57.32	36.10
27.48	57.16	36.06
27.48	57.01	35.95
27.57	57.32	36.10
27.48	57.01	35.95
27.57	57.32	36.10
27.57	57.32	36.10
27.48	57.16	36.06
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.32	36.10
27.57	57.16	35.99
DIR
(TRU)
290
255
254
257
262
266
262
262
264
264
269
271
272
273
272
273
273
272
275
278
279
279
280
282
283
283
282
282
282
282
282
280
280
279
279
278
276
273
272
269
265
264
-------
23:45:00	5.28	259 27.57 57.16 35.99
23:55:00	3.52	252 27.48 57.16 36.06
Means:	27.44 57.17 36.10
-------
CO Type 174SSM Solid State Current Me	Page: 2
KEY wisyr OUTFALL STUDY - EAST-SOUTHEAST CURRENTTliSTiSk	174SSM0118
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
00:05:00
1. 76
00:15:00
2 . 01
00:25:00
7 . 03
00:35:00
10 . 80
00:45:00
12 . 81
00:55:00
11.30
01:05:00
12 . 05
01:15:00
8.29
01:25:00
6.03
01:35:00
6 .53
01:45:00
6 . 03
01:55:00
6 . 78
02:05:00
8 . 04
02:15:00
8 .79
02:25:00
8.29
02:35:00
8 .29
02:45:00
9 .54
02:55:00
7 . 79
03:05:00
8 .29
03:15:00
8.29
03:25:00
8 . 04
03:35:00
7 .28
03:45:00
5 .53
03:55:00
4 .27
04:05:00
3 . 77
04:15:00
2 .76
04:25:00
3 .52
04:35:00
3 .52
04:45:00
2 . 76
04 : 55:00
1.76
05 :05:00
2 . 01
05:15:00
2 .76
05:25:00
1. 25
05:35:00
.25
05:45:00
.25
05:55:00
.00
06:05:00
.00
06:15:00
. 00
06:25:00
1.25
06:35:00
2 .51
06:45:00
4 .27
06:55:00
5 . 77
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.57	57.16	35.99
27.67	57.32	36.03
27.57	57.32	36.10
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.16	36.06
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.28	57.01	36.10
27.28	57.01	36.10
27.28	57.01	36.10
27.28	57.01	36.10
27.38	57.01	36.03
27.38	57.01	36.03
27.48	57.01	35.95
27.48	57.16	36.06
27.48	57.01	35.95
27.38	57.01	36.03
27.48	57.01	35.95
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.48	57.01	35.95
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.28	57.01	36.10
27.28	56.85	35.99
27.28	56.85	35.99
DIR
(TRU)
234
151
116
112
113
113
120
120
140
158
176
188
182
182
188
188
186
188
188
192
193
202
207
216
224
220
221
220
220
212
216
206
217
224
242
238
138
287
258
258
258
261
-------
07:05:00	'8.29
07:15:00	0.55
07:25:00	10.55
07:35:00	12.05
07:45:00	14.57
07:55:00	16.58
08:05:00	18.58
08:15:00	19.60
08:25:00	20.34
08:35:00	21.35
08:45:00	20.85
08:55:00	19.09
27.28	57.01 36.10
27.28	56.85	35.99
27.28	56.85	35.99
27.28	56.85	35.99
27.18	56.85	36.07
27.18	56.85	36.07
27.18	56.85	36.07
27.18	56.85	36.07
27.18	56.85	36.07
27.28	56.69	35.88
27.28	56.85	35.99
27.18	56.69	35.96
266
266
269
269
272
271
273
276
276
278
279
279
-------
10 Type 174SSM Solid State Current Mc	Page: 3
KEY	OUTFALL STUDY - EAST-SOUTHEAST CURRENT tie rhiR	174SSM0118
Date: THU 12-MAY-1994	Julian date: 132	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
09:05:00
15.82
09:15:00
19 . 84
09:25:00
22 .36
09:35:00
22 . 61
09 :45:00
21.35
09:55:00
22 .36
10:05:00
20 . 85
10:15:00
19 . 84
10:25:00
18 . 09
10:35:00
16 . 08
10:45:00
14 . 06
10:55:00
12 .31
11:05:00
9 . 80
11:15:00
7 .53
11:25:00
6 . 03
11:35:00
3 . 77
11:45:00
2 . 51
11:55:00
4 . 52
12 : 05:00
7 . 53
12:15:00
12 . 56
12:25:00
16 . 58
12:35:00
13 . 81
12:45:00
13 .56
12:55:00
9 . 04
13:05:00
9 . 04
13:15:00
8.29
13:25:00
7 . 79
13:35:00
8 . 04
13:45:00
6 . 03
13:55:00
6.78
14:05:00
6 . 53
14:15:00
7.28
14:25:00
6 .28
14:35:00
6 .28
14:45:00
5 .28
14:55:00
5 .28
15:05:00
5 .28
15:15:00
5 . 03
15:25:00
4 . 77
15:35:00
4 . 77
15:45:00
4 . 52
15:55:00
4 . 77
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.18	56.85	36.07
27.28	56.85	35.99
27.28	56.85	35.99
27.28	57.01	36.10
27.48	57.01	35.95
27.48	57.01	35.95
27.57	57.16	35.99
27.57	57.01	35.88
27.57	57.16	35.99
27.48	57.16	36.06
27.48	57.01	35.95
27.57	57.16	35.99
27.48	57.16	36.06
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.32	36.10
27.67	57.16	35.91
27.77	57.47	36.06
28.06	57.63	35.95
28.26	57.94	36.02
28.16	57.94	36.09
27.96	57.63	36.02
28.06	57.63	35.95
27.96	57.63	36.02
27.96	57.63	36.02
27.87	57.63	36.10
27.87	57.47	35.99
27.87	57.47	35.99
27.77	57.47	36.06
27.77	57.47	36.06
27.87	57.47	35.99
27.87	57.47	35.99
28.06	57.63	35.95
28.06	57.78	36.06
28.06	57.78	36.06
28.16	57.78	35.98
28.16	57.94	36.09
28.16	57.94	36.09
28.06	57.94	36.17
28.16	57.78	35.98
28.26	57.78	35.91
28.35	58.10	36.05
DIR
(TRU)
279
279
279
280
279
279
276
276
276
272
272
268
265
258
249
241
200
143
124
119
116
112
116
119
126
137
145
154
157
151
158
157
155
157
158
161
164
165
169
178
178
161
-------
16:05:00
4 . 52
16:15:00
5.28
16:25:00
5.28
16:35:00
5.03
16:45:00
4 . 77
16:55:00
4 . 27
17:05:00
2 . 26
17:15:00
. 51
17:25:00
.00
17:35:00
.00
17:45:00
. 75
17:55:00
2 . 76
28.26	57.94	36.02
28.35	58.10	36.05
28.35	58.10	36.05
28.35	58.10	36.05
28.45	58.25	36.09
28.45	58.25	36.09
28.45	58.25	36.09
28.45	58.10	35.98
28.35	58.10	36.05
28.35	58.10	36.05
28.55	58.25	36.01
28.55	58.25	36.01
165
168
169
152
157
157
179
247
255
223
154
175
-------
:o Type
KEY W	 JUTFALL
Date: THU 12-MAY-1994
TIME	SPEED
(CM/SC)
18:05:00	2.51
18:15:00	5.53
18:25:00	8.29
18:35:00	9.29
18:45:00	9.04
18:55:00	9.80
19:05:00	10.30
19:15:00	10.80
19:25:00	14.06
19:35:00	15.07
19:45:00	14.32
19:55:00	11.81
20:05:00	12.31
20:15:00	14.57
20:25:00	14.57
20:35:00	15.57
20:45:00	16.58
20:55:00	18.58
21:05:00	20.85
21:15:00	21.10
21:25:00	20.09
21:35:00	21.10
21:45:00	21.60
21:55:00	21.85
22:05:00	21.85
22:15:00	21.85
22:25:00	22.10
22:35:00	21.35
22:45:00	20.34
22:55:00	20.34
23:05:00	19.09
23:15:00	18.58
23:25:00	17.33
23:35:00	16.08
23:45:00	14.57
23:55:00	12.81
Solid State Current Me
- EAST-SOUTHEAST	CURREN
Julian date: 132
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
28.45	58.25	36.09
27.96	57.63	36.02
28.06	57.78	36.06
27.77	57.47	36.06
27.77	57.32	35.95
27.57	57.16	35.99
27.48	57.01	35.95
27.77	57.47	36.06
27.57	57.16	35.99
27.57	57.16	35.99
27.48	57.16	36.06
27.57	57.16	35.99
27.48	57.16	36.06
27.48	57.01	35.95
27.48	57.01	35.95
27.48	57.01	35.95
27.48	57.01	35.95
27.57	57.16	35.99
27.57	57.32	36.10
27.67	57.32	36.03
27.67	57.32	36.03
27.77	57.47	36.06
27.77	57.47	36.06
27.77	57.47	36.06
27.77	57.47	36.06
27.77	57.47	36.06
27.87	57.63	36.10
27.87	57.47	35.99
27.87	57.47	35.99
27.87	57.63	36.10
27.87	57.63	36.10
27.77	57.32	35.95
27.67	57.32	36.03
27.67	57.32	36.03
27.77	57.32	35.95
27.67	57.32	36.03
174SSM
STUDY
DIR
(TRU)
221
249
255
254
261
265
269
268
272
272
273
273
275
278
280
282
283
283
283
282
283
283
282
282
282
282
280
280
280
279
279
278
278
275
272
269
Means:
27 . 67
57 .32
36 . 02
Page: 4
™^R	174SSM0118
Magnetic Variation: 2.5
-------
0 Type 174SSM Solid State Current Me	Page: 5
KEY Winrr uUTFALL STUDY - EAST-SOUTHEAST CURRENT imdioR	174SSM0118
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
00:05:00
10 . 55
00:15:00
7 . 79
00:25:00
5 . 28
00:35:00
3 . 77
00:45:00
1. 76
00:55:00
3 . 01
01:05:00
7 .03
01:15:00
11. 30
01:25:00
12 . 81
01:35:00
12 . 05
01:45:00
9 . 80
01:55:00
7.53
02:05:00
6.28
02:15:00
3 . 01
02:25:00
6 . 03
02:35:00
6 . 03
02:45:00
5 .53
02:55:00
7 .53
03:05:00
7.28
03:15:00
8 . 29
03:25:00
7 .79
03:35:00
9 . 80
03:45:00
9.29
03:55:00
6 .78
04:05:00
6 .03
04:15:00
6 .78
04:25:00
6.28
04:35:00
6 .78
04:45:00
4 .77
04:55:00
3 .52
05:05:00
4 .27
05:15:00
4 .27
05:25:00
4.27
05:35:00
3 . 77
05:45:00
2 . 76
05:55:00
.51
06:05:00
2 . 01
06:15:00
2 .51
06:25:00
2 .51
06:35:00
1.51
06:45:00
2 .26
06:55:00
2 .01
TEMP COND	SALN
(C)	(MS/CM)	(PPT)
27.57	57.32	36.10
27.57	57.16	35.99
27.57	57.32	36.10
27.57	57.16	35.99
27.67	57.32	36.03
27.77	57.32	35.95
27.67	57.32	36.03
27.77	57.32	35.95
27.77	57.32	35.95
27.77	57.32	35.95
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.57	57.32	36.10
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.48	57.16	36.06
27.48	57.16	36.06
27.57	57.16	35.99
27.57	57.32	36.10
27.57	57.32	36.10
27.57	57.32	36.10
27.57	57.32	36.10
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.16	35.99
27.57	57.32	36.10
27.57	57.32	36.10
27.48	57.16	36.06
27.57	57.16	35.99
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.16	36.06
27.48	57.01	35.95
DIR
(TRU)
268
262
252
252
210
140
112
112
112
113
114
117
122
155
161
182
174
175
168
171
182
189
192
188
195
200
210
220
224
230
234
230
226
220
209
207
213
221
233
242
231
257
-------
07:05:00
'3 . 77
07:15:00
5 . 77
07:25:00
7 .79
07:35:00
9.54
07:45:00
9.54
07:55:00
13 .31
08:05:00
16.33
08:15:00
16.58
08:25:00
15 . 82
08:35:00
16.08
08:45:00
18 . 09
08:55:00
19.84
27.48	57.01	35.95
27.48	57.01	35.95
27.48 57.01	35.95
27.38 57.01	36.03
27.38 57.01	36.03
27.38 56.85	35.92
27.28 56.85	35.99
27.38	57.01	36.03
27.28	57.01	36.10
27.28	56.85	35.99
27.28 56.85	35.99
27.28 56.85	35.99
245
257
262
261
265
265
266
268
269
272
273
273
-------
CO Type 174SSM Solid State Current Me	Page: 6
KEY W1S5T OUTFALL STUDY - EAST-SOUTHEAST CURREN± i-miER	174SSM0118
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
09:05:00
22 . 86
09:15:00
24 . 61
09 : 25:00
24 . 12
09:35:00
24 .12
09:45:00
23 . 86
09:55:00
23 . 61
10:05:00
23 .36
10:15:00
21.10
10:25:00
20.34
10:35:00
19 .60
10:45:00
20 .09
10:55:00
19 . 09
11:05:00
17 . 58
11:15:00
17 . 84
11:25:00
15 . 57
11:35:00
10 . 80
11:45:00
7 .53
11:55:00
5 .28
12:05:00
3 .52
12:15:00
. 75
12:25:00
3 .01
12:35:00
8 .79
12:45:00
11. 81
12:55:00
11. 56
13:05:00
11 . 56
13:15:00
10 . 05
13:25:00
9 . 80
13:35:00
9 .29
13:45:00
7 . 03
13:55:00
6 .03
14:05:00
7 .28
14:15:00
7 .28
14:25:00
7 . 79
14:35:00
7.28
14:45:00
5.28
14:55:00
4 . 77
15:05:00
5 . 77
15:15:00
6 .53
15:25:00
6 .78
15:35:00
8 . 04
15:45:00
7 . 03
15:55:00
7 . 03
TEMP COND	SALN
(C)	(MS/CM)	(PPT)
27.48	57.01	35.95
27.38	57.01	36.03
27.38	57.01	36.03
27.38	57.01	36.03
27.57	57.32	36.10
27.57	57.16	35.99
27.48	57.16	36.06
27.48	57.01	35.95
27.48	57.16	36.06
27.57	57.16	35.99
27.67	57.32	36.03
27.87	57.47	35.99
27.87	57.47	35.99
27.87	57.63	36.10
27.87	57.63	36.10
27.77	57.32	35.95
27.87	57.47	35.99
27.87	57.47	35.99
27.87	57.47	35.99
27.87	57.63	36.10
28.06	57.78	36.06
28.16	57.94	36.09
28.74	58.56	36.08
28.65	58.56	36.15
28.45	58.10	35.98
28.45	58.10	35.98
28.35	58.10	36.05
28.26	57.94	36.02
28.06	57.78	36.06
27.87	57.63	36.10
27.77 57.47	36.06
27.77	57.47	36.06
27.77 57.47	36.06
27.87 57.32	35.88
27.77	57.47	36.06
27.77	57.47	36.06
27.77	57.47	36.06
27.77 57.47	36.06
27.87 57.63	36.10
27.87 57.47	35.99
27.87 57.63	36.10
27.87 57.63	36.10
DIR
(TRU)
276
276
276
278
276
278
275
275
275
273
275
275
273
276
279
269
264
259
247
233
129
127
126
122
114
117
117
122
147
157
158
150
158
164
168
168
161
175
174
176
186
195
-------
16:05:00
B .04
16:15:00
6 .78
16:25:00
4 .77
16:35:00
4 .27
16:45:00
4 .02
16:55:00
4 .02
17:05:00
5.28
17:15:00
6 .78
17:25:00
7 .53
17:35:00
8 .04
17:45:00
8 .54
17:55:00
7 . 03
27.96	57.63	36.02
27.96	57.63	36.02
27.96	57.78	36.13
27.96	57.63	36.02
27.96	57.63	36.02
28.06	57.78	36.06
28.26	57.94	36.02
28.35	58.10	36.05
28.35	58.10	36.05
28.45	58.25	36.09
28.45	58.10	35.98
28.35	58.10 36.05
199
200
190
179
174
172
190
223
238
240
244
244
-------
!0 Type 174SSM Solid State Current Me	Page: 7
KEY wbsi OUTFALL STUDY - EAST-SOUTHEAST CURRENT t^t^R	174SSM0118
Date: FRI 13-MAY-1994	Julian date: 133	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
18:05:00
6.53
18:15:00
6 . 78
18:25:00
5.28
18 :35:00
3 .52
18 :45:00
2 .76
18:55:00
3 . 01
19:05:00
5.53
19:15:00
5.53
19:25:00
9.29
19:35:00
11.56
19 :45:00
13 .31
19:55:00
15.32
20:05:00
15.32
20:15:00
15 . 57
20:25:00
14 . 57
20:35:00
14.57
20:45:00
17.33
20 :55:00
20 . 09
21:05:00
19 . 34
21:15:00
20 . 85
21:25:00
27.38
21:35:00
26 . 62
21:45:00
27.38
21:55:00
27 .38
22:05:00
24 .37
22:15:00
25 .12
22:25:00
25 .12
22:35:00
24 . 61
22:45:00
25 . 62
22:55:00
22 .36
23 :05:00
20 . 85
23 :15:00
21.35
23:25:00
21. 10
23:35:00
21.35
23 :45:00
18 .33
23 :55:00
17 . 58
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
28.35	57.94	35.94
28.35	57.94	35.94
28.35	57.94	35.94
28.35	58.10	36.05
28.26	57.94	36.02
28.35	58.10	36.05
28.35	58.10	36.05
28.16	57.94	36.09
28.06	57.78	36.06
28.16	57.94	36.09
27.87	57.47	35.99
27.87	57.47	35.99
27.77	57.32	35.95
27.77	57.32	35.95
27.77	57.32	35.95
27.77	57.32	35.95
27.87	57.47	35.99
27.87	57.47	35.99
27.87	57.47	35.99
27.87	57.63	36.10
28.06	57.78	36.06
28.16	57.94	36.09
28.16	57.78	35.98
28.16	57.94	36.09
28.26	57.94	36.02
28.26	57.94	36.02
28.26	57.94	36.02
28.26	58.10	36.13
28.26	57.94	36.02
28.26	57.94	36.02
28.26	57.94	36.02
28.26	57.94	36.02
28.26	57.94	36.02
28.26	57.94	36.02
28.26	58.10	36.13
28.35	58.10	36.05
DIR
(TRU)
240
244
247
251
248
258
258
265
265
262
268
272
272
273
273
273
275
278
279
279
278
278
279
280
279
279
280
280
280
280
279
280
280
279
278
276
Means:
27 . 83
57 .49
36 .03
-------
3 Type 174SSM Solid State Current Me	Page: 8
KEY wjsst UiJTFALL STUDY - EAST-SOUTHEAST CURRENT~METER	174SSM0118
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME
SPEED

(CM/SC)
00:05:00
18 . 33
00:15:00
16 . 08
00:25:00
13 .81
00:35:00
11.05
00 :45:00
11.30
00:55:00
9.80
01:05:00
7.79
01:15:00
4 . 52
01:25:00
3 .27
01:35:00
3 . 01
01:45:00
1.25
01:55:00
5 . 03
02:05:00
7 .53
02:15:00
9 .29
02:25:00
9 .29
02:35:00
8 .54
02:45:00
7 .53
02:55:00
6 .78
03:05:00
4 .27
03:15:00
2 .51
03:25:00
3 . 01
03:35:00
3 .52
03:45:00
5 . 53
03:55:00
6.28
04:05:00
7 .03
04:15:00
9 .54
04:25:00
10 .05
04:35:00
10 . 80
04:45:00
10 . 80
04:55:00
10 .55
05:05:00
6 .53
05:15:00
9.29
05:25:00
10 .55
05:35:00
10 .55
05:45:00
8 .79
05:55:00
7 .79
06:05:00
6 .03
06:15:00
8 .29
06:25:00
8 .54
06:35:00
8 .54
06:45:00
6.28
06:55:00
6 .53
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
28.35	58.10	36.05
28.35	58.10	36.05
28.26	58.10	36.13
28.26	57.94	36.02
28.16	57.78	35.98
28.16	57.78	35.98
28.06	57.78	36.06
28.16	57.78	35.98
28.16	57.78	35.98
28.16	57.94	36.09
28.16	57.94	36.09
28.16	57.94	36.09
28.16	57.94	36.09
28.26	57.94	36.02
28.26	57.94	36.02
28.16	57.94	36.09
28.16	57.94	36.09
28.16	57.94	36.09
28.16	57.94	36.09
28.16	57.94	36.09
28.16	57.78	35.98
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.94	36.17
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.63	35.95
28.06	57.78	36.06
28.06	57.78	36.06
27.96	57.78	36.13
27.96	57.63	36.02
28.06	57.78	36.06
27.96	57.63	36.02
27.96	57.78	36.13
28.06	57.63	35.95
28.06	57.78	36.06
DIR
(TRU)
276
278
272
276
272
272
268
258 '
249
228
161
119
114
117
116
119
122
123
136
152
175
193
202
207
210
219
231
240
242
244
238
240
238
240
237
237
234
238
238
238
237
238
-------
07:05:00
6 .53
07:15:00
5 .28
07:25:00
6 .28
07:35:00
8 .04
07 :45:00
9 .54
07:55:00
9 .54
08:05:00
10 .55
08:15:00
13 . 81
08:25:00
14.82
08 :35:00
15 . 82
08 :45:00
18 .58
08:55:00
18 . 84
28.06	57.63	35.95
27.96	57.78	36.13
28.06	57.63	35.95
27.96	57.63	36.02
28.06	57.63	35.95
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.78	36.06
28.06	57.63	35.95
27.96	57.63	36.02
27.96	57.63	36.02
27.96	57.63	36.02
238
237
245
251
255
257
259
262
266
269
272
275
-------
CO Type 174SSM Solid State Current Me	Page: 9
KEY	OUTFALL STUDY - EAST-SOUTHEAST CURRENT~METER	174SSM0118
Date: SAT 14-MAY-1994	Julian date: 134	Magnetic Variation: 2.5
TIME	SPEED
(CM/SC)
09:05:00	20.34
09:15:00	20.85
09:25:00	21.85
09:35:00	21.85
09:45:00	22.10
09:55:00	23.61
10:05:00	22.10
10:15:00	23.61
10:25:00	20.85
10:35:00	21.60
10:45:00	20.60
10:55:00	22.36
11:05:00	21.35
11:15:00	19.34
11:25:00	19.09
11:35:00	20.85
11:45:00	19.34
11:55:00	17.08
12:05:00	15.07
TEMP	COND	SALN
(C)	(MS/CM)	(PPT)
27.87	57.63	36.10
27.87	57.63	36.10
27.77	57.32	35.95
27.77	57.32	35.95
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.67	57.32	36.03
27.77	57.32	35.95
27.77	57.32	35.95
27.77	57.32	35.95
27.67	57.32	36.03
27.77	57.32	35.95
27.87	57.47	35.99
27.87	57.47	35.99
28.06	57.78	36.06
27.96	57.63	36.02
DIR
(TRU)
276
276
278
286
287
289
283
282
282
282
283
282
282
280
280
280
280
279
275
Means:
28.01
57 .70
36 . 03
-------
APPENDIX B
* CORMIX MODEL RUN *
-------
CORMIX SESSION REPORT:
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
CORNELL MIXING ZONE EXPERT SYSTEM
E t system:	CORMIX v.2.10	April 1993
~--E NAME/LABEL:	KEY WEST OUTFALL - MAY 1994
DESIGN CASE:	NEAR FIELD
FILE NAME:	NF5
Using subsystem CORMIX1:	Submerged Single Port Discharges
(Version: CMX1 v.2.20	April 1993)
Start of session:	07/28/94--11:56:17
SUMMARY OF INPUT DATA:
AMBIENT PARAMETERS:
Cross-section
Average depth	HA
Depth at discharge	HD
Ambient velocity	UA
Darcy-Weisbach friction factor F
Wind velocity	UW
Stratification Type	STRCND
Surface density	RHOAS
Bottom density	RHOAB
= unbounded
= U
6
6
m
m
. 2	m/s
.0116
3	m/s
1016.8	kg/m^3
1016.8	kg/m"3
DISCHARGE PARAMETERS:

Submerged
Single Port
Discharge
Nearest bank

=
left

Distance to bank

DISTB =
900
m
EoTt diameter

DO
.62
m
t cross-sectional area

AO
0 .3018
mA2
charge velocity

U0
0.85
m/s
Discharge flowrate

Q0
.257
m^3/s
Discharge port height

HO
.5
m
Vertical discharge angle

THETA =
0
deg
Horizontal discharge angle

SIGMA =
0
deg
Discharge temperature (freshwater) =
28
degC
Corresponding density

RHOO
996.2337
kg/m^3
Density difference

DRHO
20.5662
kg/m^3
Buoyant acceleration

GP0
. 1984
m/s^2
Discharge concentration

CO

925 PPB
Surface heat exchange coeff.
KS
0
m/s
Coefficient of decay

KD
0
/s
DISCHARGE/ENVIRONMENT LENGTH
SCALES:


LQ = 0.54 m
Lm
2 .
33 m
Lb =
LM = 1.41 m
Lm'
99999
. 0 m
Lb' =
NON-DIMENSIONAL PARAMETERS:
Port densimetric Froude number FRO =	2.42
"Velocity ratio	R	=	4.25
MIXING ZONE / TOXIC DILUTION ZONE / AREA OF INTEREST PARAMETERS:
Toxic discharge	= no
quality standard specified	= no
latory mixing zone	= no
on of interest	=	2000.00 m downstream
*****************************************************************************
HYDRODYNAMIC CLASSIFICATION:
~			~
| FLOW CLASS =	H3 |
-------
This flow configuration applies to a layer corresponding to the full water
depth at the discharge site.
^^licable layer depth = water depth =	6m
M 3 ZONE EVALUATION (hydrodynamic and regulatory summary):
X-Y-Z Coordinate system:
Origin is located at the bottom below the port center:
900 m from the left bank/shore.
NEAR-FIELD REGION (NFR) CONDITIONS :
Note: The NFR is the zone of strong initial mixing. It has no regulatory
implication. However, this information may be useful for the discharge
designer because the mixing in the NFR is usually sensitive to the
discharge design conditions.
Pollutant concentration at edge of NFR =	136.1579 PPB
Dilution at edge of NFR	=	6.7
NFR Location:	x =	9.19 m
(centerline coordinates)	y =	.00 m
z =	6.00m
NFR plume dimensions:	half-width =	7.50 m
thickness =	.58 m
Buoyancy assessment:
The effluent density is less than the surrounding ambient water
density at the discharge level.
Therefore, the effluent is POSITIVELY BUOYANT and will tend to rise towards
the surface.
I EAM INTRUSION SUMMARY:
t-Lome exhibits upstream intrusion due to low ambient velocity or strong
discharge buoyancy.
Intrusion length	=	2.88 m
Intrusion stagnation point	=	2.55 m
Intrusion thickness	=	.58 m
Intrusion half width at impingement	=	7.50 m
Intrusion half thickness at impingement =	.58 m
************************ TOXIC DILUTION ZONE SUMMARY ************************
No TDZ was specified for this simulation.
********************** REGULATORY MIXING ZONE SUMMARY ***********************
No RMZ and no ambient water quality standard have been specified.
********************* FINAL DESIGN ADVICE AND COMMENTS **********************
REMINDER: The user must take note that HYDRODYNAMIC MODELING by any known
technique is NOT AN EXACT SCIENCE.
Extensive comparison with field and laboratory data has shown that the
CORMIX predictions on dilutions and concentrations (with associated
plume geometries) are reliable for the majority of cases and are accurate
to within about +-50% (standard deviation).
As a further safeguard, CORMIX will not give predictions whenever it judges
the design configuration as highly complex and uncertain for prediction.
~ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~•A:**********
DESIGN CASE:	NEAR FIELD
FILE NAME:	NF5
£	tern CORMIX1:	Submerged Single Port Discharges
(Version: CMX1 v.2.20	April 1993)
END Of' SESSION/ITERATION:	07/28/94--12:00:37
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-------
C0RMIX1 PREDICTION FILE:
11111111111111111111111111111111111111111111111111111111111111111111111111111
CORNELL MIXING ZONE EXPERT SYSTEM
£" ' ;tem CORMIX1:	Subsystem version:
;rged Single Port Discharges	CMX1 v.2.20	April 1993
CASE DESCRIPTION
Site name/label:
Design case:
FILE NAME:
Time of Fortran run:
KEY*-WEST*'OUTFALL'"' - '"'MAY'"'19 94
NEAR^FIELD
cormix\sim\NF5	.cxl
07/28/94--ll:59:06
ENVIRONMENT PARAMETERS (metric units)
Unbounded section
HA =	6.00 HD =	6.00
UA =	.200 F	=	.012 USTAR =
UW =	3.000 UWSTAR= .3377E-02
Uniform density environment
STRCND= U	RHOAM = 1016.8000
. 7616E-02
DISCHARGE PARAMETERS (metric units)
BANK	= LEFT DISTB =
DO	= .620 AO
THETA	= .00 SIGMA =
U0	= .851 Q0
RHOO	= 996.2338 DRHOO =
CO	= .9250E+03 CUNITS=
IEOLL	=1 KS
900.00
.302 HO
. 00
.257
. 2 057E + 02 GP0
PPB
.0000E+00 KD
.50
= .2570E+00
= .1984E+00
= .OOOOE+OO
F VARIABLES (metric units)
yu = .2570E+00 M0 = .2188E+00 JO
Associated length scales (meters)
LQ =	.55 LM =	1.42 Lm
Lmp
= .5098E-01 SIGNJ0=	1.0
2.34 Lb =	6.37
= 99999.00 Lbp = 99999.00
NON-DIMENSIONAL PARAMETERS
FRO =	2.42 R
4.25
FLOW CLASSIFICATION
111111111111111111111111111111111111111111
1 Flow class (CORMIX1)	H3	1
1 Applicable layer depth HS =	6.00 1
llllllllllllllllllllllllllllllllllllllllll
MIXING ZONE / TOXIC DILUTION / REGION OF INTEREST PARAMETERS
CO
NTOX
NSTD
REGMZ
XINT
9250E+03
0
0
0
2000.00
CUNITS= PPB
XMAX =
2000.00
X-Y-Z COORDINATE SYSTEM:
—ORIGIN is located at the bottom and below the center of the port:
900.00 m from the LEFT bank/shore.
-axis points downstream, Y-axis points to left, Z-axis points upward.
NSTEP = 50 display intervals per module
BEGIN MODI01: DISCHARGE MODULE
-------
X	Y	Z	S	C	B
.00	.00 .50	1.0 .925E+03 .31
I	1 MODI01: DISCHARGE MODULE
BEGIN MODI11: WEAKLY DEFLECTED JET IN CROSSFLOW
CO-FLOWING DISCHARGE
Profile definitions:
B = Gaussian 1/e (37%) half-width, normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
X
Y
z
S
C
B
.00
.00
.50
1.0
. 925E+03
.34
.01
.00
.51
1.0
. 922E+03
.34
.02
.00
.52
1.0
. 919E+03
.34
.03
.00
.53
1.0
. 916E+03
.34
.04
.00
.54
1.0
. 913E+03
.34
.05
.00
.55
1.0
. 910E+03
.34
.06
.00
.56
1.0
. 908E+03
.34
.07
.00
.57
1.0
.905E+03
.34
.08
.00
.58
1.0
.902E+03
.34
.09
.00
.59
1.0
. 899E + 03
.35
.10
.00
.60
1.0
. 896E + 03
.35
. 11
.00
. 61
1.0
.893E+03
.35
.12
.00
.62
1.0
.891E+03
.35
. 13
.00
.63
1.0
.888E+03
.35
. 14
.00
.64
1.0
.885E+03
.35
.15
.00
. 65
1.0
.883E+03
.35
.16
.00
.66
1.1
. 880E+03
.35
.17
. 00
. 67
1.1
.877E+03
.35
.18
.00
.68
1.1
.874E+03
.36
.19
. 00
. 69
1.1
.872E+03
.36
.20
.00
.70
1.1
.869E+03
.36
.21
. 00
.71
1.1
.867E+03
.36
.22
.00
.73
1.1
.864E+03
.36
.23
. 00
.74
1.1
.861E+03
.36
.24
.00
.75
1.1
.859E+03
.36
.24
.00
.76
1.1
.856E+03
.36
.25
.00
.77
1.1
.854E+03
.36
.26
. 00
.78
1.1
.851E+03
.36
.27
.00
.79
1.1
.849E+03
.37
.28
.00
.80
1.1
.846E+03
.37
.29
.00
.81
1.1
.844E+03
.37
.30
.00
. 83
1.1
.841E+03
.37
.31
.00
. 84
1.1
.839E+03
.37
.32
.00
.85
1.1
.836E+03
.37
.33
.00
.86
1.1
.834E+03
.37
.34
.00
.87
1.1
.832E+03
.37
.35
.00
.88
1.1
.829E+03
.37
.36
.00
.90
1.1
.827E+03
.38
.37
.00
.91
1.1
.824E+03
.38
.38
.00
.92
1.1
.822E+03
.38
.39
.00
.93
1.1
.820E+03
.38
.40
.00
.95
1.1
.817E+03
.38
.41
.00
.96
1.1
.815E+03
.38
-------
.42
.00
.97
1.1
.813E+03
.38
.43
.00
.98
1.1
.811E+03
.38
.44
.00
.99
1.1
.808E+03
.38
.45
.00
1.01
1.1
.806E+03
.39
.46
.00
1.02
1.2
.804E+03
.39
.47
.00
1.03
1.2
.802E+03
.39
.48
.00
1.05
1.2
.799E+03
.39
.49
.00
1.06
1.2
.797E+03
.39
Cumulative
travel 1
time =

0. sec

END OF MODI11: WEAKLY DEFLECTED JET IN CROSSFLOW
BEGIN MODI21: WEAKLY DEFLECTED PLUME IN CROSSFLOW
Profile definitions:
B = Gaussian 1/e (37%) half-width, normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
X
Y
z
S
C
B
.49
.00
1.06
1.2
.797E+03
.38
.61
.00
1.13
1.2
.769E+03
.39
.73
.00
1.21
1.2
.742E+03
.40
. 84
.00
1.29
1.3
.717E+03
.41
.96
.00
1.37
1.3
.693E+03
.42
1.07
.00
1.44
1.4
.670E+03
.43
1.19
. 00
1. 52
1.4
.648E+03
.43
1. 30
. 00
1.60
1.5
.628E+03
.44
1.41
.00
1. 67
1.5
.608E+03
.45
1.51
.00
1.75
1.6
.590E+03
.46
1.62
.00
1. 83
1.6
.572E+03
.47
1.73
.00
1.90
1.7
.555E+03
.48
1. 84
.00
1.98
1.7
.539E+03
.49
1.94
.00
2 .06
1. 8
.524E+03
.49
2 . 04
. 00
2.13
1. 8
.510E+03
. 50
2 .15
.00
2 .21
1.9
.496E+03
.51
2 .25
.00
2 .29
1.9
.482E+03
.52
2 .35
.00
2 .36
2.0
.469E+03
.53
2 .45
.00
2 .44
2 . 0
.457E+03
.54
2 .55
. 00
2 . 52
2 .1
.445E+03
.54
2 .65
.00
2 .59
2 .1
.434E+03
.55
2 .75
.00
2 .67
2.2
.423E+03
.56
2.85
.00
2 .75
2.2
.413E+03
.57
2 .95
.00
2 .83
2.3
.403E+03
.58
3 .04
.00
2 .90
2.4
.393E+03
.59
3.14
.00
2 .98
2.4
.384E+03
.60
3 .24
.00
3 .06
2.5
.375E+03
.60
3 .33
. 00
3 .13
2.5
.366E+03
.61
3 .43
.00
3 .21
2.6
.358E+03
.62
3 .52
.00
3 .29
2.6
.350E+03
.63
3 .62
.00
3 .36
2.7
.343E+03
.64
3 .71
.00
3 .44
2.8
.335E+03
.65
3.81
.00
3 .52
2.8
.328E+03
.65
3 .90
.00
3 .59
2.9
.321E+03
. 66
3 .99
.00
3 .67
2.9
.314E+03
.67
4.08
.00
3 .75
3.0
.308E+03
. 68
4.18
.00
3 .82
3.1
.302E+03
.69
4.27
.00
3.90
3.1
.295E+03
.70
4.36
. 00
3 .98
3.2
.290E+03
.71
-------
4 .45
.00
4 .05
3.3
. 284E + 03
. 71
4 .54
.00
4 .13
3.3
. 278E+03
. 72
4 .64
.00
4 .21
3.4
. 273E+03
.73
4 .73
.00
4.29
3.5
. 268E + 03
. 74
4 .82
.00
4.36
3.5
. 263E + 03
.75
4 .91
. 00
4 .44
3 . 6
. 258E+03
. 76
5 .00
.00
4 .52
3.7
. 253E+03
.76
5 .09
.00
4 . 59
3.7
. 249E+03
.77
5 .18
. .00
4 . 67
3.8
. 244E+03
.78
5 .27
.00
4.75
3.9
.240E+03
.79
5 .36
.00
4 . 82
3 . 9
.236E+03
.80
5 .45
.00
4.90
4.0
.231E+03
.81
Cumulative
travel ¦
time =

2 . sec

END OF MOD121: WEAKLY DEFLECTED PLUME IN CROSSFLOW
BEGIN MODI32: LAYER BOUNDARY IMPINGEMENT/UPSTREAM SPREADING
Vertical angle of layer/boundary impingement =
Horizontal angle of layer/boundary impingement
UPSTREAM INTRUSION PROPERTIES:
Upstream intrusion length	=
X-position of upstream stagnation point =
Thickness in intrusion region	=
Half-width at downstream end	=
Thickness at downstream end
2
2
40 .71
. 00
89 m
56 m
58 m
50 m
58 m
deg
deg
e width as a function of position:
2.56	3.51	4.46	5.40	6.35	7.30	8.25	9.20
:	.00	2.84	4.01	4.91	5.67	6.34	6.95	7.50
Profile definitions:
BV = top-hat thickness, measured vertically
BH = top-hat half-width, measured horizontally in Y-direction
ZU = upper plume boundary (Z-coordinate)
ZL = lower plume boundary (Z-coordinate)
S = hydrodynamic average (bulk) dilution
C = average (bulk) concentration (includes reaction effects, if any)
Control volume inflow:
X	Y	Z	S	C	B
5.45	.00 4.90	4.0 .231E+03 .81
Control volume outflow:
X	Y	Z
9.20	.00 6.00
Cumulative travel time =
S	C	BV	BH	ZU	ZL
6.8 .136E+03 .58	7.50 6.00 5.42
21. sec
END OF MOD132: LAYER BOUNDARY IMPINGEMENT/UPSTREAM SPREADING
** End Of NEAR-FIELD REGION (NFR) **
B	M0D141: BUOYANT AMBIENT SPREADING
	le definitions:
BV = top-hat thickness, measured vertically
BH = top-hat half-width, measured horizontally in Y-direction
ZU = upper plume boundary (Z-coordinate)
ZL = lower plume boundary (Z-coordinate)
-------
S = hydrodynamic average (bulk) dilution
C = average (bulk) concentration (includes reaction effects, if any)
e Stage
X
9 .20
49 . 01
88.83
128.65
168.46
208.28
248 .09
287.91
327 .73
367.54
407.36
447.17
486.99
526.81
566.62
606.44
646 .25
686.07
725.89
765.70
805.52
845.33
885.15
924.97
64 .78
04 . 60
1044.41
1084 .23
1124.05
1163.86
1203.68
1243.49
1283.31
1323.13
1362.94
1402.76
1442.57
1482 .39
1522.21
1562.02
1601.84
1641.65
1681.47
1721.29
1761.10
1800.92
1840.74
1880.55
--1 n20.37
60 .18
00.00
Cumulative
(not
Y
. 00
.00
.00
.00
.00
.00
.00
.00
.00
.00
. 00
. 00
.00
. 00
.00
. 00
.00
. 00
. 00
. 00
.00
. 00
.00
.00
.00
. 00
.00
.00
.00
. 00
.00
.00
.00
. 00
. 00
.00
. 00
.00
. 00
.00
. 00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
travel
bank
Z
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6 .
6.
6 .
6 .
6 .
6.
6.
6.
6.
6.
6.
6.
6.
6.
6 .
6.
6 .
6.
6.
6.
6.
6.
6.
6.
6.
6.
6.
6.
6.
time
attached):
S
00
00
00
00
60
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
6
8
9
10
11
13
14
15
17
18
20.8
23 . 0
25 .3
28 . 0
30 . 8
33 . 9
37.2
40. 8
44 . 7
48.8
53 .2
57 . 9
62 .9
68
73
79
85
92
99
106
113
121
129
138
146 . 8
155 .9
165
175
185
196
207
218
230
242
254
267
280
294
308
323.0
337.9
9975
C
136E+03
105E+03
930E+02
849E+02
778E+02
713E+02
652E+02
594E+02
540E+02
490E+02
444E+02
403E+02
365E+02
331E+02
300E+02
273E+02
249E+02
227E+02
207E+02
190E+02
174E+02
160E+02
147E+02
136E+02
126E+02
116E+02
108E+02
100E+02
934E+01
871E+01
814E+01
762E+01
714E+01
670E+01
63 0E + 01
593E+01
559E+01
528E+01
499E+01
472E+01
447E+01
423E+01
402E+01
382E+01
363E+01
346E+01
329E+01
314E+01
300E+01
286E+01
274E+01
sec
BV
.58
.27
. 21
.18
.17
.16
.16
.16
. 16
. 16
. 17
.17
.18
. 19
.20
.21
.22
.24
.25
.26
.28
.29
.31
.32
.34
.36
.38
.40
.41
.43
.45
.47
.50
.52
.54
.56
.59
.61
.63
.66
. 68
.71
.73
.76
.79
.81
.84
.87
.90
.93
.96
BH
7 .50
20 .80
30 .40
38 .50
45.68
52 .24
58 .32
64 .04
69 .47
74.66
79.66
84 .48
89.17
93 .73
98 .19
102.55
106.82
111.02
115.15
119.21
123.21
127.16
131.06
134.91
138.72
142.48
146.20
149.89
153.54
157.15
160.73
164.28
167.80
171.29
174.75
178.18
181.59
184.97
188.33
191.66
194.97
198.26
201.52
204.76
207.99
211.19
214.37
217.54
220.68
223.81
226.91
ZU
6
6
6
6
6.
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
ZL
5 .42
5 . 73
6 . 00
6
6
6
6
6
6
6
6
6
6
00
00
00
00
00
00
00
00
00
00
5
5 ,
5 ,
5 ,
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
79
82
83
84
84
84
84
84
83
83
82
81
80
79
78
76
75
74
72
71
69
68
66
64
62
60
59
57
55
53
50
48
46
5 .44
5.41
5 .
5 ,
5 .
5
5
5
5
5
5
5
5
5
5
5
39
37
34
32
29
27
24
21
19
16
13
10
07
04
Simulation limit based on maximum specified distance =
This is the REGION OF INTEREST limitation.
2000.00 m.
-------
CORMIX SESSION REPORT:
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
CORNELL MIXING ZONE EXPERT SYSTEM
it system:
"SITE NAME/LABEL:
ORIGINAL design case:
ORIGINAL file name:
Start of main session:
CORMIX v.2.10	April 1993
KEY WEST OUTFALL - MAY 1994
FAR FIELD
FF4
07/28/94--09:50:51
DESIGN ITERATION number:
NEW DESIGN CASE:
NEW FILE NAME:
Using subsystem CORMIX1:
FAR FIELD
FF6
Submerged Single Port Discharges
(Version: CMX1 v.2.20	April 1993)
07/28/94--11:25:29
iricieieieicieieieieJeicicicieiricicicicicieir + icieiciriciclric'k-k'k-k + ic-k-k'k-kir'k-k-klc-k-k'k'k'k-k-k-k-k-k-k'k'kicic-k-k'kic'kic-k'k'k'k'k'k'k-k-k
SUMMARY OF INPUT DATA:
Start of iteration session:
AMBIENT PARAMETERS:




Cross-section

=
unbounded

Average depth

HA
6
m
Depth at discharge

HD
6
m
Ambient velocity

UA
. 2
m/s
Darcy-Weisbach friction factor
F
. 0116

Wind velocity

UW
3
m/s
Stratification Type

STRCND =
U

Surface density

RHOAS =
1016.8
kg/m"3
:tom density

RHOAB =
1016.8
kg/m"3
^¦^HARGE PARAMETERS :

Submerged
Single Port
Discharge
Nearest bank

=
left

Distance to bank

DISTB =
900
m
Port diameter

DO
. 62
m
Port cross-sectional area

AO
0 .3018
m 2
Discharge velocity

U0
0 . 85
m/s
Discharge flowrate

Q0
. 257
m^3/s
Discharge port height

HO
. 5
m
Vertical discharge angle

THETA =
0
deg
Horizontal discharge angle

SIGMA =
0
deg
Discharge temperature (freshwat
er)
28
degC
Corresponding density

RHOO
996 . 2337
kg/mA3
Density difference

DRHO
20.5662
kg/m^3
Buoyant acceleration

GP0
. 1984
m/s^2
Discharge concentration

CO

925 PPB
Surface heat exchange coeff.
KS
0
m/ s
Coefficient of decay

KD
0
/s
DISCHARGE/ENVIRONMENT LENGTH
SCALES:


LQ = 0.54 m
Lm
2 .
33 m
Lb = 6.37 m
LM = 1.41 m
Lm'
99999
. 0 m
Lb' = 99999 . 0 m
NON-DIMENSIONAL PARAMETERS:
rt densimetric Froude number FRO =	2.42
locity ratio	R	=	4.25
MIXING ZONE / TOXIC DILUTION ZONE /	AREA OF INTEREST PARAMETERS:
Toxic discharge	= no
Water quality standard specified	= no
Regulatory mixing zone	= no
-------
Region of interest	=	10000.00 m downstream
HEMODYNAMIC CLASSIFICATION:
	*
?LOW CLASS =	H3 |
*	*
This flow configuration applies to a layer corresponding to the full water
depth at the discharge site.
Applicable layer depth = water depth =	6m
MIXING ZONE EVALUATION (hydrodynamic and regulatory summary):
X-Y-Z Coordinate system:
Origin is located at the bottom below the port center:
900 m from the left bank/shore.
NEAR-FIELD REGION (NFR) CONDITIONS :
Note: The NFR is the zone of strong initial mixing. It has no regulatory
implication. However, this information may be useful for the discharge
designer because the mixing in the NFR is usually sensitive to the
discharge design conditions.
Pollutant concentration at edge of NFR =	136.1576 PPB
Dilution at edge of NFR
=
6 . 7

NFR Location:
x =
9 .19
m
(centerline coordinates)
y =
. 00
m

z =
6 . 00
m
NFR plume dimensions:
half-width =
7 .49
m

thickness =
.58
m
ancy assessment:
me effluent density is less than the surrounding ambient water
density at the discharge level.
Therefore, the effluent is POSITIVELY BUOYANT and will tend to rise towards
the surface.
UPSTREAM INTRUSION SUMMARY:
Plume exhibits upstream intrusion due	to low ambient velocity or strong
discharge buoyancy.
Intrusion length	=	2.88 m
Intrusion stagnation point	=	2.56 m
Intrusion thickness	= .58 m
Intrusion half width at impingement	=	7.49 m
Intrusion half thickness at impingement = .58 m
FAR-FIELD MIXING SUMMARY:
Plume becomes vertically fully mixed at	6203.16 m downstream.
************************ TOXIC DILUTION ZONE SUMMARY ************************
No TDZ was specified for this simulation.
********************** REGULATORY MIXING ZONE SUMMARY ***********************
No RMZ and no ambient water quality standard have been specified.
********************* FINAL DESIGN ADVICE AND COMMENTS **********************
REMINDER: The user must take note that HYDRODYNAMIC MODELING by any known
-technique is NOT AN EXACT SCIENCE.
sive comparison with field and laboratory data has shown that the
MIX predictions on dilutions and concentrations (with associated
plume geometries) are reliable for the majority of cases and are accurate
to within about +-50% (standard deviation).
As a further safeguard, CORMIX will not give predictions whenever it judges
the design configuration as highly complex and uncertain for prediction.
-------
C0RMIX1 PREDICTION FILE:
11111111111111111111111111111111111111111111111111111111111111111111111111111
CORNELL MIXING ZONE EXPERT SYSTEM
^stem CORMIX1:	Subsystem version:
nerged Single Port Discharges	CMX1 v.2.20	April 1993
CASE DESCRIPTION
Site name/label:
Design case:
FILE NAME:
Time of Fortran run-.
KEY WEST"OUTFALLa-^MAY"19 94
FAR^FIELD
cormix\sim\FF6	.cxl
07/28/94--11:26 : 19
(metric units]
ENVIRONMENT PARAMETERS
Unbounded section
HA =	6.00 HD
UA =	.200 F
UVJ =	3.000 UWSTAR= .3377E-02
Uniform density environment
STRCND= U	RHOAM = 1016.8000
6 . 00
.012 USTAR =
.7616E-02
DISCHARGE PARAMETERS (metric units]
BANK =
DO
THETA =
U0
RHOO =
CO.
L =
LEFT
. 620
.00
. 851
996 . 2338
9250E+03
1
DISTB =
AO
SIGMA =
Q0
DRHOO =
CUNITS=
KS
900.00
.3 02 HO
. 00
. 257
. 2057E + 02 GP0
PPB
. 0000E + 00 KD
. 50
.257 OE + OO
.1984E+00
.OOOOE+OO
f'LUX VARIABLES (metric units)
Q0 = .2570E+00 M0 = .2188E+00
Associated length scales (meters)
LQ =	.55 LM =	1.4 2
JO = .5098E-01 SIGNJ0 =	1.0
Lm =	2.34 Lb =	6.37
Lmp = 99999.00 Lbp = 99999.00
NON-DIMENSIONAL PARAMETERS
FRO =	2.42 R
4 . 25
FLOW CLASSIFICATION
111111111111111111111111111111111111111111
1 Flow class (CORMIX1)	H3	1
1 Applicable layer depth HS =	6.00 1
llllllllllllllllllllllllllllllllllllllllll
MIXING ZONE / TOXIC DILUTION / REGION OF INTEREST PARAMETERS
CO
NTOX
NSTD
REGMZ
XINT
9250E+03
0
0
0
10000 . 00
CUNITS= PPB
XMAX
10000.00
Y-^7. COORDINATE SYSTEM:
RIGIN is located at the bottom and belov; the center of the port:
900.00 m from the LEFT bank/shore.
X-axis points downstream, Y-axis points to left, Z-axis points upward.
NSTEP = 20 display intervals per module
BEGIN MODI01: DISCHARGE MODULE
-------
X	Y	Z	S	C	B
.00	.00 .50	1.0 .925E+03 .31
DF MOD101: DISCHARGE MODULE
BEGIN MODI11: WEAKLY DEFLECTED JET IN CROSSFLOW
CO-FLOWING DISCHARGE
Profile definitions:
B = Gaussian l/e (37%) half-width, normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
X
. 00
. 02
.05
. 07
. 10
. 12
. 15
. 17
.20
.22
. 24
.27
.29
.32
.34
.37
.39
.42
.44
.47
.49
Cumulativ
END OF MODI11: WEAKLY DEFLECTED JET IN CROSSFLOW
BEGIN MOD121: WEAKLY DEFLECTED PLUME IN CROSSFLOW
Profile definitions:
B = Gaussian l/e (37%) half-width, normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
X
Y
z
S
C
B
.49
. 00
1 . 06
1 . 2
. 797E + 03
.38
. 79
. 00
1 . 25
1 . 3
.729E+03
.41
1 . 07
. 00
1 . 44
1 . 4
.670E+03
. 43
1 . 35
. 00
1 . 63
1 . 5
.618E+03
. 45
1. 62
. 00
1. 83'
1 . 6
.572E+03
.47
1 . 89
. 00
2 . 02
1 . 7
.532E+03
.49
2 .15
.00
2 . 21
1 . 9
.496E+03
. 51
2 .40
. 00
2 .40
2 . 0
.463E+03
. 53
2 . 65
. 00
2 . 59
2 . 1
.434E+03
. 55

z
S
C
B
00
. 50
1. 0
. 925E + 03
. 34
00
. 52
1. 0
.918E+03
. 34
00
. 55
1. 0
.910E+03
. 34
00
.57
1. 0
.903E+03
. 34
00
. 60
1. 0
.896E+03
.35
00
. 62
1. 0
.889E+03
.35
00
. 65
1. 0
.883E+03
. 35
00
. 68
1.1
.876E+03
.35
00
. 70
1. 1
.869E+03
.36
00
. 73
1. 1
.863E+03
.36
00
. 76
1. 1
.856E+03
.36
00
. 79
1. 1
.850E+03
.37
00
. 81
1 .1
.844E+03
.37
00
. 84
1 . 1
.838E+03
.37
00
. 87
1.1
.832E+03
.37
00
. 90
1. 1
.826E+03
.38
00
. 93
1. 1
.820E+03
.38
00
. 96
1. 1
.814E+03
.38
00
. 99
1.1
.808E+03
.38
00
1. 03
1. 2
.803E+03
.39
00
1 . 06
1. 2
.797E+03
.39
¦e travel time =	0. sec
-------
2 .90
. 00
2 .79
2 .3
.4 0 8E + 03
.57
3 .14
. 00
2 . 98
2.4
.384E+03
. 60
3.38
.00
3 .17
2 . 6
.362E+03
. 62
3 . 62
.00
3 .36
2 . 7
.343E+03
. 64
3 . 85
. 00
3 .56
2 . 9
.324E+03
. 66
4 . 08
. 00
3 . 75
3 . 0
.308E+03
. 68
4 . 32
.00
3 .94
3.2
.292E+03
. 70
4 . 54
. 00
4 . 13
3 . 3
.278E+03
. 72
4 . 77
. 00
4 . 32
3 . 5
.265E+03
. 74
5 . 00
. 00
4 . 52
3 . 7
.253E+03
. 76
5 .22
. 00
4 .71
3 . 8
.242E+03
.79
5 .45
. 00
4 . 90
4 . 0
.231E+03
. 81
Cumulative
travel •
time =

2 . sec

END OF MODI21: WEAKLY DEFLECTED PLUME IN CROSSFLOW
BEGIN MOD132: LAYER BOUNDARY IMPINGEMENT/UPSTREAM SPREADING
Vertical angle of layer/boundary impingement =	40.67 deg
Horizontal angle of layer/boundary impingement =	.00 deg
UPSTREAM INTRUSION PROPERTIES:
Upstream intrusion length	=	2.88 m
X-position of upstream stagnation point	=	2.56 m
Thickness in intrusion region	=	.58 m
Half-width at downstream end	=	7.49 m
Thickness at downstream end	=	.58 m
le width as a function of position:
2.56	3.51	4.46	5.40	6.35	7.30	8.25	9.19
—I:	.00	2.83	4.01	4.91	5.66	6.33	6.94	7.49
Profile definitions:
BV = top-hat thickness, measured vertically
BH = top-hat half-width, measured horizontally in Y-direction
ZU = upper plume boundary (Z- coordinate)
ZL = lower plume boundary (Z-coordinate)
S = hydrodynamic average (bulk) dilution
C = average (bulk) concentration (includes reaction effects, if any)
Control volume inflow:
X	Y	Z	S	C	B
5.45	.00 4.90	4.0 .231E+03 .81
Control volume outflow-.
X Y Z	S C BV BH	ZU	ZL
9.19 .00 6.00	6.8 .136E+03 .58 7.49 6.00 5.42
Cumulative travel time =	21. sec
END OF MOD132: LAYER BOUNDARY IMPINGEMENT/UPSTREAM SPREADING
** End of NEAR-FIELD REGION (NFR) **
M0D141: BUOYANT AMBIENT SPREADING
Profile definitions:
BV = top-hat thickness, measured vertically
BH = top-hat half-width, measured horizontally in Y-direction
ZU = upper plume boundary (Z-coordinate)
ZL = lower plume boundary (Z-coordinate)
-------
S = hydrodynamic average (bulk) dilution
C = average (bulk) concentration (includes reaction effects, if any)
ne Stage 1 (not bank attached):
X
Y
z
S
C
BV
BH
ZU
ZL
9 .19
. 00
6 . 00
6.8
. 136E + 03
.58
7.49
6 . 00
5 .42
318.89
. 00
6 . 00
16 . 8
.552E+02
. 16
68 .29
6 . 00
5 . 84
628.59
. 00
6 .00
35 . 7
.259E+02
. 22
104.93
6 . 00
5 . 78
938.29
. 00
6.00
70 . 0
.132E+02
.33
136.19
6 . 00
5 . 67
1247.99
. 00
6 . 00
122 . 3
.756E+01
.48
164.68
6 . 00
5 .52
1557.68
. 00
6 . 00
195 . 0
.474E+01
. 65
191.30
6 . 00
5 .35
1867.38
. 00
6 . 00
290.0
.319E+01
. 86
216 .49
6 . 00
5 . 14
2177.08
. 00
6 . 00
409 . 0
.226E+01
1 . 09
240 .53
6 . 00
4 . 91
2486.78
. 00
6 . 00
553 . 5
.167E+01
1 . 35
263.61
6 . 00
4 . 65
2796.48
. 00
6 . 00
725 . 0
.128E+01
1 . 63
285 . 85
6 . 00
4 .37
3106.18
. 00
6 . 00
924 . 7
.100E+01
1 . 93
307 .38
6 . 00
4 .07
3415.88
. 00
6 .00
1153 . 9
.802E+00
2.26
328 .27
6 . 00
3 . 74
3725 .57
. 00
6 . 00
1413.6
.654E+00
2 . 60
348 .59
6 . 00
3 .40
4035 . 27
. 00
6 . 00
1704 . 8
.543E+00
2 . 97
368.40
6 . 00
3 . 03
4344.97
.00
6 .00
2028.6
.456E+00
3 .36
387 .75
6 . 00
2 .64
4654 . 67
. 00
6 .00
2385 . 8
.388E+00
3 . 77
406 . 67
6 . 00
2.23
4964.37
. 00
6 .00
2777.5
.333E+00
4 .20
425.19
6 . 00
1 . 80
5274 . 07
. 00
6 . 00
3204 . 3
.289E+00
4 . 64
443 .36
6 . 00
1 .36
5583.76
. 00
6 .00
3667.1
.252E+00
5 . 11
461.20
6 . 00
.89
5893.46
. 00
6 . 00
4166.7
.222E+00
5 .59
478 . 72
6 . 00
.41
6203.16
. 00
6 . 00
4703 . 9
.197E+00
6 . 00
495 . 95
6 . 00
. 00
Cumulative travel time =	30991. sec
)F M0D141: BUOYANT AMBIENT SPREADING
BEGIN MODI61: PASSIVE AMBIENT MIXING IN UNIFORM AMBIENT
Vertical diffusivity (initial value) = .940E-02 m^2/s
Horizontal diffusivity (initial value) = .589E+01 m^2/s
The passive diffusion plume is VERTICALLY FULLY MIXED at beginning of region.
Profile definitions:
BV = Gaussian s.d.*sqrt(pi/2) (46%) thickness, measured vertically
= or equal to layer depth, if fully mixed
BH = Gaussian s.d.*sqrt(pi/2) (46%) half-width,
measured horizontally in Y-direction
ZU = upper plume boundary (Z-coordinate)
ZL = lower plume boundary (Z-coordinate)
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
Plume Stage 1 (not bank attached):
X
Y
Z
S
C
BV
BH
ZU
ZL
6203.16
.00
6 . 00
4703.9
.197E+00
6 . 00
495 . 95
6 . 00
. 00
6393.00
. 00
6 .00
4872.8
.190E+00
6 . 00
513 .76
6 . 00
. 00
_6582.84
. 00
6 . 00
5043 . 7
.183E+00
6 . 00
531.77
6 . 00
. 00
]12 .69
. 00
6 .00
5216 . 5
.177E+00
6 . 00
550 . 00
6 . 00
. 00
362.53
. 00
6 .00
5391.3
.172E+00
6 . 00
568.42
6 . 00
. 00
7152.37
.00
6 .00
5567 . 9
.16 6E+00
6 . 00
587 . 05
6 . 00
.00
7342.21
. 00
6 .00
5746 . 5
.161E+00
6 . 00
605 . 87
6 . 00
. 00
7532 . 05
. 00
6 .00
5926 . 9
.156E+00
6 . 00
624 .90
6 . 00
. 00
7721. 90
. 00
6.00
6109.2
.151E+00
6 . 00
644.12
6 . 00
. 00
7911.74
. 00
6 .00
6293 . 3
.147E+00
6 . 00
663 .53
6 . 00
. 00
-------
8101.58
. 00
6 .00
6479 . 2
. 143E + 00
6 . 00
683.13
6 . 00
. 00
8291.42
. 00
6 .00
6667 . 0
. 139E + 00
6 . 00
702 .92
6 . 00
. 00
= 81.26
. 00
6 . 00
6856.5
. 135E + 00
6 . 00
722 .90
6 . 00
.00
171.10
. 00
6 .00
7047.7
.131E+00
6 . 00
743.07
6 . 00
. 00
160 . 95
. 00
6 .00
7240 . 7
.128E+00
6 . 00
763 .41
6 . 00
.00
9050.79
. 00
6 .00
7435 . 5
.124E+00
6 . 00
783 . 95
6 . 00
. 00
9240.63
. 00
6 . 00
7631.9
.121E+00
6 . 00
804 .66
6 . 00
. 00
9430.47
. 00
6.00
7830 . 0
.118E+00
6 . 00
825 .55
6 . 00
.00
9620 .31
. 00
6 .00
8029 . 9
.115E+00
6 . 00
846 . 62
6 .00
. 00
9810.16
.00
6 .00
8231.4
.112E+00
6 . 00
867 .86
6 . 00
. 00
10000.00
. 00
6 . 00
8434 . 6
. 110E + 00
6 . 00
889 .28
6 . 00
. 00
Cumulative travel time =	49975. sec
Simulation limit based on maximum specified distance = 10000.00 m.
This is the REGION OF INTEREST limitation.
END OF MODI61: PASSIVE AMBIENT MIXING IN UNIFORM AMBIENT
C0RMIX1: Submerged Single Port Discharges	End of Prediction File
11111111111111111111111111111111111111111111111111111111111111111111111111111
-------
CORMIX SESSION REPORT:
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
CORNELL MIXING ZONE EXPERT SYSTEM
it system:	CORMIX v.2.10	April 1993
~SITE NAME/LABEL:	KEY WEST OUTFALL
DESIGN CASE:	WITH 25 METER DIFFUSER WITH 6 PORTS
FILE NAME:	DIF1
Using subsystem CORMIX2:	Submerged Multiport Diffuser Discharges
(Version: CMX2 v.2.2 0	April 1993)
Start of session:	07/29/94--13:09:53
*****************************************************************************
SUMMARY OF INPUT DATA:
AMBIENT PARAMETERS:
Cross-section
Average depth
Depth at discharge
Ambient velocity
Darcy-Weisbach friction factor
Wind velocity
Stratification Type
Surface density
Bottom density
= unbounded
HA	6 m
HD	6 m
UA	=	.2 m/s
F	=	.0116
UW	3 m/s
STRCND	= U
RHOAS	=	1016.8 kg/m^3
RHOAB	=	1016.8 kg/m^3
DISCHARGE PARAMETERS:	Submerged Multiport Diffuser Discharge
Diffuser type
DITYPE
= alternating perpendicular
Diffuser length
LD
= 25 m


arest bank

= left


Efuser endpoints
YB1
=
8 85 m ;
YB2 = 910 m
tiber of openings
NOPEN
=
6

Spacing between risers/openings
SPAC
=
5
m
Port/Nozzle diameter
DO
=
.25
m
Equivalent slot width
B0
=
0.0094
m
Total area of openings
AO
=
0.0392
m^2
Discharge velocity
UO
=
1 . 09
m/s
Total discharge
Q0
=
. 257
m*3/s
Discharge port height
HO
=
.5
m
Nozzle arrangement
BETYPE
= near
vertical discharge
Diffuser alignment angle
GAMMA
=
90
deg
Vertical discharge angle
THETA
=
90 . 0
deg
Horizontal discharge angle
SIGMA

0 . 0
deg
Relative orientation angle
BETA
=
90 . 0
deg
Discharge temperature (freshwat
er)
=
28
degC
Corresponding density
RHOO
=
996 .2337
kg/m^3
Density difference
DRHO
=
20.5662
kg/m^3
Buoyant acceleration
GP0
=
. 1984
m/s^2
Discharge concentration
CO
=

925 PPB
Surface heat exchange coeff.
KS
=
0
m/s
Coefficient of decay
KD
=
0
/s
FLUX VARIABLES PER UNIT DIFFUSER
LENGTH:



Discharge (volume flux)
q0
=
0 . 010280
m^2 / s
nentum flux
mO
=
0 .011212
mA3/s^2
oyancy flux
jo

0 . 002039
m^3/s^3
DISCHARGE/ENVIRONMENT LENGTH SCALES :
lq 0.00 m lm 0.28 m	1M = 0.69 m
lm' = 99999.0 m lb' = 99999.0 m	la = 99999.0 m
(These refer to the actual discharge/environment length scales.)
-------
NON-DIMENSIONAL PARAMETERS:
i^lot Froude number	FRO	=	25.22
rt/nozzle Froude number	FRDO	=	4.89
Locity ratio	R	=	5.45
MIXING ZONE / TOXIC DILUTION ZONE / AREA OF INTEREST PARAMETERS:
Toxic discharge	= no
Water quality standard specified	= no
Regulatory mixing zone	= no
Region of interest	= 2000.00 m downstream
HYDRODYNAMIC CLASSIFICATION:
*	*
| FLOW CLASS = MU1H |
*	*
This flow configuration applies to a layer corresponding to the full water
depth at the discharge site.
Applicable layer depth = water depth =	6m
icicicicicicicic^ic^ic^icicic^icicicicicic^icicic-k-k-kic-k-k-kic-k'k^-k-k'k-k-k'k-k-k-k-k-k-kic-kiciciric-kiir-k-k'k-k-kiir-kir-k-kir-k'kie'kic'k'k'k
MIXING ZONE EVALUATION (hydrodynamic and regulatory summary):
X-Y-Z Coordinate system:
Origin is located at the bottom below the port center:
897.50 m from the left bank/shore.
NEAR-FIELD REGION (NFR) CONDITIONS :
Note: The NFR is the zone of strong initial mixing. It has no regulatory
plication. However, this information may be useful for the discharge
signer because the mixing in the NFR is usually sensitive to the
scharge design conditions.
Pollutant concentration at edge of NFR =	8.2932 PPB
Dilution at edge of NFR =	111.5
NFR Location: x =	31.43 m
(centerline coordinates) y =	.00 m
z =	6.00m
NFR plume dimensions: half-width =	16.65 m
thickness =	4.30 m
Buoyancy assessment:
The effluent density is less than the surrounding ambient water
density at the discharge level.
Therefore, the effluent is POSITIVELY BUOYANT and will tend to rise towards
the surface.
************************ TOXIC DILUTION ZONE SUMMARY ************************
No TDZ was specified for this simulation.
********************** REGULATORY MIXING ZONE SUMMARY ***********************
No RMZ and no ambient water quality standard have been specified.
********************* FINAL DESIGN ADVICE AND COMMENTS **********************
C0RMIX2 uses the TWO-DIMENSIONAL SLOT DIFFUSER CONCEPT to represent
the actual three-dimensional diffuser geometry. Thus, it approximates
the details of the merging process of the individual jets from each
oort/nozzle.
le present design, the spacing between adjacent ports/nozzles
r riser assemblies) is of the order of, or less than, the local
,.^ter depth so that the slot diffuser approximation holds well.
Nevertheless, if this is a final design, the user is advised to use a
final C0RMIX1 (single port discharge) analysis, with discharge data
for an individual diffuser jet/plume, in order to compare to
the present near-field prediction.
-------
REMINDER: The user must take note that HYDRODYNAMIC MODELING by any known
_technique is NOT AN EXACT SCIENCE.
isive comparison with field and laboratory data has shown that the
IMIX predictions on dilutions and concentrations (with associated
j^jme geometries) are reliable for the majority of cases and are accurate
to within about +-50% (standard deviation).
As a further safeguard, CORMIX will not give predictions whenever it judges
the design configuration as highly complex and uncertain for prediction.
-------
C0RMIX2 PREDICTION FILE:
22222222222222222222222222222222222222222222222222222222222222222222222222222
CORNELL MIXING ZONE EXPERT SYSTEM
/•stem CORMIX2 :	Subsystem version:
nerged Multiport Diffuser Discharges CMX2 v.2.20	April 1993
CASE DESCRIPTION
Site name/label:
Design case:
FILE NAME:
Time of Fortran run:
ENVIRONMENT PARAMETERS
Unbounded section
HA =	6.00 HD
UA =	.2 00 F
UW =	3.000 UWSTAR= .3377E-02
Uniform density environment
STRCND= U	RHOAM = 1016.8000
KEY WEST OUTFALL
WITH^2 5^METER^DIFFUSER^WITH^ e^PORTS
cormix\sim\DIFl .cx2
07/29/94--13 : 21 : 38
(metric units)
6 . 00
.012 USTAR
. 7616E-02
DIFFUSER DISCHARGE PARAMETERS (metric units;
DITYPE=alternating perpendicular
BETYPE=near vertical discharge
BANK
LD
DO
GAMMA
MA
KtluO
CO
I POLL
LEFT
25
90
00
250
00
. 00
1. 091
996 . 2338
9250E+03
1
DISTB =
NOPEN =
AO
THETA =
BETA =
Q0
DRHOO =
CUNITS=
KS
897.50 YB1
6	SPAC
.039 HO
90 . 00
90 . 00
. 257
. 2057E + 02 GP0
PPB
. 0000E + 00 KD
! 85.00
5 . 00
.50
= . 2570E+00
= . 1984E + 00
= .0000E+00
YB2
910.00
FLUX VARIABLES - PER UNIT DIFFUSER LENGTH
qO = .1028E-01 mO = .1121E-01 jO
Associated 2-d length scales (meters)
1Q=B =	.009 1M =	.70 lm
Imp = 99999.00 lbp = 99999.00 la
(metric units)
= . 2039E-02
99999
28
00
FLUX VARIABLES - ENTIRE DIFFUSER (metric units)
Q0 = .2570E+00 M0 = .2803E+00 JO = .5098E-01
Associated 3-d length scales (meters)
LQ =	.49 LM =	1.71 Lm =	2.65
Lmp = 99999.00
SIGNJ0=
1.0
Lb
Lbp
6.37
99999 .00
NON-DIMENSIONAL
FRO =	2 5
(slot)
PARAMETERS
,22 FRD0 =	4
(port/nozzle)
89 R
5 .45
FLOW CLASSIFICATION
222222222222222222222222222222222222222222
2 Flow class (CORMIX2)	= MU1H 2
applicable layer depth HS =	6.00 2
12222 22222222 22 222222222222222222 22 2222
MIXING ZONE / TOXIC DILUTION / REGION OF INTEREST PARAMETERS
CO = .9250E+03 CUNITS= PPB
NTOX = 0
NSTD = 0
-------
REGMZ = 0
XINT = 2000.00 XMAX = 2000.00
Z COORDINATE SYSTEM:
ORIGIN is located at the bottom and the diffuser mid-point:
897.50 m from the LEFT bank/shore.
X-axis points downstream, Y-axis points to left, Z-axis points upward.
NSTEP = 50 display intervals per module
BEGIN MOD201: DIFFUSER DISCHARGE MODULE
Profile definitions:
BV = Gaussian l/e (37%) half-width, in vertical plane normal to trajectory
BH = top-hat half-width, in horizontal plane normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
X	Y	Z	S	C	BV	BH
.00	.00 .50	1.0 .925E+03 .01 12.50
END OF MOD2 01: DIFFUSER DISCHARGE MODULE
BEGIN M0D211: WEAKLY DEFLECTED PLANE JET IN CROSSFLOW
CROSSFLOWING DISCHARGE
file definitions:
/ = Gaussian l/e (37%) half-width, in vertical plane normal to trajectory
oil = top-hat half-width, in horizontal plane normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)

Y
z
S
C
BV
BH
00
. 00
. 50
1 . 0
.925E+03
. 01
12 .51
00
. 00
. 51
1 . 2
.755E+03
. 01
12 .51
00
. 00
.53
1 . 4
.654E+03
. 01
12 .51
01
. 00
.54
1. 6
.585E+03
. 01
12 .51
01
. 00
.56
1. 7
. 534E + 03
. 01
12 . 51
01
. 00
. 57
1 . 9
.494E+03
. 01
12 .51
01
. 00
.59
2 . 0
.462E+03
. 01
12 . 51
02
. 00
. 60
2 . 1
.436E+03
. 02
12 . 52
02
. 00
.61
2 . 2
. 414E + 03
. 02
12 .52
02
.00
. 63
2 . 3
. 394E + 03
. 02
12 . 52
03
. 00
. 64
2 . 4
. 378E + 03
. 02
12 .52
03
. 00
. 66
2 . 6
.363E+03
. 02
12 . 52
03
. 00
.67
2 . 6
.350E+03
. 03
12 . 53
04
. 00
. 69
2 . 7
.338E+03
. 03
12 . 53
04
. 00
. 70
2 . 8
.327E+03
. 03
12 . 53
05
. 00
. 72
2 . 9
.317E+03
. 03
12 . 53
05
. 00
. 74
3 . 0
.308E+03
. 03
12 . 53
06
. 00
. 75
3 . 1
.300E+03
. 03
12 . 53
06
.00
. 77
3 . 2
.292E+03
. 04
12 . 54
07
. 00
. 78
3 . 2
.285E+03
. 04
12 .54
07
. 00
. 80
3 . 3
.2 79E+03
. 04
12 . 54
08
.00
. 81
3 . 4
.273E+03
. 04
12 . 54
08
. 00
. 83
3 . 5
.267E+03
. 04
12 . 54
09
.00
.85
3 . 5
.262E+03
. 05
12 . 55
09
. 00
. 86
3 . 6
.256E+03
. 05
12 . 55
-------
.10
. 00
.88
3 .7
.252E+03
. 05
12 .55
. 10
. 00
. 90
3 . 7
.247E+03
. 05
12 .55
. 11
. 00
. 91
3 . 8
.243E+03
. 05
12 .55
. 11
. 00
. 93
3 . 9
. 239E + 03
. 05
12 .55
. 12
. 00
. 95
3 . 9
.235E+03
. 06
12 .56
. 13
. 00
. 97
4 . 0
.231E+03
.06
12 .56
. 13
. 00
.98
4 . 1
.228E+03
.06
12 .56
. 14
.00
1 . 00
4 . 1
.224E+03
.06
12 .56
. 14
. 00
1 . 02
4 . 2
.221E+03
.06
12 .56
. 15
. 00
1 . 04
4 . 2
.218E+03
. 07
12 .57
.16
. 00
1.06
4.3
.215E+03
.07
12 . 57
. 16
. 00
1 . 08
4 . 4
.212E+03
.07
12 .57
. 17
. 00
1 . 09
4.4
.209E+03
. 07
12 .57
. 18
. 00
1 . 11
4 . 5
.207E+03
. 07
12 .57
. 18
. 00
1 . 13
4 . 5
.204E+03
. 07
12 .57
.19
. 00
1 .15
4 . 6
.202E+03
.08
12 .58
. 20
. 00
1 . 17
4 . 6
.199E+03
. 08
12 .58
.20
. 00
1 . 19
4 . 7
.197E+03
. 08
12 . 58
.21
. 00
1 .21
4 . 7
.195E+03
.08
12 . 58
. 22
. 00
1 . 23
4 . 8
.193E+03
. 08
12 .58
. 22
.00
1 . 25
4 . 8
.191E+03
. 09
12 . 59
.23
. 00
1 .27
4 . 9
.189E+03
.09
12 .59
. 24
. 00
1 . 29
5 . 0
.187E+03
.09
12 .59
.25
. 00
1 .31
5 . 0
.185E+03
.09
12 .59
.25
. 00
1 . 33
5 . 1
.183E+03
.09
12 .59
.26
. 00
1.36
5 . 1
.181E+03
. 09
12 .59
Cumulative
travel 1
time =

3 . sec


OF MOD211: WEAKLY DEFLECTED PLANE JET IN CROSSFLOW
BEGIN MOD222: STRONGLY DEFLECTED PLANE PLUME IN CROSSFLOW
Profile definitions:
BV = Gaussian l/e (37%) half-width, in vertical plane normal to trajectory
BH = top-hat half-width, in horizontal plane normal to trajectory
S = hydrodynamic centerline dilution
C = centerline concentration (includes reaction effects, if any)
X
Y
z
S
C
BV
BH
.26
. 00
1 .36
5 . 1
.181E+03
. 14
12 .59
. 80
. 00
1 .42
6 . 6
.141E+03
. 17
12 . 63
1.34
.00
1 .49
8 . 1
.115E+03
.21
12 . 67
1.88
.00
1 . 55
9 . 5
.971E+02
.25
12 . 71
2 .42
. 00
1 . 62
11. 0
.841E+02
.29
12 . 75
2 .96
. 00
1 . 68
12 . 5
.741E+02
.33
12 .79
3 .50
. 00
1 . 75
14 . 0
.663E+02
.37
12 . 83
4 . 04
. 00
1. 81
15 . 4
.600E+02
.41
12 . 87
4 . 58
. 00
1 . 88
16 . 9
.547E+02
.45
12 . 91
5 . 12
. 00
1 . 94
18 . 4
.503E+02
.49
12 . 95
5 . 66
. 00
2 . 01
19 . 9
.466E+02
.53
12 . 99
6.20
. 00
2 .08
21.3
.434E+02
.57
13 . 03
6 . 74
.00
2 . 14
22 . 8
.406E+02
.61
13 . 07
7.28
. 00
2 . 21
24.3
.381E+02
.65
13 .10
7 . 82
. 00
2 . 27
25 . 8
.359E+02
.68
13 .14
8 .36
.00
2 . 34
27 . 2
.340E+02
.72
13 . 18
8 .90
. 00
2 .40
28 . 7
.322E+02
.76
13 .22
9 .44
. 00
2 .47
30 . 2
.306E+02
.80
13 .26
9 . 98
. 00
2 .53
31. 7
.292E+02
. 84
13 .30
10 . 52
. 00
2 . 60
33 . 1
.279E+02
.88
13 . 34
-------
11.06
.00
2 .66
34 . 6
. 267E + 02
. 92
13 .38
11.59
. 00
2 . 73
36 . 1
. 256E + 02
. 96
13 .42
12 . 13
. 00
2 . 79
37 . 6
. 246E + 02
1 . 00
13 .46
12 . 67
.00
2 . 86
39 . 0
. 237E + 02
1 . 04
13 . 50
13 .21
.00
2 .93
40 . 5
. 228E + 02
1 . 08
13 .54
13 . 75
. 00
2 . 99
42 . 0
. 220E + 02
1 . 12
13 .58
14 .29
. 00
3 . 06
43 . 5
. 213E + 02
1 . 16
13 . 61
14 . 83
. 00
3 .12
44 . 9
. 206E + 02
1 . 19
13 . 65
15 .37
. 00
3 .19
46 .4
. 199E + 02
1 .23
13 . 69
15 . 91
. 00
3 . 25
47 . 9
. 193E + 02
1 .27
13 . 73
16 .45
. 00
3 .32
49 .4
. 187E + 02
1 .31
13 . 77
16 . 99
. 00
3 .38
50 . 8
. 182E + 02
1 .35
13 . 81
17.53
.00
3 . 45
52 . 3
.177E+02
1.39
13 . 85
18 . 07
. 00
3 .51
53 . 8
.172E+02
1 . 43
13 . 89
18 . 61
. 00
3 . 58
55 . 3
.167E+02 .
1 .47
13 . 93
19 .15
. 00
3 . 64
56 . 7
.163E+02
1 . 51
13 . 97
19 .69
.00
3 . 71
58 . 2
.159E+02
1 .55
14 . 01
20 .23
. 00
3 . 78
59 . 7
.155E+02
1 . 59
14 . 05
20.77
. 00
3 . 84
61 . 2
.151E+02
1 . 63
14 . 09
21.31
.00
3 . 91
62 . 6
.148E+02
1 . 67
14 . 12
21 . 85
.00
3 . 97
64 . 1
.144E+02
1 . 70
14 . 16
22 .39
.00
4 . 04
65 . 6
.141E+02
1 . 74
14 . 20
22 .93
.00
4 . 10
67 . 1
.138E+02
1 .78
14 . 24
23 .47
. 00
4 . 17
68 . 5
.135E+02
1 . 82
14 .28
24 . 01
.00
4 . 23
70 . 0
.132E+02
1 .86
14 .32
24 . 55
.00
4 .30
71 . 5
.129E+02
1 . 90
14 .36
25 .09
. 00
4 . 36
73 . 0
.127E+02
1 . 94
14 .40
25 . 63
. 00
4 .43
74 . 4
.124E+02
1 . 98
14 . 44
26 .17
. 00
4 . 49
75 . 9
.122E+02
2 . 02
14 .48
26 .71
.00
4 . 56
77 . 4
.120E+02
2 . 06
14 .52
27 .25
. 00
4 . 63
78 . 9
.117E+02
2 . 10
14 .56
Cumulative travel time =	138. sec
END OF MOD222: STRONGLY DEFLECTED PLANE PLUKE IN CROSSFLOW
BEGIN MOD235: LAYER/BOUNDARY/TERMINAL LAYER APPROACH
Profile definitions:
BV = top-hat thickness, measured vertically
BH = top-hat half-width, measured horizontally in y-direction
ZU = upper plume boundary (Z-coordinate)
ZL = lower plume boundary (Z-coordinate)
S = hydrodynamic average (bulk) dilution
C = average (bulk) concentration (includes reaction effects, if any)
Control volume inflow:
X	Y	Z	S	C
27.25	.00 4.63 78.9 .117E+02
BV	BH
2.10 14.56
Control volume outflow:
X Y Z	S C BV BH	ZU	ZL
31.44 .00 6.00	111.5 .829E+01 4.30 16.65 6.00 1.70
.lative travel time =	159. sec
JF MOD235: LAYER/BOUNDARY/TERMINAL LAYER APPROACH
** End Of NEAR-FIELD REGION (NFR) **
BEGIN MOD241: BUOYANT AMBIENT SPREADING
-------
Profile definitions:
"V = top-hat thickness, measured vertically
I = top-hat half-width, measured horizontally in y-direction
J = upper plume boundary (Z-coordinate)
z,L = lower plume boundary (Z-coordinate)
S = hydrodynamic average (bulk) dilution
C = average (bulk) concentration (includes reaction effects, if any)
Plume Stage 1 (not
X	Y
31.44	.00
70.81	.00
110.18	.00
149.55	.00
188.92	.00
228.30	.00
267.67	.00
307.04	.00
346.41	.00
385.78	.00
425.15	.00
464.52	.00
503.89	.00
543.27	.00
582.64	.00
622.01	.00
661.38	.00
700.75	.00
740.12	.00
779.49	.00
818.86	.00
858.23	.00
897.61	.00
936.98	.00
976.35	.00
1015.72	.00
1055.09	.00
1094.46	.00
1133.83	.00
1173.20	.00
1212.58	.00
1251.95	.00
1291.32	.00
1330.69	.00
1370.06	.00
1409.43	.00
1448.80	.00
1488.17	.00
1527.55	.00
1566.92	.00
1606.29	.00
1645.66	.00
p85.03	.00
724.40	.00
±763.77	.00
1803.14	.00
1842.52	.00
1881.89	.00
1921.26	.00
bank attached)
Z	S
6.00	111.5
6.00	126.3
6.00	135.8
6.00	143.1
6.00	149.2
6.00	154.7
6.00	159.8
6.00	164.7
6.00	169.4
6.00	174.1
6.00	178.8
6.00	183.6
6.00	188.4
6.00	193.4
6.00	198.6
6.00	203.9
6.00	209.4
6.00	215.2
6.00	221.1
6.00	227 . 3
6.00	233.7
6.00	240.4
6.00	247.4
6.00	254.6
6.00	262.1
6.00	269.9
6.00	278.0
6.00	286.4
6.00	295.1
6.00	304.2
6.00	313.5
6.00	323.2
6.00	333.2
6.00	343.6
6.00	354.3
6.00	365.3
6.00	376.7
6.00	388.5
6.00	400.6
6.00	413.0
6.00	425 . 9
6.00	439.1
6.00	452.7
6 . 00	466 . 7
6.00	481.0
6.00	495.8
6.00	510.9
6.00	526.4
6.00	542.3
C
.829E+01
.732E+01
.681E+01
.646E+01
.620E+01
.598E+01
.579E+01
.562E+01
.546E+01
.531E+01
.517E+01
.504E+01
.491E+01
.478E+01
. 466E + 01
. 454E + 01
. 442E + 01
.430E+01
. 418E + 01
. 407E + 01
. 396E + 01
. 385E + 01
.374E+01
. 363E + 01
. 353E + 01
.343E+01
.333E+01
. 323E + 01
.313E+01
. 304E + 01
.295E+01
. 286E + 01
.278E+01
.269E+01
. 261E + 01
.253E+01
. 246E + 01
.238E+01
. 231E + 01
.224E+01
.217E+01
.211E+01
.204E+01
.198E+01
. 192E + 01
.187E+01
.181E+01
.176E+01
.171E+01
BV
4 .30
2 . 98
2 .42
2 . 09
1 . 88
1 . 72
1 . 60
1 .51
1 .44
1 .38
1 .33
1 .29
1 . 25
1 .22
1.20
1 . 18
1 . 17
1 . 15
1 . 14
1 . 14
1 . 13
1 . 13
1 . 13
1 . 13
1 . 13
1 . 14
1 .14
1 . 15
1 .16
1 . 17
1 . 18
1 . 19
1 .20
1 . 21
1 . 23
1 . 24
1 .26
1.27
1 .29
1 .31
1 . 33
1 . 35
1 .37
1 .39
1 . 41
1 .43
1 .46
1 .48
1 . 51
BH
16 . 65
27 .26
36 . 06
43 . 88
51 . 04
57 . 71
64 . 00
69 . 99
75 . 72
81 . 23
86 . 54
91 . 69
96 . 69
101.55
106 .29
110.92
115.45
119 . 88
124 . 23
128 .50
132.69
136.81
140 . 86
144.85
148.79
152.67
156.50
160 .27
164.00
167.69
171 . 34
174.94
178.51
182.04
185.53
188.99
192.42
195.82
199.18
202.52
205.83
209.12
212 . 38
215.61
218 . 82
222.01
225.17
228.31
231.43
ZU
6 . 00
6 . 00
6 . 00
6 . 00
6.00
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
6 . 00
6
6
6
6
6
6
6
6
6
6
6
6
6
00
00
00
00
00
00
00
00
00
00
00
00
00
6 .00
6 .00
6 .00
6 .00
6
6
6
6
6
00
00
00
00
00
6 .00
6 . 00
6 . 00
6 .00
6 .00
6 .00
ZL
1 . 70
3 . 02
3 . 58
3	. 91
4	. 12
4
4
4
4
4
4
4
28
40
49
56
62
67
71
4 . 75
4 .78
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
80
82
83
85
86
86
87
87
87
87
87
86
86
85
84
4 . 83
4 . 82
4 . 81
4 . 80
4 . 79
4 .77
4 . 76
4 . 74
4 . 73
4 .71
69
67
65
63
61
59
57
4 . 54
4 . 52
4 .49
-------
1960.63	.00 6.00 558.7 .166E+01 1.53 234.54 6.00 4.47
2000.00	.00 6.00 575.4 .161E+01 1.56 237.62 6.00 4.44
ilative travel time =	10001. sec
oj.nialation limit based on maximum specified distance = 2000.00 m.
This is the REGION OF INTEREST limitation.
END OF MOD241: BUOYANT AMBIENT SPREADING
CORMIX2: Submerged Multiport Diffuser Discharges	End of Prediction File
22222222222222222222222222222222222222222222222222222222222222222222222222222
-------
APPENDIX C
* AGPT LAB REPORT *
-------

UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
REGION IV
ENVIRONMENTAL SERVICES DIVISION
ATHENS. GEORGIA 306 I 3
J UN 1 3 191H
4ES-ES
MEMORANDUM
SUBJECT: KEY WEST, FLORIDA
iRIDA AL<

,GAL ASSAY
FROM
DON SCHULTZ
TO
TOM CAVINDER, CHIEF
WATER QUALITY UNIT
Algal Growth Potential Tests (AGPT) were conducted with six
salt water samples collected adjacent to the Key West municipal
sewage treatment plant (STP) discharge on May 12, 1994. Sampling
stations were located to provide an unimpacted control station
200 meters upcurrent from the discharge boil, a station from the
STP discharge boil, and a station 200 meters down-current from
the discharge boil. These stations were sampled on two separate
tidal cycles and have been described as separate stations to
identify them as separate time samples. Table 1. describes the
separate station samples.
The AGPT were conducted with the marine test alga Dunaliella
tertiolecta according to the method described in EPA's Marine
Algal Assay Procedure (EPA, 1974), The test procedure consisted
of utilizing non-treated samples to measure the productivity of
the sample, plus separate treatments of the samples with nitrogen
and phosphorus. The last treatments were to determine the algal
nutrient limitation of samples. The salinity of the samples were
all found to be uniformly 35 0/00. The test alga had been
cultured to grow at this salinity prior to the tests.
While there are no published marine AGPT dry weight levels
which are indicative of enriched conditions, personal
communication with Florida Department of Environmental Regulation
indicated that they consider a level of 10 mg/L as such.
Accordingly, control stations KW-2 and KW-4 would be slightly
enriched, boil stations Kw-1 and Kw-5 were grossly enriched and
down-current stations KW-3 and KW-6 are moderately enriched, but
being diluted (table 2).
-------
2
Nutrient limitation of AGPT can normally provide an
indication of the source of the sample since most STP discharges
are nitrogen limited. However, most of Florida marine waters are
naturally nitrogen limited (anonymous, 1976) and could confuse
AGPT results. The AGPT nutrient limitation results indicated that
the boil stations KW-1 and KW-5 and one down-current station, KW-
6, were all strongly nitrogen limited (table 2). The remaining
station nutrient limitation results were co-limiting to both
nitrogen and phosphorus, meaning both nutrients were required to
provide algal growths greater than the untreated samples.
LITERATURE CITED
EPA. 1974. Marine Algal Assay: Bottle Test. Environmental
Protection Agency. Corvallis, Oregon.
Anonymous, 1976. A Review of the Need for Nutrient Regulation in
Florida. Bureau of Water Quality. Department of Environmental
Regulation. pp. 1-27.
-------
TABLE 1.. KEY WEST, FLORIDA AGPT STATION LOCATION
STATION	DESCRIPTION	SAMPLE TIME
KW-1	Sewage plant discharge boil	1st tide
KW-2	200 meters up-current from boil	1st tide
KW-3	200 meters down-current from boil	1st tide
KW-4	200 meters up-current from boil	2nd tide
KW-5	Sewage plant discharge boil	2nd tide
KW-6	200 meters down-current from boil	2nd tide
-------
TABLE 2. MAXIMUM STANDING CROP (MSC) OF DIINAT.TRT.T.A TBRTIOLECTA
DRY WEIGHT (mg/L)
SOURCE: Key West, Florida
DATE: May 12, 1994
STATION/
LOG #
TREATMENT*
REP 1
HIGH
REP 2
LOW
REP 3
MEAN
RANGE
KW-1
CONTROL
46.42
40.17
42.11
42.90
6.25
940501
C+N
100.47
91.12
91.68
94.42
9.35

C+P
34.88
30.97
31.51
32.45
3.91
KW_-2
CONTROL
	
14.70
13.36
14.03
1.34
940502
C+N
14.65
16.02
13.05
14.57
2.97

C+P
18. 19
13.58
17.45
16.41
4.61
KW-3
CONTROL
20.28
14.88
17.75
17.64
5.40
940503
C+N
22.28
18.62
19.68
20.19
3.66

C+P
22.34
18.04
19.74
20.04
4.30
KW-4
CONTROL
9.19
7.23
7.94
8.12
1.96
940504
C+N
11.33
9.71
10.55
10.53
1.62

C+P
14.76
12.29
13.79
13.61
2.47
KW-5
CONTROL
24.89
21.48
22.93
23.10
3.41
940505
C+N
41.41
36.45
38.19
38.68
4.96

C+P
28.55
21.86
24.7
25.04
6.69
KW-6
CONTROL
24.56
14.74
19.72
19.67
9.82
940506
C+N
31.87
25.29
27.94
28.37
6.58

C+P
22.45
17.3
17.64
19.13
5.15
*C+N = Control + Nitrogen
*C+P = Control + Phosphorus
-------