ML18227E199
| ML18227E199 | |
| Person / Time | |
|---|---|
| Site: | Turkey Point  |
| Issue date: | 08/24/1976 |
| From: | Dames & Moore, Florida Power & Light Co |
| To: | Office of Nuclear Reactor Regulation |
| References | |
| Download: ML18227E199 (652) | |
Text
A COMPARISON OF ME~HOROLOGICAL DATA COLLECTED AT TURKEY POINT AND SOUTH DADE NUCLKQK POWER PLANT SITES FLORIDA POWER 6 LIGHT COMPANY DAMES & MOORE AUGUST 24, 1976
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1.0 SUMMA AHD CONCLUSIONS The purpose of this report is to evaluate the comparability of the diffusion climatological measurements in the vicinity of the Turkey Point and South Dade sites. The basis for this study consists of meteorological information collected at both sites as well as that collected for a short period of time at a supplemental site at Turkey Point.
The data weze analyzed on a concurrent basis as well as in summarized form and are presented in tabular and graphical form for the various phases of the study.
The results of the evaluations indicate that, the atmospheric stability conditions, given as a function of vertical temperature gradient, are. comparable for both sites. The wind data collected at the upper sensox heights fox both sites are comparable. However, the relationships between the lower level wind data are not as clearly defined.
On the basis of this study, it is recommended that the Turkey Point meteorological instrumentation system in its present form be decommissioned since some of the ecpdpment does not meet Regulatozy Guide 1.23 measuxements and the exposure of the equipment is questionable. To provide adecpxate meteorological data for dispersion evaluation, it recommended that the atmospheric stability conditions at Turkey Point is be determined fx'om data to be telemetered from the South Dade meteorological tower. However, low level wind conditions should be evaluated by instrumentation confozndng to Regulatory Guide 1.23 and located in the Turkey Point Plant ax'ea, in flat, open, unobstructed terrain.
2' ZNTRODUCTZON The purpose of this report is to evaluate the diffusion climatological measurements in the vicinity of the Turkey Point and-South Dade sites of Florida Power 6 Light Company. Such an evaluation is limited to those data collected at the meteorologically instrumented towers at both sites as well as supplemental data collected in the vicinity specifically for such a comparison.
The data are presented in various formats to facilitate comparisons, of the sites such that differences or similarities between
'the two sites are evident. The data used in the analyses are for concurrent periods.
The ultimate objective is to identify and quantify climatological or meteorological differences should they exist between the two sites.
The study was conducted in two phases. The initial emphasis centered on a concurrent evaluation of Turkey Point and South Dade data for wind and atmospheric stability. This evaluation considered a six month data period (March 10, 1975 to September 9, 1975), and highlighted obvious differences between the two sites. The subsequent emphasis concentrated on a supplemental data set which was obtained for a short period of time (April 24, 1976 to May 14, 1976) to allow for a three site comparison.
3 ' SITE CLIMATOLOGY Due to the flat terrain between the South Dade 'and Turkey Point sites and'heir close proximity to one another, the air mass characteristics remain essentially the same at either location. Because of the more coastal location of the Turkey Point power plant compared to the South Dade tower location, the temperatures there may be modified by the presence of the Atlantic Ocean. The greatest effect of the maritime influence is to moderate air temperatures at the time the daily temperature extremes would be experienced at inland locations.
The sea breeze may extend as much as 50 miles inland under exceptionally favorable conditions, providing good ventilation along the east Florida coast. It is therefore reasonable to assume that the inland location of the South Dade site is not significantly different than the more coastal location of the Turkey Point plant with regard to the direction of the general wind flow.
4' COMPARISON STUDY The study, conducted in two phases, is presented as two unique evaluations. The sections to follow address the site location, data preparation. for the study phase, methods of comparison, and results for each phase. The instrumentation systems are described in Appendix A.
F 1 Phase 1 The first phase of the study considers a six month data period and is limited to routinely collected meteorological data at the Turkey Point and South Dade towers. This phase addresses the atmospheric stability
,relationship between the two sites as well as that of wind direction and wind speed 4.1.1 Siting
~
Table 4.1.1-1 gives the heights above grade of each wind and temperature sensor considered in this phase of the study.
The Turkey Point temperature sensors and the upper level wind sensors are mounted on a water tower within the generating complex. The lower wind sensor is mounted on an electric pole about 1/4 mile to the east of the plant. The Atlantic Ocean lies about 1/2 mile to the east of the power plant.
The South Dade site is about seven miles southwest of the Turkey Point site. It is important to note that the natural surface is marshy at both sites. The terrain at South Dade is generally unobstructed.
4.1.2 Data Management Meteorological data was collected at both the Turkey Point and South Dade sites for a concurrent period starting in March of 1975. A conscientious effort was made at the Turkey Point site to rigorously scrutinize the data being collected. The six month period used in this study phase was March 10, 1975 to September 9, 1975.
The Turkey Point and South Dade data sets were compared to generate a standardized set for analysis. This consisted of several modifications:
- 1. The larger threshold wind speed was set as the minimum allowable wind speed; i.e., at South Dade a wind speed of 2 mph reverted to 0 mph to reflect the 3 mph threshold at Turkey Point. Therefore, any wind speed recorded as less than 3 mph at either site was considered CALM with no difinitive direction.
- 2. Missing data or invalid data at either site constituted missing data at. both sites. Zn such a manner no data was allowed vhereby no compaxison could be made.
Once the data sets were standardized the comparison techniques were employed. The resulting data set from this screen9.ng process is g9.ven in Appendix B for the two sites simultaneously. Zt should be cautioned that the data for either site for this comparison study does not reflect the same data set used in any previous report. Analyses resulting from same should not be compared w9.th previous reports due to the data handling techniques described in th9.s section.
4.1.3 Methods of Comparison For such a massive data set, two bas9.c techniques were used for the comparative analysis. The )oint frequency analysis in two modes allows for quantitative assessment of the two data sets.
The first mode 9.s the standard wind d9.x'ection, wind speed, and atmospher9.c stabi19.ty joint frequency tables. Such tables were generated for the six month period March 10, 1975 to September 9, 1975 fox both s9.tes as well as the calendar month periods availablex i.e., 3/10/75 to
'3/31/75, 4/1/75 to 4/30/75, 5/1/75 to 5/31/75, etc. These tables are given in Appendices C F for the South Dade and Turkey Point s9.tes fox the lower and upper wind sensors, respectively.
The second mode is a )oint occurrence or cross tabulation of concurx'ent observations for the three parameters wind direction, wind speed, and atmospheric stab9.19.ty. For the wind sensors, both the lowex'nd upper sensors were considered.
4.1.4 Results Summaries of the )oint frequency tables presented in Appendices C -F are given in Tables 4.1.4-1 through 4.1.4-3 for the lower level analyses and Tables 4.1.4-4 through 4.1.4-6 for the upper level analyses.
The tables identify the frequency of Pasquill stability classes based on NRC LT criteria, the mean wind speed (mps) by stability class, and the most, frequent vind direction by stabil9.ty class for each calendar month and the entire six month period.
4.1.4.1 Stability The bT used in the"Turkey Point stability categorization was based on the lovex'evel (5.00 m) to middle level (35.45 m) temperature gradient. Xn contrast, the hT generated from South Dade data was over a 46.46 (11.67 << 58.13) meter height. Both hT's vere normalized to 100 meters. This as well as the "heat island" influence experienced at night at Turkey Point, due to the location of the hT instrumentation at
Turkey Point to the facility structures, is clearly evident in the frequency distribution of stability classes. The six month distribution illustrates higher frequencies at the extremes at South Dade while at Turkey Point the near neutral frequency is greater than that at South Dade.
Table 4.1.4.1-1 illustrates the cross tabulation of the Turkey Point vs South Dade stability class categorization on an hour by hour basis. Realize that class B and C stability are very narrow ranges of hT, and as such, slight variations in temperature in that range could easily displace a stability class of "C" to an "A" or a "B" to a "D" or,=,
more dramatically, an "A" to a "D". Overall, the tabulation shows excellent continuity.
4.1.4.2 Hind Speed The wind speeds recorded at Turkey Point are comparable with those at South Dade in general. The suaunaries of the joint frequency tables for the, mean wind speeds illustrate that the upper level speeds are consistent at South Dade and Turkey Point. The wind speeds are in general higher at Turkey Point than at South Dade, but this is attributable to the proximity to the ocean and consistent overwater fetch. There is also good agreement in the cross tabulation of the upper level wind speed classes as shown in Table 4.1.4.2-1.
The lower level wind speeds, however, do not agree as well.
One would expect higher wind speeds at Turkey Point than at South Dade.
The cross tabulation, Table 4.1.4.2-2, clearly illustrates this problem; the diagonal, which is the line of good fit, although consistently the highest value is generally accompanied by high frequencies to the bottom of the line indicating that the speed recorded at Turkey Point is lower than that at South Dade. this may be due to the fact that the lower level wind sensor at Turkey Point is located within an area that potentially obstructs the flow of air due to foliage growth that exceeds the sensor height. The Bendix Friez Aerovane is relatively less responsive than is the Climatronics wind instrument at South Dade.
4.1.4.3 Wind Direction The wind directions recorded at Turkey Point are comparable with those at South Dade in general. The most frequent wind direction summaries of the )oint frequency tables illustrate the consistency between the two sites. For those stability categories for which few events have occurred, it is understandable that differences exist, however, the continuity between sites is evident.
The summaries for the upper level are further corroborated by the eros's tabulation, Table 4.1.4.3-1. The "calm" eve'nts are well overall, the diagonal is well populated. scattered'owever, The lower level wind directions show a peculiar relationship in that the line of good one sector off consistently.
fit for the cross. tabulation, Table 4.1.4.3-2, is The data at the lower level had been modified for- the entix'e period to account for a 24 error found at the September 18, 1975 calibration at Turkey Point; this corzection may not have been warranted for the entire period and thus possibly resulting in the erroneous single sector difference.
4.2 Phase 2 The final phase of the study considers a short monitoring pxogram that supplements the meteorological data collected at the Turkey Point and South Dade sites. This phase was limited to the analysis of low level winds.
4.2.1 Siting The'iting of the Tuxkey Point and South Dade e~ipment is given in 4.1.1. The Turkey Point supplemental site was located one mile northwest of the Turkey Point, power plant complex in unobstructed terrain.
The instrumentation consisted of an MRI wind direction and wind speed sensor mounted atop an electric pole at a height of 11.46 meters.
4.2.2 Data Management The meteorological input data used in the analysis consisted of the following hour avezaged parameters:
Turkey Point (April 24, 1976 - May 14, 1976)
Wind direction at 13.11 meters (43.0 ft)
(reduced from strip charts read to the nearest 10 degrees)
Wind speed at 13.11 meters (reduced from strip charts read to the nearest'.15 mps (.5 mph))
South Dade (April 24, 1976 - May 14, 1976)
Wind direction at 11.67 meters (38.3 ft)
(xeduced from strip charts xead to the nearest 5 degrees)
- 1 Wind speed at 11.67 meters (reduced from strip charts read to the nearest .03 mps (.1 mph))
MRZ Station (April 24, 1976 May 14, 1976)
Wind direction at. 11.46 meters (37.6 ft)
(reduced from strip charts read to the nearest 10 degrees)
Wind run at 11.46 meters (reduced from strip charts read to the nearest .15 mps (.5 mph))
As this study consisted of all concurrent observations from th three data locations, data from hours in which any parameter was not valid were eliminated from the study. Similarly, all hours from which one of the sites listed wind speed below the threshold speed were also omitted.
4.2.3 Methods of Comparison Three considerations were made for the concurrent three week period of data April 24, 1976 to May 14, 1976. Tndividually, the wind direction and wind speed data were compared for the three sites; the means and diurnal variation were determined and are presented. The collective )oint wind direction and wind speed )oint frequency tables were generated for the three sites.
Finally, the wind speed data for each site was correlated with that of the other two sites. The correlation of multiple data sets is a measure of the
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degree to which variables vary together> it, can also be thought of as the degree or the intensity of two variables association.
Means are merely the quotient of the arithmetic sum of valid observations and the total number of observations. The wind direction mean requires vector averaging of North/South and East/West components. The correlation coefficient is given by:
E (X - X) (Yi Y)
( IE(Xi -
X) 2
] [Z(Yi - Y) ]
1/2 e!
where "X" and "Y" are two variablesg "X" and "2" are the means< and "X " and "Yi" are the unique observations in the data set. As two variables increase or decxease in magnitude together, they show good positive correlationg perfect correlation is 1.00. As two variables vary inversely or as one increases the other decreases, they show good negative correlation; perfect correlation is -1.00. Should two variables vary. randomly, they show no correlation with a correlation coefficient of 0.00.
4.2.4 Results This section addresses the results of the three modes of comparisons for this phase of the study: the diurnal and mean relationships, th8 )oint frequency tables, and the wind. speed correlation between sites.
In addition, specific'weather events are considered as a supplemental evaluation.
4.2.4.1 Diurnal and Mean Relationships N
The diurnal means of wind direction and speed for the three sites are given in Table 4.2.4.1<<1. The Turkey Point wind speed data shows a
'smaller diurnal fluctuation in wind speed than either the Turkey Point supplemental (MRI) or the South Dade data. The three sites exhibit a diurnal shift of winds from the east-southeast and southeast to easterly during the morning hours, before returning to the southeast in the afternoon.
It was anticipated that the sensors located proximal to the ocean would experience wind speeds considerably higher than that at South Dade which was further inland.
4.'2.4.2 Zoint,Frequency Tables The )oint wind direction and wind speed tables for the three sites are given in Tables 4.2.4.2-1 through 4.2.4.2-3. Similarly, Figures 4.2.4.2-1 and 4.2.4.2-2 graphically represent the frequency distributions by dizection and speed, respectively. The summaries show that all three sites exhibited similar wind directions frequencies with the exception of the ESE and SSE sectors, both of which reflect considerable departures from the relative percentage of occurrence. The sector of maximum occurrence from the MRI equipment was SE, and distinct relative minimum existed in the adjoining sector. The sector of highest frequency of occurrence for both Turkey Point and South Dade was in the ESE direction. The Turkey Point data displayed a relative minimum in the SSE secector, which was the noticeable departure of wind occurrence between that and the South Dade. The one sector displacement between the Turkey Point and supplemental site equipment can be attributable to the difference in siting and instrument response. Because of the size of the data sample, (n ~ 477), surface obstructions could quite possibly deflect the wind direction observations for two meteorological sectors in the Turkey Point area.
The Turkey Point and South Dade data showed a similar frequency stzibution of wind speeds with the exception of the 1.5 to 3.0 mps (3.4 to mph) speed class, for which Turkey Point exceeded South Dade by 38.8%
o'.7s. For the Turkey Point data, the lower frequency of wind speeds at
the lowest measurable 'wind speed class is attributable to the'igher threshold speed of the sensor. Recall that below threshold events were eliminated from analysis. As noted earlier, one would expect the wind speeds at Turkey Point would be'higher than that the South Dade and the supplemental data corroborates expectation as nearly 34% of the observations fall in the Se0 7.5 mps class.
4.2.4.3 Correlation of the Data Bases Correlation coefficients were computed for the wind speed and between the three data bases and are presented in Table 4.2.4.3-1. The wind speeds correlated well between all three sites. The lowest correlation coefficient (.884) was found between the. Turkey Point and South Dade data.
This relationship should not be misconstrued as the correlation coefficient :.7 does not directly assess the magnitude relationship, but rather the association relationship; thus, regardless of the magnitude of the deviation from the mean, varying in the same direction from the mean allows for a good correlation. The .884 correlation coefficient shows a very good relationship between the data.
However, the South Dade wind data is not a good estimator of that recorded at the Ranger Station near Turkey Point. This is best illustrated graphically.
Figures 4.2.4.3-1 through 4.2.4.3-3 are scatter diagrams of the wind speeds between the three using simultaneous hourly observations. The
~ i scatter diagrams clearly show the good correlation. In the first two figures the higher speeds recorded at the Turkey Point supplemental site (MRX) is evident by the population of data points below the line of perfect fit.
In Figure 4.2.4.3-3 the greater scatter of data points readily illustrates the lower correlation coefficient.
Figures 4.2.4.3-4 through 4.2.4.3<<6 are similar scatter diagrams for wind direction comparisons. The scatter diagrams for wind direction show that a relatively small number of observations displayed a large departure from the line of perfect fit for each of the, site. comparisons. The relationship between the Turkey Point site a ')the Turkey Point Supplemental si te, Pi.sure 4.2.4.3-4, shows a peouliarity(k >that the turkey Point wins directions are consistently a 22 1/2'ector >re clockwise than the MBI.
This is conceivably a result of instrument differences but, more logically, it is probably a function of the poor exposure at the Turkey Point site.
4.2.4.4 Comparison of Specific Weather Events The data during three frontal passages and four periods (each 12 hours long) of high and low wind conditions were averaged at all three sites to compare the behavior of the observations under a variety of synoptic conditions. As shown by Table 4.2.4.4-1, the periods of highest and lowest winds yielded similar relationships between each of the sites as described by the total sample means.
The hourly data during cold front passages during the morning hours of April 27, May 3, and May 10 was inspected. The inspection of the data during the frontal activity revealed the similar relationship between the data samples as suggested by the table.
Ol
5.0 CONCLUSION
S AND RECOMMENDATIONS To address the. question of climatological homogeneity between the Turkey Poi.nt and South Dade si.tes, there i.s considerable information presented that suggests little di.fference exists. Timing of various phenomena wi.ll fluctuate between the two si.tes due to displacement and proximity to the ocean. 'Likewi.se, magni.tude differences should exist relati.ve to stability class frequency and wind speeds.
These differences are minimal as shown in the analyses presented.
Similarities between data sets do not always represent actual relationships.
There has been shown considerable evidence to suggest the wind is di.storted at the Turkey Point site at the Ranger Station.
The upper level wind data compared in this study show little differences existing between the two sitesg in fact, one is comparable to the other.
The atmospheric stability should not be expected to differ significantly between the two sites. However, those data collected at Turkey Point are subject to microscale nocturnal heat islands, the effect of which is to destabilize the immediate environment slightlyg thus the lower frequency of extremely stable cases at Turkey Point. The stability information collected at South Dade i.s more representative of the Turkey Poi.nt area than the Turkey Poi.nt data itself; However, within the immediate vicinity (approximately
,100 m) of the power plant complex, dispersion characteri.sties would be distorted due to building wakes and cavities. A short di.stance beyond the building complex, the stability identi.fied at South Dade would probably be more appropriate than that being recorded simultaneously at Turkey Point.
It is recommended that a moni.toring program be initiated to provi.de low level wind data that adequately represents the ambient meteorological conditions in the vicinity of the Turkey Point site. Further, the i.nstru-mentation needed to assess thi.s data should meet requirements of Regulatory Guide 1.23 such that the critical wind speed categories can adequately be evaluated. The data presently being collected at the South Dade site should be telemetered to the Turkey Point si.te such that atmospheric stability information can be evaluated for dispersion computations and incorporated into plant operations.
"I
TABLES FIGURES
1 0
oi C
j 0
- ]
TABLE 4 1.4-3 MOST FREQUENT WIND DIRECTION BY STABILITY CLASS DATA FROM LOWER LEVEL WIND SENSORS STABILIY CLASS B D PERIOD OF RECORD SD TP SD TP SD TP SD TP SD TP SD TP -
SD TP SD TP KOCH S E. SE ESE ESE ESE ESE SSE ESE E SES SSE NNW NW SE E APRIL SE ESE SSE ESE SE E ESE ESE SE E SE ESE SSE ESE SE ESE SSE ESE SE ENE SE ESE NNW SSE NNW W SSE ESE ESE ESE ESE SE SSE E E E ESE E JULY ESE ESE ESE ENE ESE E SSE E SE ESE NNW SSE N SSE ESE ESE AUGUST ESE E E E E E E ENE NNW E E E SEPTEMBER E E E ENE E E E ENE E E NNW E E E SIX MONTHS ESE ESE ESE ESE E E E E NNW SSE NNW NW ESE E
TABLE 4.1.4-3 MOST FREQUENT WIND DIRECTION BY STABILITY CLASS DATA FROM LOWER LEVEL WIND SENSORS STABILIY CLASS B D PERIOD OF RECORD SD TP SD TP SD TP SD TP SD TP SD TP SD TP SD TP MARCH SE ESE ESE ESE ESE SSE ESE E SES SSE NNW NW SE E SE ESE SSE ESE SE E ESE ESE SE E SE ESE SSE ESE SE ESE SSE ESE SE ENE SE ESE NNW SSE NNW W SSE ESE I
ESE ESE ESE SE SSE E E E ESE E JULY ESE ESE ESE ENE ESE E SSE E SE ESE NNW SSE N SSE ESE ESE AUGUST ESE E E E E E E E SEPTEMBER E ENE E E E ENE E E NNW E E E SIX MONTHS ESE ESE ESE ESE E E E E NNW SSE NNW NW ESE E
TABLE 4.1.1-1 PLACEMENT OF WIND AND TEMPERATURE SENSORS (METERS ABOVE GMDE)
~ 'over Upper Lover Middle Upper Wind Wind Temperature Temperature TemPerature
.. Turkey Point 13.11 64.89 5.00 35.45 64.13 South Dade 11.67 58.13 11.67 58.13 r
~
TABLE 4.1.4-1 4
FREQUENCY (0) OF STABILITY CLASS DATA FROM LOWER LEVEL WIND SENSORS STABILITY CLASS D PERIOD OF RECORD SD TP SD TP SD TP SD TP SD TP SD TP SD TP MARCH 29 18 5 4 1 1 14 16 31 49 14 ll 6 2 34 21 2 4 1 2 15 13 35 52 25 20 4 2 2 2 15 15 27 47 17 10 10 4 23 25 5 1 2 3 14 11 30 41 19 12 7 7 25 21 3 2 3 1 16 12 43 50 10 11 1 3 AUGUST 30 22 4 3 3 3 17 13 38 54 .2 2 SEPTEMBER 30 20 2 3 3 1 18 13 39 55 7 4 <1 2 SIX MONTHS 28 21 4 3 2 2 15 13 34 49 12 9 5 3
TABLE 4.1.4-4 FREQUENCY ('t) OF STABILITY CLASS DATA FROM UPPER LEVEL WIND SENSOR STABILITY CLASS A PERIOD OF RECORD SD TP SD TP SD TP SD TP SD TP SD TP SD TP MARCH 29 17 5 4 15 16 30 48 14 12 6 2 34 21 2 4 ,1 2 16 13 35 52 7 5 6 3 l
25 20, 4 2 2 1 16 15 29 48 16 10 8 3 25 26 '
2 2 2 15 12 30 42 18 ll 6 5 25 22 4 2 3 1 15 12 43 48 10 11 1 3 AUGUST 29 22 4 3 3 2 17 13 38 55 7 4 1 2 SEPTEMBER 30 19 2 4 3 1 18 12 41 57 7 4 <1 2 SIX MONTHS 28 21 2 5 16 13 35 49 12 8
TABLE 4.1.4-5 MEAN WIND SPEED (MPS) BY STABILITY CLASS DATA FROM UPPER LEVEL WIND SENSOR STABILITY CLASS B D-PERIOD OF. RECORD SD TP SD TP SD TP SD TP SD TP SD TP SD TP SD TP MARCH 6.88 7.00 6.55 7.13 6.12 4.60 6.84 6.42 6.27 6.38 3.57 3.84 3.24 2.79 5.96 6.11 6.66 6.94 6.98 5.88 7.56 6.92 6.09 5.98 6.17 6.31 4.24 4-.06 3.82 3.10 6.08 6 20 5 20 5-13 4 38 4.39 4.97 4.52 4.37 4.76 4.23 4 '8 3.02 2.99 2 '8 1.13 4.18 4-40 4.67 4 '7 3.76 4.78 4 '2 3.75 3.38 3.85 3.75 3.97 2.46 2.19 1.97 1.12 3.60 3.73 JULY 4.82 4 '2 3.94 4 '6 4.43 4'.64 3.52 4.04 3.43 4.18 2.86 2 '1 2 '2 2.52 3.78 4.10 AUGUST 5.03 4.82 4.64 5.00 4.70 4.01 5.13 5.04 .4.13 4.94 2.38 3.70 . 1.69 1.78 4.45 4.80 SEPTEMBER 5.91 5 89. 4.37 5.82 3.92 6.30 5.07 5.40 4.46 5~17 2.59 2.97 2.50 2.06 4.85 5 22 SIX MONTHS 5 '6 5 '4 4.79 5 '1 4 '9 4.79 F 81 5.03 4.51 5.01 2.97 3.11 2.72 1.92 . 4.61'4.83
TABLE 4.1.4-6 MOST FREQUENT WIND DIRECTION BY STABILITY CLASS DATA FROM UPPER LEVEL HIND SENSOR STABIIITY CLASS D PERIOD OF RECORD SD TP SD TP SD TP SD. TP SD TP SD TP SD TP SD TP MARCH S ESE SE SSE ESE E E SSE SE SSE ESE SSE SSE NNW S SSE SE SE SSE SE SE ESE ESE SE SE ESE SE N N N SE SE SSE SSE SE SSE SSE SE SSE SSE SE SSE SSE S HNW SSW SSE SSE ESE SE ESE SSE SSE SE ESE SE E ESE ESE S SW SW ESE SE JULY SE ESE ESE E ESE E ESE SSE SE ESE SSW S N NW SE ESE AUGUST ESE ESE ESE E E ESE E E SE NNE NNE NNW P
SEPTEMBER E E E E E E ESE SE N N E E SIX MONTHS ESE ESE ESE E E ESE E E SE S N N ESE ESE
TABLE 4 1.4.1-1 CROSS TABULATION OF STABILITY CLASSES Turkey Poi.nt South Dade A C D'19 70 43 212 0 23 21'5 0 39 11 65 0 157 284 18 0 20 70 1248 159 17 0 0 10 245 184 60 0 0 0 0 75 79
TABLE 4.1.4 ~ 2 1 CROSS TABULATION OF UPPER LEVEL WIND SPEEDS Turkey Point South Dade 0 '2 3 I ~ 0 68 10 0 0 17 39 0 0 0 36 410 277 16 0 0 10 164 1060 313 0 215 1012 152 0 0 0 0 45 220 20 0 0 0 31 Wind Speed Categories:
0 - Calm i
~ 1 - 0.0 1.5 mps 2 - 1.5 - 3.0 mps 3 - 3.0,- 5.0 mps 4 5.0 - 7.5 mps 5 - 7.5 10.0 mps 6 - > 10.0 mps
TABLE 4.1.4.2-2 CROSS TABULATION OF LOWER LEVEL WIND SPEEDS Tuzkey Point South Dade 0 2 3 0 275 44 144 0 0 119 19 102 0 0 2 200 60 784 348 0 20 391 960 171 0 4 0 241 367 23 0 0 0 0 21 19 0 0 0 0 0 0 Wind Speed Categories:
0 - Calm 0.0 - 1.5 mps 1.5 - 3.0 mps 3 - 3.0 - 5.0 mps 4 - 5.0 - 7.5 mps 5 7.5 10.0 mps
> 10.0 mps
TABLE 4.2.4.1-1 MEAN DIURNAL WZND DZRECTZON AND SPEED (4/24/76 to 5/14/76)
HOUR Or TURKEY POZNT TUEQCEY POZNT SUPPLEMENTAL (MRZ) SOUTH DADE DAY WD WS (mps) WD WS (mps) WD WS (mps)
ESE 3.53 SE 4. 16 ESE 2.86 ESE 3.44 SSE 3.89 SE 2.59 SE 3.08 SSE 3.53 SE 2 64 iO SE 3.08 SSE 3.31 ESE 2.46 SE 3.04 SSE 3.44 E 2+37 SE 2.86 3.08 E 2.19 ENE 3.13 3.62 ENE 2.59 E 3 '0 ESE 4. 02 E 3.40 E 3.71 ESE 4.64 ESE 4.16 4.92 4.56
[ xo ESE ESE 3.80 3.80 ESE ESE 5.14 ESE ESE 4.69 12 ESE 3.98 ESE 5.32 SE'.65 13 ESE 4.20 SE 5.63 SE 4.65 14 ESE 4.34 SE 5.59, SE 4.83 15 ESE 4.25 SE 5.41 SE 4.78 16 ESE 4.11 SE 5.23 SE 4.52 ESE 3 76 SE 4 74 SE 4.07 18 ESE 3.71 SE 4.38 ESE 3.71 19 ESE 3.58 SE 4.34 SE 3.26 20 ESE 3.22 SE 3.84 SE 2.68 21 SE 3.E7 SE 3.58 SE 2.41
!0 22 ESE SE 3.31 2.91 'I I
ESE SE 3.80 3.40 ESE SE 2.46 2 '2 24 SE 3.26 SE 3. 89 ESE 2.68 ALL ESE 3.54 SE 4.32 SE '3.46
TABLE 4.2.4.2-1 JOINT ltlND FREOVLNCY OISTttleVT ION DATA PERIODt 4-24 76 0500 EST TV 5-14"76 1600 EST ALL HINDS TUAKEY t'OlttT DATA SVVKCE: ON"SITE HIAHI~ FLA ~
VINO StNSOtt >EIGtlT I 13 ~ I I HETERS FLOiCIOA POIIiEtt % LIGHT TAttLE GENE ttATEDt 07/I9I7be 19e44 ~ 29o OAHES AttD HVOkE JOtt NOt 4598-075 027 VIND ltlND SPEED CATEGOICICS IHETERS PEFt SECOND) HEAN SECTOR 0 ' I~5 Iob 3 ' 3 '~F 0 5 '~7e5 7o5 10 ' PIO ~ 0 TOTAL SPEED NNE 2 2 0 I 0 ~ 0 5 '2.e4
~ 42 ~ 42 0 F 00 ~ 21 0 F 00 0 F 00 I ~ 05 NE I 2 3 14 I 0 21 5e63
~ 21 ~ 42 ~ 63 2e94 ~ 21 Oe00 4e40 ENE
~
2 42 ~ 63 3
3e56 17 4
22 ebl 0 F 00 0 0 0 ~ 00 'e22 4tI 4 '5 I 22 34 8 0 0 65 3e62
~ 21 4e61 7 ~ 13 I.ee F 00 F 00 13e63 ESE 3 28 50 0 0 105 3e84
~ 63 5ob7 10 ~ 4tt Se03 0 F 00 0 F 00 22e01 3' Sl 94 3e55 SE 63 6 '930 Io.e9 2e10 10 0 F 00 0 0 0 F 00 19e71 SSE I 18 3 '5 0 0 27 2e93
~ 21 3e77 .e3 I ~ 05 0 ~ 00 0 F 00 S.ee 2 21 17 6 0 0 46 3e31
~ 42 4e40 3eeb I ~ 26 0 ~ 00 0 F 00 9e64 SSV I 6 2 0 0 0 9 2o46
~ 21 I o26 ~ 42 0 F 00 0 F 00 0 F 00 I ~ 89 2 I ~
2 0 0 0 5 2o38
~ 42 ~ 21 ~ 42 0 F 00 0 F 00 0 F 00 I ~ 05
~
VSet 0 I 0 0 0 0 I I ~ 60 0 F 00 ~ 21 F 00 0 F 00 0 ~ 00 Oooo ~ 21 I 4 0 '0 0 0 5 I e94
~ 21 ~ 84 0 F 00 0 F 00 Oooo 0 F 00 I ~ 05 VNst 4 12 0 0 0 0 le
~ b4 2e52 F 00 F 00 0 F 00 Oooo 3e35 Ntt 9 10 I 0 0 0 20 I e67 I e89 2010 ~ 21 0 ~ 00 0 F 00 0 F 00 oo ~ 19 NNst 3 2 0 0 0 0 5 I e52
.e3 ~ 42 0 F 00 0 F 00 0 F 00 0 ~ 00 I ~ 05 N I 4 2 2 0 0 9 3e40
~ 21 ~ 84 ~ 42 42 0 F 00 0 F 00 le89 CALH 0 0 CALH F 00 0 F 00 TOTAL" 36 lee 182 92 I 0 477 3e54 7eb5 34ett0 3be1 6 19o29 ~ 21 ~ 0 '0 100 F 00
~ .
JOINT>>INO FREQULNCY UISTNIBUTION OATA PERIOO> 4-24-Ta 0500 EST TO 5-14-76 1600 EST ALL>>INOS SOUTH OAUE OATA SOURCES ON SITE NIANIr FLORIOA
>>INO SENSOk HEIGHT 4 I I ed 1 HETERS FLORIOA VO>>ER 5 LIGHT TABLE GENERATEO: 07tf9rlb. 22.0S.12 OAMES ANO HOORE JOB NO 4598 075%027
>>INO >>INO SPEEO CATEGORIES IHETENS VER SECONOI HEAN 5ECTOR 0 ' fob lo5 3 ' 3 ' So0 5 ' Teb Te5 10 ' >10 ~ 0 TOTAL SV EED NNe I I I 0 0 0 3 2e50
~ 21 ~ 21 ~ 21 0 F 00 0 F 00 0000 ~ 63 2 2 I 8 0 5e02
~ 42 ~ 42 ~ 21 I ~ 68 0 F 00 0 F 00 0
2 '313 0 5 19 12 0 0 36 4 ~ 41 0 ~ 00 I ~ 05 <<3e98 2o52 0 F 00 0 F 00 7 55 E 5 14 26 18 0 0 63 3o96 1005 2o94 Se45 3o77 0 F 00 0 F 00 13e21 ESE 10 20 42 20 2 0 94 3e55 2010 4 ~ 19 Self 4019 ~ 42 Oe00 19071 SE 14 ]4 34 19 0 0 81 F 70 2e94 2e94 7 ~ 13 3o98 Oe00 0 F 00 Ibe98 3 31 2 0 57 3e31 SSE
~ 63 4 '021 6.50 ~ 42 0
0 F 00 0 F 00 11 o95 1 ~
5 05 2010 10 3 'Sfb I o68 8
Oe00 0 0 0 F 00 Be 18 39 3o55 SS>> I 6 3 0 0 14 3o68
~ 21 I e26 ~ 63 Oooo 0 F 00 2o94 i 5>> 5 5 2 0 0 0 12 I ~ 82 1005 I ~ 05 ~ 42 0 F 00 0 F 00 0 F 00 2e52
>>5>> 5 2 I 0' 0 0 8 1 e52 1 ~ 05 ~ 42 ~ Zl F 00 0000 0 F 00 I ~ 68 4 2 0 0 0 0 6 1 ~ 15 F 84 ~ 42 0 e'00 0 F 00 0000 0 F 00 1 e26
>>N>> 2 4 I 0 0 0 7 Ze13
~ 42 ~ 84 ~ 21 0 F 00 0000 0 F 00 1o47 NW 6 8 0 0 0 0 14 I ~ 61 1026 1 obB Oo00 0 F 00 0 F 00 0 F 00 2o94 NN>> 5 1 ~ 05 ll 2 ~ 31 0
0 F 00 . 0 F 00 0
0 F 00 0 0 0 F 00 3e35 16 , le51 6 1 ~ 79 1 o26 lo47 7
~ Zl 0 F 00 0
0 F 00 0 0 0 F 00 2 '414
- CALH 0 0 CALH 0 ~ 00 0 F 00 TOTAL 74 132 178 91 2 0 477 3o46 15e51 27067 37e3Z 19e08 ~ 42 0 ~ 00 100 ~ 00
TABLE 4.2.4.2-3 JOINT itlHO FREOUtNCY OISTttlBUTIOtt OATA t'EHIOO 4 24 76 0500 EST TO 5 14 76 1600 tST ALL itlHOS HRI EOUIVttENT OATA SOUHCt,t ON SITE HIAHI~ FLQRIOA itlttO SENSUk HEIGttT 1 TaBLE GEHtuaTtut ll e46 HETEkS uTrl9r76o ZI.Ssob4o FLOkIUA VOItEH ii LIGttT OAHCS AHU MOORE JOtt HUt 4s98 075 027 it I NO 'kIHO SPEED CATEDORIESttttTERS PER SECOHO) HEAN SECTOk 0 ' loS loSo3oD 3 ' 5 ' ' ' To5 7 ' 10 ' >IDIO TOTAL SPEEO 0 0
' 1 0 0 2 5015 0 ~ 00' ~ Zl 0 F 00 Zl 0 F 00 0 F 00 ~ 42 0 2 I 0 5 0 ~ 8 6e00 0 F 00 ~ 42 ~ 21 0 F 00 1 ~ 05 0 F 00 1.6e EHE I 2 I 27 3 0 34 6.00
~ 2) ~ 42 ~ 21 5.66 ~ 63 0 F 00 7 ~ 13 0 6 '29 40 0 0 75 4 o95 0 F 00 lo26 6o08 8 ~ 39 0 F 00 0 F 00 Ibo72 ESE 0 6 18 18 0 0 42 4 ~ 71 0 F 00 I e26 3e77 3e77 0 F 00 Oo00 Seel SE 0 7 36 40 9 0 92 So21 0 F 00 I e47 7o55 So 39 1 ~ 89 0 F 00 19029 SSE I Ze 34 19 0 ~ 0 82 3ee0
~ 21 Se87 7 ~ 13 3o98 0 F 00 De00 '7e19 I 19 19 13 5 0 57 4 ~ 16
~ Zl 3o98 '3o9tt 2 ~ 73 I ~ 05 0 F 00 I I o95 SSlt 0 5 6 1 I 0 13 3o64 0000 I ~ 05 I o26 ~ 21 ~ 21 0100 F 73 Sit I 4 I 0 0 0 6 Ze45
~ 21 .e4 ~ 21 0 F 00 0000 0 F 00 I 026 ttStt 2 a 0 0 0 4 I ~ 72
~ 42 ~ 21 ~ 21 0 ~ OD 0 F 00 0000 ~ 84 3 5 0 D 0 0 8 loe4
.63 I ~ 05 0 F 00 0 F 00 0 F 00 0000 1 ~ 68 QNC 4 11 0 0 0 0 15 I ~ 79
~ 84 2o31 0 F 00 0 ~ 00 0 F 00 0 ~ DD 3o14 Nlt 2 13 3 0 0 0 18 Ze16
~ 42 2 ~ 73 ~ 63 0 F 00 0 F 00 0 F 00 3o77 HHN 3 9 0 0 0 0 IZ I o80
~ 63 I eS9 0 F 00 0 F 00 0 F 00 0 F 00 2052 N 1 3 3 0 0 9
~ 21 ~ 63 ~ 63 De 00 0 F 00 I ~ 89 CALH 0 0 CALH 0 F 00 Oe00 TOTAL 19 122 152 161 23 0 477 4o32 3o98 25e58 31 F 87 33o 75 4 oeZ 0 F 00 100 F 00
l~ h h h Ili ESKER 5~ ggkl pic gal gg%g llllj 0
~ I ~
0
~
~ a ~
EXXO P I I I I
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40%
MRI MEAN=4.3 M/S (9.6mph)
SD MEAN=3.5+M/S (7.9mph)
PO TP MEAN=3.5 M/S (7.7mph) oo 0 20% N I-R 3 10%
0 0 "1.5 1.5"3.0 30-5.0 5.0-7.5 75- 10.0 > 10.0 SPEED CLASS ( METERS /SECOND)
KEY>
TURK E Y P0 I NT SOUTH DADE . FIGURE* 4.2.4.2-2 FREQUENCY DISTRIBUTIONS OF WIND SPEED AT SD, TP, MRI EQUIPMENT Eel AND MRI.
PERIOD OF RECORD<
APR I L 24, 1976>> MAY 14, 1976 h
l
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. I
.3
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TABLE 4.2.4.3-1 WIND SPEED CORRELATION SETES CORRELATION COEPF ICIENT MRI vs South Dade .932 MRI vs Tur}cey Point ~ 953 South Dade vs Turkey Point .884
- 1
.I
~
~ )
0) y,!
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FIGURE 4%42-1 SCATTER DIAGRAM WIND SPEED (SIPS)
TURKEY POINT VS TURKEY POINT SUPPLEMENTAL
+
++ +
+
6.71 + ++ + +
(15 MPH)
+ + +
+++++
PERFECT FIT LINE
~
+
++
+
+++++
4 + + + +
+ +++
4+ + ++ + + +
R ++ ++
0 +++++
>. 4.47 + +<++ +
Q (10 MPH) 4 + +++++
+ .++ ++++
D + '+++ + ++ +
I-
+ + + ++ + +
+ {+ + +
+ t+
+ W+++
+ ++.+ ++
t+ + + + +4 +
2.24 + + + ++ + ++ + +
(5 MPH) + + +++++++
'+ ++ ++ +I f ++
+ ++ ++ + + ++ +
++ + + + +
+ + ~ + 0++
+ ++ ++ ++
++ +
+
++ + +
+
4 +
0 2.24 4.47 6.71 (5 MPH) (10 MPH) (15 MPH)
'URKEY POINT SUPPLEMENTAL
&AMIES 6 MOORS
)
~
0(
- l
~
0(
.]
Oj 1
I
.1
~
3
FIGURE 4.2.4.3-2 SCATTER DIAGRAM WIND SPEED (MPS)
SOUTH DADE VS TURKEY POINT SUPPLEMENTAl
+
+ t++
+ +++I
~
6.71 (15 MPH) '+ i+
PERFECT FIT LINE +
+ ++ +
++
+ +
tt +
+
+
+
0 + +++
+ + + + ++
t++
447 + + + ++ ~
P (10 MPH) + + + + + ++ +
D O +++
+ + ++ + + + +
++ + ++ + + +
++
++ ++
+
+
tt
++
+ + +
+
4+ ++ + + +
+ + +
Ht+ +
++ ++ ++
2.24 (5 MPH) t,t ++ t
+
+ +
+ ++
t+
t+ +
+ +
++
'I + + + + ++ ++ +
+ + +
+++
++ + +
+
+
4 + +
+
t
++ + + +
+ +
0 2.24 4.47 6.71 (5 MPH) (10 MPH) (15 MPH)
TURKEY POINT SUPPLEMENTAL OAIHmlS S MOORmf
lt
~
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~ (
1
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FIGURE 42.4.3-3 DIAGRAM 'CATTER
.WIND SPEED (MPS) .
SOUTH DADE VS TURKEY POINT
+ + + +
+ +
6.71 ++ + +
(15 MPH)
PERFECT FIT LINE
+ t ++
+
e<+++
+ +
++ '+ +
+ W + +
+++ V ~
+ +
+. + + e '+ +
+ + + + +
+ + + + + + +
+ e e + + + + +
o 447
+++ + + + + ++ e+
+ + + + + ++ +
P (10 MPH) +++ + + + + + + + +
+ + + + + 4 e e e
+ + ++ ++ + +
+ + e +++ +
+++ +' + + +
e + + e + + +
+ + + ~ + + +
+ + +
+++++
2,24 + + + +
(5 MPH + 4 + +++
e + + +++ +
+ e 4 + + + + + +
e'+ + + + + + +
4 e + + ++ + + + +
++ + +
+ + + +
+ ++ +++
++++ +
+ + +
++ ++ +
0 2.24 4.47 6.71 (5 MPH) (10 MPH) (15 MPH)
TURKEY POINT I
DAMES 8 MOOAO
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F I GUR E 4.2.494 SCATTER DlAGRAM WlND Dl RECTlON TURKEY POINT VS TURKEY POlNT SUPPLEMENTAL 450'
+ +
+ ++ +
'0. FIT LINE
+
+ +
+ + +
180'ERFECT 270'-
++ +
+ T + +
++++++++
+++++'+
+ J
+ +
+++
++ + +
+ ++ +
+++
+
+ I
+ +
+
+ +
180'70'60'URKEY POINT SUPPLEMENTAL DAMES 8 MOOR+
~
0) 1 O~
- ]
i t
t
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FIGURE 4.2.4.3-5 SCATTER DIAGRAM WIND Dl RECTION SOUTH DADE VS TURKEY POINT SUPPLEMENTAL 4 4
+ +
+ + ++
~+ r.
+++
PERFECT FIT LINE +
+
+
+
+
+
+ A + + +
+ + + + +
+ 4 + +
+ +
+ +
+ + + +
++ +
+ iH +
+i+ ++ +
+ + + + +
+ + + + +
+ + + +
++++
'l
+++
180' 270' 360'URKEY POINT SUPPLEMENTAL OAMQS B MOORC!
- t g )
~ (
~ )
I
FIGURE 4.2.4.3W SCATTER DIAGRAM, WIND DIRECTION SOUTH DADE VS TURKEY POINT 450' I \,
360'
++ + 4+@
+ ++
' + +++
+4++
4++
+ 4 ++
PERFECT FIT LINE . +
o 270'
+ . +
+.
+ 4 4
+ +++
i+
+ 4 ++4 180' a4+ ++
+ +4'4+ + ++
4+4+< . + + ~
4+4~ ++ +++
+ + +++ ++ + +
,4 ~
++++
+++ ++++++
++
+++++
+
90'. ++ ++++ + +
+;4+i + ++ +
"o (+4 4 ~ +
'4 + + 'I
++ i
+ +
90'80' I
270'60'URKEY POINT PAMERS 0 MOORS Pl hTE
~ )
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~
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II
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il O~
~ I S
TABLE 4.2.4.4-1 MEAN WIND SPEED AND DIRECTION FOR, SOUTH DADE TURKEY POINT, AND MRI EQUIPMENT AT TURKEY POINT SUPPZZbiENTAL SITE r-MRI TP SD l~
Total Sample SE 4.32 ESE 3.54 ESE 3.46 Four Periods of Highest
('"~ Wind Conditions ESE 7.33 ESE 6.21 ESE 6.53 Four Periods of Lowest Wind Conditions SW 1.65 SSW 1.56 SW 1.03 Period of R'ecord: April 24, 1976 - May 14, 1976
'1
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APPENDXZ A 7
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Al INSTRUMENT SYSTEMS The wind sensors used at both sites are different from one another. The South Dade site uses separate, low mass, cup and vane anemometers. The Turkey Point site uses Bendix Fziez Aerovane sensors on the water, tower and at the Ranger Station.
The speed of response of an anemometer is determined by its distance constant which is defined as the distance of air travel necessary to make the anemometer respond to (1 e1 ~ 63%) of a step change in speed
ox direction. The distance constants for the various wind speed and direction sensors aze as follows:
Climatronics F460 Bend9.x Fries Aerovane (South Dade) (Turkey Point)
Speed Direction Speed Direction 5 ft. Max 3.7 ft. Max 15 ft. 34 ft.
The starting thxesholds of the sensors are 'as followss Climatronics F460 Bendix Fries Six Blade Aerovane, Speed Dix'ection Speed Direction 0.6 mph 0.6 mph 1.0-1.5 mph 2.5-3.0 mph The Climatronics temperature system at South Dade and the Climet temperature system at Turkey Point use similar aspirators. The Turkey Point site uses Rosemount platinum sensors while South Dade uses YSI thermistors. The tempexature is x'ecorded directly on a multipoint strip chart recorder at Turkey Point. At South Dade the lower temperature is recorded and a tempexature difference is generated in a signal conditioner.
All data on South Dade is recorded both digitally and on strip charts. The performance of the two temperature system is not significantly different.
The MRI unit differs from those used at either the South Dade ox Turkey Point sites. The MRI uses separate, high mass, cup and vane anemometers.
The distance constant for the MRI unit and the staxting thzesholds are given below:
Distance Constant Starting Threshold Speed Direction Speed Direction 18 ft. Not given 0.75 mph 0.75 mph ~
II
~
-)
~
~
A2 INSTRUMENT QUALITY CONTROL PROGRAM 4
The Turkey Point calibrations are performed monthly and semi-annually. Each month the wind sensor is removed and the bearings are checked and replaced as required and the sensor 9.s exand.ned for physical defects.
The speed sensor 9.s rotated by a tachometer-monitored motor and the output is recorded. A calibrated power supply 9.s used to provide the zero and span check on the recorder. Finally, when the replacement sensor, 9.s installed, the wind direct9.on response is checked by aiming the sensor at certain surveyed points on the horizon.
The monthly temperature, calibration consi.sts of substituting a precision decade box for the sensor and recording the output recorder deflection w9.th recorded dial settings.
The semi-annual calibration consists of a compar9.son between the temperature system and Assmann psychrometer readings taken at the level of the sensor.
For the South Dade site, when the manufacture of the meteorological instruments was completed by Climatronics Corporation a complete NSB traceable calibrati.on was performed. The records of calibrat9.on of
'econdary standards equipment used by the manufacturer are on file at corporation headquarters. Thi.s NBS traceable calibration has been certified in a letter to Dames 6 Moore dated May 9, 1975 from Climatroni.cs Corporat9.on.
After Dames 6 Moore recei.ved all the instruments and the recorder, the complete system was set up, calibrated and operated for two months. During the run in period the calibration was accurately mai.ntained and repairs were made to any malfunctioning equipment.
After the si.te was ready, all equipment was installed, operated for one week and an NBS traceable calibration was performed on all equipment on March 1 and 2, 1975. The following is a 19.st of all equipment used to calibrate the meteorological instrumentation at the site:
- 1. Di.gital Voltmeter Make: Non-Linear Systems Model: LX2 Serial No: 60051 NBS Corporation: Electro Rent Corporation, Report No. D1715
- 2. Assmann Psychrometer
'I Model: H3311 Serial No: 213
1
.i After the initial field calibration all meteorological instruments and recorders are calibrated'quarterly. The calibration plan proceeds in the following order:
- 1. Precalibration check on all equipment to record the departure from perfect calibration. This is not called for in the initial calibration.
- 2. Calibiation or check of recording system
- 3. Calibration of all translator cards and digitizers
- 4. Sensor calibration 5.
1 Post calibration check exactly as performed during precalibration.
The translator cards, the digitizer and the Leeds 6 Northrup Multipoint recorder are given a zero and span calibration. The, voltage sources are the internal calibration sources in each translator card. The voltage is measured with a Digital Voltmeter.
'The tape recorder is checked by recording the zero span voltages from the translator cards, and reading this data by computer.
Esterline first adjusted for mechanical
,~
The Angus recorders are ]
zero as is always done at each chart change. The input translator cards are then turned on and the appropriate ad)ustments are made on the card for zero and span. I The Leeds 6 Northrup recorder is first given a mechanical zero ad]ustment. A translator card is adjusted for zero and 100 millivolts full scale; this card is then used to calibrate the multipoint recorder of zero 4) and 100 millivolts full scale in conjunction with the digital voltmeter.
The translator cards are then adjusted for their proper calibration settings.
The wind speed sensors are checked for defective bearings. The cups are inspected for'amage.
ocilloscope and compared with a anemometer is stopped to see The electrical output is observed on an crystal frequency source. Finally, the if the output is exactly the threshold (0.58 mph) .
~,I .
The rationale used here in that the response of the anemometer is a function only of its geometry given that the bearings and the electrical output. are in good condition.
The sensors are inspected for physical damage exactly as the wind direction sensor is. The wind direction vance is sighted ori certain points on the horizon whose exact direction is known. The outputs of the translator are compared with the proper readings.
~ -'
The temperature sensors are checked in an 9.ce bath. The temperature and the dew point readings are also compared with those of an Assaann psychrometer.-
The programs identified above were in effect for the time period encompassing the data base used in this phase of the study. In addition, the MRX unit was calibrated pr9.or to installation following specif9.ed methods. The w9.nd direction sensor was placed on a large gr9.d and the vane was turned in 90 segments. The output was then checked for agreement w9.th the sensor pos9.tion. The accuracy was within 5'. The wind speed sensor was rotated the spec9.f9.ed 668 times. The wind run otput was observed to be one mile as specified by the manufacturer. When the unit was installed the sensor was aligned by s9.ght9.ng with a compass.
A3 LOCATION OF SENSORS The Turkey Point middle and lower temperature sensors are located among buildings and over surfaces whose micxoclimate is believed to be different than that of the environment. These surfaces are gravel, black top, and concrete and are seldom cool and wet as the marshy soil is. Hence, the. temperature sensors are believed to sense a "heat island" microclimate whose principle characteristics include unusually strong lapse rates of temperature over considerable heights. For this reason, it, can be difficult to extract instrument problems from interference caused by site influences at Turkey Point. All temperature probes face to.the west. As the two lower probes are in the shadow of the containment building in late afternoon and due to.the activity of the upper level temperature trace, (an inordinately 4
high frequency of extremely unstable conditions),the vertical temperature gradient considexation to the lower temperature probes.
The Turkey Point wind sensors are located where there is considexable interference to the natural flow of air. The lower wind sensor site (Ranger Station) is located among txees. The trees are taller than the instrument height, in the northeast and south-southeast direction. The upper wind sensor at the top of the water tower, is also prone to slight displacement of air flow.
4(
APPENDIX B
t METED OLOGICAL DATA L'ISTING HOUR BY HOUR COMPARISON PAGt) I DATA ERIOO'IX MONTHS 3/10/7S TO 9/9/75 FLORI A POWER AND LIGHT COMPANY - -
OAHES ANO MOURt, JOB NUMBER) 4598 075 27 TABLE GENERATED) 08/15/76 ~ Ibe I 1 ~ 3 > ~
SOUTH DADE UNIT, 2p DADE COUNTY'LORIDA TURKEY POINT UNITS '1 AND 2s DADE COUNTY FLORIDA WINO DIRECTION OEL-T STABILITY WINO SPEED {HPS) WINO DIRECTION OEL<<T STABILITY YEAR ONTH OAY HOUR WINO SPEED (HPS) 11 abZH S7 ~ 9 >H ll~ 62H S7 ~ '14H (C/IOOH) CLASS 13 llH 64 89H 13 llH 64 '9H {C/100 ) CLASS '
975 3 0 I 2 ' 5' ENt. ENt. IF 1 f 3 ' Sa4 f NE E NE 2 ' F 975 975 3 0 2 2' 2aS 5
ba4
' E, t E V.st Iei 2~3 F 2~7 2~7 Se4 Sa4 E NE E NE E Nf F F
975 3
3 0
0 2a5 ST 3
' E: ESE 2 '
?a4 F
F 2a7 2 ~ 7 5a8 5a4 E NE f I 2 2~
97b 3 0 5 F 0 5 ESE E St.
5' ESt 2'e 4 6e3 e NE F 97'5 975 3
3 0
0 6
7 2~7 3~3 ba3 tSt.
E,St; ESE. Ze4 P
F f
3e6'a5 7 t. E SE F 975 975 3 0 4 Seb
~
<<a4 7 Sa4 6a3 7
Ba9 t E SE 'f
<<3
E' 975 3
ln 6~3 F 0 SE 999 ' e.
5 ' 7 ' E SE 999 97'5 3
3 0
0 ll 6 ' F 6 7 e2 SE, St, .
<<I ~ I
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3 0
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5" . 6 5
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f E E SE .
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5.6
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'2 ~~ 70 97b 3 4 2 SE 975 975 3
1 1 5 6
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2~4 F
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3 l 2' 999 ' SE, E,St . 2 ' F 2a 7> 999 E 1 ~3 E 975 97b 3 2 4'
' 999.9 999 '
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D 97b 3
3 ba5 999 999 ' .
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999 9. :3:8 8 A
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NE E. Nf 4
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3 ll 5a3 4'
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999 a 9, 999a9 E
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975 3 21 22 an 999e9 .6 3 ' 999 NE .6 975 3
3 23 24 2'
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t ~ 7 E, E
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~8 E E
975 3 E ~ . ~
)6 975 I 2 ' 5 t.Sf ~6 1
F 6a7 ESE E ftf 3 E 2' tSE Ebf ~4 6' ENE ESE 975 975 3
3 2 2 3 3 5 be 7 Esk ESt.
tSE
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ESE ESE
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E 97b 3 2 3 Se9 ESL ~ 7 975 3 6 ' t.SE f t. St, ~6 3eb
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3
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b.e ba8 St.
Est, tSt. ~h 5
3 4ab Sa8 5a8 t.NE SE ESE
~ 8 4
E 975 975 3
3 2
2 '5 ~ 3 6~8 7
F 7
' ESt E.st ESt, t.SV.
ESt
-.6~
~4 t; 4'
5' 7.6 8.0 f
E E
ESt ESE le3
~
~4 ef 0
975 975 3
3 2
2 10 7ol Beb tSE. E.SE ~
.6 I t ba8 8 Ba9
' E ESE ESE 2
<<la9
' A 9e6 e,st E.St. t, 7 ~ i? E A 975 97'5 3
3 2
2 11 2
- ~5 E 7 ~2
' 9a4
E ESE 2 ' A 975 3 2 7~ 4 8' bt, St; ~ 6 0 6 9 k E,St, fa3 A 975 14 6 ' 8 St. bt -1.8 8 5' 6 ESE D 975 3
3 2
2 5 6~3 7 SE St. ? ~3 A Se4 6 ' E, ESE ESE <<F 7 8 97b 5 ' an St, <<an A Sa4
' Sa8 ESE ESE <<la3
- D 3 2 16 SE.
975 3 ? 11 ba9 7 6'
' St.
t.St.
SE tSt
<<1
<<1 ~ 1 7 C 0
5 5a4 5
5 E
E 0~
~ 6 0 E
975 2 18 F 0 97b 3
3 2 19 4' ba2 tSt t.St. -eb
- E 4
5a8
' E f E, <<I ~
.8 7 8 97S 3 ?0 AS 6e6 ESt e.st. ~ 1 E 4 6 E 975 21 4~ 6.3 tSt St: E 4a5 'aZ tNE ~9 E 975 3
3 2
2 ?2 4' 6~9 tSt.
t.St ESE.
tSt
~ 1
~b
~5 E 5' 6 ' 6 7
' E ENE ENE
~9 3
E E
8e5 975 97'5 3
3 2 23 24 Sa3 ba3 9 ' ESt tSt, ~2 e,
7 ~2
~ i?
'a9 t, f NE.
1 ~
~9 E
P~
HETE ULOGICAL DA'fA L 1ST INb HOUR BY HOUR GOMVARISON PAGE ~
DATA tRIOD'IX MONTHS 3/10/75 TO 9/9/7b FLOR I la POWER ANO LIGHT COMPANY 2
4 1 DAME AND MOUkt JOd NUMUtk) 4598 - 07b - 27 TAdLE GENE,RATE:l)f 08/15/76 '6ell F 3' l SOUTH DADE UNI1 2e OAOE COUNTY'LORIDA ':, TURKEY POINT UNITS I ANO ze DADE COUNT ~ FLORIDA T
T WINO SVE,EO (HPS) WIND OlktCTION DEL-T STABILITY WIND SPEED (HVS) ND DIRECTION DEL- STABILITY YEAR ONTH OAY HOUR 11" 62H 57 ~ 94H ll ~ 62H b7 ~ 94H lC/100H) CLASS , 13 ~ I lH 64 ~ 89H 13 ~ IIM 64 '9H I C/10 H) .CLASS l
j, 975 3 3 6e5 9~2 SEj SK -- ~ I E 8~0 9e8 E E E St, 1 1 975 6~3 de9 2 8~0 10 ~ 3 ESE ESEl E 975 975 3
3 3
3 3
3 2
3 4
6~3 6 2 9~0 9 '
- ~
~ 1 t E.
7 '
6 3 10 '
I0 ~7 CSE QSE
. ESE SE E
975 3 J 4e9 4 ~4 7eb 7'
bbt St.'
0~
1 2
E:
C !
6
~
Se4
9 '
Be9 IE.SE E 975 3 3 6 IESE E 975 I 8' st I 6 8' ,E I~ 1 975 3
3 3
8 5~1 4~7 6 9 SE..SF - ~
8 E
0 be3 9' SE E
E 97b 975 3
3 3
3 3
9 0
6~9 7 ' Be9 8
~
' SK St SE.
'SE
-I 2~3
~
~ 7 C A
7 6
Be5 10 ~ 7
"-s3 ESE ESE ESE -I 0
975 3 3 1 7 8
~
7.6 9o6 SE St; -2.6
-2 '
A 7 7
8~0 9e4 E.St.
ESE SE SE
-1
~
~
9l A
975 3 9~3 SE A 7'
3 T
-2 '
,SE: ~
975 3 3 3 Bed St, 'SC A 7 Be9
.t;SE ESE )
bt -22 'T 97b 3 3 7 ~ 4 bt. A 7 llew 9 lESE ESE, 975 3 3 7~2 St St. A I'I= 7 10 ESE ESE. l 97b 3 3 6~7 SE -2 ' A 6' 9 ' ESE ESE", 0 9 l5 975 3 3 3
7 8
6e3 5~6 SE.
S[t SSC SK 1 ~ 9 2
A D
6 5
Be9 8~0 5 3
975 3 3 4 SK SE
~
~ 6 0 5 6
8~0 7 ' KSE KSE SE E 975 3 3 4 - ~2 E )SK)
T 7'
SE.
975 97b 3
3 3 ~
21 22 0
5' 5e5 Sg't SE St
~2
~2 E
E.
6 7 ~2
' 8' ES) 5E 7 ~2 8~9 ESE l 975 3 3 23 6~3 SE ~2 E iI 975 3 3 24 7 6e5
' 10 9eb
~ 4 E, 7 6'
' 2 ESE 975 3 1 SSt.
- E Izeb SE SE I 975 5' 2 5o4 SE SE F 975 975 3
3 3 Sel 4e4 8~0 7~8 SSE.
Sst S
5 0~
SSE '.
SSt; T'.r~
f I 975 975 3
3 3
1 1
4 5
b 4on 3 6.2 S,
S S
~ ~ ;S
~
~ 2 5
E K
f 2 2
I
~
F 975 3 7 2
be5 S"
~
5
~
~ 5 ,E 0
2 2 7
' 6 6e3 SSE SSE SSE:
~
E I
~
I 975 3 9 3 4 SSW 5 -1 ~ 2 TO I 4 4eb SSE S i 975 3 10 4.6 6e4 5 -2 ' il A 5e4 5e4 'SSE SSE D 975 6.z 5 -Z.B A 7~2 7e6 lsSE SSE 7~7 S
-I D
=-
11 9)5 3 2 6.6 6 7o9
' 5 5
-22 '
' A 7 ~2 6 Ben Beb
'SSQ lsst 5
~
]
0 l 97b 3 4 13 7 S 5 A
~
975 3 14 5 6el S 5 -2e4 A 5 7 ISSE SSE 2~ A
7'
~
975 3 4 b 5' ben 5 5 2e3 A 5 SSE SSE 0 975 6 5e2 be3 5 -zeJ A 4 6e Ssg SSE E 975 3
3 4
4 7 4e4 ' 5
. S 5 -1 ~ 7
-I- ~~ 0I T
C 4 6 1 .SSC S 2~ A 3'
5 9 l5 S 0 3 5 lSSE 5 0~ E 4'
3 8 S 975 3 4 19 2' 3~3 5 S E ~ 8 SSE 5 I~ E 975 97b 3
3 4
4 20 zl 2
2 '
' 3 3
S SSE 5
SSE.
~
~
8 0
K E
~
~8 8 4eb 4en
~
IbsE 5
SSE )3 ~ F 975 3 22 3en Sst SSC 2 E ~8 4eb .SSE SSE F 975 3 4 23 ~ 5 3' SSE Sst, I~6
~
F fF ~
~
~ F 3.6 SSt 3 SSE F 975 975 3
3 4
b 24 0
~ 7 3 7 CLH SSt',
SSE: 2 8
~
~8 3eb 4'
=SSE SE F 3'
1 ~ ~
975 3 5 2 0 ~ CLH S 2 F ~ 8 iSSE SSE F 975 3 5 3 2e5 CLH 5 9 F 0 3e6 SSE 2~ F 3'
0 1 ~ ~ l 975 3 5 4 0~
~
2' CLI! 5 2' F le8 SSE SSE 2 ' F 975 3 b 5 0 2' CL< SSE 1 4 E 0~ 3eb CLH SSE E 975 3 b lo5
~
I 4 N St. 2'
~
rF 0~ 2e2 CLH SSE. 2e7 F 3'
~
975 3 b le5 5 CLH t. St. 0~ 1 ~3 iCLH SSE I~7 F 2'
1 ~
97b 975 3
3 5
5 0~
2~0 Ze4 CLH est ESE ESE -2 ' 1 F K
0~
~8 0
0~
~ !CLM
'NNW CLH CLH -- ~4
~ 8 E
0 975 3 5 ll 1U 3 3'
' 3' 4e3 t.St t.bt CSC -leb ~
' C ~ 8 8
1 ~8 F 1
'N NNW 2 ' 94
~ 0
-32 '
975 3 'b KSt. A NNE N A 975 3 5 lz 4 ~ 4' 999 '
SE, St 2 7
~
~ 3 999 '
' N NE NK ~ E
~
975 3 5 IJ 4eb Stst.
3~
-3el2 3eb 4eb 999 '
E SE
-2.82 ~ 7 A 975 3 5 14 5~ 999o9 A E SE A 975 3 lb 5~ 999 ' Sst. -ze4 A 4 999e9 E SE -1 ~ 3
-I- 0 975 b lb bel 999 ' SC -1 ~ 9 A 3 999e9 E SE 5 C 999 '
3 ~
975 b 17 4~ 999 ' SSE. -1 ~ 9 A F 6 E SE
- 8 D 975 3
3 '5 ld 4~2 999e9 SE -1 o4
- 0 3 ' 999 ' E, SE
~
~ 8 0 975 19 3ol 999 ' bC 7 0 F 7 999e9 SE 0 999 '
~
3 ~
97$
97b 975 975 975 3
3 3
3 3
b 5
5 b
5 20 21 22 23 24 2
2 2
1 ~
1 ~
9
9 99' 999 '
999e9 3'
4' E.SE.
t.
E t.
0 lel leb
~
~
~
8 8
K E
E.
E F
leg 2e 3~6 2~7 2~7 I 999 '
999 4~0 l 4
',' E e NE E NE C NK
,E 0~
~2
~6
~
~4 4 E E
METf
~
R OLOGICAI DATA I
LISTlNG
~
HOUR BY HOUR COMPARISON I
~ I DATA P SIX MONTHS 3/10/7b TO 9/9/75 PAGE'RIOD:
FLOR 0 A POWER ANU LIGHT COMPANY DAVE AND MOOHt J08 NUMBERo 4598 075 27 )
TAHL GENERATEU) 08/15/76 ~ leo 1 1 ~ 34 ~
SOUTH DADE UNIT 2s DADE. COUNTY'LORIDA TURKEY POINT UNITS 1 AND 2$ DADE COUNT FLORIDA YEAR ONTH 0 AY HOUR WINO SPEED (MPS) MIND DIRECTION OEL-I STABILITY WIND SPEED IMPS) kIND DIRECTION OEL- STABILITY-
)I ~ 62H 57 ~ 94H 11 ~ 62H 57 ~ 94M (C/IOOH) CLASS 13 ~ 1 lH 64 ~ 89H 13 ~ 11H 64 ~ 89H { C/10 CLASS
')
975 3 e 2ol 4e2 t; lo4 97b 975 3
3 6
e 1
2 3
2e5 2 ' ,
4 5 ESE ESE ESE t,St 1 ~3 E
E 2~7 4~0 3o6 4o5 4~0 E
E
'f
,E E
E ESE ~8 4o5 975 97b 3 6 b
2o5
' ', 4
'SE
, Ebt. E,St lo2 E
E 3oe , pe 3 ,E E .
~
E E
E 3 2 2'
5 E.St o3 'E. 3.b b.4 'ESE 4'
975 e 1 E 3 6 Sel ESE: St, 1o4 4o9 3'
975 E ESE . E 3 6 7 boS Sf St 5.4 5'.4 tSE 975 3 e 4' 6' St; St -1 ~ 1 7
E.
0 6 ' ESE Sf E
5' 6
7'
~ ESE 97S 3 e 9 "
St. SE -lod 8 6 7o2 ESE St D
975 975 3
3 e
e 0
1 Se9 5 '
a 7~
6e9 1 SE Sf St.
St,
-2
-2o5
' A A
5~4 5e4 8'
7o6.
ESE ESE e7I 8 A
ESE ESE 6'
A 975 3 e ? Se4 6i3 St: SE -2o4 So4 975 975 3
3 e
e 3
4 5'
5' e.2
-3 '
A A So4 7' ESf ESE E,SE A
A SSE A So4 6o3 ESE 975 3 b 5 bo7 e.d S 5 -2 ' A So4 6 ' E A 5'
E ESE 0 975 3 6 6 5 SSE SSE 2' A 4o5 e.r ESE Sf 975 975 3
3 b
6 7 4.e 3'
5 4ob SSt.
Sst SSE SSt
-led
-1 ~ 2 8 4ob 3e6 7
5'
0 3' D 975 3 6 4 St, SE - ~ 4 E 4o5 5o4 ESE "*
ESE SE SE
~ 8 D E
975 3 6 0 2o5 4 Sf 3o6 97b 3 21 2 lo4
' 3 ESE.
est, St 1 ~
~ 6 2
E E ~8 4e9 4e5 W
'SE SE NM E
E 97b 3 2? 3 ESt. St F 2 F 8 4' WNM" 975 975 3
3 6 23 24 0~
0~
. 2.e 2'
CLH CLH SE. 2 ' F 1 ~8
~
. 3~
W NW 2 '
~ 2 E F
975 3 7 0~ 3o4 CLH
)SSE S
3o) F F
1 ~8 0~
3~ NNW WNW F 975 3 l c 1
0 ~ 3 ' CLH S 4 ' ' G 1.8 2~
F 6 CLH NNM -,
~
NNM NNW 2~3 3 F F
975 97b 3
3 7
7 3
4 0 ~ 3~
3 ' CLH CLH 5 3o8 4'
0~ 3 ' CLM . NNM 2 F 0 ~ S 3'
G 0~ 4oO CLM NNW 5,7 975 975 3
3 7
7 5
b 0
0~
oi lo7 2~
CLH CLH SSE S 2o4 F
F 0~ 3 1 ~8
' CLH NNW 2 G F
97b 975 3
3 7
7 7 0~
0~
2 F 7
' CLM CLH 5 3 5 4o4 F
0~
0~ 2~2 CLM CLH ',
NNW NNM
. 2 3oO F
F 975 975 3
3 l 9 0
2 3
2o5 3o4 5'St SSW S -1 ~ 3 2'
G 0 ~
~ 8 8
2~7 3 NNW NM NNW NNW 3~4 1 ~3 2'
5 A 8 2 975 3 1 3 ' 5 5 -2ob A 2o2
~
2~ l WNW N NM E SE -1 ~ 9
~ 8 975 975 3
3 2
3 2o6 2 3o2 3o2 5
5 S
5
-2o9 3' A A 2~2 2or 2o7 3'
fE E Sf fSf -21 ~' 9 A
A 975 3 4 3
' 3 ' SSt. SSE -F 1 "A 2 3o6 E Sf A
-22
E 2 975 3' A 3 5 3 SSE SSE A 2 3o6 E E Sf 3 975 975 3
3 6
7 3o4 3o9 4eO 4'
SSE.
Sf SSt.
ISt. -1 ~ 9 A
A 3 ~ 6, 3 ~ 6' 3
4eb
' ESE fSf 3
~2 '
' A A
4' ESE E SE A 975 975 3
3 9 3o5
' 3o6 SSE SSt -1 ~ 3 0 4o5 4'
ESE E le3 0 97b 2
lo6 SSE. SSE ~ 1 E 2 ~ SSE SE -o9 0 3 0 2o9 S S ~ 8 E 1.8 3i6 NNW 975 975 3
3 7
7 21 22:
0~
0~
2e2 2 ~ 0, CL'H CLH SSW lol8 F F
0 ~ 2~ l CLH NW NNW =
0 ~
~ 4 E
E SSW 8 2~2 975 3 l 23'4 0~ '
0~ CLH CLM 1 ~
lob F 1 ~
0~ 8 NNM NNW 3
~ 2 E
'NW NNW
'LM
~ F 975 3 7 0 CLH CLH I.e F 975 975 3
3 8
8 1 0~
0~
~ ~
1 ~4 1.8- CLH CLH fbe ESE do5 3 F F
0 0~
0~
~
0 0
~
~
8 CLH CLM
'LM CLM-
"'LH 2 1 ~ 3 F
E
~ 2~3 F 975 975 3
3 8
8 3
4 2 1 ~
2.e F
F F 7 3 ~ 6' 1 ~
3 3 W WNW ~ 4 4
fE 975 3 8 'b 2e9
' 5~ l. St 9 F ' 4 W MNW ~
4 1 ~ WNW 97b 3 e 2 2'
4 bt l.e F 3 So4 .
WNW ~ E 975 975 3
3 8
8 7
8 F 1 4
~
~
F fC 4o5 4e5 5
4o9
' MNW E.SE ESE 'NW ~
WNW WNM 2el
~4
~ 6 E
E F
975 3 4o8 4'
F 8 St SE. -lo7 4ob 5o4 ESE 4 975 3 Sob SF, St. "2 ' A 4o5 Se4 WNW ~ E 975 3 4' be5 St St -F ESE MNW 3o2 A 975 3 5eO bo6 Sf bt; -F 88 A A
Se4 4ob 5
5 t,SE WNW MNW -22 ~'
7 A A
975 3 4 ~8 boS SSE, SSt, -3 ~ 0 A 4o5 6o3 ESE N'M 2o8 A 975 3 '5 ~ bol SSt 5 st. -3 ~ I A 5 ' 6.3 ESE NW -1 ~ 7 8 97b 3 bo e.4 5 5 -F 8 .A 4oS 6o3 "2 ~ 7
-2 '
~
SE A 975 3 4~ I bo9 5 4ob 6o3 '7 975 3 4 4'
' 6 5'
' S S S -1 ~ 8 A
8 4ob 6o3 SSE SSE NNW SSE 3 A 8
975 975 3
-1 ~ 2 0~
D E
F 4 4 ' 7 7
f
~
4 2'
~
975 3 3~0 'bo 1 S 5 1 ~ 2 E 4 9 ~ SSE SSE 0~
975 3 8 21 3.1 Sob, b 5 8 F 7 So4 SSt:
97b 9 l5 3
3 8
8 22 23
~ 3 3
AS bod b~9 S
S 5
5
~
~
~ 6 b tt.
E 3'
2' bo8 6
~9 o8
~8 E
975 3 8 24 3~5 Sod S 5 0~ E, 3ob 6 SSE SSE, ~8 f E
t METE ROLOGICAL DATA LIST INIs hOUR BY HOUR COMPARISON PAGf )
DATA Pf RIOU: SIX MONTHS 3/10/75 TU 9/9/75 FLOR OA POWE R ANU LIGHT COMPANY OAHE TABL ANU MOORt JOB NUMBkR: 4598 GENERA)f0: 08/lb/76. le.ll.34.
-'75 - 27 i
I I
i t 1 SOUTH DADE UNIT i?s DAVE, COUNTYs FLORIDA TURKEY POINT UNITSj 1 AND 2s DADE COUNT s FLORIDA WINO SPFED (MPS) WINO DIRE CT IOI4 I OEL-T STABILITY HIND SPEED (MPS) WINO DIRECTION DEL- STABILITY YEAR ONTH DAY HOUR 11 '2M 57 '4H Ill 62H 57 '4H IC/IOOM) CLASS 13 11H 64 ~ 89M 13 11M 64 89H (C/IO H) CLASS 975 3 1 4 e.e
' S 5 5
0~ E 4 7 8
)SSE
975 3 2 4 7 5 E E 975 3 3 bo3 8' 5 5 E, 6~3 9o4; ','SE SSE. E 975 3 4.6 7' SSW SSH So4 Bo9 '-'SE 5 E 975 3 5 4.e 3e4 7'
e.3 SS)s Sbw :b2 E i So4 4e5 7
7
S 5
5 5
E 975 3 6 SSW SSW ~ 7 E 975 3 7 3 ' 6 ' SS'H SSH 1 ~ 0
- E 4 ' F 7 5 5 ,E 3' 5' 975 975 97b 3
3 3 10 8
5' bo7 e.e 8 '
-F 6
-2
~6 0
C A
4o5 5e4 6o7 6o3 6.7 7
5 SSM SSM SSM SSM'i SW j 0~ if
- E E
975 3 11 8~0 9e4 WSW HSW -2 ~ '5
A 6 ' 8 SM, SW i E 975 3 9 ? 9 lo9 2o5 SW SH -2
-2 A A
6o3 Bo9 10 F 7 3o4 SM 5'H
H 2~
<<2o A
A 975 3 9 3 10 wSH WSW SSM 975 3 9 4 I 1oO F 7 WSH WSH -2o8 A 7e2 2ob SSM SH 3~ A 9' '
II 975 3 9 b I~9 MSM WSH -2 A 7 3o4 SSW WSW 4~ A 975 975 3
3 9 6 7
9o3 9o2 2 '7 M H -2
-lo8 A 8
Se4 7 ' l.e 8~9 MSW WSW SW
'SW' 2~
0~ E 975 3 9 8 7~1 3o9 1 ~
9~3 5o9 M
W W
H -1 ~ 1
-o5 0 6o3 3 ' 5 ' WSW MSH WSWi 0~ E 975 3 9 9 W H 5.8'o5 975 975 3
3 9
9 21 0 4 '
2 ~ '9 e.e 5 ' H W
W
'W 0
1 ~0
~ E E
4o5 F 6 4~0 HSW W
0 ~
4 975 3 22 2~3 4o6 WNW HNH I ~2 E 3o6 4 ~5 1 ~
975 3 9 23 3' 5o.9 NH NH 5 E 3e6 6o3 975 3 19 24 3 3 3e6
~ 6 6'
' NW NW
~
~7 tt 2 2
5 e.7
' W W F F
975 3 20 NW NW ~ 7 WNW WNM."
3' 3' 1
975 3 2U 2 ee8 -
~7 6o7 WNW MNM;. '
975 975 3
3 20 20 3
4 3'
3' 6
6o9
' NW NNW NNM NW NNW NNH 1 ~
2 '7 F F
4o5 2'
7~2 6e7 WNH WNM WNM;
' 2' WNWI 97b 3 20 5 2' 7 NNW NNW 2.8 F 3'
7 8'
' HNH 975 3 20 6 2 5o9
' NNW NNW 3'
F
' WNM .
975 97b 975 3
3 3
20 2U 20 7
8 9
2 3o5 5'
7 6'
6'
~
NNW NNW NNW NNH NNW NNH -1 7
~ 4 F
E C
r I 3
3 4o5 7
6o3 5o4 WNW NW NN'W NW li '
4'
~
-22
~
975 3 20 10 4.e be8 NNW NNW A i 5o4 NNW NNWi 0 975 3 20 11 3 4 CLH CLH A 4o5 4o9 N N 0
-2
Nt i
3' 4o5 2~
975 975 3
3 20 20 2
3 3
3o4 3
4' NE
'NNE "NE 2 A A 3' 4 N NNE Nf' N
A 0
' 4' tNE ",Ne -3 ' 2' 3 Nf NE i 0 97b 975 3
3 2U 20 b 3
3~2
- 3' tSf. E -2 '
A A
I 2 ' 3 ~ I: ENE ENE 2o .'
975 3 20 6 2o9
' 3' 3.6
~
SE 2'
-1 ~ 8 A 1 2~7 207 3 ENE ENEj ." ~
ES) ~
C 2'
1 ~
975 3 20 2.e 3 3'
' S. ISS
-1 ~ 2
~ I 0 3 ESE- -1 ~ D 975 975 975 3
3 20 20 20 9
0 F 1 1 ~ 8 7
203 2'
~ 8 E
E F
I 2'
1 ~ 8 8.'
2 3'
2' SSE.
SS)
2' 21 3'
3 975 3 20 22 2 1 ~
'4 2' HSM HSW 3 2
F F
1 ~
1 ~ 8 7 3 SSE SSM SSEI 1 ~
2o F 975 3 20 23 1 ~ Is ,W ~ 1 SW 1 ~ E 975 3 20 24 0~ 2 CIM G 1 ~ 8 SSH SW E 2'
~ 1 975 CLH ) 6 I 8 ENE ENE E 975 3
3 21 21 1 0~
I ~ 7 3
2o5
' W WNW HNH 5 7'
~
' 6 2 2~7
~
2~2 MS'H
'W MSW SSH F
F 975 3 3 - 'vNW G
2 WNW
's 8'
1 ~
975 3 2 1 ~
5 2 4o2
' WI4M NM 9'
G 0 2~7
~ 2 3 ~ 6.
CLH SW NM 'FG 975 3 2 b 2 NNW NNM G WNM 97b 3 ? 6 2 4o0 NNW .N 10 ' 0~ 2~7 CLH NW ~ 3~ F 975 3 2 7 2 lo8
' 3 '
3 ~ 7, NNW N 11 '
8' 0~ 2~7 3 ' CLH CLM NNW NNM 11
": G 975 975 3
3 2 8 1 ~ 9 2~ 4' N j NNE CLH NNE. - 4 ~
G F
0 0
~
~ 202 CLH N
'fo
. V.
975 3 2 0 1 ~
2o4 9
2'
' Ne Nt
'NE tNE.
-1 ~ 8
-1 ~ 9 3 1 ~
2o2 8
IS CLM NESE'o2 2~
I E,
- A 975 3 2
-2 '
A WSM 975 3 2 2 1
3 3 ' tNE. ENt t -2 ' A 3~ SSW MSM -J ~
1 975 3 2 3 4 ~4 tNt -3 '
A 3 jNE
'NE Nf
-1 ~ i A 975 3 2 4eb 4~9 tse ESf A 2~7 4 ENE ID i 975 3 2 5 4' 5e5 tSE -2o4 A 2~7 4o5 IE E 3~ A 975 3 2 6 4e5 bo3 tSI'SL tst -2 ' A 3 4' :E fSE 3~ A j 4' ege bt -1 ~ 9 3 5' 'f USE: 2~ ,A 97b 975 3
3 2 8 7
4' 5 ~
( St St Sf
-I ad A
0 3 4' 4eb if E.SE ~ D i
97b 3 2 9 3~ I SE. ~ 1 e 3 SE E 97b 2ob St ~St I ~0 3' 4ob Sg E 975 975 3
3 3
2 2
2 21 1 ~
0 7
Jol St LLH St Sf 2 1 ~
4 f E
2' 1.8 4'
3o6
~tN jSSW St SE E
E
?2 ~
3' 975 3 2 ?23 1 ~ I tbt SE.
Sf 2
3o5 F
F 1 ~8 2~7 4 0
,SSE IESE WNH, ~ 9 E E
975 3 2 24 0~ CLM ~
METEOR LOGICAL DATA LISTING HOUR BY HOUR COHPARISON PAGEr 6.
DATA P RIOD: SIX MONTHS 3/10/7b TO 9/9/75 FLORIO POWEk ANO LIGHT COHPANY DaMES ND MOORE, JUB NUMBER) 4S98'"075 - 27 TABLE ENERaTEU: 08/15/7e. 16.11.34. I "i
SOUTH DADE UNIT 2i DADE COUNTY> FLORIDA TURKEY POINT UNITS 1 AND 2y OAOE FLORIDA TABILITY.,
COUNTY'IND DIRECTION'EL' EAR H NTH OAY HOUR WIND SPEED'IHPb) Wlt)0 DIRECTION DEL-T STABILITY SPEED {HI'5) WINO 11.62M 57.94M I I.e2M 57.94H Ic/IOOH) cLass 13 ~ 1 IH 64 ~ 89H 13o I IM 64o89H I IC/Ioo ) CLASS
-4 ' '
'E ,E
" E 5 . 7 SE SSE o4 6~2 975 975 3
3 25 2b 1 4~2 4~0 5 ~ 9I SSE:.
~
SSt.,
-o4
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,, 6o7 SE:"-'- SFSE Sk si
~2
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- os5 .. 5s4 . 7o2 .. *..' ~6 E"
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4 975 975 3
3 25 25 0 4 ~9 5 '
S SSM
' 5 Ss'W
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~
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9 C
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A A
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25 3 ' 4 ' S'W C 4' I 4 ~ '9; . 5 SSM ~ 2 97S 3
3 25 7
3o4
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-1 ~ I 0 3' 4sbi SW SW ~ 4 975 3 2b 9 2o2 lo4 ,ig 3
, -~. 3 SSM SSW ~ 2 E 2~7 I ~ 8.
4ob' 6:
S 5 ."; -
NNE NNE
~ 8 2
E E
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975 3 25 ?2 le 5 .2 ~ 5: NM NM 3 1 F F- 0~ 1 ~ 3,i CLH "
M G E
2ob 3 ~ 6I . 'WNW
.,',2 0~ - =
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.. 3s6 975 3
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NNW 3o4 F 975 975 3
3 26 26 3
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3 ~ ei MNM ~- NNM
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N 975 3 26 8 4~2 CLH, ~ G 0~ 2~ CLH . N so5 G 4'
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0 975 26 5 . F 1 7'
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9 ~ 3; -1 ~ 2 0 '8 9s8' NNE -NNE . 0 Nt)
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' -.e 3
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4 975 3 26 21 5 6~
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0 0
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' ENt:
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975 9'l5 3 27 2 1
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NE
~
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3 27 27 5
e 4~
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-1 ~ 9
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. 7' 8~5 ENE 9 A
'i 66 ~ 3 Bo9 E A NE ~
975 3 27 11 7o4 .8 ~ 9:
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8 ' tt E.
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2~3 A
A 975 975 975 3
3 3
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~ 6 C
0 9' tNt -1 ~ 2 0 6e3 8.9 NE NE 2 E 7'
~
975 3 27 18 bo4 kNE, 8' NE 4 E bol eo9 tr~t ENt 7 0 NE ~
975 3 27 19 5' B.e tNE
~
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3 27 27
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4
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~
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6'
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I ' 3 3
HETEORO OGICAL DATA LISTING HOUR BY HOUR COHPARI CON PAGE! 7 '.'
DATA PE IOD: SIX MONTH 3/10/75 TO 9/9/75 FLORIDA POWEk AND LIGHT- COMPANY - e DAMES A D HOORt. JOB NUHBkk) 4598 075 ' 27 >>
TABLt, G NERATED) 08/15/76 'bollo34 ~ . >>
'OUTH DADb UNIT 2i DADE COUNTYi FLORIDA TURKEY POINT UNITS AND
~
2i DADE 'COUNTYi LORIOA I
EAR MO TH DAY HOUR !WINO SPFEO IMPS)! =
' WIND DIRECTION DEL I STABILITY WIND SPEED (HPS) WINO DIRECTION 3 DEL-T 5 ABILITY 11 ~ 62H, 57 ~ 94H l 62M 57 ~ 94H '(C/)OOM) *CLASS:- Ig 11H 64 ~ 89H 13 1'1H 64 ~ 89H <(C/100M) CLASS 975 975 28 28 2
5~
-6 9'-.
' !'!'oS
~
8 7~
3 3
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E
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8'
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t I
~
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9 2
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>> ~ ~
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' 8 '
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5
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0 HETEORO DATA PE OG ICAL DA) A 100: SIX LISTING HOUR BY HOURr COHPARISUN.PAGE)"
MONTHS 3/10/75 TO 9/9/75 8
r
~ .
FLORIDA POWER AND LIGHT COMPANY -
DAHES AF D HOURe JOB NUHBEH) 4598 075-- 27 TABLE. GE NE.kATED: 08/15/76 ~ 16 ~ 1 1 ~ 34 ~
llew SOUTH DADE UNIT 2% DADE COUNTY'LORIDA TURKEY POINT UNITS 1 AND '2e DADE COUNT'Y ~ LORIDA DEL-T STABILITY WIND SPE ED (RPS)'. ' INO DIRECTION 'EL-T 5 ABILITY YEAR MO) TH DAY HOUR ~ WINO SPEED 62H 57 '4H
{HPS) WIND DIRECTION 11 '2H be 94H =
(C/100H) CLASS 13 ~ 1 lH (64 '9H i 3 'lH 64 '9H I(C/100H) CLASS r
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~ 2 9
E 975 4 24 2e5 tSE ESt 1 ~ 8 F E ~ E
METEOR UGICAL DATA LISTING tVOUR BY HOUR COMPARISON PAbE' DATA Pt IUD: SIX MUNThe 3/10/15 TU 9/9/75 TABLE )VEXATEU) '6 ll FLORID POWEM ANU L lb)VT COMPANY -
DAMES A VU MUUHt. JUU NUMUtR) 4598 OU/lb/76 ~ ~ 34 ~
075 - 27 COUNTY'LORIDA I
TURKEY POINT UNI TS I.ANU 2t DADE COUNTYe FLORIDA SOUTH UAUE UNIT Ze UAUt, WIND OI ktCT ION UEL-T STABILITY MIND SPEED IMPS) MIND UIRECTION DEL-T TABILITY T)V UAY HOUR WIND SPtEO 11.62M 57e94M iMPS)
I l.bZM 57 '4M tC/100M) CLASS 13 ~ 11M 64 ~ 89H 13 'lH 64 '9M I C/)00M) CLASS 975 3 3 Seb SE SE 6 F 4 ~5 6e3 ESE ESE .e E 975 3 1
3 6 7.e
' SSE SSt.
SSE SSE 1 ~
1 ~ 0 5
E. 4 ~5 4 ' 6 7
~ 9 9
E E
975 3 3 4 5 E ~
7'
~
7'
~
975 3 4 4~6 S S 2'I t<< 4e5 SSE . SSE 1 ~ E 7' )
~
975 3 b 4.1 6 7~ 5 ~ t) 3 ' 7' SSE SSE E 975 3 4 ' be9 e.3 5 5 ~ 8 6 ki 4e5 4e5 6' SSE SSE SSE S
2~1 F E
- ~ 1 ~ 1 975 3 8 4'
~
e.4 SSW SSH ~8 plI 5e4 e.r SSE S' ~4 975 3 Se .
'.b SSW SSH -1 ~ 2 U 5 6 ' 5 ~ 4 975 975 3
3 10 ll2 5 5'
' 1 7
eee
-1 ~ 9
-2 '
A; A"
5 4eb ..':~
-22
975 3 5o6 6 e,6 SW SH A 4e5 t 6~ I SW ~ 7 8, e.l
~
975 F 1 SX SH A 5e4 8~0 SW MSW 7 8',
975 3
3 e.e 8~0 SH -2 ' A 5e4 ee9 SW WSM -4 ' ~
A SW !
~
6' 'XSW ' be3 C.
97'5 975 3
3 b
e U.O I~ 6 WSM 2
-2e2 A
A 6e3 8
8 WSW WSM WSM W <<3 ' 58
~
A 975 975 3
3 7
8 PE 4 7
See
' 8 '
6 ~ 9-
'H ~
XNW 2'
-1 ~ 4 A-D 7 I~ 2
6.3 7 ' XSH 'SW W
W
~
~ 4 E
E 975 3 9 See 7 0 WNW WNH -1 ~ 1 0 4 6e3 WSlf W ~ 2 E 4' 5' E'
~
975 975 3
3 20 21 4
2'
' F 1 5 ' W H H
-e5 0~
E k 3' 4' SSW H
~ 2 9
3'
~
2' 4' 2' 97b 975 3
3 22 23 ? 0 ~ 3 W wtvW W
WNW
~7 1 ~2 E
E 2' 3'
l 3el SSW SSW W
M 2 '
1 ~ 1 E F
Fl 975 24 2' 4 'WNW WNH E Se4 SSW 2el 4'
3 1 ~ 1 W 2e9 Se4 . 2 E 975 975 4 1
3~7 5~9 6 '7 WNW,
)VW)i WNH NH 1 ~0
~b E
E 6e3 Se4 6
9
NW W
MNW 0
~
~
2 E
E 975 4 3 5 0 NNH NNW 0~ E WNW NW 975 5
~
' 7~
Be4 NNH NNH 2 E r5 ~ 4 8 8'
' WNW NW
~
~6 E' 4'
~
975 5 'I ~ 4 NNH NNH 4 E 4e5 NH ~4 975 975 4
4 e
I 4
4.e
' 7~8 F 7 NNX NNH NNH NNW
~
~7
~ 4' E
E Se4 4~5 8 0 8 9
~
~
NW NH NW NW
~
~
2 2
E E
97b 4 e 4' 7~3 NNX NNH 1 E 4e5 ee9 NW NW ~ 4 E 97b 4eb 6 ' NtVH N -1 ~ 3 0 4e5 c 7 ' NM NW ~9 Ot 975 5 6~7 9 A 4e5 e.3 NNM NW -1 ~7
-I-.e 975 4
ll 10 5 6 5e4
' NNW NNX NNk IVNH tV -2 1 ~
-2eb
~ 2 A A
4e5 3
It 6'
6' ~
NNW 5
NNH.
~7 8; 0,
975 975 12 13 4 ~2 4ee 5' NE NNE NE, -Zeb
-2 '
A 2 5 ' SSW 5 "I ~ 7 975 4 14 4~1
' 4e6 4'
ENE t:Nt.
-2 '
A 2 ' 4eb 4eb SS'H 5 -2eB
-1 7 l
975 4 lb 3 E.NE tNt.
-2 4 A F 7
- 9
~ 8 '
975 4 16 3e5 ' FNE ENE ~ A 2 3~6 SSM SM ~
3' 4 ,.
975 4 17 2e9 t:SE t.St. -1 ~ 9 A F 7 4~0 SSW. SW 0~ E 975 975 4
4 18 19 2 '9 2' 2'
E E E
-1 ~ 1
~ 2 0
E.
1.8 0~
~
~
4 8
E E
2'
~
975 4 20 ~ 4 tNE EN t. ~ 8 E I~3 I 8 ~ NNE NNE, ~ 2 E '
975 4 21 8 3' tNE E.Nt, 7 E 1 ~ 8 3e NNE NNt ~ 6 E 2'
~
~ 1 97'5 4 22 0~
~
3e4 CLM NW:
tNt, 3 4e5
' 0 I~8
~ 2~
3 7 CLH NNF 1 ~
4' r
G.
975 4 23 2 2 G WNW N 975 4 24 2~2
~
F 1 6'
NNW, IV N
NNX be3 I~ I G
G, 2
Ze7
' 4 5e4 SW MNH NNM NX 10 6e6
G G
975 b 2 Nw 975 b 1
2 3
' 8~
le9 NNH 4 2'
' 4e5 3'
e.9 8~0 ltNW NW 3 4
F E-975 5 3 3 1 NNW NNH WNM NW ~
975 5 4' 7 9 luNW NNH 1 ~ 2 E) 4e5 Be9 WNM NW 0 ~ E 975 975 5 5 b 6
3' 2' .
7 e.e
~
tVNH N
NNH NNw I.e 1e4 F
E 3.e 2e7 8~0 7 ' QNH NW NN'H NNW 1 ~1 I~3 'EE 975 5 7 3' 7~3 NNW. N 2' F 3e6 F 2 NW NNW 4 E e 5'
~
97b 5 8 3' ben -.e 0 4e5 NNW
-I 2 E 975
~
b 9 4' 4 ' bei?
'5 NNW(
NNiV tV
-1
-2 ~'
I C A
3 2
5 8 4eb
~ NNW NNW NNW NNH -1
~
~ 1 9
0,')
975 b 0 0 4'
975 3eB 4
~
I iw NE Nt. -2 ' A 2 2'
' N NNE
~
-1 ~ 9 '.A 3' -2 ' -e9 1
975 5 4 ht. > Nt A 3e6 NNF 0 3' Nt -F 6 .2e'I 3e6 Nf NE 8 0 975 975 5
5 l4 3
3.6 4
4 '
~ ENE tNE tNt -2 3
-2 '
A A F 7 3e6 Nt NE -I
-1
~
~ 3 0 975 b 5 3 7 4 2 tNt tNt. A AU 3eb NNE Nk 3 0
~
~ ~
975 5 e 3' 4~ ivk NE -2eb A AU 3 NE NE ~ 2 E 975 5 7 i? 8 3~
1 I -1 ~ 9 A l.e 3 2'
NE NE 0 ~ E 975 975 5
'5 U
9 2ob 2el
~
3 2~8
-1 ~ 1
~ 1 0
E 0
0~
~
1 ~ 8 CLM CLM NE ESE
.e
~9 E
975 5 20 ~5 2~ SSX lo9'5 F 0~ 0~ CLH CLH ~8 E f
~
S 975 b 21 ~ '5 8
)0 'WbM SSH 3~
3 ~ 9, 0~ 1 ~
2~ 'I8 CLH CLH SSll 5~9
~9 E 975 5 22 3~ 'HSW SW F 0~ SW 975 5 23 24 1
n.
~
5 2 F 1
' W CLM 4~8 7 '
0~
0~
2e 2 1 ~8 CLH CLH SS'H 9~5 5 '
G G
975 5 WSH G SW
I METEOR( LOGICAL DATA LISTING HOUR BY HOUR COHPARISON PAGE) 0, 10 DATA P RIOD: SIX MONTHS 3/10/7b TO 9/9/75 FLORID POWER ANU LIGHT COMPANY - -
OAHES NO MOORE JOB NUHBtH) 4598 075 27 TABLE ENERATEO: 08/15/76.'6.11.34.
SOUTH OAOE UNIT 2e DADE COUNTYe FLORIDA TURKEY POINT UNI TS 1 AND 2e OAOE FLORIDA COUNTY'EL-T EAR H NTH OAY HOUR 'IND SPEED (MPS) =
',llWIND OIHECTION OEL-T 57 ~ 94H (C/IOOM) CLASS STABILITY MIND SPEED 13 ~ 1 1H 64 ~ 89H (HPS) MIND DIRECTION 13.11H 64.89H I (C/IOOH CLASS l TAB ILITY 11 ~ 62M 57o94H ~ 62H 975 975 975 975 975 4
4 4
4 6
6 6
6 6
2 3
5 1 1 ~
2o5 2o 1 2~3 2o5.'
9
'I 2'
4 4
4' 6ob WNW NW NNM NNM NNM 8
WNW NNW NNM N
N 8'
7 IUD 0 12el 11 '
G G-G G
G
~
I~8 lo8 1 ~
~
2~7 8
8 2~7 3~1 2 '
4o5'o3 NM NW MNM I
'WNM WNM,: '.
~,;,
'MNM
~
WNM NM NW NNM Ill3o8 13 3 12 '
7'
~
6 F
G G
G G
975 4 .6 b ~ 7 6'
' CLM )2o l G 2~7 6 ~ 3:.
' MNM,. >> NNM 3o2 lo5 F
5~5 1 ~8 5 '..," 'NM F 975 4 6 7 2 N G NM NN'W 5'
~
~5
' I~8 4~ ~4 975 4 6 8 2o 7 N N E NM
.. E 975 975 975 975, 4
4 6,
6' 6
10 9 F 7 3~5 2o8 4~I 3;,'e0 4'
3 ':
~
4o6.,)
4 N
N eNE N
N CLH NE
-1 ~ 3
-F 2
-2o2
-2.6 D
A A
A 2~7 3
2 2'
4eb '
4ob 9'o5 NN'M NNW N'NE Nl
')i,. "NNM NNW
-1
~
~
ol 3
7 5
0 8
0 C
-2
= ~
975 4 6 4~ tNE, tNE -2 A ,. 2o7 0 NNE, -, NE 9 A 975 975 4
4 6
6 14
'1'5 3 ' ; 4' 3 8 ,'4 3 E
tSE
' tESE 2' A
A 2~7 2~7 3
~
~
~
6' 6.
- ENE ENE,
'ENE ENE -3e4
~
~7 A
8
-22
~ ~
le 3' El ~ I 975 4 6 =
,.3e5 A 8 2 7~
3'
~
3' ESE't 97b 4 17 A .8 2~2 ENE, ~4
.'.NE 2'
~
975 3o2 St -1 llew~ 2 D .8 2~7 NE 6 975 4
4 6 18 19 8; .
' 4 ,E - - 2 E 0~ 2~2 CL H ."='" NE
'NE
~
E, 975 97b 975 4
4 6
6 6
20 21 2 0'; 2 93 1 ~
~
1 ~ 5
"' .*'-, 2ol,
~
~
8 E
E.
s ENE" "
~
~8
.6 E
E
-Oe 0~
0 ~
2~2 2~2 2 ~2 CL CL H ME CL M '"
';.. ENE 3~2 F
F F
975 4
4 6 22 23 0~
0~ -'
~
9 CLH CLH ENE 1 ~
5 '2 E.
0~ 2~2 CL H ',',
'. ENE
~
2o 7 F
. 999 '
~
975 4 6 24 0~ Cl H 5 i F 7 F 0 ~ 999o9 CL H -CLH eb 0 975 975 7 1 2
i *0 ~
W NW) g'r CLM CLM 4o9 5'
G G I. 0 0 ~ 0~
0 CL H ~
CL H
, CLH CLM 3 '
3o4 F
F 7
lo8 -"- 0 ~
- ~ ~
'CLH 975 975 975 975 4
4 4
7 7
7 7
3 4
5 6
2~0 2 ~ 2-2ol
=-
-.1 ~ 7
'32 ~~ 8. 8 ~ ~
'.' -NNW NNW N e - 'CLH CLH CLH NNE 7o4 9'
9' 2
~ -
G G
G G
0~
0 0
0~
~
~
0 2~2 3~
3~
~ CL H CL H ' ~ NNM CL H CL H N
N 6 5 10o4, (4e4 G
G G
G 975 4 7 7 2~ 1;,";,43 ~0 . CLH , NNt.
': 10'o 9 5'
G U~ 3~
CL M-.;,. N 4 ~7 G 975 7 8 I~ 5 ... '2o7 N G 0 2 CL NNE F
'NE
'2-1-lol
~ 1 NNE 975 4 7 9 2~ ~, NE 8 2 N( N 0 97'5 4 7 0
=
2 '
3~0 1
"' 3 3o6
' )tNE tESE t.NE ENt: '9
~ A A I
~
~ 8 8
2 3
NN N
N 9
- 0D 975 4 7
-2 '
~
ONE,
1
~
4' '
tSE
975 4 7 2 Est A 8 2 ~ 1, NE 2 A 975 7 3 4' 4' ) tSE -2 ' A 1 ~
2 ' 4e5 A 4'
tSE'E 975 7 F 4 St ) -2o5 A 3 6~ So4 St,
-2 ' .0 975 4 7 5 4' 5' SE SE -2o6 A 4 ~5 5 o4 ESE '., E SE I A 975 4 7 6 5.1 5'
~
St -206 A 4o5 ESF: E se I -lo5 C 97b 4 7 7 F 7 b.6 St't, St. -2 ' A 4o5 5 tSE '. E St: -,1 ~ 5 C 975 4 7 4 3o9
' 5'
' St:;
r",
bE, se
-1 ~ 4
- 4 4e5 3 ' 5 5
' ESE ESE
~
E SE E
~
0~
~2 F
5' 975 7 9 5 SE ~ E 975 7 2' 4ob SSE SSE 8 E
'33e6 SF SE 0~
975 4 7 21 0
~
~ 0 ~6 5 5'
' ESE SE ~ 8 F,.
E' 3'
~
975 7 22 5' St 1 ~U E <,' 4~5 tSE, ESE .8 2' 5' ' t, ,
975 7 23 St. 7 F be 4 F.SE 2 5'
~ ~
975 7 24 2' 5 St't,'t SE ~0 F 4ob E,SE ~ 2 E 975 975 8
8 2 1
'33 5 Sob St' bt 1 ~
1 ~
4 2
E.
f.
4eb 4os 5o4 5' 3s3.,- . tSE
~
~
2 4
E E
975 4 8 3 3' 5ob bt. SE ~ 1 E '4 ~ b 6' ESE ~
ESF. ~ 9 E" 975 4 8 4 3' Sob SE ~0 E 4o5 6 ' ESt . esf: ~ 8 E 975 4 8 5 3 Sob St't.
St ~U E. 4ob Sed
' ESE ESE ~
.6 8 E 975 8, 6 3 5 5
St St ~ 3 4ob 3 5 So4 E'.
ESE t.SE ESE, .6 975 4 8 7 F 7 SE SE ~0 E 975 4 8 8 2 4 AU SE St.
-1.6 ~ 7 0 2 3.6 4
5'
' ks) SF, St, - ~ 2 8 0 975 4 4 5o3 .~ SSE St. C
-2 ~'
' ' 6'
~ S 5ob bo4 Sst -2 4 tESE SE 975 975 975 4
4 4
8 8
8 1 0 1
2 5'
5' 6'
SSE SSE
-2 '
A A
A 5'
4' 7
5'
' tsE t,sE SE SE
-2 '
-2 ~ 7-A A
A 4'
-22
975 4 8 13 So6 6es St St, A 6o3 t.SE tSE -2e5 A 975 4 8 6.0 6'
. 6e9 St bt, St 2eb A
A 5'
4' 7
6
f.st,
'ESE ESE ESE
-3e4
-3eO A
975 8 5 F 2 SE A 975 4 8 6 be 5 6ob St St -2 ~ 6 A 4 'b~ 6' t.SE ESE -F 1 A 5'
975 4 8 5 e.3 bt SE 8 8 4ob E; ESE "'2 ~ 1 A 4'
7 1 ~
975 4 8 8 4 bo9 se St -1 0 4o5'5 E) ESE ~6 0 975 4 8 4 b~8 t,sE St ~ b 0 4~ bo3 tSE t.SF 0~ E 975 8 2 f> 3 ' 5~8 se St: e 4e5 6' El ESE 0~ E 3' 6'
~ 1 975 4 8 21 a I t;bt t'bt. 2 t. 4eb ek Ese 2 E 5'
~ ~ ~
975 4 8 22 3.6 5' c.st Est - ~5 3o6 E; t.SE .6 E 975 4 8 23 3' bo9 t,SE bt 0 E 4ob 6' E ESt; ~ 8 E 6'
~
975 4 8 24 4' 6e3 St: St. ~5 e So4 ESE ESE ~ 6 E
HETEnkO( t)ICAL t)ala LISTING HOQk ttY tt(tUk COHI Aklst)N PaGE: 11 DATA Ptk 0(): SIX ttUNTttS 3/10/7b 10 9/9/7b I
FLOHIOa t OWER atlO L IG)t CUttPANY 2I DAHES ANI HOUkE JUtt NUHUtkt TattLE. CiEI EkATEUt Ott/lb 76o 4598 Iho)1 '4075 OAUE
'OUTH UNIT 2e UADF COUNTYe FLORIDA TUHKtY POINT UNITS I AND 2t DADE COUNTY' ORIOA YEAR HOI't H OI Y Huuk 'Hi(to SPEED (t~f b) WINO DlktCTION OEL-T STAUILITY WINO SP EED (HAS) WIND DIRECTION OEL-T ST 8ILITY I I ~ 626 l '7e94H I I ee2H 'b7 ~ Y4H (C/IOOH) CLASS 13 ~ I IH 64 '9H 13 ~ IIH 64 '9H (C/IOOH) C LASS 97b 4 1 3.8 e.o sst t, ssE ~4 E 5~4 6~ l ESE SE ~8 E 97b 4 9 2 3~4 b~8 St ) SSt ~5 4eb eo3 tSE, SE. ~4 975 4 9 3 3 5 5.8 bSt SSE ~4 E. 4o5 6~ l bE SF ~9 E
4 9
9 3 7 2
2.9
' b 1
'bel 5.4 SSE, Sst bSt SSE SSE.
Sbt. 1.0
~ 8 E
E 2 3.e
' 4ob 5'
SE.
975 4 9 . E; 975 4 9 3 l 6e2 bSE. SSt ~ 2 E 8 4ob CLH SSE ~ 8 E.
97b 4 9 3'
~
4 b.l ' S -1 ~ 2
-2 '
0 1 ~
2 ' 4o9 e.r SSE SSE, Sst 0~ E 975 9 b.l S . S
-2 ~ 3 ', A 3o6
SE ~ I 975 9 ln 4' bo7 S S 3 5 SSE SSE ~ 1 0 975 975 9 ll Ic 4
4'
.6 5.3 be5
. S , 5 SSE
~ -2.6
-2 '
A A
3 4o5 5
6 ' ESE E:SE SE SE -3oo
~ 9 A A
3' 4 9 t SSE.
975 975 4
4 9
9 13 14 as 4'
So4 4 '
SSE.
SSt
~
Sst SSE
-2 ~ 9
-2 '
A A 3' 5o4 5 ' ESE tSE=
ESE ESF 2o3 3 A A
975 9 15 4 (t b~5 SSE. SSE, -2 ' A 5' 7oc E.SE, SE 3 A 975 975 4
4 9
9 16 17 bo) 5~1
~
5 6~2
SSt
-Ie ~ 3
-2 ~ 2 A
A Se4 4os e.r 6 ' SE tSE SE SE A
A 9 IS 4 9 18 4os F 4 5
5
SSE.
SSE SSt -1 ~ 4 8
0 D
4o5 4os SoU 5 ' SE ESE SE SE 0 A
E 975 4 9 19 ~ ~
975 975 4 9
9 20 21 3
3
5 F 7
' SE ESE 4
-- ~ E 5~4 4 ~5 SeU ST 8 ESE, E EN
~
~
2 6
975 4 9 2? 3' bo9
~
bt SE
~ 1
~ 1 E 4ob 4'
5 ' tE ESE .e E 975 4 9 2J 24 3o4 3o9 5
5
~ 2 2
f.
E 5o4 5o4 6 ESE ESE
~
~2 8 E e
1975 4 9 SE ~
97S 4' e.e St', bE 5o4 6 E,SE SE ~b E 975 4 1
4' 6 SSE'.
SSt
~ 1
~ 1 E.
E; 4os
6 ESE SE ~8 E 975 4 ' I 7~2 SSE: SSt ~ 2 E. 4 4
~ ~6
~9 975 97S 4
4 5 4 ~8 4~2 ro2 e.b SSE 5
SSE S -ol2
~
tE E
3 ' 6.3 SSE SSE. I~ I 975 975 4 e 3 6os 6 ' 5 5
~6 5
~9 9
975 4 7 8
3 5 ~ (t e.e S ") ~
3 E
~
4 E 7'
4 975 975 4
10 9 So8 5 ~8 7
'I ~ 3
' S S ~
S S -2o4
~
2~0 A A
~ . 6o3 6o3 F 6 SSE:
~
~ 6 3
0 D
975 .4 4
11 6' T.e
'e8 ' S 5 -2 '
-3 '
A 7 ' 8 SSE S -1
~
~ 7 8 975 6' S S A e.3 7 SSE.! S 2~7 A 7'
4 2 5 6'
-33
5 A so4 5 2~ I A
-2
975 13 SSW 4'
SSE ,
975 5' 6~3 SSH A e.3 SSE SSE 2 A 6'
4 14 .- SSW 5'
-32
975 4 15 6~3 SSM 5 A 4o5 St SSE A 975 4 6 4o5 4 ' 5 S
-2 ' A 2 4' SE. SSE ~ 3 0 975 4 7 sob 4 '
llew 4
as ' S S Sst -I e2 A
0 3
~ 3 7
0 975 4 18 3'
~
975 3' 3' SSE SSE -1 0 0 So4 tSE SE -o9 D 975 4 19 20 2'
~
~ 4 0
t 3' 4os 5o4 So4 E.SE bE.
SE SE -0 ~
6 E
D 975 3 SSE. ~
3' 21 1 ~
975 4 22 23 3.1 3 ' 5 ' 4' S SSE SSE.
E E 4' 5e4 6'
SE:
ESE SE SE
~ 4 2
E E
975 4 be ~
'SE
~
975 4 24 3oe ~4 sse SSE 6 E 4es 7 SE ~ 2 E 975 4 ST 4 r'.e 5 SSt 0
~
~ E, 6 ' 8 7'
2 1
5 ' Uo9 8 S 5
5 5 0
~ 4 F 4 5 ' 7o6 SE SSE SSE SSE
~6
~6 E 975 4 3 6~3 975 4 4 5' 8 5 5 0
~
~ E 4eS
' 7 SSE SSE ~4 E 975 4 5 4' 8 0 S 5 0 E 4 7 SSt Set ~9 E 7'
~
4'
~
97'5 4 6 4' S S 0 7.e SSE SSE ~9 E 8'
~
975 5~8 S S 0~ E 5 4 7 2 SSE SSE 8 E 8'
4 ~
975 4 7
8 6~3 lleb 8' do9 SSW b -1 ~ 8 999 '
8 7 7 2
~
9o4
~
Ssg SSE, S
5 999 '
0~ E 975 4 9 ~2 SSW bSW 9'
9'
~
975 4 0 -2 ~ 4 A 7 ~2 S 5 E 975 4 8 ' 11 '
SW bw -2 ' A 8 10 I 5 S -;e 0 SW
-3 '
~
9' 1
97S 2 5 SH SW
-2 '
A 8
' (2o1 SSH -fes C 975 4 8 ' 11 ' SW SW
-2 ~ 5 A 9 I
SSH SSM
-o'9 A
975 4 4 10 ~ 0 12 AU
)neo 5'W SH
-2 ~ J A 8 9 ~ 10 Ill ~ SSW SW
- D 975 975 4
4 5
e U.e 8~3 10 ' Set SH SW bt( -2 '
A A 6 Uo9
-2ob 2 '6
~
A 975 7 ro6 9~3 HbW I~8 4eb SM WSW A 975 4 8 e.e 8 '
WSW ttbH HSW -I ~ 2 4' 9 ' SW WSH 2es A 3975 4 9 4 6~ 9 b F 7 eel WSH WSW I~ 1 0
'975 4 (t 2 bolet W
tt W ~
~ 2 3 2'
' 2~
2~
I
'I H E f;
975 4 21 I 7 3~ HNtt 0 MNW )o3 975 22 1 ~ 4 3 ' Vt W Wt(H 1 ~
io8 3~3 1 ~
2~
6 2 ' W WNW
<<~2 F
975 4 23 0 5~0 CLH M 7 be 4 SW 975 24 0
~
~ 4 ' t;LH as I 8 ~ 4~0 HSW W ~9 E
4 I
DATA PERIOD: SIX HONTHS 3/10/7b TO 9/9/75 FLORIDA POWER ANU LIGHT COHPANY OAHES AND .HOORE JDB NUHBtR) 4598 TABLE GENERATtD: 08/15/76 16 'l 34 075 0
HETEOROLOGICAL DATA LISTlNG HOUR BY HOUR COHPARISON PAGE:
- 27 12 I
DADE UNIT 2e
'OUTH DADE COUNTY. FLORIDA TURKEY POINT UNI TS I AND 2e DADE COUNTY' DRIDA (HPS) MIND DIRCCTIDN DEL-T STABILITY WINO SP EEO (HPS) WIND DIRECTION OEL-T STABILITY YEAR HON I
M OAY HOUR ll 62H WIND SPEED
~ 57 ~ 94H lle62H 57 ~ 94H (C/100H) CLASS 13 'lH 64o89H 13 ~ 11H 64o89H (C/100H) GLASS 975 4 2 0'o 4~6 CLH 3o9 F I~8 4o5 SW I~7 F
~
975 975 2
1 2
3 2~0 1 ~8 bob be 2 SW W
W MSW Sw 4
3 G
F 2 '
~8 4'
2o7 SSM SSW M
WSM MSW
.e 9
E 975 975 4
4
? 4 lo6 Zo2 5 '
6 ~ '5 MSW 4' 5'
G ~8 3o6 3ob SSM , WSM
'SM
~
~2 MSW WbW G SeU SSM ~6 97S 4 2 6 le8 bo5 SW WSW 4' G 3o6 6o3 SS'W MSW ~9 975 4 2 7 1 ~8 F 4 3' F 3' SoU ~9 975 4 2 6 4 ~4 WSM WSW
975 975 4 i 2 2
9 10 So0 bo2 5
6
MSW MSM WSW WbW
-I
-AU
~ 1 E
C So4 4'
6~ 1 5 '
- ~ WSM 1~
~ 2 4
E E
t.
975 975 4
4 2
2 11 12 bo0 7 ' 7 9o3
-?ob
' A A
4o5 5o4 7~2 F 6 SSW SSM MSW WSW
-lo9
~
9 A
9' ' D 7' , -2 ' 7'
~
97'5 4 13 SM SM A 8 SSM -1 9 A 8' WSW ~
975 4 2 14 9 8 SW SW F 6 A 7 9o4 SSW -3o0 A 7' Ill
~
~ WSW
-2 '
975 975 97S 4
4 4
2 2
2 15 b 7o6 6 '
9o5 9o6 8F2 WSW WSW MSW WSW -2 '
-leb A
C A
6 5
6
10 I 6
~
'WSW M -I2 ' 9
~
A A
7 M W ~ 1 W WNW ~ 2 975 4 2 4o4 bo5 -1 ~ 0 0 4 5o4 4 975 4 9 4 ' bo4 WNM MNW NNW -- ~ 8 D 5 ' 8 ' M MNW N 0~
~ E E
975 4 2 20 3~5 5ob CLH 5 E So4 e.r N 4 2'
E
~
~
~
975 4 2 Zl 'eS I CLH .e E 2 NNE
- 2 E 975 975 4
4 2 22 23 2'
le8 3
4
CLH 2
1 ~
' 9 F F
2~7 2 ' 3 4
NNE N
~
~
lob 8 0 F
975 975 4
3 0~
2 ' 4o) NNW CLH NNE 2o5 4~1 F
G J
~3 3 3
WNM "
N N '3 1 ~
3 E
F 4'
1 975 975 4
4 3 2 3
0 ~
2o5 CLH CLH Nt 4
4~ I
' I G 1 ~ 8 F 6 NM N ~ 2o7 F CLH CLH, 3o0 3 0~ G 0~
'8 NE F 3'
1 ~
975 975 4
4 3
3 4
5 1 ~
2 ' 9 So%
NW N NNW 4~5 1 ~3 E ) ~ 8 3 4'
NW NNE N
2 '7 F F
975 975 4
4 3 6
7 lo9 9
bow So4 ,
NNW NNM N CLH 1 ~8 AU fF 1 ~
3o6 8 4o9 5'
NW NM N 1 ~
3o0 1 ~ NNM N NNE
-- 89 E
~
975 4 3 8 2~7 4~9 N CLH, ~ I E 3 be 4 N NNE D 975 4 3 9 3~3
4 5.8
' NNE NNC -1 ~ 4
-2 0 4 '5o4 N N
~
- 68
~ 0 975 975 975 4
4 3
3 3
0 1
2 4
5 bo9 e.8 7o4
'E NE NE NE 2
-2.e
~
' 0 A A
4o5 So4 So4 5 ~4 6
702
' N NE NNE NE "2o5
-I
~ 0 A
ENE A 8
-2 87 ENE. NC NE 97S 4 3 bo7 7o4 t.NC ENE -2 ' A 5o4 6~ 1 NE ENE .
F A
975 975 4
4 3 b 5'
5 1 e.9 6'
tNE ENE ENE, ENC
-2 '
-2 '
A A
So4 4 ' F 7 6 NE NE tE'Nt NE 2 7
-1 ~ 9
~
~ A A
975 4 3 6 5 e.e ENt, ENE -lo9 A 4 ~5 6 Nt 8 0 975 975 4
4 3
3 I 5' bol
~ 1 I~ 0 e.s
- t. NE tNt.
ttNC -1 1 ~
~2 9 A 0
So4 4oS F 2 7 ' NE ENE E NE, Nt, E Nt.
-1 ~ 1
~
~2 0
6' U ,E 975 975 4 3 3
9 0
5 5'
' l2 7'
~ t; t.
E
-ob
~ 6 0 0
5 6'
' 7ob
- t. NE ENE E
~
o2 2 'E 5'
E 975 4 3 21 7' ENt, tNE ~ b 0 So4 7' NE ENE 0~ E 975 4 3 5' F 6 ENE tNE -.e
- 4 0 So4 8' NE ENE .e E 975 97S 4 3 24 4o6 5 '
7 7
'7 E.
'E E.
-o4
~ t. bo3 6 8 8
ENE E ;8 6 'EE 975 4
4 3
ST 1 7
~
' E t. -
-- ~ 4 E
E. 6 8 ENE E
E ESE
~
~ 9 E 4 8'
1 975 4 2 5o5 E,SE CSE ~ 4 E 5~4 8 E ESt; .e E 975 4 3 4' 6' t.SE. E.st; 4 E 4 ~5 F 7 E E,SE 2 E 4' 7'
~ ~
975 4 4 e.U tSt ESE b E 4ob E ESE 9 975 975 4 5 4' 4'
bol bol tst: tSt
~
- ~ 6b
~ 0 0
4ob
6' 6'
t ESC.
~
~ 8 E
E 975 4 4 6 7 4' 6~2 toSE E
c.SC
'tbt -~ I D 4
4 6 E CSE ESE
~ 4 4
E E
5'
~
975 975 4
4 4 8
9 6~8 6
8
ESE t,st t.SE tst
-1 ~ 2
-1 ~ 9 0
A 5
5'
' ~
7 8o9 E
E ESE ESE, -lo5 ~ 2 .E 975 4 10 7 ' U~3 tSE ESt, -2 ' A 5o4 8' ESt -Zol C
A
-33
975 4 11 F 6 8~1 St, St. -2o5 A 7' 8' E SE 975 4 4 )2 6 8 St. St -3 ' A 6 3 Uob ESE SE A
A 975 97b 4
4 3
14 6
F 6 8
6 ' E.St.
t,St bt.
tbt
-2oU
-? ~ 3 A
A 5o4 4ob
~
7 e.a
' fE ESE ESE
-lo9 "1 9 A
A 97b 4 4 ~
15 5' 6~ 7 t. SE Ebt: -2 ' A 4ob 6~ I ESt. -2 '
~
A 975 975, 4 4
4 6
7 bo9 S.e 6
6
tCSC St. tSt tbE
-1 ~ 9
-1 ~ 9 A
A 4
4
eel 6~ I E
E tSt; t,SE
-1 ~ 5
-3 ' C A
975'75 4 4
U 9
4 4
b 1 bo9 tbt.
tSt.
t,St.
tbt
-1 ~ 2
- AU 4 5'
' 6' 6.1 t, E.SE. ~ 2 E D E SE 2 975 975 4
4 20 21 4ol 4 ' 5~9 I~ 1 tSt.
E.St, tst t.St - ~ J 4
tE 4' 5o4 6~7 7 ' E t ji SE FSE
~
~
.e 2
E E
975 975 4
4
?2 23 4
4'
' 6 bo4
' t.bE St tbCSt. -ob
~
J t E. 5 5
e. 7 e.y CSE '
I CSE.
tSt
~ 2
~ 2 E 7'
~
975 4 24 4e4 bo8 bSt. SSE ~ 4 5 ' ESE I ESt. ~4 t:
I
l )
HETEOR LOGICAL DATA LISTING HOUR I)Y HOUR COHPARISON PAGE'3 1
) I" i DATA P Rlou: six HUNTHs 3/lo/75 Tu 9/9/75 I i *.
FLORIO POWE)t ANO LlGHT COHPA'AY -
- DAHES ND HOORE JOB NUHBE.)rt 4598 075 '- 27 )
TABLE FNERaTEDC 08/15/76. 16.11.34.
SOUTrt uauE uNlT 2r uaDE COUNTY'LORIDA TURKEY POINT UNITS I'ND 2e DADE COUNTY'IND FLORIDA YEAR M NTH DAY trouR wIND sPEEO CHvs)>>lrvD DI)tECTIoN DEL-T STABILITY SPE Eu (Hvs) 'MIND DIRECTION DEL-T TAB ILIA'Y 11.62H 57<<94H Il.e2H b7.94H (C/IUOH) CLaSS 13 11H 64 ~ 89H 13 1 IH 64 ~ 89H (C/100H CLASS 975 4 5 4 ' 6.8 SSE SSt i 5<<4 7' SE SSE ~2 E 7'
~ 1 4'
1 975 4 5 2 4 ~ '5 F 1 SSE SSt - ~ 1 E St Sst ~8 E 915 4 b 3 5' I~ I bSt Sst E ,'<<SF 4 eob SE SSE ~ 8 975 4 5 4 5 4<<7
' 8~8 7<<5 SSE 5
SSE 5
~ 1 t
E 3 ' 7 '
~ 9 8
E 975 4 5 5 0~
= ~ F 975 4 4 3 <<6 ~ Y b 5 I 4 ~5 7 ~6 SSE SSt 9 E 975 97b 4 5
b b
6 7
8 3<<9 4
'e.o b<<4 S
5 5
5
-ob
~ 2 t0 3 4
6 6
SSE SSE S
S
~
.e
~ 2 E
E 975 b 5 6 b S 5 9 A F 4 7~6 SSE 5 0 E 5'
~ ~
975 b F 6 SSk -F 4 A .6<<3 F 2 SSE 5 .1<<5 975 975 4
4 5 ll 10 12 b<<3 e.3 6~3 8 .~
SSW SSM SSM SSM SSw
-2 '
-2 '
A A
6 7<<$
SSW 2 ' C A
0 975 4 13 6<<b 7 ' SSM SSW 3 ' A 6'
8
8 2<<b i 6 5, -1 ~ 7 4 14 .SSH SSH A bW 975 4 lb 6<<7 tr 2' A 6' 6<<3 4 6'
W 7'
~ ~
915 4 16 6<<2 ) HNM 2' A WNM
- ~ 4 E 975 4 7 6' 7 ~7
'7 ~ 4 M -1 9
-F- 1
~ A u.
6' e.I W.'SW
~ 9 0 97b 4 18 5<<5 l 5<<4 Soe WSM- 2 4'
W W ~
97b 4 1'9 4 0~6 w HN)t ~ 6 D'.
3<<6 4<<b '
4<<0 ~
WSM H 0 ~
i 975 975 4
I<<
b b
20 21 3
3 ' 5<<9 W
H -- 4'5
~
~ 2 ' '
'M M M 0
~
~
6 975 4 22 3' 5<<5 6 0, 2 4 5, 2 3'
H ~ ~ W W ~
2' W
975 4 b 23 F 4 '<<b M H ~ 4 WSM MNM ~ 9 E 975 4 5 24 2.5 4es WNH 0 4' 4<<9 H WNM 9 E 7'
'WNW E:-
975 4 6 1 3 ' 5 ' HNH NH
-0
~
~ Ei <<
,5<<4 7'
WNW NH 0
~
~ E 975 6 2 3 ~ 8, Nw E' 4<<5 NM 2 7'
4 NW WNW 975 4 e 3 3' 7'
'NH. NH
~ 1 4 ' >>NW . NM
~
~ 4 6.
975 4 6 4' C4H NW E e.3 7 NW NH ~ E 975 e b S.e I 8 trNM ) NNW t. 5<<4 8 MNW NW ~ 2 E, 4' '
~
975 4 6 6.3 ttNW NNH 0. 5<<4 8<<9 WNW NW
- ~ 2 975 4 0 7 boo
~ ' tlNH NNH -l<<o
-1 u F 4 5<<4 7 NW NNM
-J<<5
~ 2 E
-2 ~ 60 7 975 4 6 6 5 7 ~ 1 NNH NNH C NW NNW I C 97'b 4 e 9 5 6 '1 NNW NNH ~ A 4 ~5 e..r 6'
NNM NNW ~
i" A 4'
-2
975 4 6 10 5~ IV N -2 A 3 NNM NNM 3'
iA'c-'
975 4 6 11 4.e ', NNE . NNE A 2 6<<3 N << N ~ 5 975 4 e 2 4' 5' NE rrE -g<<5 A 3<<6 4' NNE N 5
~ "t 1
97b e I3 4 '<<2 tNt ~ Erlt -2<<6
-2 ' A 3 4<<b NNE NE
- ~ 9 Ai 975 6 l4 4 4<<d tNt tNt A 3 4<<b NE NE 9 0 975 6 1 b 4 4 5 ~ (t b<<9' tNE Nt tNE Cit
-2<<b
-2 '
A 3 4<<5
' 4<<b 4<<b r NNt NNt ENE -1
-I
~
~ 9 A 0
97b e I6 A
' 4'
~ 1
-2 '
'NE, i
975 6 iree Cit Nt A 5<<4 NNE NE 4 E 3 7
~ ~
975 4 6 1
4 b rt rat Nt -) 4 0 6' 6 NNE NE ~ 8 E 4' t"
~
'6 '~ 3
) ~ 1 ~
975 4 6 6 Nt -<<5 7 7 NNE 0 975 6
6 1 9 2 I) 4' eod
~ CAE Ht lent -- ~ 1 t 8 5 ~ ! NNE NNE. I
~
~ 2 E
E
~
4' 975 e<<9 Nt '5 ~ 4 AU, N Nt 0 975 975 4
21 22 4' AU 6~8 6<<l r46 HNt Ntct t<E trt
~ 1
~
1 ~ 3 4 tE 6<<3 F 4 6<<
7 ' I ~
N; N
NE NE
~
~
~4 2
E E
E 97b 4 24 2 2<<c
' 5 ' tcNH Crtqt 999.9 bel G 4<<5 2 '8 7 ~2 999<<9 N NE i 999<<9
~4 E ~
975 Cettw MNM 975 4 1
I 2 1
I~ I 999<<9 999 '
NW 999.9 999 '
~
999<<9
'99<<9 NM l
999 999 9I5 7 NH ~8 NW 999 ' 999 ' "
1 ~
975 4 7 4 F 4 ri el 999e9 1 ~8 MNW 999e9 975 4 7 5 I~8 999.9 hhet i 999 ' e 999 9, NW 999 '
975 975 4
4 1
7 6
I 1'o tt 2 5 b<<5
' NNW NN el NNt CLH 999 '
999 ~ 9
~
~ 8
~ rt 4<<9 4<<b NW NM N
NNE 999e9 999 '
' 999 '
975 975 4
4 7
7 I
8 2 3
4
4 3<<d b<<5 N
Nf.
CLM lit 99' 999 999.v
' 2~
4<<b 3<<b I F 4
4<<b
' 5, NNW Nt NNE NNt 999 999 '
975 10 tNE. N ll 4'
'trt 975 4 6~0 trit: tNt -2 ' A 4' NE NNE -1 7 8 4' 3' 1 ~
97b )2 5 2 b<<Q tNt tNt -2<<5 a 4<<b NE, ENt A 975
?
7 )3 5~4 6~5 L t, 2 ~ r) A 4<<b 5<<4 ENF, tNt 2' A 975 7 )4 bol 6 ' tht tNt -2 ' A 4<<b 5' tNt ENE. -2 ' A 975 I 15 b.l b~9 -3 ~ 0 A 4<<b 5' NE ENE -1 9 A 4'
~
975 7 )6 5~5 b o e<< thE k
-22 '
' 4<<b tNE- tNt 2~3 9'I 5 975 4
4 4
1 7
lI 18 bol F 6 b<<2 bee t t -1 ~ 3
,A.
0 A 4' 4<<b b<<4 5<<4 E NE tNE tE 1 ~
-1 I 5
D 97b 7 r.o 3
.i. 5
' b<<4 b<<7 CCNE tNE ~ 4 4
tt 4<<5 5~4 4
t Nt NE
~
~
.e 9 E 975 E e<<ob ENE E 975 975 2) 22 3 ~4 2 '
'b 5 'b o E tkNE tE' )AU
~
~ b t
E. 4<<b F 5 4
b<<4 NE NE, E;Nt k
~
I~ 1 8 E E
0 975 23 2' 1 ~ 2 3 ' E. NE E I~3 975 2~ 9 b~2 t 1 ~ 3 t 4' be 4 F 4 E, E. 1 3 E
li
)
HETEO OLOGICAL DATA LISTING HOUR BY HOUR COMPARISON PAGE) 14 DATA ERIOU: SIX MONTHS 3/10/zb llew 10 9/9/75 FLORI a PowcR ANU LIGHT coHPANY - -
DAMES A@0 MOORE JOB NUHBC)<<) 4598 075 27 TABLE GENERATKU: UB/15/76 'bo 34 ' I SOUTH UAUE UNIT 2e UAUt, COUNTY e FLORIDA TURKEY POINT UNITS I AND 2 ~ OAOE COUNTY FLORIDA (MRS) wlNO Ikt.C[IVN UEL-T STABILI'IY WINO SPEED (HPS) WINO DIRECTION OEL-T STAB ILI T Y YfAR WINO SPEED U ONTH D AY hOUR Ill 62M 57 '4M 11.62M 57 ~ 94M (C/)00M) CLASS 13 ~ 11H 64 ~ 89H 13 ~ 11H 64 ~ 89M {C/100 ) CLASS 975 8 1 3e4 bo6 t, t. ' 1 ~ 0 I~0 E 4 '
4o5 4
5' 1
ENE tNE E ~8
~9 E
975 4 2 3~8 6.3 F; E E 975 4 8 3 4 4ol
' 6~6 bob' tSt.
t,St
~ 8 t: 4ob
' beB SoB FNE E E
~ 9 E E
97'5 975 4
4 8 4 5 b ~ 1 E
ttESt, SE tbE
~ 7
~5 t,
C 5o4 5o4 6~
6'
- l. E CSE
~ 1 E
975 6 F 6
' F 2
ESt CSt - e5 t 6 ' 6o7 ESt 975 975 4 8 7 5 6'
7 8 ESC tSt. -lo3
~ 1 0 So4 7 ' E ESE
-.e~2 E
-2
4 8 -2 6' 8~0 0 975 4 6~8 Beb tSC St A CSE 'St,
-I ' 3 975 4 8 10 I~ 0 e ~6 CSC tSE
-2 '
A 6 Beb ESE ~
ESE; ~ 'D
' e.2 6 E ESE
-22 '
A 97b 975 975 975 4
4 4
4 8
8 8
11 13 2
6
'I Zeb 7
~
2 8
9 2
-3 '
-22 '
2' A
A A
A 7'
6 6
'. 8 AU 8
Bo5 8~9
' ESE t:SE t;SE SE St.
-4 '
-3 '
A A
A 7'
~
8' 1
A 6 Bo9 . SE 4o4 A I 3' 975 4 8 SE SE 975 4 8 ee9 8 ' SE SE -2 '
-2 '
A 7 Be9 Bo5 SE SE A
A 975 4 8 bo4 ESt KSE
-I-eb A 7 z.e fe9 6' t.SC ESt ~4 0 4o5 SE 0 975 975 8
9 '5 5 -
7 ~ 6).
I ~ 4 ESE - ESC - E 5' 5'
7 7'
' ESE ESE 0~
2 E
975 4 8 20 5.0 ESE, ESK ~ 1 F, Se4 7'
~
.e E
E 975 4 8 21 So5 2) ESt CSC 0~ E
'SE:
' 6'
~
975 8 22 5 7 ~9 ESE tSt= - ~ 1 E Bo0 E t.SE ~ 2 E 975 4 8 23 6' 8 ~ 6) kSC. ~ 1 7' Be 0 E ESE ~ 6 E e.5 2 6o3 8~9 E ESE',. ~4 E 975 4 8 24 6'
9 ~ 0<<
9obi ESE
-- ~ E E bo3 9~8 t,- ESE j ~ 4 E 975 975 4
4 9 1
2 6' e
9 ~ 0'o3, ESE CSE, t;SE
~ 1
~ 1 t. 6 9o4
E ESE ~
'4 8 6' I 9 2 F tSE
'9 7
)'SEI 975 4 9 3 6 '= ~ 3'.
- t. SE SE - ~
7 ' 9 ESE ESE' E 975 975 4
4 9
<<)
4 5 Se9 8 ~ 9; SE SE
~
St, 0~
~ 1 E 7' 6'
8 ~
E',
E,
- tSE,'-,
~
~ 8 E 975 4 9 e- 5' 8 ' SK SE
-0 ~ E 9 Sc ~ 4 E 975 4 9 7 5' F 6 SE SE ~ I E 6 8.9 8'
E SF
-.6 ~ 4 E 975 4
~
9 8 6 ' I ~ 9:
8.-0-:
-2 0 6 6 ' Bo5 ESE E
SE i'E
- 9 D
0 975 4 6~3 6' 7eb-St, SF -2 'AU A
' 7' 97b 9 SE 975 4
4 9 ll2 10 6'
-2 '
A A
-1 ~ 9
-4o0 A
A
-23
4 9 So9 1' St. SE -2 ' A 4 e.z 7'
. E SE-'F A 975 4 9 5 ~
-2 '
A 6 6 8.0 E
ESE ~2 '
A A
975 4 6
' 8 7 l-SE SE
-2 '
A 6 8.5 -2 ' A
-1 ~ 6 5e4 8.0 SE 3 0 975 975 4
4 9 7
e So9 5'
7 ~2
'I. 2. SE SEi Sc SE -1 ~ 3 0 C
6 ' 7 7'
' ESE SE
~
~ 7 8 975 4 9 5' 7~2 SE SE ~ 7 0 5ov
' ESE SE
'0 ~ 6
~ 0 975 4 0 4' ESE, USE ~ 2 E 5' 7 E.SF t SE E 4' 6o I eoU'e 975 4 9 21 ESC t,bt. 4o5 St: ~2 E 975 4 9 22 3' 3'ed ESE.
~ 1
~ 0 K 3 6o.3 5o4 ESE, ~2 E 975 4 19 23 2o9 5o5 t.St. tSt. 1 ~ 3 ESE ~2 E 975 4 19 24 3' bo9 SF, St ~ 6 K 4 5'
' So4 KSE
'SE
~8 E 3' e.z tSE bt; ~
St SE ~2 E ! ~2 E 97b 6 ~ 2;,
975 4
4 20 20 2 1
3 ' 6 ' SE St, ~ 1 E. 5' 6 ' ESE SE ~2 E 3' bo9 6o3 7 2 CSE SE I 9
~ F 975 975 4
4 20 20 4 3' b ~ 9.
SE SF, SC Sk 0 ~
~ 1 E 4' 4ob 6
6.3
~
eSE ESE SE 2 0
F 3o4 St St, 975 975 4
4 20
?.0 b
e 3' be 6'o<<o bt- St
~ <<e
~ 7 tE E
4ob 2'
6o3 t.SE SSK ~
~
~ 2 I 2' bt:
-I 0 SoB ESE SE ~2 975 975 4
4
?.0 20 8 3 3
4oU SE SSt. SSt.
-I
~
~ 0 2'
4 ESE SSE ~ '9 975 4 20 4 1 4
~ I; SSt.
SSt SSt.
SSC -I ~ 8 9
0 A
3 3
4 5o4 ESE KSE SSt.
'SC
-2o) A A
8' 4 4 975 975 20 20 10
- 11. 4 ' bo5 SSt. bSC -2
-2eb
~
A 4 ' t. SE SE -2 ~ 1 A 975 4 20 2 So0 4 ' be6 bob b'bt bbt.
bSt. -2od A
A 3ob 4eb be 8 bo4 ESE.
ESE SE St. -43 ~' 6 A A
975 4 20 3 .'iSC St St -i'~ 2 A 4' boB ESE SE '-4 2 A 9 I5 be 1
~
4 20 be 3 ~
-2ob 975 4 20 b b 3 6oU bt bt A 4eb 9 ESE SE 3
-2 ' 2
~ A
'j St bC -2ob A 4' 5 CSE SE A 975 97b 4
4 20
?0 16
)7 5 0
~ 0 b e <<i bo9 bSC bSt, -1 ~ 9 4ob 2'
5 ' SE ~ 3 0 975 4 20 18 3
~
4 ' SSt 5 -1 3
-1 ~ 'I0
~ 0 2~ I
'boe 4o9 St. SE 0 0
975 4 20 19 2
'9 3 5 3 l
~ bSt. 5
-- ~ U 0 8 4ob SE Sf SSE SSt, - ~ 9 D 975 975 4
4
?0 2(1 20 21 2
1 ~ 2 ~ '9 b St. bSC
'bbt ~2
~
~ e 3 3o l
' t,SE SSC "1 ~ I D 975 4 20 22 1 ~ 4 2 SSE LLH SSt, bt.
-o2 E t ~ 8 F 2 St.
CLH SSE SSE -lo5 ~ 9 0'C 975 975 4
4 20 ZU 23 24 0
0~
~ 2 2 ' LLI'i tbc U~
~ b E 2 ' CLM SSE -1 ~ I 0
)
r<<
I
'0 $
HFTEOR. OGICAL DATA 'LlyTING HOUR 8Y HOUR COHPARISON PAGE'5
,DATA Pt 100: SIX MONIHb 3/10/7b 10 9/9/7S - '! '.
FLORIO POWE!4 ANU LIGHT COMPANY -
'6 'll -
4G M$ OURE JOB NUM8tkl 4598 075 27 DAMES TABLt .NERATED) 08/lb/76 34 ' $
SOUTH DADE, UNI T 2e OAOE. COU NTYe FLORIDA TURKEY POINT UN ITS I'AND 2s DADE COUNTY> FLORIDA Wl ND OI Rt.CT ION UEL-T STABILITY WINO SPE ED'MI'S) WIND DIRECTION'EL-T TABILITY EAR TII OAY HOUR WI!40 SPEED IMP 62H 57 '4H ll 62M Slo94H IC/I OOM) CLASS 13 ~ I IH 64o89H 13 I IH 64 ~ 89M (C/100M) CLASS 975 2 1 0 ~ .2 ~ I CLH SE. 1 ~ 2 EI 0 ~ 2~2 CLH SE - ~ 8 D' 975 2 2 0~ 0~ CLM CLH 0 0 1 ~8 CLH SE 6 975 2 3 lo4 0~ N CLM 3 1 ~
5o3
' F G.,
0~
0~
~
0~
0~
CLM CLM; *.
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ROLOGICAL DATA LISTING HOUR BY HOUk .COMPAklSUN PAGE! 16 PERIOU: SIX MONTHS 3/lO/75 TO Y/9/75
~ <<
FLO IOA PO)4ER ANU LIGHT COMPANY -
AND HUORt. JOB NUMBtk( 4598
~
075 - ?7 OAH TAB 08/15/76 16 ll 34 'ENERATEO:
i I
~
I SOUTH lPAOK UNIT 2e OAOt COUNTYe FLORIDA 'UR)(EY POINT UNIT I AND 2y DADE 'COUN Ye FLORIDA Yfa MONTH DAY HOUR WINO SPEKO (MPS) 'WIND OIRt.CT lON DtL-)'TABILITYWIND SPf:ED (MPS) WIND DIRECTION OEL T STABILITY; 11 ~ 62M 57 ~ 94M, 11 ~ 62H 57 ~ 94M (C/1VOH) CLASS, 13 ~ 11H 64 ~ 89H 13 ~ 11H 64 ~ 89H (C/I OH) CLASS 97 4 24 1 Se3 4 ~9 7
7
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HETEU OLUGICAL DATA LISTING HOUR BY HOUR CUHPA ISON I AGE(
DATA E (ODD: SIX MONTHS 3/10/7b,TO 9/9/75 I l
I FLORI A PORER AND LIGHT COHPuNY - .I OAHES ANU HOORE JOB NUHdCR: 4598 -, 07b 27 I TABLC GENERATEU: Od/lb/76. lb.,II.'34. I I I l SOUTH UljOE. UNIT;" 2s DADE COUNTY'LORIDA I
TURKEY, POINT'NITS I AND 2e DADE COUNTY i FLORIDA lslND bPEED'HPS) WINb OIRtCTION OtL-T STABILITY )(I NO SPEE'D (HPS) ND DIRECTION I)EL-T STABILITY,.
YEAR lONTH OAY HOUR ~
Ill 57 ')H 11 F 6 H 57 '4H ."(C/100H),CLASS ',13 ~ 1 1H 64 ~ 89H 13 ~ 11H 64 ~ 89H (C/100 ) CLASS 975 975 4
4 27 2'I 2 1 3 3.9 62H 5
6.2
'j l k
t C t '99 ' 999o9 999
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4 27 27 3 5 3~4 '-
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be 3
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4 28 3 5 ' bo4
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~
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4o5, 4ob 5o4" 5o4 E
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999 '
II 999 5 SE 975 975 975 4
4 28 28 28 19 8
5 5
4.8 6~
6 3
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5
6 6 ' tE SE E
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999
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SE 999 999 '
' 6 ' 7
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4 28 28 28 21 22 23 3'
3 ' bo be 0 li t.S t.St St tSt.
999 '
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975 4 28 ,24 3~3 bob E,St. 99M.9 4o0 4 E SE 999 '
975 4 29 1 3 ' bee Sob St SE, SE, St',
999 ~ 9 999o9 4o5 4' ,Sod ESE St, 999 999 '
975 4 29 2 3~7 E.SE SE 975 29 3 3' 5 ' SE, SSE, SSC 999.9 4' 4'
975 29 4 3' Sob sse SSC 999 ~ 9 6o3 SSV 999 975 79 5 3' Sst, SSt, 999 ~ 9 5 4. 5' SSE 999 '
3' 4' 999 '
~
975 4 29 '7e bob Sbt. SSC 999 ' 6o7 St. SSt 975 29 3'
4' So4 6e2 SSt SSC 999 999 '
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999
975 4 29 SSC ~
975 4 29 4' 4'
boe Sob SSE.
SSC 5bt. 99' 999 '
4o5 4 '
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975 4 29 >10 S St.
975 4 29 11 bo2 bo4 SS(4 SSt, SSt 999 ~ 9 4 ~ 6o3 5'
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5' e.7 999o9 tSE 999 9-'o4.
975 29 12 SSC SSC SSE 975 4 29 13 bo7 bo6 e.b SSL Sst, SSC Sbt 999 9 999 ~ 'i 5
4 I 2 7~2
~
975 4 29 lb 4 4
bo9 bo4 SSC Sbt.
Sbk 999o9 999 ~ 9 4
4 'b.
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' bo3 SV bt 999 ~ 9 4 0 3'
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975 975 4
4 29 29 19 8
3' 3'
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bo0
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t.dt. tSt St St.
999 ~ 9 999 '
999 ~ 9 3.e 3.e 4
4
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' St'C 999 999o9 975 975 975 4
4 4
29 29 29 20 21 22 3'
3' bob bo2 CSE, tSt t.St.
tbt CSE.
999 ~ 9 999 '
4' So4 6 ' t E
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975 4 29 24 4' I~ 0 tbt. vsse.9 F 8 7' E ESC 999 '
DATA P
~
RIG))'lX HETEOR LOGICAL DA)A LIST lNG HOUR BY HOUR COH)'ANISON PAGt. )
MONTHS 3/10/rb TO 9/9/75 FLORID POWKtc ANO LIGHT COMPANY, DAME( ND HOORt JUd NUHbtK 4598
- 075 ~ 27 -
TAUL tNERATEU) UU/)5/76o 16 '1.34, SOUTH DADE UNIT 2e DADE, COUNTY ~ ) LORIOA TURKEY POINT UNITS 1 AND 2e DADE FLORIDA COUNTY'EL-T EAR H NTH DAY HOUR WIN)) SPEED (HPS) WINO OIRtcr ION DEL-T STAB'ILIT Y WIND SPEED (HPS) WIND OIRECTIUN TABILITY 11 '2M, 57 ~ 94H I 1 ~ 62H b7 ~ 94H (C/100M) CLASS 13.11M 64.89M 13.11M 64.89H {C/100H CLASS 975 4 30 3' 6 tbE t,St, 999 ' 4o5 F 6 6'
E ESE 999
1 3' 5 '
SE SE 999 ' 5~4 ESE ESE 999 975 4 30 2
' ' St 999.9 4~5 6' ESE SE 999o9 975 975 30 30 4 3
3' 4
bo8 St:
bSE. SSE 999 ' 3'
' 8~0 E.St. SE 999 '
4 4 3 6 ~ 'I Sbt SSE 999 ' 5 lob ESE SE 999e9 975 30 5
~
St 999 So4 7 ' ESE SE 999 '
975 975 4 30 30 3
3~8 6ou 5~ 7 Stt SE St 999 4 F 2 t;SK SE 999
975 4
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METE ROLOGICAL DATa LISTING HouR BY HOUR COMPARISON VA(E) lv
~
DATA PERIOD) SIX HONTHS 3/10/lb TO 9/9/I'5 FLO IDA VO>>ER AND LIGHT COMPANY "
OAHE ANV MOORE JOB NUHbtRt 4598 TABL GENERATEDC 08/1'5/76>> 16 '1 '4 . 07b 27 I DAVE UNI1 2<< OAOV
'OUTH COUNTY'LORIDA TURKEY POINT UNITS I AND 2<< DADE COUN Y<<FL'ORIDA l
EAR HONTH OAY WIND SVEtO tHVS) W'INO DIRECTION OEL-T STABILITY 'WIND SPEED (MVS) MIND DIRECTION OEL T STABILITY 11 ~ 62H 57 ~ Y4M 11 ~ 62M 57 ~ 94th (C/100M) CLASS 13>> I lH 64 ~ 89H 13.11H e4.89M {C/I OM) CLASS bel 2 '2 cLH,. wSw I.!I '
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DAT ROLOGICAL UATA LISTING HOUR BY HOUR COMPARISON PAGEr 20 pERIDD: six rroNTrrs s/In/lb TU 9/9/75
~ 'ET FLO I OA PO'MER ANO LIGHT COMPANY -
DCH S AND HOORt. JOB NUMBER) 4598 TAB GENERATED: 08/15/76 '6 ~ ll 075
~ 34 ~ .
27 SOUTH DADE UtrIT ze DADE COUNTYe FLORIDA TURKEY POINT UNITS I AND zs UAOE COUN Ye FLORIDA
)
EA HONTH OAY HOUR WIND SPEED (HPS) WIND DIRECTION OEL-T STABILITY MIND SPt.ED (HPS) W IND OIREC TION OEL T STABILITY 11 62H 57 ~ 94H 11 62H 57 ~ 94M rC/100M) CLASS 13 ~ 1 lH 64 ~ 89H 3 ~ 11H 64 ~ 89H (C/ I OH) CLASS 97 97 5 0~
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HETEOROLOGICAI DATA LISTING HOUR BY PIOUR COMPARISON PAGE: 21 DATA PERIOD SIX MONT)15 3/10/75 TO 9/9/75 FLORIDA POWER ANO LIGHT COMPANY -
DAMES AND HOORt JOB NUHBtR: 4598 075 27 TABLE, GENERATED:, 08/15/7e. Ie;11.34.
SOUTH DADE UNIT 2e DADE COUNTYe FLORIDA TURKEY POINT UNITS I ANO 2e DADE COUNTY'LORIDA WINO DIRECTION DEL-T STABILITY MIND SPFEO lH1'S) MIND DIRECTION OEL-T STABILITY
'E YEAR HONTH OAY HOUR "
WINO SPEED (MPS) 11.62H .57.94H I I.e2H 57.94M IC/100M) CLASS 13 ~ I IH 64 ~ 89H 13 ~ I IH 6 i ~ 89H {C'/100H) CLASS 975 5 9 I 8 3 ' SE SE 1 ~ 3 E 3 3 ' ESE SSE, 0~ E 1 ~
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HETEO DATA FLORI DAHES DATA LISTING RIOO: SIX MONTHS 3/10/75 POWER ANO LIGHT COMPANY ND MOORE JOB NUMBE.R: 4598 - 075.I
~
HOUI4 BY HOUR COMPARISON TO 9/9/75 j,i - 27
.PAGE: 22 t
'OGICAL t
TABLE FNEHATED: 08/15/76. 16. 11.34. ' I SOUTH IIAOE UNIT!fo DADE. COUNTY'LORIDA ,.TURKEY POINT UN ITS,l AND 2, DADE COUNTY FLORIDA
't Y EAR NTH OAY HOUR 'IN() SPEED (NPS) 11 b2N 57 '4M . 11 62H 57'4H .(C/IOOH) CLASS I
4 WINOIDIREL4TION 'tL-T STABILITY IND SPEED (MPS) WINO DIRECTION 13.11M
~ 64.89M
~ 13o 1 IH 64o89M DEL<<T STABILITY (C/IOO CLASS
=
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4 '
OGICAL OAIA LlSTlt'b HOUR BY HOUR COhPARISON l'GE.<< 2J C'ETEORODATA Pt." IOU) SIX MONTHS 3/10/7b TU 9/9/7b POwEM Ahu LIGHT CO~iPCNY 0 MOORe JUB NUMatkl <598 - 075 27 FLORID DAMEQ TABLt, NERATEU UH/15/76 ~ 1 be 1 1 <<34 ~
SOUTH OAUE Ul4IT 2s OAOE COUr)TYs FLORIDA TURKEY POINT UNITS I ANU 2 ~ DADE COUNTY'. FLORIDA C YEAR H NTH DAY HOUk WINO SPEED (MPS) WINO OlktCl IUN UEL-I Sl'AB'ILITY WIND SPEEt) (MVS) W'INO DIRECTION DEL"T TABIL IT Y 11 62M 5 I ~ 94M 11 '2M br'4M (C/lUOM) CLASS 13 ~ 1 lM 64 ~ 89H 13 ~ I IH 64 ~ 89M {C/100 ) CLASS 975 5 b 3~2 5 3 ESE St I~2 3<<6 5 ' SE ~ 8 e 975 5 5 1
2 3 3'
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tbt St
~
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.e 2
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4 b<<8
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5 5
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I F
~ ~ ] .e I HETE DATA FLORI OAHE OLOGICAL DATA LISTING HOUR'BY.'OUR COHI ARISON PAGE: 24 ERIOD'IX MONTHS A POWER ANO LIGHT COHPANY.
ANO HOORE J08 NUMBER) 4598 TABLE GENERATEO: 08/15/76 3/10/75
'6 ll TO 34 9/9/75.
075 '-'7 j: I SOUTH'ADE UNIT'e DADE, COUI4TY ~ FLORIDA TURKEY POINT UNITS I AND Ze DAI)E COUNT FLORIDA ONTH DAY HOUR . WIND DIRECTION .. UEL-I STABILITY WINO SPEED (HPS) 'M NO DIRECTION DEL- -
STABILITY YEAR -
MIND SPEED .(HPS) ll 62H ll I ,64 '9M
'., ~ '67e94H ~ 62M 57 ~ 94I4 -(C/100H) CLASS, 13 ~ I 1H 64 ~ 89H ~ 11H (C/10 H) CLASS Q; 975 975 5
8, 3l."':-
8 - 0~ - ~,22el6
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14 p
METED OLOGICAL DATA LISTING HOUR 8Y HOUR COIAPQHISON PAGEI Zb DATA FRIOO! SIX MONTHS 3/10/7b TO 9/9/IS FLORI( A POMEIT AND LIGHT COMPANY -
ENEHATEO: 08/lb/76 '6 OAHE) AND MOORE, JOU flU)<<8ER) <<<<598 ~ 34075
~ 11 SOUTH DADE UNIT lZo DADE 27 COUNTY'LORIDA I
TUHI(EY POINT UNITS 1 AND 2 ~ DADE COUNTY FLORIDA YEAR ) ONTH OAY HOUR WINO SPEED (MPS) HIND DIRECTION OEL-T STABILITY WIND SPEED (HPS) WIND OIRFCTION OEL-T STABILITY 2,'e4
=
11 bi?H 57e94H ~
11 ~ 62M 57 ~ 94H (C/100M) CLASS 13 ~ I lH 64 ~ 89H 13' IH 64 ~ 89M (C/100 ) CLASS 975 5 ? 1 1 ~4 2eS'SE 7. CLH ESE I~8 2e3 F
f 0 0
~ 2~2 8
CLH CLH ESE SE le5 le3 F
E 975 975 5
5 2
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~
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F G
975 5 2 b 1 ~
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G 975 975 5 2 7 8
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2 E 3'
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975 5 22 ? 2 NNM ST 3 ~ c ~
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0 e
~ '
METEOR LOGICAL DATA LISTING HOUR BY HOUR COMPARISON PAGE:
DATA PERIOD: S1 X MONTHS 3/10/75 TO 9/9/75 26
~
FLORIDA POWER ANO LIGHT COMPANY DAMES ANU MOORh, JOB NUMBER: 4598 TABLE GENERATEO: 08/15/'16 '6oll -34 ~
075 27 UAUE UNIT
'OUTH Zt DAOh. COUN)Ye FLORIDA TURKEY POINT UNITS 1 ANO 2 ~ DADE COUNTY'" FLORIDA YEAR MONTH OAY HOUR WINO SPEED (MPS) WIND DIRECTION UEI -T STABILITY WIND SPEED (Ht'S) WIND DIRECTION OEL-T STABILITY 11 62)1 57 ~ 94H 11 6?H 57 94H (C/100M) CLASS 13.11H 64.89H 13.11H 64.89H (C/100M) CLASS 0 975 975 5
5 24 24 1 1 ~
0~
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' NNW
- E
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8
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0 975 975 5
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6 1
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f 2 2~
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~ 1 E 8 2 ENE 9 E 975 975 5
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5
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2 975 5 26 8 ?. ~
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~
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~
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' 3' 1 ~
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5 Zb 26 13 4
4 ~0 4.6 4'
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E
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~
9 E 23 2 3 3 ~ s) SC ~ h. SE SSE ~ 8 E 975 5 26 2 1 3~ I Sh. Sbt el E 2 ' 3ob ESE SSE ~ 6 E
~,
ME/ED OLOGICAL DATA LISTlt4G HOUR BY HOUR COHPAR I SON PAGE) 27 E:RIOD) SIX HONTHS 3/10/lb TO 9/9/7 5 FLORI A POWER AND LIGHT COMPANY -
OA) IES AND MOORE JOB NUMBERt 4598 075 27 TABLE GENERATED'8/15/76o )eel I ~ 34 llew DADE UNIT 2~ VADE COUN TY ~ FLO RIOA
'VUTI1 TURKE.Y'OINT UN ITS II ANO 2e.DADE COUNTY FLORIDA ONTH OAY HOUR WIt40 SPEED tMPS) WIND D )RECTION DEL-T STAB ILI TY MIND SPEED (MPS) MIND DIRECTION OEL-T STABILITY 62M 57 '4M 1 I ~ 62M S7 94H (C/IOUH) CLASS 13.11M 64e89H 13 ~ I IH 64 '9M (C/100 ) CI.ASS 975 975 5
5
?7 27 1
2 2~2 I~8
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- 8
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~ E 3' e.I SSW, 3'
~
975 5 28 11 3o9 . So5 SS)f SSW ~ 0 6 7 ~ bSE SSM A 975 5 28 12 5' le SSM SSM "2e0 A Se8 3o6 ,SSE SSM E 6' 5'
1 975 5 28 13 7ab SSW SSW 2' A 7 ISSE 5 0 975 5 28 IQ Se4 e.e SSM SSW -2o2 A 6' 7 tSSE SSM E 975 5 28 15 '5 0 6~0 SSW SSM -2 ' A 5 ' 7 ' b 5 0 6'
~
975 975 5
5 28 28 17 6 F 7 3 ' bae 4 ' SSW SSM SbW
'SM
-I'
-I 0 A 4eS 2' 6 I ~
0 975 .5 28 18 2~0 2' 0 2' 4ob "NW WSM 'Svl o 1 SW E 975 5 ?8 19 2 ~2 3a4 CLH NNt ~ 8 D 2' 4 ' N NNM E 975 5 28 20 2~I 3o5 f4NE Nt ~ 5 fo8 4 ~5 NNE E 975 5 28 21 lo4 J~0 NNE NE ~8 3~1 NNE 975 975 5
5 28 28 22 23 4 1.6
' 'I2 'o2 SE tSE ~5
~2 tt I~8 bo4 1 ~
2 ' 8
- ESE NE tESE, E
F E
975 97:e 5
5 28
?9 24 5~
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t 6e7 7 7 2 8 AU
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E 975 975 5
5 29 29 2
3 6~2 6oU 8
Bo6
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-ob tE E 8 7'
10 12ol
~ I ESE
E E
975 975 5
5 29
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b 502 4 ' 7~8 I~ 0 5
S 5
5
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>>.6 Be0
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975 975 975 5
5 5
.29 29 6
7 3 AU 3.5 4.5
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SSM SSM b
SSW -l.e
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SSM 5
1 ~
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975 975 5
5 29 29 9
U 4
4
bo4 5~ I
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b -AU Rob A 4o5 F 6 5
5 E
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7'
~ E 97b 975 5
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>St SSt
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C 5
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-1 ~
E 97b 29 0 ~ 'S SSF SSt ~ 8 8 bo4 7 2 ~ SE SSE 975 5 29 7 4o4 4'
5 SSt bbt St
~ re V 4o5 7~2
' SE. Sst \~ 0 975 5 29 8 5 SE. ~ I U 4ob 5 ESE SSE &~ D 975 97b 5
5
?9 29 19 20 3'
3' 4
4 4
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~
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tt SE. ~ E. ~ 0 3'
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'ob, 975 5 29 cJ 2' 3 bt bt ~b 2' 4ob ESE SE 975 5 79 g4 1 ~ 7 Jab bbt. SSt 1 ~ 2 h. 2 ' 5o4 . !ESE SSE>> E
'i METEOROLOGICAL DATA LISTlhG HoyR BY HuuR COHl'ARISON PAGf: 28 DATA PERIOD: SIX MONTHS 3/10/75 TO I
~
VOWER aNU LIGHT COMPANY 9/9/I5'LORIOa DAMES AND MOORE JOU NUHBER: 4598 075 27 TABLE GfNERATEU: 08/15/76 16 ll 34 '
SOUTH DADE UNI T 2e DADE COUNTYe I'LORIDA TURKEY POINT UNITS I AND 2e DADE COUNTY> FLORIDA EAR HONTH OAY HOUR WINO SP EED (HPS) 'W I NU DIRECTION DEL-I STABILITY WIND SV EED (HVS) WINO DIRECTION OEL-T S1'ABILITY Iloe2H '57 '4M 11 .e2H 57o94M tC/100H) CLaSS 13 ~ I lM 64 '9M 13 IIM 64 '9M {C/)00M) CLASS j
975 975 5
5 30 30 I
2 I~8 1 ~ 8 -;
3 3o7
' SSt:
bl.
SSE SSE I~ 1 1 ~ 3 E
E 0~
2 o'7 3ob 3 CLM ESE SSE SSE
~
lol 8
E 975 5 30 3 lo9 l3 ~ 6 SE SSt 1 ~ 1 2~7 3 E.SE, SSC ~ 6 E
~
975 5 30 4 7 3~7 bf Ssf lo4 E 2~7 3 t.SE Ssf ~ 8 975 975 5 30 30 5
e 1 ~
1 ~ 5 3 3o4
' SSE.
CLH SSt SSt, 'U 1 ~
2 F
F f
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SSE SSE SSt.
~
2~5
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5 30 I 0~
0~ 3 ' CLH S 2' F AU 3 SSE 5 3 '
975 5 3i) 8 3 ' '4 ~ 2 S 5
-21 '
4 0 ?~7 2 3 4'
SSE CSE S I~7 F 97b 975 5
5 30 30 9
0 3 '5 3~9
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b SSt -2 '
A A 3 4es ESE S -I0 ~~ I E 0
975 5 30 1
-1 ~ 7 A 4 ' 4ob ESE SSE -2o7
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A 1975 5 30 4 5~4 Sst, SSC C
? 999 '
1 1975 5 4ol ,,so 1 SSt ~6 7~ i? FSE SSt; -999 ~ 9 975 5 3U 30 1
4 3 SSE.
SSE Sbt. 999 ' .3 ~ 6 5 ESE SSE. .999o9
-.e 975 5 30 5 3 ' ~ 4 ~4 4~I SC SE ~ 8 8
8 8
2~
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5 3(i 30 b
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8 3eb '34 ~ 7 SE SF.
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~ 8 2 E 975 5 30 9 3oU SE SE 0 975 5 30 20 2 ' '3 8 3' SE.
SSf SE Sbf
~
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4' 2'
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as 4'
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~
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5 31 ll2 4 4 ~9
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6
St.
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5 31 31 21 22 0
3 3 ' 4 4 ~ 8 *t
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5 31 3 24 2' 5 ' EbE. Sk
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6 E.
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6 7
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E 975 6 8 3~8
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-33
6 SC 975 6 ?
1 bol 5~
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A 975 6 3 1 SSC
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975 e 5 be 0 SSE b St. A 5~U A 975 b 1
sob 5 -3 ~ I
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6 6 to te ~
oh 0 4' S
bSC SSt 3 A 3;e 5' ESE SSE. 3 ' A 975 6 7 3 ' F 6 SSE, SSt, 2 A 2~ I
'5 4 as ~ ESE SSt. -i? ~ 7
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6 ~
975 6 i.' 0 2 ' Sc St.
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-1 ~ 0 l~
0 t:
0 ~
8 3 CCLH Sf I~9 2
2 I 975 975 6
6
?U 21 1 5 3~
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1 ~
1.8 AU 3
2
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E 0~
~
2 E
E E
975 6 22 2~I 3 ~ WNW WNW ~ E ~
975 6 23 2 ~ '9 CLH nlhW AU 0~ I 8 ~
CLH CLH ~ 6 B 97'5 e 24 U ~
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~
E)E CLH I~ 7 Fi
0 0
v
, ~ ->>
v
'. -'" ' MET fOR LOGICAL DATA LISTING HOUR" HY- HOUR 'COIRPA. ISON PAGft 29', v
'ATA P f1IOD'IX MONTtts 3/10/75 .TO. 9/9/75 v
v v
LIGHT"COMPANY
- Q "'AMES FLORID POWER ANO ND MOORE JOB NUMBER: 4598 - 075 27 v v
i>> I TABLE ENEMATED o 08/15/76 ~ 1 6 ~ 11 e 34 ~ v I
. SOIJTH 'OAOE UNIT OAOE COUNNTYy FLORIDA TURKE YPOINT UNI TS 1 0 WIND SPEED (MPS) WINO DIRtCT ION 'OEL-T STABILITY WINO SPEED IMPS) WINO OlkfCTION. O EL-T- TABILITY v' YEAR M NTH OAY ttt)UR ll b2H 57 94H . 11 '2M )7 '4M (C/ I OOM) CLASS 13 ~ I 1H. 64 ~ 89H 13 ~ 11M 64 89H
'SE
. (C /100H CLASS , !
0 975 6 '22 . 0~
." '2 ' '. '" CLH St 3~2 F 2 I~3 ESE .. ~ 9
'6 3' I 1
Sej 2~4 F 3 4o9 ESE SE 1~
. SE
' E,
=
975 6 2 1
'as '8 Ssf ..
';'* Se; ~6 E 3 4 ESE . ~ 6 975 975 e
6 .
2 2
3 4
,F 1 ~ 5
- 2 2
' ', 'SE.- CLH
~ 1 ~
3 ' 0 1 ~
2 ' 4' 3ob E
s3 .'-. sf ~ 8 E.
Ev 975 6 2 5 '.'20 ~
lo9 3ol Sf 9. Ei 975 6 2 6 ~ 1 ...,3 ~ tt8-'
;"'4 -SEj,' . ,3 6 3'
~
4ob E
t'. -., . SSE ~
9 E' 975 6 2 7 3 2~
4ib
~ ;-, Sf SE'- -l.e ~ 2 e C 3' 5 ' ESE SE SE SE - ~
~6 975 975 6
6 2
2 3 8 .
4
~
~ 0,-
4o5'.-;
-Io9
-2 4 A
A 3o6 3'
bo4 4o5 ESE ESE se SSE
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<<2o3 C
A 975 975 6
6 2
2 0
4 ' -
5~1
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SSE S St. -as
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975 6 2 1
2 5' 5 0 ..'5 8
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I SSE.
SSE:
-2 4 ~ 4o5 4o5 4o9 6'
FSE E,'Sf
. SSE SSE 4o4 A
A 975 975 6
6
?
2 3
4o5;;
~
5 4
~
~ ~ .v .,>>. SSE SSE 1 SSt: -2 '
-3 '
~ A A ."4os 4 ' 6' 6'
CSE ESE v,
Sst, SE 3
2
A A
9 5 6 2 b 4o9 -'=, 5 9 SSE 'SE.
A 6' -3 975 975 6 '
F 1
' =-
5
-'o6
~
~ 1
.Si, S S
-1 ~ 7
-fo9 C
A 3o6 2o7 4o9 ES3 Sf SSE -1 ~ 0,
~ A 0
2' e 2 7 Ssf 8-'; .'";,2 ~ 2 3o6 0 1'o9 9 5 6 2 1 ~ SSE SSV. C 2'
S Ssf -
975 975 975 975 6
6 .
6 '
6 '
2 2
2
'3 22 9
0 21, t
2 5
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~
2 ~ l. ~
2 ~ 1 ."
.=.'.,'.0 ~
'4
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, 3o4
-": 4~3
~ 2.",".
7'",:"-; . CLH, N
WSW'v .'r CLHI
'NE CLM CLH NNM
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-~ 1
. lo4 1 ~ 6 0
E E.
F, G