Text

Forwards Revised NPDES Permit Application
	ML20064F182
Person / Time
Site:	Farley
Issue date:	01/03/1983
From:	Clayton F; ALABAMA POWER CO.
To:	; NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION II)
References
	NUDOCS 8301060272
	Download: ML20064F182 (187)
	v • d • e

_ - _ - -_ - ____ - - -_-

Milling Addrxe Alabama Power Company 600 North 18th Street Post Office Box 2641 Birmingham, Alabama 35291 Telephone 205 783-6081 F. L. Clayton, Jr.

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AlabamaPower the southem electre system January 3, 1983 Docket No. 50-348 Docket No. 50-364 Director, Office of Inspection & Enforcement U. S. Nuclear Regulatory Commission Region II Suite 3100 Marietta Street, N.W.

Atlanta, Georgia 30303

Dear Sir:

In accordance with Paragraph 3.2 of the Farley Nuclear Plant Environmental Protection Plan, a copy of the revised NPDES pennit application for Farley Nuclear Plant is enclosed.

The Alabama Department of Environmental Management has not yet acted on this application.

If you have any questions, please advise.

Yours.very truly, hM F.

.Clayton,[Jr.

FLCJr/KWM:nac Enclosure 8301060272 830103 PDR ADOCK 05000348 P

PDR

ALABAMA POWER COMPANY FARLEY NUCLEAR PLANT NPDES PERMIT APPLICATION TABLE OF CONTENTS Section Page I

GENERAL INTRODUCTION 1-2 Permit Points 1

Data Reporting 1

Noncompliance Reporting 1

II FORM 1 GENERAL 3-4 Description of Current NPDES Outfalls 5-8 i

Form 2C 9-19 Water Use Flow Diagram 20 Abbreviated Water Use Flow Diagram (Attachment 1) 21 Description Information and Data for

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Water Uses (Attachment 2) 22-38 Revision to Attachment 2 39 Water Use Flows (Attachment 3) 40-47 Revision to Attachment 3 48 Chlorine Minimization Study (Attachment 4) 49 Appendix Historical and Composite NPDES Data 1-140 Maps General Arrangement Maps of the Plant Site

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ALABAMA POWER COMPANY l

NPDES PERMIT APPLICATION l

Facility NPDES Number Barry AL0002879 Chickasaw AL0002895 Gadsden AL0002887 Caston AL0003140 Gorgas AL0002909 Greene Co.

AL0002719 Miller AL0027146 Farley ALOO24619 Enclosed are the revised application Forms 1 and 2c for the reissuance of the NPDES permit for the above " highlighted" facility.

The revised application supersedes the original permit application of 1981 in that it has been updated and refined. Due to~the complexity of the electric generating facilities and therefore the application, we have included the following observations common to all eight applications:

PERMIT POINTS:

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All current discharge points have been included in Form 2c, 1

Section II.

Specific details for each plant's permitted outfalls are included immediately foilowing Form 1.

The details are offered to' clarify modifications since the original permit was issued.

Also, we have requested that monitoring be climinated or reduced at certain discharge points.

There are numerous new discharge points included in these applications. Most of these new points are storm runoff discharges which were not required in the original permit application. Any new discharge points without an assigned discharge number are noted by

- - in Form 2c,Section II.

Internal waste streams are noted by a single asterisk (*).

We request that in each of APCo's new permits consecutive Designate Serial Numbers (DSN) be assigned to each outfall, e.g.

cach boiler blowdown unit, and that DSNs with sub-identification letters, e.g. 004a & OO4b. be discontinued in the new permits.

Your cooperation in this matter will assist our office in expediting the storing, tracking and reporting of NPDES data.

DATA REPORTING:

Due to this large volume of data, conventional forms were not practical.

Mr. S. A. Jones of this of fice met with Mr. J. P. Martin of

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the Alabama Water Improvement Commission to discuss an alternate method for data submittal. The enclosed computer printout was agreed to by i

both parties in a meeting on May 19, 1981.

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Subsequent conversations with Mr. Martin indicated that the AWIC would prefer that calculations not be " weighted by flow" when continuous flow monitors were not used. Because of these comments, the calculations submitted in this report are straight averages.

"Less than" (<) values result when the concentration of a sample is less than the detection limit of the test.

"less than" data in this report will be computed as follows:

To calculate a mean when a "less than" value appears in the data, the sensitivity of the test will be averaged in as if it was a measurable value, and then "less than" (<)

will be placed before the mean. Because we are reporting averages, the "less than" symbol may appear before rather large numbers; this only indicates that a "less than" value was used in the calculation.

The significance of the "less than" symbol will be determined by the number of analyses and the magnitude of the average.

" Greater than" (>) values, although rare, are handled in a similar manner.

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Because flow values were not consistently measured at the time of some of our long-term grab sampling, matching concentrations to flow' s

to calculate individual mass units was not practical. Therefore, mass is calculated by using the average observed flow and the average observed concentration. The "less than" and " greater than" have been omitted in the reporting of mass.

NONCOMPLIANCE REPORTING:

We are requesting that the noncompliance notification period be revised to reflect the current requirements of the Consolidated Permit Regulations. These regulations require that noncompliances be submitted with the Quarterly Discharge Monitoring Reports.

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Farley Nuclear Plant On November 15, 1979 the Alabama Water Improvement Commission issued an NPDES permit to Alabama Power Company's Farley Nuclear Plant for discharge points 001 through 009. Outfalls 005A, 009C, 009D, 010, 011 and 012 have been added since the permits original issuance. Listed below is the current status of NPDES outf alls and an explanation of any modifica-tions that have occurred since the issuance of the original permit. By this submittal we are requesting that monitoring be eliminated or reduced at DSNs 002, 003, 004 and 005, according to Part III.B of the permit.

Also, we are requesting that mass based limits be removed from all dis-charge points. A substantial amount of historical data from 1975 to July, 1982 is available to support our request.

1) DSN 001 Once Through Equipment Cooling for Unit 1 Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter Frequency Frequency Exceedance Observations in Compliance Temperature 1/Wk*

1/Mo*

N/A 121 N/A Flow Continuous 1/Mo N/A 1871 N/A

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DSN 001 Once Through Equipment Cooling for Unit 2 E

Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter Frequency Frequency Exceedance Observations in Compliance T1mperature 1/Wk*

1/Mo*

N/A 30 N/A Flow Continuous 1/Wk N/A 943 N/A

June, July and August

2) DSN 002 Cooling Tower Blowdown (Unit 1) - Since the flow from this discharge point is relatively constant during plant operation, it is requested that monitoring be changed as follows:

Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter Frequency Frequency Exceedance Observations in Compliance Flow 1/ Day 1/Wk N/A 1809 N/A Temperature 1/Wk 1/Mo N/A 158 N/A pH 1/Wk 1/Mo No exceedances 157 100 k

Free C1 1/Wk 1/Mo 04/28/81 155 99.3 Total C1 1/Wk 1/Mo No exceedances 156 100 05

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DSN 002 Cooling Tower Blowdown (Unit 2) - Since the flow from this discharge point is relatively constant during plant operation, it is requested that monitoring be changed as follows:

Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter

_ Frequency Frequency Exceedance Observations in Compliance Flow 1/ Day 1/Wk N/A 943 N/A Tamperature 1/Wk 1/Mo N/A 60 N/A pH 1/Wk 1/Mo No exceedances 59 100 Free C1 1/Wk 1/Mo No exceedances 40 100 Total C1 1/Wk 1/Mo No exceedances 40 100

3) DSN 003 Steam Generator Blowdown - Unit 1 Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter Frequency Frequency Exceedance Observations in Compliance Flow 1/Mo 1/Mo N/A 60 N/A Oil & Grease 1/Mo Eliminate No exceedances 43 100 C:

TSS 1/Mo Eliminate No exceedances 46 100 DSN 003 Steam Generator Blowdown - Unit 2 Current Requested Monitoring Monitoring Last Number of

% of Samples

__ Parameter Frequency Frequency Exceedance Observations in Compliance Flow 1/Mo 1/Mo N/A 31 N/A 011 & Grease 1/Mo Eliminate No exceedances 19 100 TSS 1/Mo Eliminate No exceedances 18 100 Total Fe 1/Mo Eliminate 07/21/81 19 89.5 Total Cu 1/Mo Eliminate No exceedances 19 100 Due to the minimal volume from this discharge point, it is requested that this discharge be classified as a " low volume" waste therefore eliminating the monitoring requirements for iron and copper.

Since the steam system water is high quality demineralized water with non-organic chemical additives, it is requested that Oil and Grease and TSS monitoring be discontinued in the new permit.

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4) DSN 004 Turbine Building Sump - Unit 1 Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter Frequency Frequency Exceedancc-Observations in Compliance i

Flow 1/Wk 1/Mo N/A 267 N/A

.TSS 1/Wk 1/Qtr 05/31/82 254 98.8 011 & Grease 1/Wk 1/Qtr 02/05/80 252 98.8 pH 1/Wk 1/Qtr 06/07/79 254 99.6 DSN 004 Turbine Building Sump - Unit 2 Current Requested Monitoring Monitoring Last Number of

% of Sampics Parameter Frequency Frequency Exceedance Observations in Compliance Flow 1/Wk 1/Mo N/A 136 N/A TSS 1/Wk 1/Qtr None 66 100 Oil & Grease 1/Vk 1/Qtr None 66 100 pH 1/Wk 1/Qtr None 65

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5) DSN 005 Waste Settling Pond Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter _

Frequency Frequency Exceedance Observations in Compliance Flow 1/Wk 1/Mo N/A 196 N/A TSS 1/Wk 1/Qtr None 180 100 Oil & Grease 1/Wk 1/Qtr None 180 100 l

6) DSN 005A Treated Chromate Bearing Wastewater - No change 1

7) DSN 007 Sewage Treatment Plant - No change

8) DSN 008 Metal Cleaning Wastes - No change 1

9) DSN 009A Liquid Radwaste System Unit 1 - It is requested that this NRC regulated activity be dropped from reporting requirements

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in the new NPDES permit.

10) 009B Liquid Radwaste System Unit 2 - See 009A for comments

11) DSN 009C Treated Chromate Bearing Wastewater Unit 1 -

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12) DSN 009D Treated Chromate Bearing Wastewater Unit 2 -

No change

13) DSN 010 Miscellaneous Low Volume Non-Contact Cooling Water Current Requested Monitoring Monitoring Last Number of

% of Samples Parameter Frequency Frequency Exceedance Observations in Compliance Flow Daily 1/Mo N/A 647 N/A Temperature 1/Wk*

1/Mo*

N/A 22 N/A

June, July and August Discharge flow and temperature values for DSN 010 are relatively constant during the three month monitoring period.

14) DSN 011 Sewage Treatment Plant 2A - No change

15) DSN 012 Sewage Treatment Plant 2B - No change 08 4

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ATTACHMENT 2 DESCRIPTIVE INFORMATION AND DATA FOR WATER USES

.cy-1.

River Water Intake -Unit 1 The river water intake' structure for Unit I houses

~

five pumps with a total capacity of 48,750 gpm.

Water withdrawal is also used for river water screen backwash, pump lube and cooling, and filter backwash.

Water for plant use is pumped to a storage pond.

2.

River Water Intake.-Unit 2 Same as Unit 1 3.

River Water Pumps Air Compressor Cooling Water -Unit 1 The cooling water is supplied from the river water pumps discharge header and discharges to the building sump.

4.

River Water Pumps Lube and Cooling Water - Unit 1 The lube and cooling water is supplied from the river water pumps discharge header and discharges to the building sump.

5.

River Water Pumps Lube and Cooling Water Filter

.. Backwash Water - Unit 1 The backwash water is supplied from the river water pumps discharge header and flushes debris from the filter.

The water is discharged to the building sump.

6.

River Water Building Sump Discharge - Unit 1 (Outfall No. 010)

All cooling water and equipment leakoffs flow to the building sump and is subsequently discharge to the Chattahoochee River.

7.

River Water Structure Air Compressor Cooling Water -

Unit 2 Same as Schematic No. 3 8.

River Water Pumps Lube and Cooling Water - Unit 2 Same as Schematic No. 4

(

9.

River Water Pumps Lube and Cooling Water Filter Backwash Water - Unit 2 Same as Schematic No. 5 22 O

10.

Rivsr Water Structura Sump Dischargo - Unit 2 (Outfall No. 010)

Same as Schematic No. 6

,:k~.,

a-11.

River Water Intake Screen Backwash - Units 1 and 2 The screens are backwashed at different intervals during the day.

The refuse from backwashing is disposed of as necessary in a land-fill area onsite.

12.

. Service Water Intake - Unit 1 The service water system provides cooling water for miscellaneous components.

It also provides the water for clarification which is ultimated demineralized for plant use.

13.

Service Water Intake - Unit 2 Same as Schematic No. 12 except that Unit 2 does not supply a clarifier.

14.

Service Water Strainers - Unit 1 Each service water line discharges 'thcough a strainer to remove solids in excess of 3/16 incu.

15.

Service Water Strainers - Unit 2 ml.

Same as Schematic No. 14 16~. ~ Service Water Strainers Backwash Water.- Units 1 and-2 The screens are backwashed at different intervals during the day.

The refuse from backwashing is disposed of as necessary in a land-fill area onsite.

17.

Service Water Pumps Lube and Cooling Water - Unit 1 The lube and cooling water is supplied from the river water pumps discharge header and discharges to the building sump.

18.

Service Water Structure Air Compressors Cooling Water

- Unit 1 The cooling water is supplied from the service water pumps discharge header and discharges to the building

' sump.

19.

Service Water Structure Sump - Unit 1 gg All cooling water an'd equipment leakoffs flow to the et building sump and is subsequently discharge to the Chattahoochee River.

23 L*

20.

Service Water Stm2ctura Air Compressors Cooling Water

- Unit 2 ffi Same as Schematic No. 18 4.

21.

Service Water Pumps Lube and Cooling Water - Unit 2 Same as Schematic No. 17 22.

Service Water Structure Sump - Unit 2 Same as Schematic No. 19 23.~

Service Water Structure Sump Discharge - Units 1 & 2 (Outfall No. 010)

Includes the combined discharge of points 17, 18, 19, 20, 21, 22, 151 and 152.

Discharge to the environment is via Beaver Pond No. 2 to the Chattahoochee River.

24.

Service Water Intake Screen Backwash - Units 1 & 2 The screens are backwashed at different intervals during the day.

The refuse from backwashing is disposed of as necessary in a land-fill area onsite.

25.

Service Water Pumps Mini-flow - Unit 1 p

{.>

The mini-flow provides pump protection by allowing a

~

minimum flow from the pumps discharge header to the wet pit..

~

26.

Service Water Pumps Mini-flow - Unit 2

~

Same as Schematic No. 25 27.

Auxiliary Building and Containment Equipment Cooling Water - Unit 1 Various equipment coolers in the auxiliary building and containment reject heat to the service water system which is ultimately discharged as once-through cooling water.

28.

Tendon Access Gallary Sump Discharge - Unit 1 This discharge consists of ground water which seeps into the annulus around the containment building.

29.

Diesel Generator Building Equipment Cooling Water -

Unit 1 This water provides cooling for the, emergency diesels

.:(

and is supplied by the service water system.

30.

Diesel Generator Air Compressors Cooling Water - Unit 1 (Outfall No. '010) 24 O

This water provideo cooling fo.r tha air' compressors which supply control air to the emerg.ency diesels and is supplied by the service' water system.

{

31.

Turbine Building Equipment Cooling Water - Unit 1 The service water system provides cooling water for f

various equipment heat exchangers in the turbine building.

32.

Turbine Building Air Compressors Cooling Water - Unit 1 (Outfall No. 010)

. The service water system provides cooling water for the plant air compressors and is discharged to the east yard drain.

33.

Turbine Building Oil Sump Discharge - Unit 1 The turbine building oil sump collects small amounts of water in addition to the oil from various equipment.

The water is discharged to the south yard drain until the oil appears.

The oil is then discharged to a tanker for reprocessing.

34.

Cooling Tower System - Unit 1

'(-~

The cooling tower system is a closed circuit which

~

includes the condensers and cooling towers.

The system is being treated with corrosion inhibitors (zinc chloride and polyphosphate), a dispersant, sulfuric acid for pH control,- and with chlorine for. ~

algae and clam control.

35.

Cooling Tower System Evaporation - Unit 1 The evaporation is estimated to be approximately 2% of the cooling tower system flowrate.

36.

Cooling Tower System Drift - Unit 1 The drift is estimated to be approximately 0.2% of the cooling tower system flowrate.

37.

Circulating Water Pumps Cooling Water - Unit 1 (Outfall No. 010)

This cooling water is supplied primarily by the circulating water pump discharge header.

Sanitary water is supplied as~a backup.

38.

Cooling Tower System Overflow - Unit 1

'Jk.

Periodically, due to knbalances or equipment malfunctions in the cooling tower system some of the system contents will overflow the basins and will flow to the' ard drain.

When this occurs icmediate 25 w--

.....,,ii

....i

correctivo action is initiated to correct the problem.

Also the contents of the system periodically have to be pumped out.

This volume of water"will be

].

discharged to the yard drains.

39.

Cooling Tower Blowdown - Unit 1 (Outfall No. 002A)

The blowdown rate will be adjusted to maintain the proper chemical balance in the cooling tower system.

At times the blowdown will be isolated while chemical additions for corrosion protection are being made.

40.

Turbine Building Chemistry Lab Drains - Units 1 & 2 Wastes from routine chemical analyses on the steam system are discharged to the Unit 2 turbine building sump.

41 Turbine Building Floor Drains - Unit 1 The floor drains collect equipment and valve leakoffs and route them to the turbine building sump.

42.

Turbine Building Hydraulic Lift Pit Sump Discharge -

Unit 1 This discharge is typically non-existant.. A discharge would result if the basement of the turbine building

(

were to be flooded.

.~

43.

Turbine Building Elevator Pit Sump Discharge - Unit 1

~

Same as Schematic No. 42 44.

Auxiliary Boiler Blowdown l

The blowdown rate will be adjusted to remove the suspend and dissolved solids from the boiler water.

45.

Turbine Building Sump, Unit 1 (Outfall No. 004A).

This discharge consists of all drains which are collected in the turbine building.

46.

Condenser Drain - Unit 1 This discharge is used periodically to control the level of contaminants in the steam cycle especially on,

plant startups and to aid in chemistry control during chemical transients.

47.

Clarifier f

The clarifier uses alum, a coagulant aid, chlorine, i

and a pH adjuster to convert service water to a purity level acceptable for demineralization.

26

~

48.

Clarifier Backwash The backwash of the clarifier is required periodically

?[

each day to remove to coagulated material which has come from the service water.

The backwash is discharged to the Waste Settling Pond.

49.

Clarified /Well Water Storage Tank This tank stores either clarified service water or deep well water for use in the demineralizers.

Capacity is 200,000 gallons.

50.

Clarifier /Well Water Storage Tank Drainage This tank must be occasionally drained.for inspection or maintenance.

The discharge will be either clarified service water or well water.

51.

Carbon Filters - Unit 1 The carbon filters remove suspended solids and chlorine from the clarified water prior to demineralization.

52.

Demineralizer

. Unit 1

{

The demineralizer removes dissolved sol' ids mid gases

}7 to produce makeup water for the reactor and steam 3

cycle systems.

53.

Waste Sump - Unit 1, Treated Chromate Bearing Wastewater I

All decineralizer regeneration wastes are discharged to this location and are subsequently neutralized before di charge.

54.

Neutralization Tank - Unit 1 This tank is used in conjunction with the waste sump to recirculate and neutralize regeneration wastes prior to discharge.

Capacity is 20,000 gallons.

55.

Carbon Filters - Unit 2 Same as Schematic No. 51 56.

Demineralizer - Unit 2 Same as Schematic No. 52 l

57.

Waste Sump - Unit 2 lg Same as Schematic No. 53 l

58.

Neutralization Tank - Unit 2 l

U i

Sama as Schtmatic No. 54 59.

Water Treatment Plant Vacuu::i Pump Cool'ing Water -

Units 1 & 2

.{

This cooling water is supplied from the sanitary water system.

60.

Acid and Caustic Tank Area Storm Runoff This discharge is the runoff from the pad on which the bulk acid and caustic tanks are erected.

The acid and caustic are used to regenerate the demineralizers.

61.

Water Treatment Plant Complex Sump This sump collects all water treatment wastes-regeneration wastes, backwashes, cooling water, and bulk chemical area storm runoff.

62.

Wasta Settling Pond (Outfall No. 005) i The effluent from the water treatment plant complex sump is discharged via this settling pond.

63.

Demineralized Water Storage Tank This tank provides demineralized water for use as

('

makeup to various plant systems.

Capacity is 200,000'

~~'

A..

gallons.

64.-

Demineralized Water Storage Tank Drainage Periodically a discharge from this tank will be required to drain the tank for maintenance or inspection.

65.

Service Building HVAC Blowdown (Outfall No. 010)

This discharge will be regulated to maintain the level of suspended and dissolved solids below the maximum allowed for proper system operation.

Supply to this HVAC system is demineralized water.

66.

Condensate Storage Tank - Unit 1 Makeup water from the demineralizer for use in the steam cycle is stored by this tank.

Capacity is 5,00,000 gallons.

67.

Steam Cycle Makeup - Unit 1 Makeup water is taken from the Condensate Storage Tank

{

to replace steam cycle system losses.

68.

Steam Generators - Unit 1 28 G

.. ~, - - - - -. _ _

_.,_m.

Tha steam generators are the boilers which produce the steam in the stema cycle.

69.

Steam Generator Blowdown - Unit 1 (Outfall No. 003A)

?{-

The blowdown will be adjusted to minimize the suspended and dissolved solids La the steam generators.

70.

Refueling Water Storage Tank - Unit 1 This tank stores borated water for use in refueling the reactor.

After the initial filling with demineralized water, all subsequent makeup is supplied from the systems within the auxiliary building.

Capacity is 500,000 gallons.

71.

Refueling Water Storage Tank Retention Area Storm Runoff - Unit 1 l

For radiological control a retention area has been constructed around the. refueling water storage tank which would contain the rupture of the entire tank volume.

Each tbne it rains water collects in this area and must be drained after being checked for radioactivity to protect plant equipment.

72.

Auxiliary Building - Unit 1 I

~ Makeup water to the reactor and auxiliarp systems

~

inside the auxiliary building is supplied by the reactor makeup water storage tank and the

~~

demineralized water storage tank.

73.

Liquid Radwaste - Unit 1 (Outfall No. 009A & 009C)

Reactor and auxiliary systems ieakoffs and other auxiliary building wastes which are not recyclable are processed as necessary to ensure that all discharges are well below the limits established by the Nuclear Regulatory Commission.

This discharge is also proce'ssed as necessary to remove chromates.

Boron which is used in the reactor and auxiliary systems is discharged in various concentrations.

74.

Reactor Makeup Water Storage Tank - Unit 1 Makeup water from the demineralizer for use in the reactor system is stored in this tank.

Capacity is 200,000 gallons.

75.

Reactor Makeup Water Storage Tank Retention Area Storm Runoff - Unit 1 For radiological control a retention area has been constructed around the reactor makeup water storage tank which would contain the rupture of the entire 29

tank volumn.

Each tima it rains water collec.ts 'in this area and must be drained to protect planr equipment.

(

76.

Condensate Storage Tank Drainage - Unit 1 Periodically a discharge.from this tank will be required-to drain the tank for maintenance or inspection.

77.

Once Through Equipment Cooling - Unit 1 (Outfall No.

001A)

This discharge is composed of combined flows from plant cooling equipment which is supplied by the service water system.

78.

Discharge Sump - Unit 1 The discharge sump provides a c~ollection point for various discharges and provides a location for a service water system vacuum breaker and for an inspection entrance.

79.

Deep Well Pumps Onsite wells provide ground. water for the sanitary water system, for the fire protection system, and as J.'

backup to the demineralizers.

~

80.

Well Water Pump Flush Uccasionally, if a well has not been used for a period' ofL time, it must be flushed in order to produce water of acceptable quality for plant use.

81.

Construction Potable Water This system provides sanitary water to the construction facilities onsite.

82.

Sewage Treatment Plant 2A (Outfall No. 011)

The package sewage plant is designed for a capacity of 20,000 gallons per day with 95% BOD removal.

83.

Sewage Treatment Plant 2B (0utfall No. 012)

The package sewage plant is designed for a capacity of 21,000 gallons per day with 95% BOD removal.

84.

Sanitary Water Tank

'4

'The well water system provides the water for the sanitary water tank.

The water is treated with c lorine prior to entering the tank in order to ensure potability.

Capacity is 20,000 gallons.

30

85.

Sswago Treatm:nt Plant (Outfall No. 007)

Two package sewage plants are designed with a combined my capacity of 30,000 gallons per day with 95% BOD 11 removal.

The effluents from the two plants are combined prior to discharge to the plant discharge line.

86.

Sanitary Water Tank Drainage Periodically the sanitary water tank must be drained for maintenance or inspection.

87.

Fire Protection Tank 1 Groundwater is used to provide makeup for this 300,000 gallon capacity tank.

The tank will be filled and used only in the event of fire protection system actuation.

88.

Fire Protection Tank 1 Drainage This tank must periodically be drained for maintenance or inspection.

89.

Fire Protection Tank 2 Same as Schematic No. 87 o-

~

A 90.

Fire Protection TankJ2 Drainage

~

_.Same as Schematic No. 88 91.

Fire Pump Cooling Water (Outfall No. 010)

The supply for this cooling water is the fire pump discharge header.

92.

Central Alarm Station HVAC Cooling Water (Outfall No.

010)

The' sanitary water system provides the cooling water to the Central Alarm Station hVAC.

93.

Utility Building Wash Area The runoff from this area is from the washing of plant vehicles.

94.

Plant Transformer Area Storm Runoff All plant main power transformers are surrounded by a concrete berm which will direct any transformer oil

(

from a spill or rupture to an oil separator.

Any

~

rainwater which collects in the area passes through the oil separator prior to discharge to the yard drains.

31

95.

Plent Transform:r Area Oil Separator The separator is sized to retain the entire volume of r~

the largest transformer in case of rupture.

" (.

96.

Auxiliary Boiler Diesel Fuel Oil Tank Retention Area Storm Runoff The auxiliary boiler diesel fuel oil tank is surrounded by a containment structure which is

)

designed to retain the entire contents of the tank in l

case of rupture.

Periodically rainwater which s

collects inside the containment structure must be drained.

j 97.

Miscellaneous Valve Box Sumps - Unit 1 Miscellaneous valve boxes have sumps which collect and discharge any rainwater or valve leak offs from the service water system to the yard, drains.

98.

Unassigned 99.

Diesel Generators Fuel Oil Storage Tank's Unloading Pad Storm Runoff The unloading pad is designed to provide containment of any diesel fuel oil if it is spilled during unloading activities.

Periodically, rainwater which -

(.

collects on the pad must be drained.

~

100 Eire Training Center Area Storm Runoff 3

The fire training center is used to provide personnel training in combatting fires in various types of plant structures and on various types of plant equipment.

+

The storm runoff is the effluent which results from rain collection in the training area.

101.

Fire Training Area Fuel Oil Storage Area Storm Runoff Fuel oil tanks which supply oil for fire training is surrounded by a containment berm.

The rainwater collected inside the berm is discharged through an oil separator prior to discharge.

J 102.

Fire Training Area Fuel Oil Storage Area Oil Sep' rator a

The oil separator removes any oil which may be combined with rainwater inside the oil storage area berm prior to discharge.

d 103.

Auxiliary Building and Containment Equipment Cooling l.l Water - Unit 2 Same as Schematic No. 27 3-2

104.

Tendon Access Gallary Sump Dischargo - Unit,2 Same as Schematic No. 28

((

105.

Diesel Generator Building Equipment Cooling Water -

Unit 2

~

Same as Schematic No. 29 106.

Diesel Generator Air Compressors Cooling Water - Unit i

2 (Outfall No. 010)

Same as Schematic No. 30 107.

Turbine Building Equipment Cooling Water - Unit 2 Same as Schematic No. 31 108.

Turbine Building Air Compressors Cooling Water - Unit 2 (Outfall No. 010)

Same as Schematic No. 32 109.

Turbine Building Oil Sump Discharge - Unit 2 Same as Schematic No. 33 110.

East Yard Drain

(--

The east yard drain receives storm runoff from

^

m buildings and yards in addition to equipment cooling water and other inputs on a non-routine basis.

111.

Cooling Tower System - Unit 2 The cooling tower system is a closed circuit which includes the condensers 'and. cooling towers.

The system is treated with a dispersant and with chlorine for algae and clam control.

112.

Cooling Tower System Evaporation - Unit 2 Same as Schematic No. 35 1

113.

Cooling Tower System Drift Same as Schematic No. 36

'114.

Circulating Water Pumps Cooling Water - Unit 2 l

-(0utfall No. 010)

Same as Schematic No. 37 115.

Cooling Tower Blowdown - Unit 2 (Outfall No. 002B) l 33 e

The blowdown rate will be edjusted to maintain a dissolved solids concentration factor of approximately 3.5.

.ca.-(

116.

Cooling Tower System Overflow - Unit 2 Same as Schematic No. 38.

117.

Unassigned 118.

Inline Chemical Analyzers - Units 1 & 2 Inline instruments which monitor pH, specific conductivity, dissolved oxygen, sodium, silica, l

hydrazine, and cation conductivity discharge their sample flows along with any wastes from wet chemical analyses to the Unit 2 Turbine Building Sump.

119.

Turbine Building Floor Drains - Unit 2 Same as Schematic No. 41 120.

Turbine Building Elevator Pit Sump Discharge - Unit 2 Same as Schematic No. 43 121.

Turbine Building Sump - Unit 2 (Outfall No. 0048)

Same as Schematic No. 45

~

_ {

122.

Condenser Drain - Unit 2

~

^

Same as Schematic No. 46 123.

Condensate Storage Tank - Unit 2 Same as Schematic No. 66 124.

Condensate Storage Tank Drainage - Unit 2 Same as Schematic No. 76 125.

Steam Cycle Makeup - Unit 2 Same as Schematic No. 67 126.

Steam Generators - Unit 2 Same as Schematic No. 68 127.

Steam Generator Blowdown - Unit 2 (Outfall No. 0038)

Same as Schematic No. 69

,{

~

128.

Reactor Makeup Water Storage Tank - Unit 2 Same as Schematic No. 74 34

129.

Auxiliary Building Systems - Unit 2 Same as Schematic No. 72 I

130.

Liquid Radwaste - Unit 2 (Outfall No. 009)

Same as Schematic No. 73 131.

Refueling Water Storage Tank - Unit 2 Same as Schematic No. 70 132.

Refueling Water Storage Tank Retention Area Storm Runoff - Unit 2 Same as Schematic No. 71 133.

Reactor Makeup Water Storage Tank Retention Area Storm Runoff - Unit 2 Same as Schematic No. 75 134.

Once Through Equipment' Cooling - Unit 2 (Outfall No.

001B)

Same as Schematic No. 77 135.

Discharge Sump - Unit 2

-(

Same as Schematic No. 78 136 Electrical Cable Tunnel Sump DJ.scharge

~

3 There is a concrete, underground tunnel which connects the diesel generator building with the Unit 1 Auxiliary Building' This tunnel provides a path for emergency power to be supplied'to the plant.

The sump collects and discharges any ground water which may collect in the tunnel.

137.

Miscellaneous Valve Box Sumps - Unit 2 i

Same as Schematic Mo. 97 138.

Metal Cleaning Wastes (Outfall No. 008) l Wastes which result from alkaline flushing or acid cleaning of plant systems will be routed to an evaporation pond or other suitable treatment facility which will be constructed if the need arises.

t I

139.

Northeast Roof Drain l

Drain collects effluents from the roofs of structures l

(

in the northeast area of the plant.

140.

Northcentral Roof Drains 3b

_m.-

Drain collects efflunnts from the roofs of s.truIctures in the northeentral area of the plant.

l{-

141.

Northwest Roof Drains Drain collects the effluents from the roofs of structures in the northwest area of the plant.

142.

Northwest Yard Drain Drain system provides a discharge path for roof drains and yards in the northwest area of the plant.

143.

East Roof Drain Drain system provides a discharge path for roof drains in the eastern area of the plant.

144.

South Roof Drain Drain system provides a discharge path for roof drains in the southern area of the plant.

145.

South Yard Drain Drain system provides a discharge path for the roof drains and yards in the southern area of the plant.

(

146.

North Storm Runoff

""s.

Runoff from the northern and western areas of the site i

- excluding the plant is discharged via this path.

147.

East Storm Runoff Runoff from the eastern area of the site excluding the plant is discharged via this path.

148.

South Storm Runoff Runoff from the southern area of the site excluding the' plant is discharged via this path.

149.

Northcentral Yard Drain Drain system provides a discharge path for the roof drains and yards in the northcentral area of the plant.

150.

Northeast Yard Drain Drain system provides a discharge path for the roof drains and yards in the northeastern area of the

(

plant.

151.

Sewage Lift Station Sump Dishcarge 36 i

- ~

Any cystem leakags in the lift station or any s'torm water collected is discharge to a manhole which flows to the Sewage Treatment Plant, Schematic No. 85.

I' 152.

Discharge Sump Overflow - Unit 1 Periodically the combined flow of once through cooling water and other plant discharge streams overflows from the discharge sump due to pressure transients in the service water system.

153.

Discharge Sump Overflow - Unit 2 Same as Schematic No. 152 154.

River Water Pumps Mini-flow - Unit 1 The mini-flow provides pump protection by allowing a minimum flow from the pumps discharge header to the Wet pit.

155.

River Water Pumps Mini-flow - Unit 2 Same as Schematic No. 154 156.

Dilution By-pass - Unit 1 By-pass lines in the service water system are provided to allow the flow in excess of demand to be discharged _

g I.<-

in order to protect plant components from over-pressurization.

~~

157.

Dilution By-pass - Unit 2 Same as Schematic No. 156 158.

Carbon Filter Backwash - Unit 1 The backwash removes suspended solids which are retained on the top of the carbon during demineralizer I

operation.

)

i 159.

Carbon Filter Backwash - Unit 2 Same as Schematic No. 158.

u 37

" REVISION T0" ATTACHMENT 2 DESCRIPTIVE INFORMATION AND DATA FOR WATER USES 37.

Circulating Water Pumps Cooling Water - Unit 1 (Outfall No. 010)

This cooling water is supplied primarily by the circulating water pump discharge header.

Sanitary water is supplied as backup.

Periodically calcium hypochlorite is used to remove the algae which builds up on the concrete around the circulating water pumps. The run off from the cleaning is discharged via this pathway.

45.

Turbine Building Sump - Unit 1 (Outfall No. 004)

The discharge consists of all drains which are collected in the turbine building and from the non-radiological side of the auxiliary building. The input from the auxiliary building can potentially contain chromates and is checked for chromates prior to discharge to the turbine building sump.

46.

Change " Condenser Drain - Unit 1" to " Condenser Hotwell Drain-Unit

(

1" 98.

Condenser Waterbox Drains - Unit 1 This discharge is required periodically for maintenance of the circulating water system and for investigating for condenser tube leaks. The chemical content of this water is the same as Schematic No. 39.

117. Condenser Waterbox Drains - Unit 2 Same as Schematic No. 98 122. Change " Condenser Drain-Unit 2" to " Condenser Hotwell Drain-Unit 2"

l l

Page 1 of 1 38 l

l l

ATTACHMENT 3 FATER USE FLO S NPDES SCHEMATIC AVG MAXIMUM TREATMENT OUTFALL SERIAL FLOE FLDE CODE (S)

NO NO (GFD)

(GPD) 1 5.58x10 -

7.03x10 7

2 5.58x10 7.03x10 2

2 3

9.0x10 9.0x10 4g 4

7.2x10 7.2x10' 4A 5

1.65x10 7.92x10' 4A 3

010 6

8.18x10' 1.59x10 4A 5

2 2

7 9.0x10 9.0x10 4g 8

7.2x10 7.2x10' 4A 9

1.65x10 7.92x10' 4A 3

010 10 8.18x10 1.59x10 4A 11 4.5x10' 1.35x10 4A,5Q 5

(

7 7

12 5.43x10 6.79x10 7

7 13 5.43x10 6.79x10 14 5.2x10 6."48x107 7

~

4A,1T 7

7 15 5.2x10 6.48x10 4A,1T 6

0 16 1.44x10 y,44x10 4A,5Q 17 7.92x10 7.92x10' 4A 0

2 2

18 9.0x10 9.0x10 4g 5

19 8.18x10' 1.59x1'0 4A 2

2 20 9.0x10 9.0x10 4A 21 7.92x10 7.92x10' 4A 0

0 5

22 8.18x10 1.59x10 4A m

5 5

010 23 1.64x10 3.18x10 g

0 5

24 4.5x10 1.35x10 4A,5Q 39

NPDES SCHEMATIC AVG MAXIMUM TREATMENT OUTFALL SERIAL FLOW FLOW

. CODE (S)

NO NO (GPD)

(GFD) 6 6

25 1.44x10 2.15x10 4A 0

6 26 1.44x10 2.16x10 4A 7

7 27 2.7x10 2.7x10 4g 28 1.44x10 2.88x10' 4A 4

6 6

29 3.46x10 3.87x10 4A 010 30 3.46x10' 3.46x10' 4A 7

7 31 1.72x10 2.37x10 4A 010 32 6.0x10 6.0x10' u

4 2

33 2x10 gal / event;1 day / event; 4A,1H 12 events / year 34 System 6

capacity - 4.5x10 gal 35 2.02x107 2.02x107 1F 36 1.87x106 1.87x106 37 2.88x10' 2.88x10' 4A

(

38 1000gpm/2wk/

event;2 events / year 4A 5

7 002 39 7.2x10 1J44x10 4A

~

5.0x10 1 7.5x10 1 4A 40 4

4 7,.21x10 4A 41 2.2x10 3

2x10 gal / day /

42 event; 2 events / year 4A,1H 2

43 5x10 gal / day / event; 2 events / year 4A, 1H 44 5x10 3 5x103 4A 4

4 004 45 2.48x10 7.49x10 4A 6

46 3.6x10 gal /

l wk/ event;2 events / year 4A 6

47 5.82x10 5 1,91x39 ig 5

4A J

48 1.44x10 5 2.40x10

'('-

49 Capacity: 200,000 gal

50 5

2x10 8al/ week /

event; 2 events / year 4A 40 l

NPDES SCHEMATIC AVG MAIDiUM

'IREATMEh"I OUTFALL SERIAL FLOW FLO7 CODE (S)

NO NO (GFD)

(GFD) 5 5

51 1.99x10 3.45x10 1X 3

3 52 1.86x10 3.05x10 2J 4

53 1.33x10' 4.0x10 2K 54 1.33x10' 4.0x10 E

0 5

5 55 1.99x10 3.45x10 17 5

56 1.86x10 3.05x10 2J 57 1.33x10' 4.0x10' 2K 58 1.33x10' 4.0x10' E

59 3.5x10' 7.0x10 4A 0

2 60 (5,000 fc )

4A 61 2.46x10.5 4.7x10 4g 5

5 5

005 62 2.46x10 4.7x10 4A, 1U 63 g

~ Capacity:

~

(

200,000 gal 5

64 2x10 Eal/veek/ event; 2 events / year 4A 3

3 010 65 2.88x10 2.88x10 4A 66 Capacity: 500,000 gal 5

5 67 1.8x10 2.88x10 5

5

, 68 1.58x10 2.16x10 5

5 003 69 1.58x10 2.16x10 4g 70 Capacity: 500,000 gal.

71 (600 fe )

4A 72 5x10 1.5x10' u

3 009 73 5x10 1.5x10' 2J,4A 3

74 4x10 1.2x10' 3

2 75 (300 ft )

4A 41 O

ATTACHMENT 3(cen't)

NPDES SCHEMATIC AVG NAXIMUM TREAT E T OUTFALL SERIAL FLOW FLOW CODE (S)

..[.

NO NO (GFD)

(GPD) 5

76 5x10 gal / event;1 week / event; 2 events / year 4A 7

7 001 77 5.19x10 6.47x10 4A 7

7 78 3.0x10 4.18x10 4A 79 Capacity: Approxi=ately 1900 gpm 6

80 5.54x10 Sal / 1 week / event; 2 events /

year 81 2.0x10 4x10' 82 1.0x10' 2x10' 2F,3A,4A 83 1x10' 2x10' 2F,3A,4A 84 Capacity: 20,000 gal 2F 007 85 2x10' 3x10' 2F,3A,4A

[-

86 2x10' gal / week / event; 2 events / year 4A 87 Capacity: 300,000 gal

~

5

88 3x10 gal / week / event;2 events /

year 4A 89 Capacity: 300,000 gal

90 3x10 gal / week / event; 2 events / year 4A 010 91 1.44x10' 1.44x10' u

010 92 1.0x10 1.0x10' 4A 4

93 (0.3 acres) 4A 94 (0.78 acres) 4A 95 Capacity: 15,000 gal 1H,4A 96 (1200 ft )

1H,4A k.

42

LEt@snMEhi E(can' t)

NPDES SCHEMATIC AVG MAIDEM

' TREATMENT OUTFALL SERIAL FLOW FLOW CODE (S)

NO NO (GFD)

(GFD) y.

2 3

97 7.0x10 1.5x10' 4A 98 99 (2079 ft )

1H,4A 100 (0.5 acres) 4A 101 (1200 fe )

4A

/

102 Capacity: 5 gal 1H,4A 7

7 103 2.7x10 2.7x10 4A 104 1.44x10 2.88x10' 4A 6

6 105 5.53x10 6.20x10 4A 010 106 2.3x10 2.3x10' u

4 7

7 107 1.72x10 2.37x10 4A 010 108 6x10' 6.10' 4A

(

109 --

2x10 gal / event;1 day / event;

~

2 12 events / year 1H,4A

~

4A 110 (45 acres) 0 111 Capacity 4.5x10 gal 7

-2.02x10 IF 112 2.02x10 0

6 113 1.87x10 1.87x10 114 2.88x10 2.88x10 4A 6

7 002 115 5.76x10 1.44x10 4A

116' 2 weeks / event;1x10' gpm during event; 2 events / year 4A 117 3

3 118 2.8x10 2.9x10 4A 0

4 119 2.2x10 7.2x10 a

2

,{

120 5x10 gal / event;l day / event; 2 events / year 4A 43

6 NPDES SCHEMATIC AVG MAXIMUM TREATMENT OUTFALL SERIAL FLOW FLOW CODE (S)

NO NO

.(GPD)

(GFD)

..:.(-

004 121 2.48x10' 7.49x10 4A

122 3.6x10 gal / event; I week / event; 2 events / year 4A 0

123 1.8x10 2.88x10 5

124 5x10 gal / event; 2 event /yr; I week / event 4A 5

125 1.8x10 2.88x10 5

5 126 1.58x10 2.16x10 5

5 003 127 1.58x10 2.16x10 zg 3

0 128 4x10 1.2x10 129 5x10 1.5x10'-

4A 3

3 0

009 130 5x10 1.5x10 p

w(.

131 Capacity: 500,000 gal.

132 600 ft 4A 133 300 fe 4A 7

7 001 134 5.19x10 6.47x10 4A 7

7 135 2.99x10 4.29x10 4A 2

3 136 7x10 1.5x10 4A 2

3 137 7x10 1.5x10 4A 008

138 139 (1.30 acres) 4A 140 (0.65 acres) 4A 141 (0.25 acres) 4A 142 (241 acres) 4A J..

143 (5.7 acres) 4A 144 (1.8 acres) 4A 44

MWGEMR) l

-I

^

/

NPDES SCHEMATIC AVG

- M5XDtUM,

~

TREATMENT OUTTALL SERIAL FLOW FIEJ s NO NO (GPD)

(GFD)'

~'

L.i}.:(,

y 145 (204. acres) '

4A 146 (461 acres),

4A l

147 (132 acres) 4A 148 (749 acrer.)

/

4A 149 (5 acres) 4'A e.

150 (3 acres) 4A

151 5x10' gal / day / event; 2' events / year 4A

' g,,,

6

152 4.03x10 gal / event; 2 veeks/ event; 2 events / year 4A 6

153 4.03x10 gal / event; 3 vesks/ event; 2 events /ye d

..l.

4A 6

6 154 1.44x10 2.1Cx10 4A, 155 1.44x10 "

2.16x10 4A -

('

0 7

156 4.25x10 1.01g10 4A 6

6

~7?x10 4A 157 2.14x10

~~

7 '.

t 4

158 2.0).10*

.. 4.0x10 4A-4 4

159 2.0x10 2.0x10 4A l

J

Not included in site water balance

- p l'

/

s'

/

e o

e e

k w

e 4

45 g.t6

s l

',G s

i C

.L

" REVISION T0" ATTAClelENT 3

^'

i a

WATER USE FLOWS

/

A yV UPDES y SCHEMATIC AVG MAXIMUM TREATMENT

,l 0UTFALL SERIAL FLOW FLOW CODE (S)

. > V'

/ NO NO (GPD)

(GPD)

~*

'/

j j

004 45

8.0x104

1.2x105 4A

- 2 25x105

- 3.75x105 4A

.i 9

Normal operation

- Normal operation during condenser tube leak investigations t

.I.<'.

3

(.

t t

I I

i l

Page 1 of I 46

ATTACHMENT 4

(;

CHLORINE MINIMIZATION STUDY As required in our present NPDES pennit (Part I, Section B.I.C), we are submitting the following chlorine reduction report.

Comencing with the operation of Unit 1 of Farley !!uclear Plant in 1977 a program was instituted to evaluate whether or not adequate control of the cooling tower system chemistry and biological growth could be accomplished if cooling tower blowdown was discontinued during chlorination and sub-sequent periods of high concentration.

The chlorination frequency varied from twice per week in the winter months to as often as every other day during the hot sumer months.

During each chlorination period the cooling tower blowdown was isolated.

The blowdown was not reestablished until the chlorine level dropped to non-detectable.

From this approach chlorine release to the environment was eliminated. Periodically the cooling towers were inspected to determine the degree of biological growth. Also the condenser tubes were inspected each time the condenser could be drained.

Condenser efficiency was also monitored during periods of higher than usual biological growth during the summer months.

(.

From the various inspections and observations it appears that the f

cooling tower system chemistry and biological growth can be controlled pr_operly without discharging chlorine. This conclusion is made with reservation since the operating history of Unit 1 shows that it has not operated continuously during the summer months. Unit 2 which be-came operational in the late spring of this year has for the most part operated continuously through an entire-summer and no specific chemistry or biological growth problems were encountered. Since an extended period of operation during the summer months has been possible only once prior to the required completion of the study, additional data will be needed to make a positive conclusion for long term operation with periodically isolating blowdown. This investigation will continue.

(

47 1-

ALABAMA POWER. COMPANY STATISTICAL HISTORY OF THE NPDES. DATA i

FROM THE YEAR 1975 TO PRESENT 4

PLANT 4 FARLEY NUCLEAR LOCATION 8 SENAGE PLANT DISCHARGE POINTS 007 TEST.- UNIT COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)

MEAN No AEAN

. STD DEV No MAX MIN FLOW (MGO) 0.0300 2

0.0353 0.1345 80 1.2200 0.

TEMPEHATURE (DEG C) 16.0500 2

20.9333 6.2133 78 30.9000 7.5000 PH 6.8500 2

7.0304 0.4231 14I 8.2000 5.6700 COL (R IPCU)

I7.0000 1

FECAL COLIFORM (DRG./100ML)

O.

I 7226.7700 22657.5000 77 99999.0000 0.

RADI0 ACTIVITY. TOTAL ALPHA PCs/

WADIOACTIVITY. TOTAL BETA PC8/L HADIOACTIVITY TOTAL RADIUM PCs RADI0 ACTIVITY. TOTAL RADIUM 226 9

4 6

a

n n

f

. ALABAMA PonER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT PLANT 4 FARLEY NUCLEAR LOCATIONS SENAGE PLANT DISCHARGE POINT: 007 TEST C(WPOSITE FOR 24 HOURS LONG TERM DATA (GRAS SAMPLE)

MEAN(MG/L)

NO MASS (PPD)

MEAN(MG/L)

STD DEV NO RANGE (MASSIPPD) e 800 (MG/L) 42.0000 I

10.5 58.8615 88.2617,

87 399.8500 17.3 COO - CHEMICAL OXYGEN DEMAND (M 87.2494 84.7467 87 295.7745 25.7 CAR 8tW. ORGANIC (MG/L) 15159.4000 60586.7998 16 42356.3926 4461.5 TOTAL SUSPENDED SOLIDS (MG/L) 97.0000 1

24.3 4

81.0118 183.9960 85 1223.0000 23.8 AMMUNIA (AS H) (MG/L) 18.1570 2

4.5 0.0000 1

0.

0.2 BRtMIDE - (MG/L) 0.5000 i

O.1 TOTAL CHLOHINE (MG/L) 1.5500 2

0.4 4

7.4313

.11.8597

.322 146.9000 2.2 FLDURIDE - F (MG/L) 0.2015 1

0.8 N ITRITE - NO2 (MG/L) 0.0999 I

O.0 NITROGEN,0HGANIC - (MG/L)

I.9667/

3.4922 6

3.7000 0.6 OIL AND GREASE (MG/L)

I.2000 2

0.3 TOTAL. PHOSPHORUS - P (MG/L)

SULFATE - 504 (MG/L) 38.2640 1

9.6 SULFIDE (MG/L) 0.0582 2

0.0 SULFITE - (MG/L) 4.5000 2

I.1 MBAS (MG/L) 0.0152 1

0.0 ALUMINUM, TOTAL - AL (MG/L) 2.3162 2

0.6 BARIUM - BA (MG/L) 0.3637 2

0.0 BORON, TOTAL - B (MG/L) 0.1415 I

0.0 COBALT, TOTAL - CO (MG/L )

.0.0185 2

0.0 IRON, TOTAL - FE (MG/L) 2.3447 2

0.6 MAGNESIUM MG (MG/L) 11.5610 2

2.9 00LYBDENUM, TOTAL - MO (MG/LJ 0.0100 2

0.0 CANGANESE. TOTAL MN (MG/L) 0.0503 2

0.0 f

TIN. TOTAL - SN (MG/L) 0.1296 2

0.,0

n PAGE J

AI.ABAMA POWER COMPANY STATISTICAL. HISTORY OF THE.MPDES DATA FRCM THE YEAR 1975 TO PRESENT PLANTJ FARLEY. NUCLEAR LOCAT]DNs SENAGE PLANT DISCHARGE Po!NT8 007 TEST COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAS SAMPLE)

MEAN(MG/L)

. No MASS (PPD). REAN(MG/L) - STD DEV NO RANGE (MASS (PPD)

TITANIUM, TUTAL - TI (MG/L) 0.3018 2

0.I ANTIMONY, TOTAL - SB (MG/L) 0.0300 2

0.0

. ARSENIC TOTAL - AS (MG/L) 0.0500 2

0.0 CERYLLIUM, TOTAL - SE (MG/L) 0.0100 2

0.0 CADMIUM, TOTAL - CD (MG/L) 0.0I00 2

0.0 l

CHROMIUM, TOTAL - CR (MG/L) 0.0500 2

0.0 COPPER TOTAL - CU (MG/L) 0.0453 2

0.0 LEAD. TOTAL - PS (MG/L) 0.0351 2

0.0 CERCURY, TOTAL - HG (MG/L) 0.0002 2

0.0

.. NICKEL, TOTAL - NI (MG/L) 0.0257 2

0.0 SELENIUM, TOTAL - SE (MG/L) 0.0057 2

0.0 SILVER TOTAL - AG (MG/L) 0.0424 2

0.0 THALLIUM, TOTAL - TL (MG/L) 0.0100 2

0.0 ZINC, TOTAL - ZN (MG/L) 0.1539 2

0.0 CYANIDE - (MG/L) 0.I000 2

0.0 PHENOLS (MG/L) l

6

~

PAGE 4

.. ALABAMA P(MER C(WPANY STATISTICAL.itISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT PLANT 8 FARLEY NUCLEAR LOCATIONa SEWAGE PLANT DISCHARGE POINfd 007 C(WPOSITE FOR 24 HOURS TEST MEAN(UG/L)

Nd N ASS (PPD)' '

ACROLEIN (UG/L)'

ACHYLONITRILE (UG/L)

BENZENE (UG/L)

BIS (CHLOHodETHYL) ETHER (UG/L)

BR(WOFORM (UG/L)

CARtMN TETdACHLORIDE (UG/L)

BENZO (ght) PERYLENE (UG/L) l-

v m

PAGE 6

9 dl1BEMd POWEli COMPdtti.

StAtlStjCAL HISTORY OF THE NPDES DATA FR(W THE YEAR 1975 TO PRESENT I

PI ANTI FARLEY NUCLEAR LOCATIONI SEWAGE PLANT DISCHARGE POINT: 007 i

TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)

NO M ASSIPPDI i

BENZO (k) FLUORANTHENE (UG/L)

I BIS (2-CHLOR 0ETH0XY) METHANE (UG/L)

. BIS (2-CHLOR 0 ETHYL) ETHER (UG/L) i BIS (2-CHLOR 0!S0 PROPYL) ETHER (UG/L) i BIS (2-ETH(LHEXYL) PHTHALATE' tug /L) 4-BROMOPHEN(L PHENYL ETHER (UG/L) i BUTYL BENZYL PHTHALATE tug /L)

I 2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOR 0PHENYL.PHENYL ETHER (UG/L) t

p CHRYSENE (UG/L)
I DIBENZO (a.h) ANTHRACENE (UG/L)
I,2-DICifLOR08ENZENE (UG/L)
I,3-DICHLOR08ENZENE (UG/L)
I I,4-DICHLORodENZErlE (UG/L) 3,3'-DICHLORUBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
D DIMETHYL PHTHALATE (UG/L)
DI-N-WJTYL PHTHALATE (UG/L)
'1 2,4-0!NITHOTOLudNE (UG/L) 2.6-DINITR0 TOLUENE (UG/L)
DI-N-OCTYL PlffHALATE (UG/L)
D I,2-DIPH6NYLHYDRAZINE(AS AZ0 BENZENE)
D FLUORANTHENE (UG/L)
FLUURENE (UG/L1 HEXACHLOR08ENZENE (UG/L)
'b
PAGE 7
ALAB AMA POWER.. QWP ANY STATISTICAL HISTORf UF THE NPDES DATA FR(W THE YEAR.1975 TO PRESENT
)
PLANTS FARLEY NUCLEAR LOCATJUNs SENAGE PLANT DISCHARGE POINTf 007
)
. TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
. NO M ASS ( PPD)
)
NEXACHLOROBUTADIENE (UG/L)
)
HEXACHLodOCYCLOPENTADIENE (UG/L) '
HEXACHLOHOETHANd (UG/L)
INDEND (1.2.3-cd) PYRENE (UG/L) -..
D ISOPHORONE (UG/L)
NAPHTHALENE (UG/L) i 9
NITROBENZENd (UG/L)
D N-NITROSODIMEIHfLAMINE (UG/L)
N-NITROSODI-N-PROPYLAMIME (UG/L)s i
N-NITROSODIPHENYLAMINE (UG/L) 9 PHENANTriRENE (UG/L)
. PYRENE (UG/L)
D lo2.4-TkICHLOROBENZENE (UG/L)
D D
D i
l*
I l
~
D lD, i
!m
m
5dE 5
)
. AllaAMi PonER C(WP N'Y
. SfAffSTICAL HISTORT THE NPDES DATA FRt* THE YEAR 975 TO PRESENT
)
LANTi FARLEY.NUCLEA#
!!ff LDCATION4 COOLING 7tMEP - BLtMIXmN - UNIT I DISCHARGE ho..... i 002A TEST - UNIT CtmPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
M EAN NO M EAN STD DEV NO MAX JIIN p
FLoa AMGD) 2.1367 2.6487 1809 I4.1820 0.
D TEMPERATURE (DEG C) 27.6485 4.9158 158 36.1000 12.0000 PH 8.0464 0.3809 157 8.8500 6.9000 COLOR 4PCU)
D FECAL COLIFORE (ORG./100ML)
RADI0 ACTIVITY. TOTAL ALPHA PC8/
RADIOACTIVITY. TOTAL BETA PCs/L D
RADIDACTIVITf. TOTAL RADIUM PCs RADIOACTIVITY. TOTAL RADIUM 226 I,
D D
D D
D D
t a
D I
mh e
n
~
m
)
PAGE 9
ALA8AMA PonER COMPANY
)
. STATISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 To PRESENT
)
PLANTJ FARLEY NUCLEAR LOCATION: COOLING TOWER BlodDOMN - UNIT I DJSCHARGE POINTf 002A
)
.. L(WG TERM DATA (GRA8 SAMPLE)
TEST o C(WPOSITE FOR 24 HOURS MEAN(MG/LJ STD DEV No
RANGE, (MASS (PPD)
MEAN(MG/L)
N9 M ASS (PP D)
)
=
e IMID (MG/L)
'l CDD - CHEMICAL OXYGEN DEMAND (K CARBON, DRGANIC (MG/L)
TOTAL SUSPENDED SOLIDS (MG/L)
I AMM9NIA (AS NJ (MG/L) i BROMIDE - (MG/L) 0.3000
. 156 0.
I.8 TOTAL CHLORINE (MG/L),
I FLOURIDE - F (MG/L)..
NITRITE - NO2 (MG/L) a e
')
NITROGEN. ORGANIC
.(MG/L)
D OIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
SULFATE - 504 (MG/L)
D SULFIDE (MG/L)
SULFITE - (MG/L)
MBAS (MG/L)
I ALUMINUM. TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
BORON. TOTAL - 0 (MG/L)
I COBALT. TOTAL - CD (MG/L)
IRON. TOTAL - FE (MG/L)
MAGNESIUM MG (MG/L)
I MOLYBDENUM, TOTAL - MO (MG/L)
MANGANESE. TOTAL MN (MG/L)
TIN. TOTAL - SN (MG/L) m
m
~
E GE 10 ALABAMA kOWEd CtM(PINY STATISTICAL HISTORY OF.INE NPDES DATA FRod THE YEAR 1975 TO PRESENT
)
_ PLANT 8 F ARLEY NUCLEAR LOCATJUNs COOLING toner BLudix)nN - UNIT I DISCHARGE PolNT: 002A b)NGYERMDdTAdGRAhSAMPk.E)
TEST COMPOSITE FOR 2d HOURS MEAN(MG/L)
MEAN(MG/L)
. No MASS (PPD)
NO RANGE (MASS (PPD)
_STD DEV
)
TITANIUE, TOTAL - TI (MG/L)
D ANTIMONY TOTAL - EB (MG/L)
ARSENIC, TOTAL - AS (MG/L)
BERYLLIUd. TOTAL - SE (MG/L) '
b CADMIUM, TOTAL.- CD (MG/L)
CHRodIUd. TOTAL - CR (MG/L)
COPPER, TOTAL - CU (MG/L)
LEAD, TOTAL - PS (MG/L)
MERCURY T0fAL - HG (MG/L)
. NICKEL. TOTAL - NI (MG/L)
D SELENIUd. TOTAL - SE (MG/L)
SILVER, TOTAL - AG (MG/L)
THALLIUM, TOTAL - TL (dG/L) 0.2777 0.2733 9
0.7260 4.9 D
ZINC, TOTAL - ZN (MG/L)
CYANIDE - (dG/L)
PHENOLS (dG/L)
D D
D D
.D p
k i
g PAGE
.I l I
ALABAMA POIER Ctr'P ANY STATISTICAL IIISTORY OF THE NPDES DATA FROM THE YEAR 1915 TO PRESENT I
PLANT: FARLEY NUCLEAR LOCATION 8 COOLING toner BL(MD(MN - UNIT I DISCHARGE. POINT 4 002A I
COMPOSJTE FOR 24 HOURS TEST MEAN1UG/L)
. No NASS(PPD),,
f
,.s i
p ACROLEIN (UG/L) l.
ACRYLONITRILE (UG/L)
BENZENE (UG/L) i BIS (CHLORtWETHYL) ETHER (UG/L) i BR(WOFORM (UG/L) l CARBON TETRACHLORIDE (UG/L)
')
CHL(M0 BENZENE (UG/L) lD CHLOR 0DIBRtWOMETHANE (UG/L) lI CHLOR 0 ETHANE (UG/L) i l
2-CHLOR 0ETHf LVINL ETHER (UG/L) lI CHLOROFORM (UG/L)
.DICHLORodROM0 METHANE (UG/L)
DICHLORODIFLUOROMETHANE (UG/L)
]
f
... 4 's 1,I-DICHLORDETHANE (UG/L)
I,2-0! CHLOR 0 ETHANE (UG/L) 1.1-DICHLOROETHfLENE (UG/L)
I 1,2-DICHLuduPROPANE (UG/L) 1.2-DICHLOROPROPfLENE (UG/L)
ETHYLBENZENE (UG/L)
D METHfL BROMIDE (UG/L)
METHYL CHLORIDE (UG/L)
D METHfLENE CHLORIDE (UG/L)
D 1.1.2.2-ThTRACHLORDETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L) g TOLUENE (UG/L) h
^
?
kAGE 12 If.ibAMA P(MER CtWPANY STiTISifCAL HISTORY OF THE. NPDES f)dtA FR(* THE YEAR 1975 TO PRESENT PLANT s FAHLEY. NUCLEAR LDCATIONd C00LfMG 10NER BL(MD(MN - UNIT I DISCHARGE M0!NT:, 002A TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPD) 1,2-TRANS-01 CHLOR 0 ETHYLENE (UG/L)
I,l.1-TRICHLOR0 ETHANE (UG/L)
I,I,2-TRICHL(20 ETHANE (UG/L)
TRICHLOROETHfLENE (UG/L)
TRICHLOROFLUOR(WETHANE (UG/L)
VINfL CHLORIDE (UG/L) e 2-CHLOROPHENOL (UG/L) 2,4-DICHLOROPHENGL (UG/L) 2,4-0!METHfLPHENOL (UG/L) 4,6-DINITRO-0-CRdSOL (UG/L)'
2,4-DINITROPHENOL (UG/L) 2-NITROPHENOL (UG/L) 8 4-NITROPHENOL (UG/L) 8 P-CFLORO-M-CRESOL (UG/L ) '
PENTACHLOR(FHENOL (UG/L)
I PHENOL (UG/L)
I 2,4.6-THICHLOROPHENOL (UG/L)
ACENAPHTHENE (UG/L)
.I ACENAPHTHYLENE (UG/L) i ANTHJACENE (UG/L)
Bt:NZIDINE (UG/L) i BENZO (a) ANTilRACENE (UG/L)
I BENZO (a) PfRENti (UG/L) 3,4-BENZUFLOORANTHENE (UG/L)
D i
BENZO ight) PERYLENE (UG/L) s
m n
i PAGE 13 ALABAN A P(MER CtWPANY STATISTICAL HISTtWY OF THE NPDES DATA FR(* THE YEAR 1975 TO PRESENT PLANTS FARLEY NUCLEAR LOCATIONa C00 LING TostER BL(MD(MN - UNIT I DISCHARGE POINTf 002A
_ TEST C(WPOSITE.FOR 24 HOURS J4EAN (UG/L)
NO MASS (PPD)
SENZO (k) FLOORANTHENE (UG/L) 8JS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L)
BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L)
BIS (2-ETHfLHEXYL) PMTHALATE (UG/L) 4-BROMOPHENfL PHENTL ETHER (UG/L)
BUTYL BENZYL PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOR 0PHENYL PHENfL ETHER (UG/L) o t a CHRYSENE (UG/L) i e DIBEN/A f a.h) ANTHRACENE (UG/L)
I,2-DICHLOR0 BENZENE (UG/L) e I,3-DICHLOR08ENZENE (UG/L) i 8
I,4-DICHL(M0 BENZENE (UG/L) 3,3'-DICHLOROBENZIDINE (UG/L) i DIETHfL PHTHALATE (UG/L)
I DIMETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINITRUTOLUENE (UG/L) 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
I,2-DIPHENfLHYDR AZINE ( AS AZ0 BENZENE) i FLUORANTHENE (UG/L)
FLUORENE (UG/L)
HEXACHLOROBENZENE (UG/L) n
n P GE Id ALAB AMA. Pon ER QWP ANY SidTjSilCAL HISTORY (F THE NPDES MTA FR(W THE YEAR 1975 TO PRESENT PLANT: FARLEY NUCLEAR LDCATIDNi C(X) LING to.WER BLodDonN - UNIT I DISCHARGEPOINTs002A TEST C(WPOSITE FOR 24 HOURS.
AIEAN(UG/L)
NO MASSfPPD)
HEXACHLOROBUTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)'
HEXACHLOROETHANs (UG/L)
INDEN0 (1,2,3-cd) PfRENE (UG/L)
ISOPHORONE (UG/L3 NAPHTHALENd (UG/L)
NITR0 BENZENE (UG/L)
N-NITROSODIM6THYLAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L)* '
N-NITROSODIPHENYLAMINE (UG/L)
PHENANTHetENE (UG/L)
.PYHENd (UG/L)
I,2,4-TRICdLOR0 BENZENE (UG/L)
' I e
' I
g 6
g
.I
' 4 e
t j i
' I t
^
+
PAGE
. ALABAMA POWER COMPANY p
STATISTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT PLANTS F ARLEY-NUCLEAR
. LOCATIONS C(M) LING TONER BL(MD(mN - UNIT 2 DISCHARGE POINT 4 0028 LONG TERM DATA (GRAS SAMPLE)
TEST - UNIT COMPOSITE FOR 24 HOURS-
...STD DEV No MAX MIN MEAN No MEAN 3.4915 5.5287 943 14.4000 0.
FLIM IMGD) 27.3695 6.7869 60 35.4000 2.7000 TEMPERATURE (DEG C) 8.1601 0.3702 59 8.8000 7.7300 PH COLOR (PCU) i FECAL COLIFORM (GRG./lOONL)
RAD 10 ACTIVITY. TOTAL ALPHA PL4/
RADIDACTIVITY. TOTAL BETA PCs/s.
R ADIDACTJVITY, TOTAL RADIUM PCs RADIDACTIVITY, TOTAL RADIUM 226 O
e
.g
hkGE 19
. ALABAMA POWER CrutPANY STATfSYlCAL. HISTORY DF THE NPDES DATA FROM THE YEAR 1980.TO PRESENT
. PLANTS FARLEY NUCLEAR U)CATIONa C(X) LING T(MER BL(MDimN - UNIT 2 DISCHARGE PolNTs 0028 i.
TEST COMPOSITE FOR 24 HOURS
. LONG TERM DATA (GRA8 SAMPLE)
MEAN(MG/L)
NO M ASS (PPD)
M EAN IMG/L)
STD DEV NO RANGE (MASS (PPD)
BOD (MG/L)
COD - CHEMICAL DXYGEN DEMAND (M CARBON. ORGANIC (MG/L)
TOTAL SUSPENDED SOLIDS (MG/L)
AMMONIA (AS NJ (MG/L)
BROMIDE - (dG/L)
TOIAL CHLORINE (MG/L) 0.IOOO 0.0000 40 0.
2.9 FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)'
NITROGEN, ORGANIC - (MG/L)
OIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
SULFATE - 504 (MG/L)
SULFIDE (MG/L)
SULFITE - (MG/L)
NBAS (MG/L)
ALUMINUM, TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
BOPON. TOTAL - B (MG/L) l' COBALT TOTAL - CO (MG/L)
IRr*N, TofAL - FE (MG/L) e MAGNESIUM MG (MG/L) e MOLYBDENUM. TOTAL - MO (MG/L)
M ANGANESE. TOTAL MN (MG/LJ l
TIN. TOTAL - SN (MG/L) o'
m PAGE ALABAMA PodER COMP ANY 17
. STATISTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1980 To PRESENT '
PLANTA FARLEY NUCLEAR LOCATII*s COOLING toner BLonDonN - UNIT 2 DISCHARGE POINTS 0028 TEST COMPOSITE FOR 24 HOURS LONG TERM DATA (GRA8 SAMPLE)
MEAN(NG/L)
NO M ASS ( PPD)
MEAN(MG/L)
STD DEV
~NO RANGE '
(MASSAPPD)
TITANIUM, TOTAL - TI (MG/L)
ANTIMONY. TOTAL - SS (MG/L).
. ARSENIC. TOTAL - AS (MG/L)
BERYLLIUM. TOTAL - BE (MG/L)
CADM1U61. TOTAL - CD (MG/L)
CHROMIUM. TOTAL - CR (MG/L)
COPPER. TOTAL - CU (MG/L)
..,i....
LEAD. TOTAL - PB (MG/L)
CERCURY. TOTAL - HG (MG/L) r NICKEL. TOTAL - NI (MG/L)
SELENIUM. TOTAL - SE (MG/L) 0.0050 I
O.
0.1 SILVER. TOTAL - AG (MG/L)
THALLIUM. TOTAL - TL (MG/L)
ZINC. TOTAL - ZN (MG/L) 0.0100 1
0.
0.3 CYANIDE - (MG/L)
PHENGLS (MG/L) 4 e
~
+
PAGE 08 ALAB5MA P(MER COMPdNY StitjSYlCAL HJSTORY OF THE. NPDES bATA i
FROM THE YEAR 1980 TO PRESENT PLANTA FARLEY NUCLE R LOCATIONS C(M) LING TOWER BLtMD(mN - UNIT 2 DISCHARGE POINTS 0028 s
a+.,.
s TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASSIPPD)
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZENE (UG/L)
BIS (CHLOR (METHYL) ETHER (UG/L)
BROM0 FORD (UG/L)
CARBON TETRACHLORIDE (UG/L)
CHLOR 0 BENZENE (UG/L)
CHLOR 0DIBRout* ETHANE (UG/L)
CHLORDETHANd (UG/L) 2-CILOROETHYLVINL ETHER (UG/L)
I CHLOROFORM (UG/L)
DICHLOROBR(WOMETHANE (UG/L)
DICHLORODIFLUORUMETHANE (UG/L) 1.1-DICHLOR0 ETHANE (UG/L) 1,2-DICHLOR0 ETHANE (UG/L) 1.5-DICHLtH0 ETHYLENE (UG/L)
I.2-DICHLorl0 PROPANE (UG/L) 1.2-DICHLOR0 PROPYLENE (UG/L)
E1HYLBENZENE (UG/L)
CETHYL BRodIDE (UG/L)
METHYL CHLORIDE (UG/L) f.". ETHYLENE CHLORIDE (UG/L) l.I.2.2-TETRACHLOROETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TOLUENE (UG/L)
PAGE 19 ALAB AMA POWER CCPANY
. STATISTJCAL HISTORY OF THE NPDES DATA FR(M6 THE YEAR 1980 To PRESENT
. PLANTS FARLEY NUCLEAN LOCATIONS COOLING TOWER BL(MD(MN - UNIT 2 DISCHARGE P(IINTf 0028
. TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
No MASSIPPD)
I,2-TRANS-01CHLG40 ETHYLENE (UG/L)
I,I,I-TRICHLOR0 ETHANE (UG/L)
I,1,2-TRICHLOR0 ETHANE (UG/L)
THICHLOROETHfLENE (UG/L) i TRICHLOROFLUOHodETHANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLOROPHENOL (UG/L) 2,4-DICHLOROPHENOL (UG/L) 2,4-DIMETHfLPHENOL (UG/L) s 4,c-DINITRO-0-CRESOL (UG/L) :
2,4-DINITROPHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-NITHOPHENOL (UG/L)
P-CHLORO-M-CRESOL (UG/L)
PENTACHLOROPHENOL (UG/L)
PHENOL (UG/L) 2,4,6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENE (UG/L)
ACENAPHTHYLENE (UG/L)
ANTHRACENE (UG/L)
BENZIDINE (UG/L)
DENZO (a) ANTHRACENE (UG/L)
BENZO (a).PfRENE (UG/L)
J,4-BENZUFLUURANTHENE (UG/L)
BENZO (ghi) PERfLENE (UG/L)
n h5GE 25
, ALAB AM A POW ER. CuMP ANY -
- SidTISTICAL HISTORY OF THE MPDES DATA FROM THE YEAR 8980 TO PRESENT
(
PLANT 5 FARLEY NUCE.EAk
,,s.r,
..i LOCATJDNs COOLING TOWER BLudiXJdN - UNIT 2 D}SCHARGEJOINTs0028
(
TES COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASSIPPD)
(
BENZO (k) FLUDRANTHENE (UG/L)
(
BIS (2-CHLOR 0ETH0XY) NETHANE (UG/L) t SIS (2-CHLD40 ETHYL) ETHER (UG/L)
BIS (2-CHLOROISOPHOPYL) ETHER (UG/L)
(
BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROM(MHENYL PHENYL ETHER (UG/L)
BUTYL BENZYL PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOR 0PHENYL.PHENYL ElliER (UG/L)
CHRYSENE (UG/L)
DISENZO (a.h) ANTHRACENE (UG/L)
I.2-DICHLOROBENZENE (UG/L) 1,3-DICHLOROBENZENE (UG/L) 1.4-DICHLORodENZENE (UG/L) 3.3#-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DI:: ETHYL PHTHALATE (UG/L)
~.
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINITRUTOLUENE (UG/L) 2.6-DINITRUTOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
!,2-DIPHENYLHYDRAZINE( AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUORENE (UG/L)
HEXACHLORodENZENE (UG/L) t e
^
ALABAMA POWER.CE*PANY STATISTICAL. HISTORY OF THE. NPDES DATA FH(* THE YEAR 1980 TO PRESENT
(
PLANT: FARLEY NUCLEAR LOCATION 8 COOLING TOWBt BLonDOMN - UNIT 2 DISCHARGE POINTa 0028
(
_ TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
No NASS(PPD)
HEXACHLOROBUTADIENE (UG/L)
(
HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLORDETHANE (UG/L)
(
INDENO (I.2.3-cd). PYRENE (UG/L)'
,*i
(
ISOPHORONE (UG/L) 4 NAPHTHALENE (UG/L3 NJTH0 BENZENE (UG/L)
N-NITHOSODidETHfLAMIME (UG/L)
N-NITHOSODI-N-PHOPYLAMINE (UG/L) e N-NITHOSODIPHENfLAd!NE (UG/L)
PHENANTHRENE (UG/L)
. PYRENE (UG/L) 1.2.4-TWICHLOR08ENZENE (UG/L) 0 l
l l
s-l i
f 9
m
(
PAGE 22 IABARA POWER COMPANY.
STATISTICAL filSIORY OF THE. NPDES DATA FHOM THE YEAR 1975 TO PRESENT
. PLANTS.FARLEY NUCLEAR
.LDCA IGN4 STEAM GENERATOR BLOWDOWN - UNIT I D}SCHARGEPOINT8 003A TEST - UNIT COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
MEAN No MEAN
. STD DEV NO MAX MIN FLOW iMGD) 0.0992 0.0633 60 0.1700 0.
TEMPERATURE (DEG C)
FH 7.8033 0.7893 3
8.3600 6.9000 COLOR JPCU)
FECAL COLIFORM (URG./100ML)
RADI0 ACTIVITY. TOTAL ALPHA PC8/
RADIOACTIVITY. TOTAL BETA PCs/L RADIOACTIVITY. TOTAL RADIUM PCs RADIDACTIVITY, TOTAL RADIUM 226 e
4 9
^
~
m PACFi. 24 ALABAMA PonER COMPANY 5
STATISTICAL filSTORY OF THE NPDES DATA FRtw THE YEAR 8 975 To PRESENT '
y PLANTS FARLEY NUCLEAR LOCATION 4 STEAM GENERATOR blond (MN - UNIT I DISCHARGE f0INTa 00aA TEST,
COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAS SAMPLE)
MEAN(MG/L)
No MASS ( PPD)
MEAN(MG/Lk'
STD DEV NO RANGE (M ASS.(PPD)
BOD (MG/L)
CDD - CHEMICAL OXYGEN DEMAND (M CARBON, ORGANIC (MG/L)
TOTAL SUSPENDED SOLIDS (MG/L) 4.8304 8.U383 46 46.0000 3.4 AMMONIA (AS N) (MG/L)
BR(WIDE - (MG/L)
TOTAL CHLORINE (MG/L)
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L) e NITROGEN,tWGANIC - (MG/L)
OIL AND GREASE (MG/L)
I.3023 0.7002 43 3.1000 3.I TOTAL PHOSPHORUS - P (MG/L)
SULFATE - SO4 (MG/L)
SULFIDE (MG/L1 SULFITE - (MG/L)
CBAS (MG/L)
ALUMINUM, TOTAL - AL (MG/L)
BARIUM - BA (MG/L) 60RON, TOTAL - B (MG/L)
~
COBALT, TOIAL - CD (MG/L)
IRON, TOTAL - FE (MG/L) 3.6622 2'.7696 4S 10.4220 3.4 MAGNESIUM MG (MG/L)
MOLYBDENUM, TOTAL - MO (MG/L)
MANGANESE TOTAL MN (MG/L)
. TIN, TOTAL - SN (MG/L)
M m
PAGE 20 Al.ABAMA POWER CtWPANY.
ST4Tf STfCALJfjSTORY W THE. NPDES DATA FROM THE YEAR 1975 To PRESENT
.. PLANTi FARLEY NUCLEAR LOCATJimi STEAM GENERATOR BLOWDudN - UNIT I DISCHARGE POIMTs 003A k.ONG TERM DATd kGRAB SAMPk.E)
TEST COMPOSITE FOR 24 HOURS M EAN(MG/k.),... STD DEV NO RANGE (MASS (PPD)
(
MEAN(MG/L)
NO M ASS ( PPD)
TJTAMIUs, TOTAL - TI (MG/L)
(
ANTIdONY. TOTAL - SS (MG/1.)
.ASSENIC' TOTAL
<AS (MG/L) 0.0050 2
0.
0.0
(
^
'odRrti!UM. TOTAL - BE (MG/L)
CADMIUM. TOTAL - CD (MG/L)
.CilROMIUn'. TitTA1. - CR (MG/L)
{
0.3966 0.6390 46 3.3753 0.3 f
COPPER. TOTAL - CU (MG/L) f LEAU. TOTAL - PB (MG/L) 0.0002 I
O.
0.0 CERCURY.!IUTAL - HG (MG/L)
.. NICKEL. TOTAL - MI (dG/L)"
'2 04 0.0 4
04005d SELENIUM. TOTA 1. - SE (MG/L)
SILVER. TOTAL - AG l.WL)
THALLIUM. TOTAL - 7L (MG/L)
ZINC. TOTAL - ZN (MG/L)
CYANIDE ~~ (MG/L) j PHENOLS (4G/L) l I
i I
l,8
.)
I, 8
e f
4
<f
/
y J
l 4
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1 PAGE 25
~
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ALASAMA P0MER C(WPANY.
STATISTICAL. HISTORY OF THE NPDES' DATA FR(* ~ THE YEAR 1975 To PRESENT PLANTS FAFLEY NUCLEAR LOCATION: STEAM GENERATOR BL(MD(MN - UNIT I DISCHARGE fDINTf 0034
(
TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L),
NO W ASS 4 PPD):
' ACROLEIN (UG/L)
ACRYLONITRILE (UG/L) o BENZENE (UG/L)
BIS (CHLORUMETHYL) ETHER (UG/L)
BRoduFORM (UG/L)
CARBON TETRACHLORIDE (UG/L)
CHLOR 0 BENZENE (UG/L) i, CHL(HODIBRtWOMETHANE (UG/L)
CHLOR 0 ETHANE (UG/L) 2-CHLOR 0ETHfLVINL ETHER (UG/L)
Cl{.OROFORM (UG/L) o.
DICHLORodR(WOMETHANE (UG/L)
DICHLORODIFLUORtWETHANE (UG/L)
I,1-DICHLOR0 ETHANE (UG/L)
I,2-DICHLOR0 ETHANE (UG/L) 1,1-01 CHLOR 0 ETHYLENE (UG/L)
I,2-DICHLOROPROPANE (UG/L)
I,2-DICHLOROPROPfLENE (UG/L)
ETHYLBENZENd (UG/L)
CETHfL BROMIDE (UG/L)
CETH(L CHLORIDE (UG/L)
CETHfLENE CHLORIDE (UG/L)
I,I,2,2-TETRACHLOR0 ETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TULUENE (U3/L) 1
PEGE 26
.ALABAM A POWER CtWPANY.
. STATISilCAL HISTORY OF THE. NPDES DATA FR(W THE YEAR 1975 To PRESENT
(
..... PLANT 2 F ARLEY NUCLEAR LOCATRWa STEAM GENERATOR BLOWOOWN - UNIT I DISCHARGE h0INTs 003A
(
TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPDI
(
i I.2-TAANS-DICHLORIETHYLENE (UGil) s 4-
's. t.1-121CHLCHIETHANs (UG/L) 1,1,2-TR I CKLONDETHAN'i, (UG/L )
I if 4;L
\\
V
' c
'TRICHLaiOETH/LENE (UG/1.)
?
TRICHLux0FLLI.tWOMt: THANE (UG/L) t i
d P
l VINYL CHLORIDE (3G/t.]
q x
4 m
2-CHLORUPHEh0L (UG/L1' i'
0
,y s
2',4-ICHLUROPHENOL (U '/L) t' s.
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2.4-DINITROPHENOL (UG/L) ie 6
i s
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2-NITHOPHENOL (UG/L) s; ~
5 y
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s 4-NITROPHENOL (UG/L) g.-
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.s au s.
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y. PHENOL (UG/L).
a
.s
,5 g-s ms.
V l
2.4,6-TRICHLOROPHENOL (UG/L) y 1
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ACENA/HTHENE (UG/L) v.
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ACENAPPTHYLENE (UG/L) s
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ANTHJ AC'ENE (UG/L) (
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w BENZlDINE (UG/L) a BtiN ZO (a) ANTHRACENE (UG/L)
. s I's
's-sc BENZO (a ) PYRENE (UG/L) s 3.4-BENZOFLUORANTHENE (UG/L)
,/
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. STATISTICAL HISTOWY uF THE NPDES DATA' s ', q FRt* THE YEAR.1975 To PRESENT' s
PLANTS FARLEY. NUCLEAR LOCATIONa STEAM GENERATOR blond 0nN - UNIT I DI. SCHARGE.POIN.Ts, OO3 A,,
_ ~
CtWPOSITE FOR 24 HOURS '
(
TEST MEAN(UG/L)
No MASS (PPS)
BENZO (k) FLUORANTHENE (UG/L)
BIS (2-CHLOR 0ETH0XY) NETHANE (UG/L) t
~
s BIS (2-CHU)W0 ETHYL) ETHER (UG/L)
EIS (2-CHLOR 0!SOPROPYL) ETHER (UG/L)
(
BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BRodOPHENYL PHENYL ETHER (UG/L)
(
BUTYL BENZYL PHTHALATE (UG/L)
(
2-CHLOR 0 NAPHTHALENE (UG/L) t 4-CHLOR 0PHENYL PHENYL ETHER (UG/L) t 3
CHRYSENE (UG/L)
(
DIBENZD (a.h) ANTHRACENE (UG/L)
I,2-01 CHLOR 08ENZENE (UG/L1 I,3-DICHLOROBENZENE (UG/L) 4 I,4-DICHLOR0 BENZENE (UG/L) 3,3#-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DI;; ETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINITR0 TOLUENE (UG/L) 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
I,2-DIPHENfLHYDRAZINE( AS A70 BENZENE)
FLU 0dAh.HENE (UG/L)
FLU (HENE (UG/L)
HEXACHLORaBENZENE (UG/L)
.w
~
m P5GE 28
.A1.ABAMA PONER COMPANY STAffST} CAL HISTORY OF THE NPDES D'ATI FROM THE YEAR 1975 TO PRESENT PLANTS FARLEY NUCLEAR' LOCATIONS STEAM GENERATOR BL(MD(MN - UNIT I DISCHARGE POINTS 003A TEST COMPOSITE FOR 24 HOURS
- AEAN(UG/L)
NO MASS (PPD)
HEXACHLOROBUTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L)
(
INDEN0 (1,2.3-cd) PYRENE (UG/L)
JSOPHORONE (UG/L)
NAPHTHALENE (UG/L)
(
NITR0 BENZENE (UG/L)
N-NITROSOD!mETHfLAMINE (UG/L)
N-NIfROSODI-N-PROPYLAMINE (UG/L)
(
N-NITROSODIPHEN(LAMINE (UG/L)
(
PHENANTHRENE (UG/L)
. PYRENE (UG/L)
(
I,2.4-TRICHLOROBENZENE (UG/L)
(
(
(
(
(
(
. (
(
8
PAGE %Q ALABMA P(MER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1980 TO PRESENT PLANTS F ARLEY NUCLEAR U) CATIONS STEAM GENERATOR BlodDOWN - UNIT 2 DISCHAKSE POINTS 0038 TEST - UNIT COMPOSITE FOR 24 HOURS.
LONG TERM DATA (GRAB SAMPLE)
MEAN No MEM STD DEV NO MAX JIIN 0.0592 0.0582 31 0.1339 0.
FLun (MGD)
TEMPERATURE (DEG C)
(
PH COLod (PCU)
(
FECAL COLIFORM (ORG./100ML)
RADI0 ACTIVITY. TOTAL ALPHA PC4/
R ADI0 ACTIVITY. TOTAL BETA PCs/L
(
RADIOACTIVITY. TOTAL RADIUM PCJ RADIOACTIVITY. TOTAL RADIUM 226
(
e
(
1 e
e e
m
~
n PiGE 30
.. ilABAMA kONER COMPiNY Staff STjCAL HISTORY OF THE NPDES DATA FH(* THE YEAR 1980 TO PRESENT
... PLANT: FARLEY NUCLEAR LOCATIONI STEAM GENERATOR BLONDOWN - UNIT 2 DISCHARGE Po!NTs 0038
(
LONG TERM DATA (GRAB SAMPLE)i TEST COMPOSITE FOR 24 HOURS MEAN(MG/L)
No N ASS ( PPD)
M EAN (MG/L)
STD DEV NO RANGE (MASSIPPD)
(
BOD (MG/L)
C)D - CHEMICAL OXYGEN DEMAND (M CARBON. URGANIC (MG/L)
(
TOTAL SUSPENDED SOLIDS (MG/L) 2.4737 3.3395 19 14.0000 3.2
(
AMMONIA (AS N) (MG/L)
BROMIDE - (MG/L)
(
TOTAL CHLORINE (MG/L)
(
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
(
NITHUGEN. ORGANIC - (MG/L)
I 1.0944 0.2287 18 0.0000 0.5 UIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
SULFATE - SO4 (MG/L)
SULFIDS (MG/L)
SULFITE - (MG/L) i CBAS (MG/L)
ALUMINUM. TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
BORON. TOTAL - B (MG/L)
COBALT. TOTAL - CO (MG/L) 0.4397 0.6681 19 2.8880 0.2 IRON TOTAL - FE (MG/L)
MAGNdSIUM MG (MG/L)
MOLYBDENUM. TOTAL - MO (MG/L)
.DANGANESE. TOTAL MN (MG/L) 4 TIN. TOTAL - SN (MG/L)
PAGE 31 ALABAMA POIER CIWPANY STATISTICAL HISTORY OF THE NPDES DATA FRtW THE YEAR 1980 To PRESENT
(
PLANTA FARLEY NUCLEAR
.i LI)CATJONa STEAM. GENERATOR BLU6DtMN - UNIT 2 DISCHARGE.POINTp 0038
(
TEST C(WPOSITE FOR 24 HOURS LONG TERM DATA (GRAS SAMPLE)
MEAN(MG/L)
No M ASS (PPD)
MEAN(MG/L). STD DEV NO RANGE IMASS(PPD)
TITANIUM. TOTAL - TI (MG/L) i ANTIMONY. TOTAL - SB (MG/L)
ARSENIC. TOTAL - AS (MG/L)
BERYLLIUM. TOTAL - BE (MG/L).
CADMIUM. TOTAL - CD (MG/L)
CHROMIUM. TOTAL - CR (MG/L)
(
COPPER. TOTAL - CU (MG/L) 0.0456 0.0606 19 0.2236 0.0
(
LEAD, TOTAL - P8 (MG/L)
EERCURY. TOTAL - HG (MG/L)
(
e
. NICKEL. TOTAL - NI (MG/L)
I e"
SELENIUM. TOTAL - SE (MG/L) t.-
i SILVER. TOTAL - AG (MG/L)
{
THALLIUM. TOTAL - TL (MG/L)
(
ZINC. TOTAL - ZN (MG/L)
CYANIDE - (MG/L) i PHENOLS (MG/L3 t
l i.
h 1
g
,.,4 ep a
1
)
e
~
l P EE 35 ALABAMA POWER CrulPANY
_ SidifSfICAL HISTORY OF THE NPDES D'A d FROM THE YEAR 1980 TO PRESENT
.. PLANTi FARLEY NUCLEAR LOCATIhNs STEAM GENERATOR BL(MD(MN - UNIT 2 DISCHARGE. POINT: D038,
(
l TEST COMPOSITE FOR 24 HOURS AIEAN(UG/L)
NO NASS(PPD),,
(
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZENE (UG/L)
(
BIS (CHLOROMETHYL) ETHER (UG/L)
EROM0 FORD (UG/L)
CARBON TETRACHLORIDE (UG/L) ~
(
CHLOR 0 BENZENE (UG/L)
(
CHLORODIBROM0 METHANE (UG/L)
CHLOR 0 ETHANE (UG/L)
(
2-CHLORodTHYLVINL ETHER (UG/L)
(
CHLOROFORM (UG/L)
DICHLOR06RododETHANE (UG/L)
(
DICHLORODIFLUORodETHANE (UG/L)
(
i I,1-DICHLOR0 ETHANE (UG/L)
I.2-DICHLOROETHANs (UG/L)
I.I-DICHLOR0 ETHYLENE (UG/L)
(
I.2-DICHLOR0 PROPANE (UG/L)
I.2-DICHLOR0 PROPYLENE (UG/L)
ETHYLBENZENE (UG/L) 4 CETHYL BROMIDE (UG/L)
NETHYL CHLORIDE (UG/L)
METHYLENE CHLORIDE (UG/L3 1,1,2,2-TETRACHLOR0 ETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TULUENE (UG/L)
PAGE 33 ALABAMA P(MER COMPANY STATISTICAL filSTORY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT PLANT: FARLEY NUCLEAR
. LOCATIONS STEAM GENERATOR BLIMDonN - UNIT 2 DISCHARGE P,QINT4 0038
. TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
NO M ASS ( PPD)
(
I.2-TRANS-DICHLORDETHYLENE (UG/L)
(
I,I,I-TRICHLORDETHANE (UG/L)
I,1,2-TRICHLOR0 ETHANE (UG/L)
(
TkICHLOR0ETHfLENE (UG/L)
(
TRICHLOROFLUOROMETHANE (UG/L)
(
VINfL CHLodIDE (UG/L) 2-CHLOROPHdNOL (UG/L)
(
2,4-DICHLOROPHENOL (UG/L) 2,4-DIMETHYLPHENOL (UG/L)
(
4,6-DINITRO-0-CRESOL (UG/L)
(
2,4-DINITWt9HENOL (UG/L) 2-NITHOPHENOL (UG/L)
(
4-NITROPHENOL (UG/L)
P-CHLORO-M-CRESOL (UG/L)
PENTACHLOROPHENOL (UG/L) g PHENOL (UG/L) i 2,4,6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENti (UG/L)
ACENAPHTHYLENE (UG/L) i ANTHRACENE (UG/L)
BENZIDINE (UG/L)
BENZO (a) ANTHRACENE (UG/LJ BENZO (a) PYHENE (UG/L) 3,4-dENB)FLUOHANTHENE (UG/L)
BENZO (gni) PERfLENE (UG/L)
}
PIGE $4 ALABAMA POWER. COMP'ANY staff STICAL. HISTORY OF THE NPDES D4tA FRtw THE YEAR 1980 TO PRESENT PLANT 8 FARLEY. NUCLEAR LOCATJUNd STEAM GENERATOR BLONDMN - UNIT 2 DISCHER'GE POINT: dO38 TEST COMPOSITE FOR 24 HOURS MEANtUG/L)
NO MASS (PPD)
(
8E!!ZO (k) FLUDRANTHENE (UG/L)
BIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L)
(
. BIS (2-CHU)RulS0 PROPYL) ETHER (UG/L)
BIS (2-ETHYLHEXYL) PHTHALATE'(UG/L) 4-BRtW0PHENYL PHENYL ETHER (UG/L)
(
BUTYL BENZYL PHTHALATE (UG/L) 2-CHLORONAPHTHALE.iE (UG/L) 4-CHLOR 0PHENYL PHENYL ETHER (UG/L)
(
CHRYSENE (UG/L)
DIBENZO (a.h) ANTHRACENE (UG/L) 1,2-DICHLORodENZENE (UG/L)
(
l,3-DICHLOR0 BENZENE (UG/L)
(
I,4-DICHLOROBENZENE (UG/L) 3,3#-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
(
DIMETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHIHALATE (UG/L) 2,4-DINITR0 TOLUENE (UG/L)
(
2,6-DINITRUTOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) l.2-DIPHENYLHYDdAZINE( AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUtHENE (UG/L) 4 HEXACHLOR0 BENZENE (UG/L) h
(~
q PAGE 35
(-
ALAB AMA POIER. Q:!P ANY STATISTICAL HISr0RY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT g
PLANT 4 F ARLEY NUCLEAR LOCATION: STEAM GENERATOR BL(MD(MN - UNIT 2 DISCHARGE POINT 7 0038 g
TEST COMPOSITE FOR 24 HOURS AIEAN(UG/L)
NO MASS (PPD) g HEXACHLORUBUTADIENE (UG/L) f HEXACHLOROCYCLOPENTADIENE (UG/L) g HEXACHLORDETHANE (UG/L)
INDEN0 (1.2.3-co) PYRENE (UG/L) i.
4 ISOPHORONE (UG/L)
NAPHTHALENE (UG/L) g NITR0 BENZENE (UG/L) 4 NWITHOSODIMETHYLAMINE (UG/L)
N-NI TROSODI-N-PHOPYLAMINE (UG/L) g N-NITROSODIPHENYLAMINE (UG/L)
(
PHENANTHRENd (UG/L)
. PYRENE (UG/L)
I,2,4-THICHLORodENZENE (UG/L) d t
4 I
i i
4
~
n PEGN 36
,, ALABAMA POWER COMPANY STATISTICAL. HISTORY OF THE. NPDES DATA FRt* THE YEAR 1975 TO PRESENT g
. PLANTS F ARLEY NUCLEAR LOCATIONa' TUR8I'NE' BUILDING SUMP - UNIT I DISCHARGE Polkra 004A TEST - UNIT COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
M EAN No MEAN STD DEV No MAX MIN
(
1 FLOW (MGD) 0.0267 0 0356 267 0.3692 0.
TEMPERATURE (DEG C)
PH 7.6198 0.5279 254 9.0026 6.3700
(
COLOR (PCU)
FECAL COLIFORM (ORG./100ML)
HADI0 ACTIVITY. TOTAL ALPHA PCA/
(
RADIDACTIVITY. TOTAL BETA PCs/L
(
RADIOACTIVITY. TOTAL RADIUM PCJ
(
HADIDACTIVITY. TOTAL RADIUM 226
(
(
(
(
(
(
(
(
(
(
(
PAGE 37
. ALABAMA PonER CtWPANY STATISTICAL 111 STORY OF THE. NPDES DATA FR(W THE YEAR 1975 TO PRESENT PLANTS FARLEY NUCLEAR LOCATJONe TURBINE BUILDING SUMP - UNIT I DJSCHARGE POINT 8 004A
- LONG TERM DATA (GRAB SAMPLE)
TEST COMPOSITE FOR 24 HOURS AEANIAG/L)
NO MASS (PP D)
MEAN(MG/L)
STD DEV NO RANGE (M ASS (PPD)
(
BOD (MG/L) 0.9000 I
0.
0.2
(
CDD - CHEMICAL OXYGEN DEMAND (M
(
CARBON, ORGANIC (MG/L)
.t 9.2835
. 23.5870 254 336.0000 2.1 TOTAL SUSPENDED SOLIDS (MG/L)
(
AMMUNIA (AS N) (MG/L)
BROMIDs - (MG/L)
(
TOTAL CHLORINE (MG/L)
(
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
(
NITdoGEN,UdGANIC - (MG/L)
(
3.0885 6.4780 252 91.0000 0.7 UIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
(
SULFATE - 504 (MG/L)
(
SULFIDE (MG/L)
SULFITE - (MG/L)
(
kBAS (MG/L)
ALUMINUN, TOTAL - AL (MG/L)
BARIUM - BA (MG/L) i BORON, TOTAL - B (MG/L)
COBALT, TorAL - Co (MG/L)
IRON, TOTAL - FE (MG/L)
CAGNESIUM MG (MG/L)
MOLYBDENUM, TOTAL - MO (MG/L)
CANGANESE, TOTAL MN (MG/L)
TIN. TOTAL - SN (MG/L)
biGE 38 ALABAMA PodER QuiPANY STATISTICAL.fflSTORY OF THE NPDES DATE FROM THE YEAR 1975 TO PRESENT
(
PLANTS FARLEY NUCLEAR LDCATIONs TURBINE BUILDING SUMP - UNIT I DISCHARGE POINTI 004A TEST COMPOSITE FOR 24 HOURS BONG TERM DdTA (GRdB SAMPLE)
M EAN(MG/L)
No MASS (PPD)
MEAN(MG/l/
STD DEV NO RANGE IMASS(PPD)
TITANIUM, TOTAL - TI (MG/L)
ANTIMONY TOTAL - SS (MG/L)
ARSENIC, TOTAL - AS (MG/L)
(
BERYLLIUM, TOTAL - BE (MG/L) '
CADMIUM, TOTAL - CD (MG/L)
CHROMIUM, TOTAL - CR (MG/L)
(
. COPPER TOTAL - CU (MG/L)
LEAD. TOTAL - PB (MG/L)
(
QERCURY, total - HG (MG/L)
NICKEL, TOTAL - NI (MG/L)
SELENIUM, TOTAL - SE (MG/L)
SILVER TOTAL - AG (MG/L)
(
THALLIUM, TOTAL - TL (MG/L)
(
ZINC, TOTAL - ZN (MG/L)
CYANIDE - (MG/L)
(
PHENOLS (MG/L)
(
(
(
(
(
(
w
{
PAGE ALABAMA PONER. COMPANY 39 eL STATJSTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT PLANT 4 FARLEY NUCLEAR LOCATIONS TURBINE BUILDING SUMP - UNIT I DISCHARGE PDINT4 004A l
COMPOSITE FOR 24 HOURS TEST MEAN(UG/L)
NO MASSIPPD)..
ACROLEIN (UG/L) b ACRYLONITRILE (UG/L)
BENZENE (UG/L)
{
BIS (CHLOROMETHfL) ETHER (UG/LJ C
BROM0 FORM (UG/L)
CARBON TETdACHLORIDE (UG/L) l CHLOR 0 BENZENE (UG/L)
CHLORODIdROMUMETHANE (UG/LJ CHLOR 0ETHANti (UG/L)
{
2-CHLOR 0dTHYLVINL ETHER (UG/L)
CHLOROFORM (UG/L)
I DICHLORodROM0 METHANE (UG/L)
{
DICHLORODIFLUOR(* ETHANE (UG/L)
(
I,3-DICHLORDETHANE (UG/L)
I,2-DICHLOR0 ETHANE (UG/L)
(
I,1-DICHLOR0 ETHYLENE (UG/L)
I,2-DICHLOR0 PROPANE (UG/L)
I,2-DICHLOROPRovYLENE (UG/L)
(
ETHYLBENZENd (UG/L)
METHYL BROMIDE (UG/L)
METHfL CHLORIDE (UG/L)
(
METHYLENE CHLORIDE (UG/L)
.C I,1.2.2-TETR ACHLOR0 ETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TOLUENE (UG/L)
(
^
.k
^
PECE 50
(
ALABAMA PonER COMPiNY STAT!STICAL HISTORY OF THE NPDES DATA FR(* THE YEAR i975 To PRESENT g
PLANTS FARLEY, NUCLEAR
.g LOCA JONs TURBINE BU'ILDING SUMP - UNIT I
b..lSCHARGE POINT 8 OO4A
(
COMPOSITE FOR 24 HOURS f
TEST NEAN(UG/L)
NO M ASSI PPD)
(
l t
t.2-TRANS-DICHLOR0 ETHYLENE (UG/L)
I,I,I-TRICHLORDETHANE (UG/L)
I,I,2-TRICHLORDETHANE (UG/L)
TRICitLORDETHfLENE (UG/L)
TRICHLOROFLUOR(WETHANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLORtWHENGL (UG/L) 2,4-DICHLOROPHENOL (UG/L) 2,4-DIMETHYLPHENOL (UG/L) 4,6-DINITRO-0-CRESOL (UG/L) 2,4-DINITROPHENUL (UG/L) i
(
2-NITROPHENGL (UG/L) 4-NITROPHENOL (UG/L1
(
P-CHLORO-M-CRESOL (UG/L)
(
PENTACHLOR(WHENOL (UG/L)
PHENOL (UG/L) 2,4,6-TRICHLOROPHENGL (UG/L)
(
ACENAPHTHENE (UG/L)
ACENAPHTHYLENE (UG/L)
(
ANTildACENE (UG/L)
BENZIDINE (UG/L)
(
BENZO (a) ANTHRACENE (UG/L)
BENZO (a) PYRENE (UG/L)
(
3,4-BENZOFLOORANTHENE (UG/L)
BENZO (gni) PERYLENE (UG/L)
(
g PAGE di r'-
ALAB AMA Porter Q:2P ANY
- STATISTICAL Ji! STORY OF THE NPDES DATA FROM THE YEAR 1975 TO PRESENT g
PLANT 4 F ARLEY NUCLEAR LOCATJUNs TURBINE BUILDING SUAP - UNIT I DISCHARGE PQINTf D04A g
. TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASSIPPD) g BENZO (k) FLUURANTHENE (UG/L)
O BIS (2-CHIJ)ROETH0XY) METHANE IUG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L) g BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L)
O BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROMOPHENfL PHENfL ETHER (UG/L) g BUTYL BENZYL PHTHALATE (UG/L)
O 2-CHLORONAPrlTHALENE (UG/L) 4-CHLOR 0PHENYL PHENYL ETHER (UG/L) g CHRYSENE (UG/L)
G DIBENZO (a.h) ANTHRACENE (UG/L)
I,2-DICHLORodENZENE (UG/L) g 1,3-DICHLOROBENZENE (UG/L)
I I,4-DICHLtModENliNE (UG/L) 3,3#-DICHLOROBENZIDINE (UG/L) g DIETHYL PHTHALATE (UG/L) 4 DICETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) g t
2,4-DINITRUTOLUdNE (UG/L)
I 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) g 1,2-DIPHENfLHYDRAZINE(AS AZ0 BENZENE)
I FLUORANTHENE (UG/L)
FLUORENE (UG/L)
HEXACHLOROBENZENE (UG/L) 4
^
o PAGE 42 ALABAM A POWER. C(MP ANY STATISTICAL HISTORY OF THE. NPDES DATA FRt* THE YEAR 1975 To PRESENT PLANT: FARLEY NUCLEAR LOCATIONS TUR8INE BdILDING SUMP - UNIT I DISCHARGE POINTS OG4A
. TEST COMPOSITE FOR 24 ftMRS 3
MEAN(UG/L)
NO M ASS.( PPD)
HEXACHLOROBOTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L>
(
INDEN0 ( 1,2,3-cd) PYRENE (UG/L)
.ISOPHORONE (UG/L)
NAPHIHALENE (UG/L)
(
NITR0 BENZENE (UG/L)
N-NITHOSODIMETHfLAMINE (UG/L)
(
N-NITROS 001-N-PROPYLAMINE (UG/L)
N-NITROSODIPHENYLAMINE (UG/L)
PHENANTHRENE (UG/L)
PYRENE (UG/L)
(
l.2.4-TRICHLOROBENZENE (UG/L)
(
(
(
l
(
. (
I
PAGE 43 C
ALABAM A POWER COMPANY STATISTICAL. HISTORY OF THE NPDES DATA FRt* THE YEAR 1980 TO PRESENT '
g PLANT: F ARLEY. NUCLEAR LOCATIONa TURBINE BUILDING SUMP - UNIT 2 OISCHARGE PalNTf 0048 g
TEST - UNIT C(*POSITE FOR 24 HOURS.
LONG TERM DATA (GRAB SAMPLE)
MEAN No MEAN STD DEV
. No MAX MJN G
FLud INGD) 0.0181 0.0369 136 0.3798 0.
i O
TEMPERATURE (DEG C)
PH 7.4697
.0.3433 65 8.5600 6.5500 g
COLOR IPCU) 4 FECAL COLIFORM (ORG./3 00ML)
RADI0 ACTIVITY. TOTAL ALPHA PC8/
g RADIDACTIVITY, TOTAL BETA PCs/L 4
RADI0 ACTIVITY. TOTAL RADIUM PCs RADIDACTIVITY. TOTAL RADIUM 226 g
4 4
4 4
4 l
t l
4 t
l
.I t
4
n
-~
PAGE 44' Ju.A8AKA POMER COMPANY.
STATISTICAL. HISTORY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT
,.... PLANTS FARLEY. NUCLEAR LOCATIOWi TURBINE BUILDING SUMP - UNIT 2 DlSCHARGEPOINT8 004B TEST COMPOSITE FOR 24 HOURS
'LONG TERM' DATA (GRAB SAMPLEl, MEANING /L)
No M ASS (PPD)
MEAN(MG/L)
STD DEV No RANGE (MASS (PPD)
(
BOD (MG/L)
CDD - CHEMICAL OXYGEN DEM AND (M
C CARdON. DRGANIC (MG/L)
(
TOTAL SUSPENDED SOLIDS (MG/L) 4.5454 6.7448 66 44.0000 0.7 AMMONIA (AS N) (MG/L)
BROMIDE - (MG/L)
(
TOTAL CHLORINE (MG/L)
(
FLOURIDE - F (MG/L)
(
NITR ITE - NO2 (MG/L)
NITROGEN,0RGANIC - (MG/L)
(
OIL AND GREASE (MG/L) 2.7598
.3.2552 66 16.9000 OA TOTAL PHOSPHORUS - P (hG/L)
(
SULFATE - SO4 (MG/L)
(
SULFIDd (MG/L)
SULFITE - (MG/L)
(
dBAS (MG/L)
(
ALUMINUM, TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
[
BORON, TOTAL - B (MG/L)
(
COBALT. TOTAL - CO (MG/L)
IRON. TOTAL - FE (MG/L)
(
CAGNES!UM MG (MG/L)
.(
MOLYBDENUM. TOTAL - MO (MG/L)
DANGANESE, TOTAL MN (MG/L)
TIN, TOTAL - SN (MG/L) i
m
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PAGE 45 ALAB AMA PonER. COMPANY STATISTICAL. HISTORY OF THE NPDES DATA FR(W THE YEAR 1980 TO PRESENT PLANTA FARLEY. NUCLEAR LOCATIOM ZURBINE BUILDING SUMP - UNIT 2 DISCHARGE POINTp 0048
. TEST C(WPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
STD DEV NO RANGE (MASS (PPD)
MEAN(MG/L)
. NO MASS (PPD)
AiEAN(MG/L)
(
i TITANIUM. TOTAL - TI (MG/L)
(
ANTIMONY. TOTAL - SB (MG/L)
ARSENIC. TOTAL - AS (MG/L)
{
IsERYLLIUM, TOTAL - BE (MG/L)
(
CADMIUM, TOTAL - CD (MG/L)
CHROMIUM, TOTAL - CR (MG/L)
{
COPPER. TOTAL - CU (MG/L)
(
LEAD. TOTAL - PB (MG/L)
CERCURY. TOTAL - HG (MG/L)
(
NICKEL. TOTAL - NI (MG/L) b SELENIUM. TOTAL - Sd (MG/L) i SILVER. TOTAL - AG (MG/L)
{
THALLIUM, TOTAL - TL (MG/L)
(
ZINC. TOTAL - ZN (MG/L)
CYANIDE - (MG/L)
(
PHENOLS (MG/L)
(
(
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6
C P135 4S p'
dliBAM5 P'0WE;i COMP 5NY STATISTICAL HISTORY OF THE NPDES bAid FROM THE YEAR 1980 TO PRESENT e
.. PLANTS F ARLEY NUCLEAR LOCATIONS TURBINE BUILDING SUMP - UNIT 2 DlSCHARGE POINTS 0048 9
. TEST COMPOSITE FOR 24 HOURS
,s MEAN(UG/L)
NO MASSIPPDJ,,
g
. ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZENE (UG/L) g BIS (CHLOROMETHfL) ETHER (UG/L)
O URor.0 FORM (UG/L)
CAR 80N TETRACHLORIDE (UG/L) g CHLOR 0 BENZENE (UG/L)
O CHLORODIBROMOMETHANE (UG/L)
CHLOR 0 ETHANE (UG/L) g 2-CHLOR 0ETHfLVINL ETHER (UG/L) e CHLOROFORM (UG/L)
DICHLOROBROMGAETHANE (UG/L) g DICHLORODIFLUORUMETHANE (UG/L)
G I,1-DICHL(H0 ETHANE (UG/L)
I,2-DICHL(M0 ETHANE (UG/L) g 1,1-DICHL(R0 ETHYLENE (UG/L)
I 2-DICHLOR0 PROPANE (UG/L3 1,2-DICHLOROPRUPfLENE (UG/L) g ETHYLBENZENE (UG/L)
G CETHYL BROMIDE (UG/L)
7. ETHYL CHLORIDE (UG/L)
C METHfLENE CHLORIDE (UG/L)
I,I,2.2-TErHACHLOR0 ETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L) g TULUENE (UG/L)
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PAGE C1
(
ALABAM A PUNER COMPANY STATISTICAL HISTORY OF THE. NPDES DATA FHOM THE YEAR 19A0 TO PRESENT PLANTS. F ARLEY NUCLE AR
. LOCATION 8 TURBINE BUILDING SUMP - UNIT 2 pISCHARGE P0 INT! 004B
.. TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO M ASS (PPD) g 1.2-TRANS-DICHLOR0 ETHYLENE (UG/L) 4 1,1,1-TRICHLOROETHANE (UG/L)
I,!,2-TRICdLOROETHANE (UG/L) g TRICHLOR0 ETHYLENE (UG/L) 4 TRICHLodOFLUORUMETHANE (UG/L)
VINYL CHLORIDE (UG/L) g 2-CHLOROPHENOL (UG/L) 4 2.c-DICHLOROPHENOL (UG/L) 2,4-DIMETHfLPHENGL (UG/L) g 4,6-DINITRO-0-CRESOL (UG/L) i C
2.4-DINITROPHENOL (UG/L) 2-NITROPlitiNOL (UG/L) g 4-NITROPHENOL (UG/L) i 4
P-CHLORO-M-CRESOL (UG/L)
PENIACHLth10 PHENOL (UG/L) y PHENOL (UG/L) 4 2.4,6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENti (UG/L) q ACENAPHTHYLENE (UG/L) 4 ANTHJACENE.(UG/L)
BtNZIDINE (UG/L) q DENZO (a) ANTHRACENE (UG/L) 1 BENZO (a) PYRENE (UG/L) 3,4-BENZOFLUORANTHENE (UG/L) y BENZO (gni) PEHYLENE (UG/L)
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P'GE 48 iLABEMA ModER COMPANY StiTjSTJCAL.HISTDRY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT PLANT: FARLEY NUCLEAR LOCATION TURBINE BUILDING SURP - UNIT 2 DISCHARGE. POINT: 004B TEST COMPOSITE FOR 24 HOURS MEANfUG/L)
NO M ASS ( PPD) l BENZO (k) FLUORANTHENE (UG/L)
BIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L)
BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L) l
(
BIS (2-ETdYLHEXYL) PHTHALATE (UG/L) j 4-BR040PdENYL PHENYL ETHER (UG/L)
(
BUTYL BENZYL PHTHALATE (UG/L)
(
.2-CHLORONAPHTHALENE (UG/L)
(
4-CHLOROPHENfL PHENYL ETHER (UG/L)
CHRYSENE (UG/L)
(
DIBENID f a.h) ANTHRACENE (UG/L)
I,2-DICHLORodENZENE (UG/L)
(
I,3-DICHLOROBENZENE (UG/L)
(
l,4-DICHLORodENZENE (UG/L) 3,3#-DICHLOROBENZIDINE (UG/L)
(
DIETHYL PHTHALATE (UG/L)
(
DIMErriYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L)
(
2,4-DINITR0 TOLUENE (UC/L)
(
2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
(
I,2-DIPHENYLHYDRAZINE( AS AZ0 BENZENE)
(
FLUURANTHENE (UG/L)
FLUORENE (UG/L)
(
HEXACHLORUSENZENE (UG/L)
(
PAGE 47
~
b ALABAMA PLMER. COMPANY STATISTICAL. HISTORY UF THE NPDES DATA FR(W THE YEAR 1980 TO PRESENT l
PLANTS FARLEY NUCLEAR LOCATION 8 TURBINE 8UILDING SUMP - UNIT 2 DJSCHARGE POINTa 0048 l
. TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPD)
{
l HEXACHLOR0BUTADIENE (UG/L)
(
HEXACHLOROCYCLOPENTADIENE (UG/L) f
(
HEXACHLOR0 ETHANE (UG/L3 IN DEN 0 (1.2.3-cd) PYRENE (UG/L)
(
JSOPHORONE (UG/L)
. NAPHTHALENE (UG/L)
(
NITR0 BENZENE (UG/L)
(
N-N!fROSODIMETHYLAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L)
+
N-NITROSODIPHENYLAMINE (UG/L)
PHENANTHRENd (UG/L)
. PYRENE (UG/L)
I,2,4-TWICHLOR08ENZENE (UG/L)
(
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AldB AMA P(CER COMP 5Nf STArtSTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1975 TO PRESENT g
PLANTS FARLEY NUCLEAR IJ) CATIONS LIQUID RAD MASTE-UNIT I DISCHARGE POINT 4 009A g
TEST E UNIT COMPOSITE FOR 24 HOURS
.Li>NG TERM DATA (GRAB SAMPLE)
MEAN No M EAN
- STD DEV No MAX MIN G
FLON iMGD) 0.0046 0.0092 1805 0.2097 0.
4 TEMPERATURE (DEG C)
Pd q
COLOR APCU)
G FECAL COLIFORM (ORG./I 00ML)
RADI0 ACTIVITY. TOTAL ALPHA PCs/
g RADI0 ACTIVITY, TOTAL BETA PC8/L RADIaACTIVITY, TOTAL RADIUM PCs g
R ADIOACTIVITY. TOTAL RADIUM 226 4
4 4
4 4
4 4
4 I
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PAGE 58 ALABAMA PonER COMPANY
. STATISTICAL HISTORY DF THE NPDES DATA FROM THE YEAR 1975 TO PRESENT
(
PLANTS FARLEY NUCLEAR LOCATJUN LIDUID RAD MASTE-UNIT I DISCHARGE POINT 4 009A TEST
. COMPOSITE FOR 24 HOURS LONG. TERM DATA (GRAB SAMPLE)
MEAN(MG/L)
NO MASS ( PPD)
MEAN(MG/L)
STD DEV NO RANGE (NASS(PPD)
BOD (MG/L) h CDD - CHEMICAL OXYGEN DEMAND (M CARBON. ORGANIC (MG/L)
(
TOTAL SUSPENDED SOLIDS (MG/L)
AMMONIA (AS N) (MG/L)
BR(WIDE - (MG/L)
(
TOTAL CHLORINE (MG/L)
(
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
(
NI TROGEN,0RGANIC - (MG/L)
(
DIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
(
SULFATE - SO4 (MG/L)
SULFIDE (MG/L)
SULFITE - (MG/L)
(
MBAS (MG/L)
(
ALUMINUM. TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
(
BUR 0!I. TOTAL - 8 (MG/L)
COBALT. TOTAL - CD (MG/L)
IRON. TOTAL - FE (MG/L)
(
MAGNESIUM MG (MG/L)
MOLYBDENUM. TOTAL - MD (MG/L)
- (
CANGANESE. TOTAL MN (MG/L) z TIN, TOTAL - SN (MG/L) i
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Al.ABAMA POWER CCPANY STATlSTICAL llISTORY OF THE NPDES DATA FRim THE YEAR 1975 To PRESENT g
PLANT 4 FARLEY. NUCLEAR LOCATION 8 LIQUID RAD WASTEMJNIT I DISCHARGE POINTi 009N g
TEST COMPOSITE FOR 24 HOURS LONd hERM DAh (GRAS SAMPLEh MEANING /L)
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. RANGE (MASS! PPD) g e'.
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TITANIUM. TOTAL - TI (MG/L)
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STATISTICAL MISTORf UF THE NPDES,
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CARBON TETRACHLORIDE (UG/L)
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CHLtMOBENZENE (UG/L)
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CHLOROFORM (UG/L)
DICHLOWodR(WOMETHANE (UG/L)
DICHLORODIFLU(HodETHANE (UG/L)
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I,1-DICHLOR0 ETHANE (UG/L) l.2-DICHLOR0 ETHANE (UG/L)
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l,3-DICHL(MOETHfLENE (UG/L)
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METHYL BRodIDE (UG/L) t.: ETHYL CHLodIDE (UG/L)
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CETHfLENE CHLORIDE (UG/L) 1.1,2.2-TETRACHLORDETHANE (UG/L)
. (
TETRACHL(M0 ETHYLENE (UG/L)
TOLUENE (UG/L)
PIGE $4 ALABAMA PonER. C(MPANY.
SidTlSTICAL HISTORY OF THE MPDES DATA FROM THE YEAR 1975 TO PRESENT PLANTA FARLEY NUCLEAR LOCATIONS I.IDUID AAD MASTE-UNIT I DISCHARGE POINTS OD9A TEST C(N4POSITE FOR 24 HOURS MEAN(UG/L)
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3,4-BENZOFLUOWANTHENE (UG/L)
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m PAGE 55 ALABAMA POWER COMPANY
. STATISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT PLANT: FARLEY sNUCLEAR IJ) CATIONS LIQUID RAD mASTE-UNIT I DISCHARGE POINT 4 009A TEST
. CIMPOSITE FOR 24 HOURS MEAN(UG/L)
NO NASSIPPD)
(
fENZO (k) FLUORANTHENE (UG/L1
(
SIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOROETHfL) ETHER (UG/L)
(
BIS (2-CHLOR 0!SOPROPfL) ETHER (UG/L)
(
BIS (2-ETHfLHEXYL) PHTHALATE (UG/L) 4-BROM0PHENYL PHENYL ETHER (UG/L)
BUTYL BENZYL PHTHALATE (UG/L)
(
2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOR 0PHENYL PHEFYL ETHER (UG/L)
CHRYSENE (UG/L)
(
DIBENZO fa.h) ANTHRACENE (UG/L) l.2-DICHLORodENZENE (UG/L) g I.3-DICHLududENZENE tyG/L)
(
I.4-DICHLORodENZENE (UG/L) 3.3'-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L) t DIMETHYL PifrHALATE (UG/L)
DI-N-duTYL PHTHALATE (UG/L) i 2.4-DINI TR0 TOLUENE (UG/L) 2.c-DINITH0 TOLUENE (UG/L)
DI-N-UCTYL PifrHALATE (UG/L) 1.2-DIPHENfLilYDRAZINE( AS AZ0 BENZENE)
FLUudANTHENE (UG/L)
FLUOWENE (UG/L)
HEXACHLOHOBENZENE (UG/L)
PAGE 55 ALABAM A POWER Q1MPANY STATISTICAL HISTORY OF THE NPDES DATA FR(* THE YEAR 1975 TO PRESENT
,,. PLANTS FARLEY NL* CLEAR LOCATiDNA. I'.NQU D RAD NASTE-UNIT I
. DISCHARGE POINT 4 009A
_ TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
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HEXACHLOROBUTADIENE (UG/L)
HEXACHLORUCYCLOPENTADIENE (UG/L)'
HEXACPL(NocTHANE (UG/L)
INDEN0 (1,2, M d) PYHENE (UG/L)
IS(WHORONE (UG/L)
. NAPHTHALENE (UG/L)
(
NITR0 BENZENE (UG/L)
N-NITROSJOINETHYLAMINE (UG/L)
N-NITR050DI-N-PROPYLAMINE (UG/L)'
(
N-NITROSODIPHENYLAMINE (UG/L)
(
PHENANTHRENE (UG/L) s'YRENE (UG/L)
(
lo2.4-TRICHLOR08ENZENE (UG/L)
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PAGE 57
.. ALABAMA POWER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FRom THE YEAR 1975 TO PRESENT PLANT: FARLEY NUCLEAR
. LOCATIONS METAL CLEANING.mASTES DISCHARGE PalNT8 008.
TEST - UNIT Q)MPOSITE FOR 24 HOURS.
LONG. TERM DATA (GRAB SAMPLE)
MEAN NO MEAN
. STD DEV No MAX MIN FLud (MGD)
O. II 70
).2309 283 14.6000 0.
(
TEMPERATURE (DEG C)
PH 7.4740 0.4612 5
8.0400 7.0200
(
COLtM iPCU) i
(
FECAL COLIFORM (ORG./100ML)
RADI0 ACTIVITY. TOTAL ALPHA PCs/
RADI0 ACTIVITY. TOTAL BETA PCs/L k
RADI0 ACTIVITY. TOTAL RADIUM PCs RADI0 ACTIVITY TOTAL RADIUM ~ 226
(
(
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ALABAMA POWER COMPANY STATjsTlCAL HISTORY OF THE NPDES DATA FROM THE YEAR 1975.TO PRESENT G
PLANTS FARLEY NUCLEAR LOCATIONi METAL CLEANING MASTES DISCHARGE POINT: 006 g
'.', l LONG TERM DATA'(DRAB SAMPLE)
TEST
' COMPOSITE FOR 24 HOURS
. MEAN(MG/LJ STD DEV NO RANGE (MASS (PPD) g MEAN(NG/L)
NO M ASS ( PPD)
BOD (MG/LJ t
G COD - CHEMICAL OXYGEN DEMAND (M CARBON, DRGANIC (MG/L)
TOTAL SUSPENDED SOLIDS (MG/L) 20.8000 32.2444 5
76.0000 20.3 A30NI A ( AS N) (MG/L)
BROMIDE - (MG/L2
(
TOTAL CHLORINE (MG/L)
(
FLOURIDE - F (MG/L)
NITHITE - NO2 (MG/L)
NITROGEN,URGANIC - (MG/L) 15.9400 33.0725 5
74.1000
. 15.5 OIL AND GHEASE (MG/L)
TOTAL PHOSPriORUS - P (MG/L) 0.6638 0.6975 5
1.6910 0.6
(
SULFATE - SO4 (MG/L)
(
l SULFIDE (MG/L)
SULFITE - (MG/L)
(
MBAS (MG/L)
(
ALUMINUM, TOTAL - AL (MG/L)
BAHIUM - BA (MG/L)
(
BORON, TOTAL - B (MG/L)
(
COBALT, TOTAL - CO (MG/L)
IRON. TufAL - FE (MG/L) 0.9960
.0.3886 5
I.0300 1.0 MAGNESIUM MG (MG/L)
MOLYdDENUM. TOTAL - MO (MG/L)
(
M ANGANESE. TOTAL MN (MG/L)
TIN. TOTAL - SN (MG/L)
n.
PAGE 59
.. AI.ABAMA PonER CDAPANY
. STATISTICAL HISTOHY OF THE NPDES DATA FROM THE YEAR 1975 TO PHESENT PLANTS F ARLEY NUCLEAR LOCATIDNs EETAL CLEANING MASTES DISCHARGE POINTp 008 TEST COMPOSITE FOR 24 kl0URS LONG TERM DATA (GRAB SAMPLE)
MEAN(MG/L)
No M ASS (PPD)
MEANING /L). STD DEY NO RANGE (MASS (PPD)
TITANIUM TOTAL - TI (MG/L)
(
ANTIMONY. TOTAL - S8 (MG/L)-
ARSENIC. TOTAL - AS (MG/L)
(
BERYLLIUM TOTAL - BE (MG/L)
,m,..,,
(
CADMIUM. TOTAL - CD (MG/L)
CHROMIUM, TOTAL - CR (MG/L)
(
4 0.0300 5
O.
0.0 COPPER. TOTAL - CU (MG/L)
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LEAD. TOTAL - PS (MG/L)
MERCURf. TOTAL - HG (MG/L)
(
N ICKEL. TOTAL - NI (MG/L) 5
. +-
SELENIUM, TOTAL - SE (MG/L) i SILVER. TOTAL - AG (MG/L)
(
THALLIUM. TOTAL - TL (MG/L)
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ZINC. TOTAL - ZA (MG/L)
CYANIDE - (MG/L)
PHENOLS (MG/L) t I
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P GE 60
. dLAB AMA POWER C(WP ANY.
. StITfSTICAL HISTORY OF THE NPDES t)ATA FROM THE YEAR 1975 To PRESENT PLANTS FARLEY NUCLEAR n,.
...re..
i LOCATION: JsETAL CLEANING MASTES DISCHARGE 10 INT 4 008
(
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. NO MASS (PPD).
(
ACROLEIN (UG/L)
ACRfLONITRILE (UG/L)
SENZENE (UG/L)
(
BIS (CetLOROMETHYL) ETHER (UG/L)
BRoa40FORil (UG/L)
CARBON TETRACHLORIDE (UG/L)
(
CHL(HOSENZENE (UG/L)
CHL(HODIBROM0 METHANE (UG/L)
CHLOR 0 ETHANE (UG/L)
(
2-CHLOR 0ETHfLVINL ETHER (UG/L)
(
- CHLOROFORM (UG/L)
DICHLOROSROM0 METHANE (UG/L)
(
D!CHLORODIFLUOR(WETHANE (UG/L)
(
l,1-DICHLOR0 ETHANE (UG/L) 1,2-DICriLOR0 ETHANE (UG/L)
(
l,I-DICHLOROETHYLENE (UG/L>
(
l.2-DICHLOR0 PROPANE (UG/L)
I,2-DICHLOROPROPfLENE (UG/L) 4 ETHYLBENZENE (UG/L)
(
CETHYL HROMIDE (UG/L)
METHYL CHLORIDE (i,G/L)
CETHtLENE CHLORIDE (UG/L)
I,1,2,2-TETRACHLOROEINANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L) g TOLUENE (UG/L) b
PAGE CI ALABAMA PonER COMPANY STATISTICAL HISTORY (F THE NPDES DATA FRfW THE YEAR 1975 TO PRESENT
{
PLANT
FARLEY NUCLEAR LOCATION: METAL CLEANING MASTES
. DISCHARGE POINTP 008
{
_ TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
No M ASS (PPD)
(
l 2-TRANS-DICHLURDETHYLENE (UG/L3 0
(
I.I.1-TRICHLOR0 ETHANE (UG/L) lo 102-TRICHLORGETHANs (UG/L)
{
TRICHLod0 ETHYLENE (UG/L)
(
TRICHLodOFLUOR(WdTHANE (UG/L)
VINYL CHL(MIDE (UG/L?
(
2-CHLOROPHENOL (UG/L)
C 2.4-0!CHLOROPHENGL (UG/L) 2aO-DIMETHYLPHENOL (UG/L)
(
4.6-DINITRO-0-CRdSOL (UG/L) '
(
204-DINITHOPHENOL (UG/L) 2-NITWOPHENOL (UG/L)
(
O-NITROPMENGL (UG/L)
(
P-CHLORO-M-CRESul (UG/L)
PENIACHLOROPHENOL (UG/L)
(
PHENOL (UG/L)
(
204 6-TRICHLOROPHENOL (UG/L) 0 ACENAPHTHENs (UG/L)
ACENAPHTHYLENE (UG/L)
(
ANIHRACLNE (UG/L)
BENZIDINE (UG/L)
(
BENZO (a) ANTiiRACENE (UG/L)
BENZO (a) PYRENd (UG/L)
.I 3 0-BENZOFLUORANTHENE (UG/L) 4 0
BENZO (gni) PERYLENE (UG/L) 5
pkGe si
. ALABAMA POWER CoedPANY STATjSTICAL HISTORY OF THE. NPDES DATA FROM THE YEAR 1975 To PRESENT
(
PLANTS F ARLEY NUCLEAR LOCATION 8 METAL.CLL/NING WASTES D/SCHARGE POINT:, DDB
(
. TEST COMPOSITE FOR 24 HoVRS MEAN(UG/L)
NO MASSIPPD)
(
CENZO (k) FLUORANTHENE (UG/L)
(
. BIS (2-CHLOROETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL 3 ETHER (UG/L)
(
BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L)
BIS (2-ETHfLHEXYL) PHTHALATE (UG/L) 4-BRO 40 PHEN (L PHENYL ETHER (UG/L)
(
BUTYL BENZYL PHTHALATE tug /L) 2-CHLORONAPHTHALENE (UG/L) 4-CHLOR 0PHENYL PHENYL ETHER (UG/L)
.(
CHRYSENE (UG/L)
DIBENZO (a h) ANTHRACENE (UG/L)
(,2-DICHLOROBENZENE (UG/L)
(
l.3-DICHL(H0 BENZENE (UG/L)
I,4-DICHLOR08ENZENE (UG/L) 3,3#-DICHL(H08ENZIDINE (UG/L)
DIETHfL PHTHALATE (UG/L)
DIMETHYL PHTHALATE (UG/L)
DI-N-8UTYL PHTHALATE (UG/L) 2,4-DINITWOTOLUENE (UG/L) 2,6-DINITRUTOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
I.2-DIPilENYLHYDRAZIN6t AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUORENE (UG/L) llEXACHLORo86NZENE (UG/L)
)
m PAGE 63 ALABAMA P(MER COMPANY STATISTICAL HISTORf (F INE NPDES DATA FRtm THE YEAR 1975 TO PRESENT
(
PLANTS FARLEY NUCLEAR LOCATJUN8 ilETAL CLEANING MASTES
. DISCHARGE PCINT# 008
(
. TEST COMPOSITE FOR 24140URS J4EAN(UG/L)
NO M ASS (PPD)
(
HEXACHLOR0BUTADIENE (UG/L)
HEXACHLOROCfCLtWENTADIENE (UG/L)
HEXACHLtM0 ETHANE (UG/L)
(
INDEN0 (l.2.3-cd).PfRENE (UG/L)-
(
ISOPHim0NE (UG/L)
NAPHTHALENE (UG/L)
NITR0 BENZENE (UG/L)
I
.N-tiITROSODImETHYLAMINE (UG/L)
N-NITROSODI-N-PROPfLAMINE (UG/L) i 4
N-NITROSODIPHENYLAMINE (UG/L)
PHENANTHRENE (UG/L)
. PYREME (UG/L)
I,2,4-TRICHLORodENZENE (UG/L) e e
t
~
g PAGE d4 4t.ABAM A P(MER CcWPANY STATISTICAL. HISTORY OF THE NPDES DATA FROM THE YEAR 1975 TO PRESENT
(
PLANT FARLEY NUCLEAR LOCATIONS ONCE'THROUGH EQUIPMENT C(x) LING. UNIT I D'fSCl4ARGE PGIKT4 001 A
(
~LONQ TERM DATA (GRAB SAMPLE)
TEST.- UNIT COMPOSITE FOR 24 H(XJRS A EAN Nu MEAN
...STD DEV No MAX MIN
(
FLOM IMGD) 27.5478
.II.1610 1871 77.8050 0.
(
TEMPERATURE (DEG C) 27.3064 5.8133 121 35.0000 3.3000 PH
(
COLOR APCU)
(
FECAL COLIFORM (ORG./100ML)
R ADI0ACTIVI TY. TOTAL ALPHA PCa/
(
RADI0ACTIVI TY. ' TOTAL BETA PCa /L HADI0 ACTIVITY. TOTAL RADIUM ?Ca RADI0 ACTIVITY. TOTAL RADIUM 226
(
(
(
i
(
t 5
l I
e
PAGE 65 ALABAM A P(MER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FR(Mt THE YEAR 1975 TO PRESENT PLANT s. FARLEY NUCLEAR LOCATIONS. ONCE THROUGH EQUIPMENT Cth) LING - UNIT I DISCHARGE POINT 4 00lA
(
TEST COMPOSITE FOR 24 HOURS LONG. TERM DATA (GRAB SAMPLE)
MEAN(MG/L)
No M ASS (PPD)
M EAN (MG/L).
STD DEV NO RANGE (M ASS ( PPD)
(
i CDD (MG/L)
CDD. CHEMICAL OXYGEN DEMAND (M CART 10N. ORGANIC (MG/L)
(
TOTAL SUSPENDED SOLIDS (MG/L)
(
AMMONIA (AS N) (MG/L)
BROMIDE - (MG/L)
(
TOTAL CHLORINE (MG/L)
(
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
(
NITROGEN. ORGANIC - (MG/L)
(
OIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
(
SULFATE - 504 (MG/L)
(
SULFIDE (MG/L)
SULF ITE - (MG/L)
(
MBAS (MG/L)
(
ALUMINUM. TOTAL - AL (MG/L)
BARIUM - BA (MG/L) z BORON. TOTAL - B (MG/L)
(
COBALT. TOTAL - CO (MG/L)
IRON. TOTAL - FE (MG/L)
CAGNES!UM MG (MG/L) 1 COLYdDENUM. TOTAL - MO (MG/L)
CANGANESE. TOTAL MN (MG/L)
TIN. TOTAL - SN (MG/L)
)
PiGE 66 ALABAMA POWER COMPANY ST4TISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT
(
PLANTS FARLEY NUCLEAR
.LDCATJtWs DNCE THRDdGH EQUIPMENT C(x) LING - UNIT I b SCHdRGE PdINTs 00ld TEST C(*POSITE FOR 24 h00RS I.ONG TERM DAT (GR B SiO LE)
MEAN(MG/L)
NO M ASS ( PPD)
MEAN fMG/LJ STD DEV NO RANGE (MASSIPPD)
TITANIUM, TOTAL - TI (MG/L)
(
ANTIMONY, TOTAL - SB (MG/L)
ARSENIC. TOTA' - AS (MGit.)
(
BERfLLIUM, TOTAL - BE (MG/L) i CADMIUM, TurAL - CD (MG/L)
CHROMIUM, TOTAL - CR (MG/L)
(
COPPER TOTAL - CU (MG/L)
C LEAD. TOTAL - PB (MG/L)
(
KEROURY TOTAL - HG (MG/L)
NICKEL TOTAL - NI (MG/L )
(
SELENIUM, TOTAL - SE (MG/L)
SILVER, TOTAL - AG (MG/L)
(
THALLIUM, TOTAL - TL (MG/L)
(
ZINC, TOTAL - ZN (MG/L)
CYANIDE - (MG/L)
(
PHENOLS (MG/L)
(
(
(
(
t
)
(
ALAB AMA POWER C(WPANY STATISTICAL.111 STORY OF THE NPDES DATA FR(W THE YEAR 1975 TO PRESENT PLANT 8 FARLEY. NUCLEAR LOCATIONS ONCE THROUGH EQUIPMENT C(X) LING - UNIT I DISCHARGE POINTS 00lA COMPOSITE FOR 24 HOURS TEST
.p MEAN(UG/L)
NO MASS (PPD),,
3, 4
i ACROLEIN (UG/L) i ACRYLONITRILE (UG/L)
BENZdNE (UG/L)
BIS (CHUIROMETHYL) ETHER (UG/L)
I BRO:0F(NM (UG/L)
CARBON TETRACHLORIDE (UG/L)
CHL(M0 BENZENE (UG/L)
CHLORODIBROM0 METHANE (UG/L)
CHL(M0 ETHANE (UG/L) i 2-CHLOR 0ETHfLVINL ETHER (UG/L)
- CHLOROFORM (UG/L)
DICHLORodROMOMETHANE (UG/L)
DICHLORODIFLUOROMETHANE (UG/L) 1.1-DICHLOR0 ETHANE (UG/L) 1.2-DICHLORohTHANE (UG/L) 1,1-DICHLOR0 ETHYLENE (UG/L)
I,2-DIOfLOROPROPANE (UG/L)
I,2-DICHLOR(WROPYLENE (UG/L)
ETHYLBENZENE (UG/L)
CETHYL BROMIDE (UG/L)
CETHYL CHLORIDE (UG/L)
METH(LENE CHLORIDE (UG/L) 1.1.2.2-TETRACHLOROETHANE (UG/L)
TETRACHLOROETHYLENE (UG/L)
TOLUENE (UG/L) 1
m P GE 68
(
At.AB ANi PonER. CtWPANY STAtiSTfCAL HISTORY (F THE NPDES DATA FHtW THE YEAR 1975 TO PRESENT
(
f.DCATION4 DNCE THROUGH ED P T
X) N - NTi DISCHARGEPO'5NTIddid
(
. TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPD)
(
l.2-TRANS-DICHLOR0 ETHYLENE (UG/L)
I,I,1-TRICHLOR0 ETHANE (UG/L) let.2-TRICHLOR0 ETHANE (UG/L)
(
.TRICHLOR0 ETHYLENE (UG/L)
\\
TRICHLOROFLUURrWETHANE (UG/L)
YINYL CHLORIDE (UG/L)
(
2-CHLOROPHENOL (UG/L)
(
2,4-DICHLOR(WHENOL (UG/L) 2,4-DIM 6fHYLPHENOL (UG/L)
(
4.6-DINITRO-0-CRESOL (UG/L)
(
2,4-DINITRtWHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-NITHOPHd10L (UG/L)
P-CHLORO-M-CRESOL (UG/L)
PENTACHLORtWHENOL (UG/L)
PHENOL (UG/L) 2.4,6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENE (UG/L)
ACENAPHTHYLENE (UG/L) p ANTHRACENE (UG/L)
BENZIDINE (UG/L)
BdNZO (a) ANTHRACENE (UG/L)
BENZO (a) PYRENE (UG/L) 3.4-8ENZDFLUORANTHENE (UG/L)
BENZO.(gnI) PERYLENE (UG/L)
n n
PAGE 69 ALABAMA POWER COMPANY
)
STATISTICAL. HISTORY OF THE NPDFS DATA FROM THE YEAR 3975 TO PRESENT PLANT: FARLEY. N UCLEAR LOCATIONS.ONCE.IHROUGH EQUIPMENT COOLING - UNIT I DISCHARGE POINTf ODIA TEST COuPOSITE FOR 24 HOURS J4E AN(UG/L)
NO M ASS ( PPD)
SENZO (k) FLUORANTHENE (UG/L)
(
BIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L)
(
BIS (2-CHLOROISOPROPYL) ETHER (UG/L)
(
BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROMOPHEN(L PHENYL ETHER (UG/L)
{
BUTYL BENZYL PHTHALATE (UG/L)
(
2-CHLORONAPHTHALENE (UG/L) 4-CILOROPHENYL PHENYL ETHER (UG/L) i CHHYSENE (UG/L)
(
DIBENZO (a.h) ANTHRACENE (UG/L) l.2-DICHLOROBENZENE (UG/L)
I.3-DICHLOROHENZENE (UG/L)
(
la4-01CHLOWodENZENE (UG/L) 3 3'-DICHLOROBENZlDINE (UG/L) 0 DIETHYL PHTHALATE (UG/L)
(
DIMETHYL PHTHALATE (UG/L)
DI-N-dUTYL PHTHALATE (UG/L)
(
l l
2.4-DINITRUTOLUENE (UG/L) t l
2oG-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) f 1.2-DIPHENYLHYDRAZINE( AS AZDBENZENE)
FLUORANTHENE (UG/L)
FLU 0dENd (UG/L)
HEXACHLOROBENZENE (UG/L)
^
PAGE 78
(
ALABAMA PIMER. QWPANY STATISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT
(
PLANTi F ARLEY NUCLEAR.
LOCATIO45 ONCE T)ft00GH EQUIPMENT COOLING - UNIT I D35CHA90EPli1Nis, 00lA
. TEST C(WPOSITE FOR 24 It)URS JiEAN (UG/L)
No MASS (PPD 3 4
HEXAct.(RUBUTADIENE (UG/I.)
HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L)
INDEN0 (1.2.3-cd) PYRENE (UG/L)
JSUPHuRONE (UG/L)
. NAPHTHALENE (UG/L)
NITH0 BENZENE (UG/L)
N-NITROSODIMETHYLAMINE (UG/L)
N-NITHOSODI-NwPROPYLAMINE (UG/L)
N-N!TROSODIPHENYLAMINE (UG/L)
PHENANTHRENE (UG/L)
. PYRENE (UG/L) 1.2.4-THICHLOH0 BENZENE CUG/L)
.e 0
m PAGE ?!
ALABAMA PimER. COMPANY
. STATISTICAL HIST (NtY OF THE. NPDES DATA FRtM6 THE YEAR 1980 TO PRESENT i
PLANT 4 FARLEY NUCLEAR LOCATI(We ONCE THROUGH EQUIPMENT COOLING. UNIT 2 DISCHARGE POINT 4 0088
. TEST - UNIT COMPOSITE FOR 24 HOURS-LONG TERM DATA (GRAB SAMPLE)
MEAN No MEAN
..STD DEV No dAX MIN
(
FUM IMGD) 32.2794 18.3750 943 94.1500 0.
(
TEMPERATURE (DEG C) 29.9700 2.4968 30 34.5000 23.3000 Pri
(
COLOR (PCU )
i
(
FECAL COLIFORM (ORG./100ML)
RAD 10 ACTIVITY. TOTAL ALPHA PCa/
(
RADIOACTIVITY. TOTAL BETA PCa/L
(
RADIOACTIVITf. TOTAL RADIUM PCs RADIDACTIVITY. TOTAL RADIUM 226
(
(
(
(
(
i 1
~
k GI! '/2 JU 5BAM A ptMEli COMPANY STt.flSTICAL HISTORY OF THE NPDLS DATA FRt* THE YEAR 1980 TO PRESENT
(
PLANTS FARLEY NUCLEAR LOCATJONC (WCE THRDOGH EQUIPMENT COOLING - UNII 2 bjSCHAliGE POINTI 00i8'
(
TEST COMPOSITE FOR 24 HOUNS
, f '.
'I'ONG TERM' DETA (DRAB SAMPLE),
MEAN(MG/L)
NO NASS(PPD)
MEAN(MG/L)
STD DEV
. NO RANGE (MASS (PPD)
(
CDD (MG/L)
(
C00 - CHEMICAL OXYGEM DEMAND (M CARB(m. URGANIC (MG/L)
(
TOTAL SUSPENDED SOLIDS (MG/L)
AMMONIA fAS N) (MG/L)
BROAIDE - (MG/L)
(
TOTAL CHLORINd (MG/L)
(
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
(
NITROGEN.tMGANIC - (MG/L)
(
DIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
(
SULFATE - SO4 (MG/L)
(
SULFIDd (MG/L)
SULFITE - (MG/L) i CBAS (MG/L) t ALUMINUM TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
BORON. TOTAL - B (MG/L)
COBALT TOTAL - CO (MG/L)
IRON. TOTAL - FE (MG/L)
CAGNESIUM MG (MG/L)
COLYBDENUM. TOTAL - Mo (MG/L)
MANGANESE. TOTAL MN (MG/L)
TIN. TOTAL - SN (MG/L)
m AL ABAM A PIMER. CtWPANY 13 PAGE STATISTICAL HISTORY OF THE NPDES DATA FRtm THE YEAR 1960 To PRESENT PLANTA FARLEY. NUCLEAR U)CATJima 1*CE THROUGH EQUIPMENT C(X) LING. UNIT 2 DISCHARGE POINTa 0018 TEST COMPOSITE FOR 24 HOURS
. Lt*G TERM DATA (GRA8 SAMPLE)
MEAN(MG/L)
NO M ASS ( PPD)
MEAN IMG/L)
STD DEV
. NO RANGE ~
4 MASS (PPD)
(
TITANIUM. TOTAL - T1 (MG/L)
(
ANTIMONY. TOTAL - SB (MG/L)-
ARSENIC. TOTAL - AS (MG/L)
BERYLLIUM. TOTAL - BE (MG/L)-
(
CADMIUM. TOTAL.- CD (MG/L)
CHWOMIUM. TOTAL - CR (MG/L) z
. COPPER. TOTAL - CU (MG/L)
LEAD. TOTAL - PS (MG/L)
CERCURY. TOTAL - HG (MG/L)
(
e
. NICKEL. TOTAL - NI (MG/L)
I SELENIUM. TOTAL - SE (MG/L)
SILVER. TOTAL - AG (MG/L)
THALLIUM. TOTAL - TL (MG/L)
I ZINC. TOTAL - ZN (MG/L)
CYANIDE - (MG/L) t PHENULS (MG/L)
(
(
f
(
3
PAGE 75 ALABARA POWER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1980 To PRESENT
(
PLANTS FAHLEY NJCLEAR LOCATIONS ONCE THROUGH EQUIPMENT C(x) LING - UNIT 2 diSCHAR'GE. PdiNTs, 0018
(
TEST COMPOSITE FOR 24 HOURS
- #EAN(UG/L)
NO M ASS ( PPD),,,
(
ACROLEIN (LTG/L)
ACRYLONITRILE (UG/L)
BENZENE (UG/L)
BIS (CHLOR 0 METHYL) ETHER (UG/L)
(
BROM0 FORM (UG/L)
CARBON TETRACHLORIDE (UG/L)*
(
CHLOR 08ENZENE (UG/L)
(
CHLOHODIBROM0 METHANE (UG/L)
(
CHLOR 0 ETHANE (UG/L) e 2-CHLORDETH(LVINL ETHER (UG/L)
CHLOHOFORM (UG/L)
DICHLORodROM0 METHANE (UG/L)
DICHLORODIFLUOROMETHANE (UG/L)
I,1-DICHLOR0 ETHANE (UG/L) 1,2-0ICHLOR0 ETHANE (UG/L)
I,1-DICHLOROETHYLENE (UG/L)
I,2-DICHLOR0 PROPANE (UG/L) 1,2-DICHLOROPROPYLENE (UG/L)
ETHYLBENZENE (UG/L)
METHfL BROMIDE (UG/L)
METH(L CHLORIDE (UG/L)
METHYLENE CHLORIDE (UG/L)
I,I 2,2-TETWACHLOROETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TULUENE (UG/L) l
~
PAGE 75
. ALABAMA POWER C(MPANY STATISTICAL HISTORY OF THE NPDES DATA FHim THE YEAR 1980 To PRESENT PLANTS FARLEY NUCLEAR LDCATIONs UNCE THROUGH EQUIPMENT C(x) LING - UNIT 2 DISCHARGE POINT
OGI8 TEST CtWPOSITE FOR 24 HOURS MEAN(UG/L)
No MASSIPPD)
(
l,2-fRANS-DICHLORDETHYLENE (UG/L)
I,I,1-TRICHLOR0ETHANd (UG/L)
I,1,2-Td! CHLOR 0 ETHANE (UG/L)
TRIC:ttod0 ETHYLENE (UG/L)
C TRICHLOHOFLUOR(WETHANE (UG/L)
VINYL CHLORIDE (UG/L)
. 2-CHLOROPHENOL (UG/L3 2.4-DICHLOROPHENOL (UG/L) 2,441METHfLPHeiNOL (UG/L) 4,6-DINI rWO-0-CRESOL (UG/L)
+
(
2,4-DINITWOPHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-Nl[ROPHENUL (UG/L)
P-CHLORO-d-CRESOL (UG/L)
PENTACHLOHOPHENOL (UG/L)
PHENOL (UG/L) 2,4.6-TWICHLOHOPHENOL (UG/L)
ACENAPHTHENE (UG/L)
ACENAPHTHYLENE (UG/L)
AN THR ACEN E (UG/L)
BENZIDINE "UG/L)
BENZO (a) ANTHRACENE (UG/L)
BENZO (a) PYWENE (UG/L) 3.4-BENZDFLUORANTHENE (UG/L)
BENZO (ght) PEHfLENd (UG/L) t 4
4 n
PAGE I4 dl.ASAMA POWER COMP 5NY STATISTjCAL HISTORY OF TPE NPDES DATA FROM THE YEAR 1980 TO PRESENT
(
PLANrs FARLEY NUCLEAR.
f.DCATIONI.hMCE TjetA/G5f. EQUIPMENT COOLING - UNIT 2
. DISCHARGE POINTS 00l8
(
NEAN
/L 3
M S (FPdj
(
SENZO (k) FLUORANTHENE (UG/L)
(
SIS (2-CHLokOETH0XY) METHANE (UG/L)
BIS (2-CHLOROLTHYL) ETHER (UG/L)
(
BIS (2-CHLt*0lS0 PROPYL) ETHER (UG/L)
(
BIS (2-ETHfLHEXfL) PHIHALATE (UG/L) 4-8 ROM 0PHENYL PHENYL ETHER (UG/L)
(
BUTYL BENZfL PHTHALATE (UG/L)
(
2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLuROPHENfL PHENfL ETHER (UG/L)
(
CHRYSiNE (UG/L)
I DIHENZO (a.h) ANTHRACENE (UG/L)
I,2-01CHLORodENZENE (UG/L)
L.3-DICHL(WOdENZENE (UG/L)
I,4-DICHLOROBENZENE (UG/L) 3,3'-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATd (UG/L)
Di% ETHYL PUIHALATE (UG/L)
DI-N-dUTYL PHTHALATE (UG/L) 2,4-DINITRaf0LUENE (UG/L) 2,6-DINITH0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) 1,2-DIPHENYLHYDRAZINE( AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUORENE (UG/L)
HEXACHLOROBENZENE (dG/L) e
[
PAGE 77 ALABANA POWER. CIWPANY STATISTICAL HISTORY OF THE NPDES DATA FR(m THE YEAR 19tto To PRESENT i
PLANTS FARLEY NUCLEAR LIX:ATI(Ws (WCE THROUGH EQUIPMENT C(xlLING - UNIT 2 DISCHARGE POINTS 001B
(
TEST COMPOSITE FOR 24 IEXJRS MASS PPD)
(
M EAN (UG/L)
NO I
HEXACKLOROBUTADIENE (UG/L)
(
HEXACHLOROCYCL(WENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L)
[
i JNDENO (l.2.3-cd) PYRENE (UG/L)
(
ISOPHORONE (UG/L)
NAPHTHALENE (UG/L) 4 NITR06ENZENE (UG/L)
N-NITROSODIMETHYLAMINE (UG/L) 4 N-NITROSODI-N-PROPYLAMINE (UG/L)
N-NITHOSODIPHEN(LAMINE (UG/L) i PHENANTHRENd (UG/L)
PYRENE (UG/L) 1 2.4-THICHLORotlENZENE (UG/L3 0
I.
t
]
e
PAGE 7$
.. ALABAMA PIMER COMi8kNY STAT!STICAL HISTORY OF THE NPDES D4TA FRtw THE YEAR 1975 To PRESdNT
(
PLANT 4 F ARLEY NUCLEAR LOCATJON4 MASTE ' SETTLING POND UfSCHdRGE PolNTI 005"
(
_ TEST I UNIT COMPOS ITE FOR 24 HobRS LONG TERM DATA (GRAB SAMPLE)
MEAN NO MEAN
. STD DEV
. NO MAX MJN
(
FL(M IMOD) 0.2437 0.7090 196 9.0200 0.
TEMPERATURE (DEG C)
PH 7.6019 0.7778 182 10.8800 5.2100
(
COLOR (PCU)
FECAL COLIFORM (ORG./lOOML)
RADIDACTJVITY TOTAL ALPHA PCs/
(
RADI0 ACTIVITY TOTAL BETA PCs/L i
RADI3 ACTIVITY. TOTAL RADIUM PCJ RADIOACTIVITY TOTAL RADIUM 226
(
(
(
(
(
(
4
(
.I s
^
(
ALABAMA PONER COMPANY STATISTICAL. HISTORY OF THE NPDES DATA FRtW THE YEAR 1975 TO PRESENT
(
PLANTS FARLEY NUQ. EAR LOCATION: MASTE SETTLING. POND DISCHARGE Po!NT4 005
(
LONG TERM DATA (GRAS SAMPLE)
TEST COMPOSITE FOR 24 HOURS MEAN(MG/L)
. NO MASS (PPD)
MEAM(MG/L)
STD DEV NO RANGE (MASS (PPD) i BOD (MG/L)
(
Q)D - CHEMICAL OXYGEN DEMAND (M t
(
'"t*
2 1
CARBON, ORGANIC (MG/L) 6.4778 6.I775 ISO 39.0000 13.2 TOTAL SUSPENDED SOLIDS (MG/L)
(
AMMUNIA (AS N) (MG/L) tWOMIDE - (MG/L)
TOTAL CHLORINE (MG/L) t FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
F NITROGEN,0RGANIC - (MG/L)
I.2776 0.9471 ISO II.2000 2.6 OIL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
SULFATE - SO4 (MG/L)
SULF (DE (AG/L)
SULF ITE -- (MG/L)
.CBAS (MG/L)
ALUMINUM, TOTAL - AL (MG/L)
BARIUM - BA (MG/L)
BORON, TOTAL - B (MG/L)
COBALT, TOTAL - CD (MG/L)
IRON TOTAL - FE (MG/L)
MAGNESIUM MG (MG/L)
MOLYBDENUM, TOTAL - MO (MG/L)
CANGANESE, TOTAL MN (MG/L)
TIN. TOTAL - SN (MG/L)
^
EIGE 80
(
i AI.h8AMA PonER COMPiNY
.. StiTISTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1975 To PRESENT
(
PLANT 4 FARLEY NUCLEAR
'OCATION: WSTE SETTLING POND DkSCHARGE POINTS 005 L
i.ONGTERMDATA(GRkBSAMPk.E)'
TEST COMPOSITE FOR 24 HOURS MEAN(MG/L)
NO M ASS.( PP D)
MEAN(MG/L$
STD DEV NO RANGE (MASS (PPD) t TITANIUM. TOTAL - TI (MG/L) 4 ANTIMONf. TOTAL - SS (MG/L)'
. ARSENIC, TOTAL - AS (MG/L)
BERYLLIUM. TOTAL - BE (MG/L)
CADMIUM. TOTAL.- CD (MG/L)
CHROMIUM. TOTAL - CR (MG/L)
. COPPER. TOTAL - CU (MG/L)
LEAD. TOTAL - PB (MG/L)
CERCURY. TOTAL - HG (MG/L)
NICKEL. TOTAL - NI (MG/L)
SELENIUM, TOTAL - SE (MG/L)
SILVER. TOTAL - AG (MG/L)
THALLIUM. TOTAL - TL (MG/L)
ZINC. TOTAL - ZN (MG/L)
CYANIDE - (MG/L)
PHENULS (MG/L)
/
0 9
I
/
[ ()
^
m
[c 1
PAGE 81 4
. ALABAMA P(ME3 C(WPAhY
~
STATISTICAL HISTORY.0F THE NPDES DATA FRod THE YEAR 1975 To PRESENT <
_{
I PLANT: F ARLEY NUCLEAR LOCATI(*a WASTE SETTLING POND DJSCHARGE' POINT 4 005 COMPOSITE FOR 24 HOURS
.,3 TEST MEAN(UG/L)
NO MASS (PPD),,
g, ACROLEIN (UG/L)
(
ACRYLONITRILE (UG/L)
BENZENE (UG/L)
{
BIS (CHIJWodETHYL) ETHER (UG/L) b BRudOFORd (I;G/L )
CARBON TETRACHLORIDE (UG/L)
{
CHL(WOBENZENE (UG/L)
(
CHLtRODIBRododETHANE (UG/L)
CHLOR 0 ETHANE (UG/L) 2-CHLOR 0ETHfLVINL ETHER (UG/L)
(
CHLtMuFORM (UG/L)
DICHLORIMR0dOMETHANE (UG/L)
(
DICHL(M00lFLUORUMETHANE (UG/L)
{
l.1-DICHLOR0 ETHANE (UG/L)
I.2-DICHLOR0 ETHANE (UG/L)
I,I-DICHLOROETHfLENE (UG/L)
(
I,2-0! CHLOR 0 PROPANE (UG/L) l,2-0ICHLOROPROPYLENE (UG/L)
ETHYL 8ENZENE (UG/L)
(
CETHYL BRod!DE (UG/L)
CETHYL CHLORIDE (UG/L)
CETHYLENE CHLORIDE (UG/L) i I.I 2.2-TETRACHL(R0 ETHANE (UG/L)
. (
TETRACHLORUETHYLEid !UG/L3 TOLUENE (UG/L)
n h
PIGE di ALAhiMi Pd4ER. COMPANY STATISTICAL _ HISTORY OF THE NPDES D$Ti FROM THE YEAR 1975 To PRESENT
(
PLANT 4 FARLE( NUCLEAR LOCATIONA MASTE SETTLING POND dISCIIERGE PdlNTI DO$
(
TEST COMPOSITE FOR 24 itNjRS MEAN(UG/L)
NO MASS (PPdj q
l.2-TRANS-DICHLOR0 ETHYLENE (UG/L)
I I,1,1-TRICHLORDETHANE (UG/L)
I.I,2-TRICHLOR0 ETHANE (UG/L)
TRICHLOR0 ETHYLENE (UG/L)
.TRICHLodOFLUORodETHANE (UG/L)
VINYL CHLORIDE (UG/L)
(
2-CHLORO /HENOL (UG/L) t 2.4-DICHLOROPHENOL (UG/L) 2.4-DIMiiTHYLPHENOL (UG/L) j 4.6-DINITHO-0-CRESOL (UG/L) 2.4-DINITRtWHENOL (UG/L) 2-NITRovHENot (UG/L) 4-NITROPHENOL (UG/L)
P-CHLORO-M-CRESOL (UG/L) '
i*eiNTACHLORtPHENOL (UG/L)'
PHENDL (UG/L) 2.4,0-TRICHLOR(WHENOL (UG/L)
ACENAPHTHENE (UG/L)
ACdNAPI'1HYLENE (UG/L)
ANTHd ACENE (UG/L)
BENZ! DINE (UG/L)
BENZO (a) ANTHRt.CENE (UG/L)
BENZO (al. PYRENE (UG/L) 3,4-8ENZUELUNANTHENE (UG/L)
BENZO (gni) PERYLENE (UG/L)
ALAB AMA POWER COMPANY STATJSTICAL HISTORY OF THE. NPDES DATA FRoel THE YEAR 1975 TO PRESENT PLANTS FARLEY. NUCLEAR LOCATION 8 RASTE SETTLJNG POND
. DJSCHARGE POINT
005 TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPD) 4 SENZO (k) FLUORAffrHEH2 (UG/L) t BIS (2-CHLOR 0ETH0XY) JIEDf ANE (UG/L)
BIS (2-CHLORohTHYL) ETHER (t*G/L) 4 BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L)
BIS (2-hTHYLHEXYL) PHfHALATE (UG/L) t,-BROMOPHENfL PHENYL ETHER (UG/L)
BUTYL BdNZYL PHTHALATE (UG/L) 2-CHLORONAPHTHALENE (UG/L) 4-CHLOR 0PHENYL PHENYL ETHER (UG/L)
CHRYSENE (UC/L)
DIDENZO (a.h) ANTHRACENE (UG/L) 1.2-DICHLOROBENZENE (UG/L)
I.3-DICHLOROBENZENE (UG/L) 3.4-DICHLOR08ENZENE (UG/L) 3,3'-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DICETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINIIR0f0LUENE (UG/L) 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHfHALATE (UG/L)
I,2-DIPHENYLHYDRAZINE( AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUDRENE (UG/L)
HEXACHLOROBENZENE (UG/L) s J
i PAGE 84
.. ALABAM A POWER CtWPANY STAT!SifCAL HISTORY OF THE MPDES DAid FROM THE YEAR 1975 To PRESENT
(
PLANTi FARLEY NUCLEAR LOCATI(*J NASTE SETTLING POND
') SCHARGE POINTi 005
. TEST C(WP:JSITE FOR 24 Hs!RS MEAN(UG/L)
. NO M ASSIPPlij HEXACHLoh.)BUTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L)
(
INDEN0 (l.2.3-cd) PYRENE (UG/L)
.!SOPHORONE (UG/L)
NAPHTHALENE (UG/L)
(
NITR9 BENZENE (UG/L)
(
N-NITROSODIMETH(LAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L)' '
(
N-N!TROSODIPHENYLAMINE (UG/L)
PHENANTHRENE (UG/L) 5 PYRENE (UG/L)
Io2,4-TRICHLORodENZENE (UG/L)
(
(
(
' t
(
r%
PAGE 85
(
ALABAMA PonER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1930 TO PRESEFT PLANTS FARLEY. NUCLEAR LOCATJON8 LIQUID RAD WASTE-UNIT 2 DISCHARGE POINTS 0098 TEST - UNIT COMPOSITE H)R 24 HOURS..
LONG TERM DATA (GRAS SAMPLE)
MEAN No J4EAN
.. S T D DEV NO MAX MIN FLud AMGD) 0.1010 D.2262 942 2.2907 0.
TEMPERATURE (DD3 C)
PH COLOR APCU)
FECAL COLIFORM (ORG./lOONL)
RADI0 ACTIVITY, TOTAL ALPHA PCs/
RADI0 ACTIVITY. TOTAL BETA PCs/L l
RADIOACTIVITY. TOTAL. RADIUM PCs RADIDACTIVI TY, TOTAL RADIUM 226 1
n g
~
PdGE 86 g
... AbAB AM A Pod ER COMP ANY...
StitIST} CAL HISTORY OF THE NPDES DATA FROM THE YEAR 1980 To PRESENT g
. PLANT 8 F ARLEY NUCLEIs4 LOCATION:. LIOUfD RAD MASTE-UNIT 2 DISCHARGE POINT 8 OG98 g
TEST COMPOSITE FOR 24 HOURS LONG TERM DATA' (DRAB SAMPLE)
MEAN(MG/L)
NO MASS (PPD)
MEAN(MG/L)
STD DEV NO RANGE (NASS(PPD)
(
BOD (MG/L) 4 CDD - CHEMICAL OXYGEN ' DEMAND (M CARBON, ORGANIC (MG/L) g TOTAL SUSPENDED SOLIDS (MG/L) 4 AMMUNIA (AS N) (MG/L)
BROMIDE - (MG/L) g TOTAL CHLudINE (MG/L) 4 FLOURIDE - F (MG/L) g NITRITE - NO2 (MG/L)
NITROGEN,0RGANIC - fMG/L) 4 OIL AND GREASE (M2.)
TOTAL PHOSPHORUS - P (MG/L) g SULFATE - Sud (MG/L) 4 SULFIDd (MG/L)
SULFITE - (MG/L) g MBAS (MG/L)
(
ALUMINUM, TOTAL - AL (MG/L)
RARIUM - BA (MG/L) 0 BORON, TOTAL - E (MG/L)
O COBALT, TOTAL - CO (MG/L )
IRON, TOTAL - FE (MG/L) g l
MAGNESilfM MG (MG/L) 00LYbDdNUM, TOTAL
<5 MO (MG/L)
. 0 CANGANESE. TOTAL MN (MG/L) g TIN. TOTAL - SN (MG/L) 0
A m
PAGE Cl ALABAMA PonER. CtMPANY STATISTICAL.filSIORY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT PLANTS FARLEY NUCLEAR LDCATION: LIQUID RAD.uASTE-UNIT 2 DISCHARGE P41NTf 0098 TEST COMPOSITE FOR 24 HOURS LONG TERM DAT/.(GRAB SAMPLE)
MEAN(MG/L)
NO M ASS (PP D)
MEAN(MG/L). STD DEV NJ RANGE (MASS (PPD)
TITANIUM TOTAL - TI (MG/L)
ANTIMONY. TOTAL - SS (MG/L)
.. ARSENIC. TOTAL - AS (MG/L)
BERYLLIUM. TOTAL - BE (4G/L)
CADMlUM. TOTAL - CD (MG/L)
CHROMIUM. TOTAL - CR (MG/L)
COPPG. TOTAL - CU (MG/L)
LEAD. TOTAL - PB (MG/L)
MERCURY. TOTAL - HG (MG/L)
NICKEL. TOTAL - NI (MG/L)
SELENIUM TOTAL - SE (MG/L)
SILVER. TOTAL - AG (MG/L)
THALLIUM. TOTAL - TL (dG/L)
ZINC. TOTAL - ZN (MG/L)
CYANIDE a (MG/L)
PHENOLS (MG/L) 1 0
I l
's
!D s
,n
~
PAGE 86 ALAB AMA PIMER C(WPANY STATISTICAL. HISTORY OF THE NPDES DATA FR(* THE YEAR 1980 TO PRESENT PLANTS.FARLEY NUCLEAR LOCAT!!*i. LIQUf D RAD NASTE-UNIT 2 DlSCHARGE POINTS, 009d
~
. TEST COMPOSITE FOR 24 HDURS MEAN(UG/L)
NO MASS (Pf'D),,
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZEt4E (UG/L)
BIS (CHLOR (WETHYL) ETHER (UG/L)
BH(WOFORM (UG/L)
CARBON TETRACHLORIDE (U,G/L)
CHLOR 0 BENZENE (UG/L)
CHL(MODIBR(WOMETHANE (UG/L)
CHLOR 0 ETHANE (UG/L) 2-CKLOROETHfLVINL ETHER (UG/L)
CHLOROFORM (UG/L)
DICHLORudRomoh6THANT (UG/L)
DICHLORODIFLU(W(WETHANE (UG/L)
I,1-DICHLOR0 ETHANE (UG/L) 102-0!CHL(MOETHAt:E (UG/L) 1.1-DICHLOR0 ETHYLENE (UG/L) i l
1.2-DICHLOROPRor'ANE (UG/L)
I.2-01CHLOROPHOPYLENE (UG/L)
ETHYLBENZENE (UG/L)
METHYL HROMIDE (UG/L)
METHYL CHLORIDE (UG/L)
C' ETHYLENE CHLORIDE (UG/L) lol.2.2-TETWACHLOR0 ETHANE (UG/L)
TETRACHLOROETHfLENE (UG/L) t IOLusiNE (UG/I.)
i
PAGE 89 ALAB AMA POWER. CtWP ANY STATISTICAL tlISTORY OF THE NPDES DATA FRt* THE YEAR 1980 To PRES: NT PLANTS FARLEY NUCLEAR LOCATJON4 LIQUIG 2AD MASTE-UNIT 2 DISCHARGE POINTS 0098 TEST COMPOSITE FOR 24 HOURS MEAN(UO/L)
NO MASSIPPD)
(
l.2-TRANS-01 CHLOR 0 ETHYLENE (UG/L)
(
1.1.1-TRICHLOR0 ETHANE (UG/L)
I,1,2-T91 CHLOR 0 ETHANE (UG/L) z TRICHLORDETHfLENE (UG/L)
(
TRICHLOROFLuuROMETHANu (UG/L)
VINfL CHLORIDE (UG/L) 4 2-CHLOROPHENOL (UG/L)
(
2,4-DICHLOROPHENGL (UG/L) 2,4-DIMETHYLPHENOL (UG/L)
I f
4,6-CINITRO-0-CRESOL (UG/L) 2,4-DINITROPHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-NITHOPHENOL (UG/L)
P-CHLORO-m-CHESOL (UG/L)
PENTACHLOROPHENOL (UG/L3 PHENOL (UG/L) 2,4,6-TRICHLOROPHENGL (UG/L)
ACENAPHTHENE (UG/L)
ACENAPHTHYLENE (UG/L)
ANTHRACEr4E (UG/L)
BENZIDINE (UG/L)
BENZO (a) ANTHRACENE (UG/L) r BENZO (a) PYHENE (UG/L) 3,4-BENZOFLUORANTHENE (UG/L)
BENZO (ghl) PERYLENE (UG/L)
?
ALABAMA PonER. COMPANY
)
. STATlSTICALJf! STORY (F THE NPDES DATA FROM THE YEAR 1980 TO PRESENT LOCATIONi LIQU D RID' WAST -U D$SCHARGE.PdiNI5 dD98 i
TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
No NASS(PPD 3 4
BENZO (It ) FLUORANTHENE (UG/L)
. BJS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UCA.)
BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L)
BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROM0PHENYL PHENYL ETHER (UG/L)
BurYL HENZ(L PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L) 0-CHLOR 0PHENYL l'HENYL ETHER (UG/L)
CHRYSENE (UG/L)
DIBENZO (a.h) ANTHRACENE (UG/L)
I 2-DICHLOR0 BENZENE (UG/L) 0 1,3-dICHLOR0 BENZENE (UG/L)
Io4-DICHLORodENZENE (UG/L)
J,3'-DICMLOROBENZlDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DIMETHYL PJTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,0-DINITRUTOLUENE (UG/L) 2.6-DINITR000LUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) 1 2-DIPHENYLHYDHAZINE( AS AZ0 BENZENE) 0 FLUORANrtIENE (UG/L)
FLUORENE (UG/L)
HEXACHLOROBENZENE (UG/L)
\\
I ALABAMA PonER.O MPANY
. STATISTICAL HISTORY OF THE NPDES DATA FH(* THE YEAR 1980 TO PRESENT PLANT s. F ARLEY. NUCLEAR LOCATIONS. LIQUID RAD MASTE-UNIT 2 DISCHARGE POINT 8 0098
. TEST C(WPOS11E FOR 24 Il00RS ME AN (UG/ L)
NO MASS (PPD)
HEXACHLOR0BUTADIENE (UG/L) i HEXACHLOROCYCLOPENTADIENE (UG/L1 HEXACHLOR0 ETHANE (UJ/L)
INDEN0 ( l. 2. 3-c d) PYRENE (UG/L)
JSOPHORONE (UG/L)
NAPHTHALENE (UG/L)
+
NITRodENZENE (UG/L)
.N-NITRO OS DIMETHf!> DINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L) s e
N-NITROSODIPHENYLAMINE (UG/L)
D PHENANTHRENE (UG/L)
PYRENE (UG/L) 3 lo2.4-TRICHLOROBENZENE (UG/L) o
'a
{)
l lD D
l I
l t
l r
-=
PEGE 9)
/LABM A PonER. 01M#$NY
_ STAT!STICA!. HISTORY OF THE NPDES DATA FR(W ;iiE YEAR 1975 fu PRESENT PLANTi FARLEY LOCATIOW LON VOLUME ONCE THROUGH C(X) LING d'fSCHARGE P0'INis O'30' TEST - UNIT COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
MEAN No MEAN STD DEV NO MAX MIN FLod IMGD) 0.5686 0.0001 647 0.5700 0.5685 TdMPERATURE (DEO C) 32.9241 2.0853 22 36.3000 29.5000 PH COLOR IPCU)
FECAL COLIFORM (ORG./100ML)
RADI0 ACTIVITY. TOTAL ALPHA PCa/
RADI0 ACTIVITY, TOTAL BETA PCs/L RADIDACTIVIIf. TOTAL RADIUM PCs RADI0 ACTIVITY TOTAL RADIUM 226 e
i 1
I l
I I
I I
I e
eM1 PAGE 03 ALABAM A PodER. QWPANY
. STATISTICAL HISTORY OF THE NPDES DATA FROM THE YEAR 1975 TO PRESENT PLANT 4 FARLEY LOCATIONa LOW VOLUME UNCE THROUGH COOLING DISCHARGE POINTf Q10 TEST COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
MEAN(MG/L)
NO MASS OPD).
MEAN(MG/Lb,-.STD DEV NO RANGE,,
(MASS (PPD)
=
BOD (MG/L)
COD - CHEMICAL OXYGEN DEMAND (M CARBON. ORGANIC (MG/L)
TOTAL SUS / ENDED SOLIDS (MG/L)
AMMONIA (AS N) (MG/L )
BROMIDE - (MG/L) l TOTAL CHLOHINE (MG/L)
FLOURIDE - F (MG/L)
NITRITE - NO2 (MG/L)
P N ITROGEtl.0HGANIC - (MG/L)
OJL AND GREASE (MG/L)
TOTAL PHOSPHORUS - P (MG/L)
SULFATE - 504 (MG/L)
SULFIDE (M0/L)
SULFITE - (MG/L)
MBAS (MG/L)
Al.UMINUM. TOTAL - AL (MG/L)
BARIUM - BA (MG/L) 0 BORON TOTAL - 8 (MG/L)
COBALT, TOTAL - CD (MG/L)
IRON. TOTAL - FE (MG/L)
'O MAGNESIUM MG (MG/L)
D 00LYBDENUM. TOTAL - MO (MG/L)
MANGANESE. TOTAL MN (MG/L) i TIN. TOTAL - SN (MG/L)
PAGE 90 ALABAMA POWER CtWPANY STATISTICAL HISTORY OF THE. NPDES DATA FR(* THE YEAR 1975 TO PRESENT PLANT: FARLEY LOCATION 8 LOW VOLUME ONCE 1HROUGH CtX) LING DjSCHARGE POJNTi d10 TEST
. COMPOSITE FOR 24 HOURS i.ONG TEHM DATd (GRAS SAMPI.E$
REAN(mG/L)
NO MASS (PPDi M EAN(MG/l3 STD DEV NO RANGE (MASS (PPD)
TITANIUM, TOTAL - TI (MG/L)
ANTIMONY. TOTAL - SB (MG/L)
ARSENIC. TOTAL - AS (MG/L)
BERYLLIUM, TOTAL - BE (MG/L)
C ADM IUM, TOTAL. - CD (MG/L)
CHROMIUM, TOTAL - CR (MG/L)
COPPER, TOTAL - CU (MG/L)
LEAD. TOTAL - PB (MG/L) kERCURY. TOTAL - HG (MG/L)
NICKEL. TOTAL - NI (MG/L)
SELdNIUM, TOTAL - SE (MG/L)
SILVER, TOTAL - AG (MG/L)
THALLIUM, TOTAL - TL (MG/L) 2.INC TOTAL - ZN (MG/L)
CYANIDs - (MG/L) t PHENOLS (MG/L) 9
'l
!)
~
4 J
.s
PAGE 95
.. ALABAMA POWER. C(WPANY STATISTICAL }{ISTORY OF THE NPDES DATA FR(* THE YEAR 1975 TO PRESENT 1
PLANTS F ARLEY i
LOCATION LON VOLUME INCE THROUGH C00 LING DISCHARGE POINT 4 010 COMPOSITE FOR 24 HOURS
. TEST i
..s MEAN(UG/L)
No M ASS (PPD):,
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZENE (UG/L) i BIS (CHLOR 0 METHYL) ETiiER (UG/L)
BR(WOFORM (UG/L) l CARBON TETRACHLORIDE (UG/L)
CHLOR 0 BENZENE (UG/L)
CHLORODIBR(WOMETHANE (UG/L)
CHL(H0 ETHANE (UG/L) 2-CHLOR 0ETHYLVINL EIHER (UG/L)
CHLOROFORM (UG/L)
DICHLORodROM0 METHANE (UG/L)
DICHLORODIFLUOROMETHANE (UG/L)
I,1-01 CHLOR 0 ETHANE (UG/L)
I.2-DICHLOR0 ETHANE (UG/L)
I,1-DICHL(M0 ETHYLENE (UG/L)
I,2-DICHLOR0 PROPANE (UG/L)
I,2--DICHLOR0 PROPYLENE (UG/L) i ETHYLBENZENE (UG/L)
METHYL BROMIDE (UG/L)
METHYL CHLORIDE (UG/L) i METHYLENE CHLORIDE (UG/L)
I, l.2.2-T ETR ACHLOR0ETH ANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L) i TOLUENE (UG/L)
PAGE 96 f
Af.ABAM A Poster COMPANY STATISTICAL, HISTORY OF THE NPDES bATA FROM THE YEAR 1975 TO PRESENT 4
PLANTS FARLEY LOCATJDNs f.(M VOLUME ()NCE THROUGH C(x3 LING D'lSCHARGE point 4 010 t
. TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPDf I,2-TRANS-DICHLOR0 ETHYLENE (UG/L)
I,1,1-TRICHLOR0 ETHANE (UG/L) 1.1.2-TRICHLOR0 ETHANE (UG/L)
TRICHLOROETHfLENE (UG/L)
T4ICHL(MOFLUORUMETHANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLOROPHdNOL (UG/L) 2,4-DICHLOROPHENOL (UG/L) 2,4-DIMETHfLPHENOL (UG/L) e 4.6-UINITRO-0-CRESOL (UG/L) 2,4-DINITR(FHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-NITROPH6HOL (UG/L)
P-CHLORO-M-CRESOL (UG/L)-
PENTACHLOROPHENOL (UG/L)
PHENOL (UG/L) 2.4.6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENd (UG/L) i ACtiNAPHTHYLENE (UG/L)
ANTHAACENE (UG/L)
/
BENZIDINE (UG/L)
)
BENZO (a) ANTHRACENE (UG/L)
)
BENZO fa) PYRENd (UG/L) 3,4-BENZ 0FLUORANTHENE (UG/L)
BENZO (ghi) PERYLENE (UG/L)
)
(
I ALAB Al'A Pod ER. C'JMP ANY STATISTICAL HISTORY OF THE NPDES DATA FR(* THE YEAR 1975 TO PRESENT g
PLANTJ FARLEY LOCAT1DNs LON VOLUME DNCE THROUGH C(X) LING DISCHARGE.PUINTs 030 TEST COMPOSITE FOR 24 HOURS 34EAN(UG/L)
NO M ASS ( PPD)
IENZO (k) FLUORANTHENE (UG/L)
I BJS (2-CHLtWOETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L) bis (2-CHLOR 0 ISOPROPYL) ETHER ;UG/L) i BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROM0PHENYL PHENYL ETHER (UG/L)
BUTYL BENZYL PHIHALATE (UG/L) 2-CHLORONAPHfHALENE (UG/L) 1 4-CHLOR 0PHENYL PHENYL ETHER (UG/L)
CHRYSENE (UG/L)
DIBENZO ( a.h) ANTHRACENE (UG/L) 1.2-DICHLOROBENZENE (UG/L)
I,3-DICHLOR0dENZENE (UG/L)
I,4-DICHLORudENZENE (UG/L) 3,3#-DICHLOROBENZlDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DIMETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2.4-DINITH0 TOLUENE (UG/L) 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
I,2-DIPHEN(LHYDRAZINE( AS AZ0 BENZENE)
FLUORANTHErlE (UG/L)
FLU ('RENE (UG/L)
HEXACHLOROBENZENE (UG/L)
P5GE 98 ALABAMA POWER COMPANY STATf STjCAL HISTORY OF THE NPDES DAfA FR(* THE YEAR 1975 To PRESI NT PLANT s F ARLEY LOCATIONd LOW VOLUME ONCE THROUGH COOLING D'ISCHARGE POINTi OIO
(
TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPDi HEXACHLOROBUTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)
I!EXACHI.0!!0 ETHANE (UG/L)
INDEN0 (l,2,3-cd) PYRENE (UG/L)
ISOPHuRONE (UG/L)
. NAPHTHALENE (UG/L)
NJTR0 BENZENE (UG/L)
N-NITROSODIMETHYLAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L)'
N-NITROSODIPHENYLAMINE (UG/L) 4 PHENANTHRENE (UG/L)
';. YRENE (UG/L) 1.2.4-TRICHLOROBENZENE (UG/L) 1 i
(
l l
l s
(
ALABAMA POWER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBER. 1981 PLANT 4 FARLEY NUCLEAk LOCATION: SOUTH YARD DRAIN DISCHARGE POINTS.....
TEST.- UNIT COMPOSITE FOR 24 HOURS.
LONG TERM DATA (GRAB SAMPLE)
M EAN No MEAN STD DEV No MAX
. MJN
(
FLon AMGD) 0.0454 3
(
23.6000 1
. TEMPERATURE (DEG C)
Pri 6.7000 i
COLOR (PCU) 0.5000 1
(
FECAL COLIFORM (ORG./100ML) 140.0000 1
RADI0 ACTIVITY. TOTAL ALPHA PCs/
q RADIDACTIVI TY. TOTAL BETA PCs /L C
HAD10 ACTIVITY. TOTAL RADIUM PCs R ADID AC TI VI T (, TOTAL RADIUM 226 C
i 9
m
(
MdGE 100 g
ALABAMd POWER COMPANY STAT 1Stf CAL HISTORY OF THE, NPDES biTA FOR OCTOBER, 1983
..,,. PLANTS FARLEY. NUCLEAR LOCATIbNs SOUTH YARD DRAIN D1SCHARGE POINTS TEST COMPOSITE FOR 24 1100RS
'[
'LO G TERM DATA'IdRAB SAMPLE)
MEAN(MG/L)
NO M ASS ( PPD)
REAN(MG/L). STD DEV NO RANGE (MASS (PPD)
BOD (MG/L) 1.2000 I
O.5 COD - CHEMICAL OXYGEN DEMAND (M 2.0000 I
O.8 CAR 8ON, ORGANIC (MG/L) 50.0000 4
18.9 TOTAL SUSPENDED SOLIDS (MG/L)
J.0000 I
l.1 AMMUNIA (AS NJ (MG/L) 0.1077 1
O.0 BROM IDE - (MG/L) 0.5000 1
0.2
)
TOTAL CHLORINE (MG/L) 0.0100 1
0.0 t
FLOURIDE - F (MG/L)
O.1252 1
0.0 NITRITE - NO2 (MG/L) 0.0145 1
0.0
)
N ITHOGtiN,0RGANIC - (MG/L)
.0.3491 1
0.1
)
OIL AND GREASE (MG/L) 2.2000 1
0.8 ITUTAL PHOSPHORUS - P (MG/L) 0.0420 1
0.0
)
SULFATE - SO4 (MG/L) 7.7942 1
2.9
')
SULFIDE (MG/L) 0.0100 1
0.0 SULFITE - (MG/L) l.0000 1
0.4
)
CHAS (MG/L) 0.0100 1
0.0
)
ALUMINUM, TOTAL - AL (MG/L) 3.0239 1
1.1 BARIUM - BA (MG/L) 0.1000 1
0.0
)
BORON, TOTAL - B (MG/L)
O.1459 I
O.1
)
COBALT, TOTAL - CO (MG/L) 0.0100 1
0.0 IRON, TOTAL - FE (MG/L) 0.3 777 2
0.1
)
MAGNESIUM MG (MG/L) 1.3896 1
0.5
)
MOLYdDdNUM, TOTAL - MO (MG/L) 0.0100 1
0.0 MANGANdSE. TOTAL MN (MG/L) 0.0300 1
0.0
)
TIN TOTAL - SN (MG/L) 0.5523 1
0.2 D
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iLAB MA POveER CON #ANY STATISTICAL JilSTORY OF THE. NPDES OltA FOR OCTOBER. 1988 c
PLANTi FARLEY. NUCLEAR LOCATION A SOUTH YARD IIRAIN DISCHARGE PdINTI e
TEST CtWPOSITE FOR 24 HOURS.
MEAN(UG/L)
NO MASS (PPD)
e ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZEHE (UG/L) i I
t' BIS (CHLORuMETHYL) ETHER (UG/L)
BROOuFORM (UG/L)
CARBON TEIRACHLORIDE (UG/L)
CHLOR 0 BENZENE (UG/L)
CHL(HODIBROMOMhTHANE (UG/L)
CHLOR 0 ETHANE (UG/L) 2-CHLOR 0ETHYLVINL ETHER (UG/L)
CHLOROFcRM (UG/L)
DICHLORudWOM0 METHANE (UG/L)
DICHLUKODIFLUORUMETHANE (UG/L) l.1-DICHLOR0 ETHANE (UG/L) i I 2-DICHLOR0 ETHANE (UG/L) 0 1.1-DICHLOR0 ETHYLENE (UG/L) 1.2-DICHLOROPROPANE (UG/L)
I.2-DICHLOROPROPYLENE (UG/L)
ETHYLBENZENE (UG/L)
CETHYL BROMIDE (UG/L)
CETHYL CHLORIDE (UG/L)
QETH(LENE CHLORIDE (UG/L)
IoI.2.2-TETRACHLOHOETHANE (UG/L)
IETRACHLOROdTHYLENE (UG/L)
TOLUENE (UG/L)
PAYE 103 ALABAMA POWER CtCPANY
^
STATISTICAL _ HISTORY OF THE NPDES DATA FOR UCTOBER, 1988 PLANTA FARLEY NUCLEAR LOCATION SOUTH YARD DRAIN DISCHARGE POINTf g
TEST CodPOSITE FOR 24 HOURS MEAN(UG/L)
NO M ASSA PPD) 1.2-THANS-01 CHLOR 0 ETHYLENE (UG/L) 1.1.1-TRICHLOR0 ETHANE (UG/L) 1.1.2-TRICHLOR0 ETHANE (UG/L)
THICHLORob7HfLENE (UG/L)
TRICHLOROFLUOROMETHANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLOROPHENOL (UG/L) 2,4-DICHLOROPHENGL (UG/L) 2.4-DIMETHYLPHENOL (UG/L) 4,6-DINITRO-0-CRESOL (UG/L)'
i 2,4-DINITROPHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-NITROPHENOL (UG/L)
P-CHLORO-d-CRESOL (UG/L)
PENTACHLOROPHENOL (UG/L)
PHENOL (UG/L) 2,4,6-TRICHLOROPHENGL (UG/L)
ACENAPHTHENE (UG/L) i ACENAPHTHfLENE (UG/L)
)
ANTHRACENE (UG/L)
BENZIDINE (UG/L)
)
BENZO (a) ANTHRACENE (UG/L)
)
BEN ZO (a).. PYRENE (UG/L) 3,4-BENZUFLUORAtiTHENE (UG/L)
)
BENZO.(ghi) PERYLENE (UG/L) p
ALABAMA PovER COMPidy STATISTTCAL HISTORY OF THE NPDES DATA FOR OCTOBER, 1981 PLANTi FARList NUCLEAR LOCATION 8 SOUTH YAf!3 DRAIN dlSCHARGE.PdINTi TEST COMPOSITE FOR 24 HOURS i
JtEAN(UG/L)
ND MASStPPGJ BENZO (k) FLUORANTHENE (UG/L)
BIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L)
BIS (2-CHLOR 0!SOPROPYL) ETHER (UG/L)
{
i BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROMtWHENYL PHENYL ETHER (UG/L)
BUTYL BENZYL PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOR 0PHENYL PHENYL ETHER (UG/L)
CHRYSENE (UG/L)
DIBENZO ( a.h) ANTHRACENE (UG/t.)
I,2-DICHLORodENZENE (UG/L)
I,3-dICHLOR0 BENZENE (UG/L)
I,4-DICHLOROBENZENE (UG/L) 3,3'-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DI2 ETHYL PHIllALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINITR0 TOLUENE (UG/L) 2,4-DINITROTOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) l.2-DIPHENYLHYDRAZINE( AS AZn3ENZENE)
FLUudANTHENE (UG/L) i FLU 0 dent (UG/L)
HEXACHLOROBENZFNE (UG/L)
(
ALABAMA P(MER C(*PANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBEH, 1983 PLANTS FARLEY NUCLEAR LOCATJGNe. SOUTH YARD DRAlt:
DISCHARGE POINT 4 g
. TEST COMPOSITE FOR 24 HOURS NEAN(UG/L)
NO MASSIPPD)
HEXACHLOR06UTADIENE (UG/L) i HEXACHL(WDCYCLOPENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L3 INDENO (1.2.3-cd) PYRENE (UG/L)-
i ISOPHORONE (UG/L)
. NAPHIHALENs (UG/L)
NITR0 BENZENE (UG/L)
N-NITROSODIMETHYLAMINE (dG/L)
N-RITROSODI-N-PROPYLAMINE (UG/L) i s
N-NITROSODIPHENYLAMINE (UG/L)
PHENANTHRENE (UG/L)
PYRENE (UG/L) i lo2.4-TRICHLORodENZENE (UG/L)
)
l
\\
)
h gr
~
f PAGE 106 ii. BAMA POWER COMPANY STATISTICAL HI3 TORY OF THE NPDES DATA FOR THE MONTHS OF APRIL & OCTOBER. 1988 PLANT: FARLEY NUCLEAR LOCATIONI. UNIT '2' RIVER WATER STRUCTURE SUMP DISCHARGENG'INYs, TEST A UNIT COMPOSITE FOR 24' HOURS' LONG TERM DATA (GRAB SAMPLE)
MEAN NO MEAN STD DEV
. NO MAX MIN FLod AMGD)
O.0174 2
TEMPERATURE (DEG ?J 23.7000 2
PH 6.6750 2
COLOR IPCU)
.5.7500 2
i FECAL COLIFORM (DRG./.100ML)
D.
2 RADI0 ACTIVITY. TOTAL ALPHA PCa/
RADI0 ACTIVITY, TOTAL BETA PCs/L RADI0 ACTIVITY. TOTAL RADIUM PCs RADIOACTIVITY, TOTAL RADIUM 226
)
)
<D
'D 1
D
!D I
D
.. I D
D
o e
i PAGE IC7, ALAB AM A PonER CC'*PANY STATISTICAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL.& OCTOBER. 1984 PLANTe FARLEY NUCLEAR LOCATION: UNIT 2 RJVER MATER STRUCTURE SUMP DISCHARGE POINT 1 LONG TERM DATA (QRAB SAMPLE)
. COMPOSITE FOR 24 HOURS TEST AtHAN(MG/L)
No MASS (PPD)
MEAN(MG/L)
STD DEV NO
RANGE, (MASS 4 PPD)
BOD (MG/L) 0.9500 2
0.1 CUD - CHEMICAL OXYGEN DEMAND (M 7.5495 2
1.1 CARBON, (MGANIC (MG/L) 50.0000 2
7.3 i
TOTAL SUSPENDED SOLIDS (MG/L) 8.5000 2
1.2 0.1377 2
0.0 AMMONIA (AS N) (MG/L) 0.5000 2
0.1 j
BROMIDE - (MG/La TOTAL CHLORINE (MG/L) 0.0100 2
0.0 0.1053 2
0.0 FLOURIDE - F (MG/L)
NI1 RITE - NO2 (MG/L) 0.0180 2
0.0 N ITROGEN,0RGANIC - (MG/L) 0.3217 I
0.0 i
OIL AND GREASE (MG/L) l.4000 2
0.2 TOTAL PHOSPHORUS - P (MG/L) 0.0356 1
0.0 i
SULFATE - SO4 (MG/L) 7.7236 2
I.I I
SULFIDE (MG/L) 0.0189 2
0.0 SULFITE - (MG/L) l.0000 2
0.5 i
MBAS (MG/L) 0.0iOO 2
0.0 l
ALUMINUM. TOTAL - AL (MG/L) 2.2933 2
0.3 UARIUM - BA (MG/L) 0.1000 2
0.0
)
BORON, TOTAL - B (MG/L) 0.0972 2
0.0 COBALT, TOTAL - CD (M3/L) 0.0185 2
0.0 IRON, TOTAL - FE (MG/L) 0.7212 3
0.1 MAGNESIUM MG (MG/L) 1.1992 2
0.2 I
MOLYBDENUM, total - '40 (MG/L) 0.0100 2
0.0 QANGANESE TOTAL MN (MG/L) 0.0386 2
0.0 TIN, TOTAL - SN (MG/L3 0.5303 2
0.I t
n E1GE I05
..ALAB AM A P(MER COMPANY STATISTICAL HISTORY OF THE NPDES Diti FOR THE MONTHS OF APRIL & OCTOBER; IU8I PLANT
FARLEY NUCLEAR 1.0 CATION A UNIT 2 RIVER WATER STRUCTURE SUMP DISCHARGE POINTS, k.ONG TERM DITA IGRdB SAM.Y i TEST COMPOSITE FOR 24 HOURS MEAN(MG/d STD DEV NO RANGE (NASS(PPD)
LE MEAN(MG/L)
No MASS (PPD)
TITANIUM, TOTAL - TI (MG/L) 0.0100 2
0.0 ANTIMONY. TOTAL - SB '(MG/L) 0.0100 2
0.0 ARSENIC. TOTAL - AS (MG/L) 0.0500 2
0.0 BdRfLLIUM, TOTAL - BE (MG/L) 0.0100 2
0.0
)
CADMIUM, TOTAL.- CD (MG/L) 0.0100 2
040 CHROMIUM, TOTAL - CR (MG/L) 0.0500 3
0.0
)
COPPER. TOTAL - CU (MG/L) 0.0101 3
0.0
)
LEAD. TOTAL - PS (MG/L) 0.0100 2
0.0
.tERCURY. TOTAL - HG (MG/L) 0.0004 2
0.0
)
. NICKEL, TOTAL - NI (MG/L) 0.0272 2
0.0
)
SELENIUM, TOTAL - SE (MG/L) 0.0061 2
0.0 SILVER. TOTAL - AG (MG/L) 0.0100 2
0.0 THALLIUM, TOTAL - TL (MG/L) 0.0100 2
0.0
)
ZINC. TOTAL - ZN (MG/L) 0.0261 2
0.0 CYANIDE - (MG/L) 0.1000 2
0.0
)
PHENOLS (MG/L) 0.0100 1
0.0
)
S D
D I
y D
=
~
PAGE 100
)
.. ALABAM A POWER C(WPANY STATISTICAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL & OCTOBER, J988
)
PLANT: FARLEY NUCLEAR
. LOCATIONS UNIT 2 RIVER WATER STRUCIURE SUMP DISCHARGE POINTS
)
TEST COMPOSITE FOR 24 HOURS i
MEAN(UG/L)
NO MASS (PPD),i
)
ACROLEIN (UG/L)
)
ACRYLIMITRILE (UG/L)-
BENZENE (UG/L)
+
BIS (CHLOROMETHfL) ETHER (UG/L)
)
BROM0 FORM (UG/L) i-CARBON TETRACHLORIDE (UG/L) a CHLOR 08ENZENE (UG/L) i
)
CHLORODISR(WOMETHANE (UG/L)
CHLOR 0 ETHANE (UG/L) e' 2-CHLORDETHfLVINL ETHER (UG/L)
)
CHLOROFORM (UG/L)
DICHLOROBROMUNETHANE (UG/L)
DICHLORODIFLUOROMETHANE (UG/L)
)
1,1-DICHLOR0 ETHANE (UG/L) l,2-DICHLOR0 ETHANE (UG/L) 8 I,I-DICHLOR0 ETHYLENE (UG/L)
)
I,2-DICHLOR0 PROPANE (UG/L)
I,2-DICHLOR0 PROPYLENE (UG/L)
ETHYLBENZENE (UG/L)
O CETHYL BROMIDE (UG/L)
CETHYL CHLORIDE (UG/L)
METH(LENE CHLORIDE (UG/L) h I,I.2,2-TETRACHLOR0 ETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TOLUENE (UG/L) b
VEGE l16
.A1.ABAMA POWER COMP' ANT STATISTJCAL HJSTORY OF THE NPDES DATA (98f FOR THE MONTHS OF APRIL & OCTOBER 4 PLANT: FARLEY. NUCLEAR f.0 CATIONS UNIT 2 RjVER NATER STRUCTURE SUMP DISCHARGE POINTS, TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
No M ASS t PPD'l l.2-TRANS-DICHLOR0 ETHYLENE (UG/L)
I I,I,I-TRICHLOR0 ETHANE (UG/L)
I,1,2-TRICHLOR0 ETHANE (UG/L) 1 THICHLOR0 ETHYLENE (UG/L)
)
TRICHLIMOFLUORUMETHANE (UG/L)
VINYL CHLORIDE (UG/L)
)
2-CHLOROPHENOL (UG/L)
)
2,4-0! CHLOR (WHENOL (UG/L) 2,4-DIMETHYLPHENOL (UG/L)
)
4,6-DINITHD-O-CRESOL (UG/L)
)
2,4-DINITRtWHENUL (UG/L' 2-NITHOP.. ENOL (UG/L) 4-NITROPHENOL (UG/L)
)
P-CHLORO-N-CRESOL (UG/L)
PENIACHLOROPHENOL (UG/L)
PHENOL (UG/L)
)
2,4,6-TRICHLOROPHENOL (UG/L)
ACEN APHTHENE (UG/L)
ACENAPHTHYLENE (UG/L)
)
ANTHAACENE (UG/L)
BENZIDINE (UG/L)
)
ScNZO (a) ANIHRACENE (UG/L)
)
BtNZO (a) PYRENE (UG/L) 3,4-BENZOFLUORANTHENE (UG/L)
BENZO Jghi) PERYLENE (UG/L)
PAGE I.)I ALAB AMA POWER. CC"PANY
_ STATISTICAL. HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL & OCTOBER, l98)
PLANTS F ARLEY NUCLEAR LOCATION: UNIT 2 RIVER WATER STRUCTURE SUMP DISCHARGE POINTf TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
. No N ASS ( PPD)
BENZO (k) FLUORANTHENE (UG/L)
BIS (2-CHLOR 0ETH0XY) NETHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHdR (UG/L)
BIS (2-CHLOR 0!SOPROPYL) ETHER (UG/L) i BIS (2-ETHYLHEXfL) PHTHALATE (UG/L) 4-BROMOPHEN(L PHENYL ETHER (UG/L)
)
BUTYL BENZYL PHTHALATE (UG/L)
)
.2-Cl1.ORONAPHTHALENE (UG/L) 4-Cit.OROPHENYL PHENYL. ETHER (UG/LJ
)
CHRYSENE (UG/L)
)
DIBEN ZO (a.h) ANTHRACENE (UG/L)
I,2-DICHLOR0 BENZENE (UG/L)
)
3,3-DICHLOR0 BENZENE (UG/L)
)
I,4-DICHLOROBENZENE (UG/L) 3,3'-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
)
DICETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINITR0 TOLUENE (UG/L)
)
2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
)
I,2-DIPHENYLHYDAAZINE( AS AZOBENZENE)
)
FLUORANTHENE (UG/L)
FLUURENE (UG/L)
HEXACHLOROBENZENE (UG/L) 3
PEGE lii
-.. ALABAMA POWER COMPdNY STAttSTfCAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL & OCTOBERg f98f PLANT: FARLEY. NUCLEAR LOCATJON8 UNIT 2 RIVER NATER STRUCTURE SUMP DISCHARGE PdINt1 TEST COMPOSITE FOR 24 HOURS ALEAN (UG/L)
NO M ASS ( PPD'i HEXACHLOROBUTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLOH0 ETHANE (UG/L)
INDENO (l.2.3-cd) PYWENE (UG/L)
)
ISOPHORONE (UG/L)
NAPiffHAt.ENE (UG/L)
)
NITR0 BENZENE (UG/L)
)
N-NITROSODIMETH(LAMINE (UG/L)
N-NITROSODI-N-PHOPYLAMINE (UG/L)'
N-NITROSODIPHENYLAMINE (UG/L)
)
PHENANTHReiNE (UG/L)
PYRENE (UG/L)
)
1,2,4-THICHLOWOBENZENE (UG/L)
)
)
)
)
)
9 9 9 D
D 1
()
PAGE 113
. ALABAMA P(MER CCPANY STATISTICAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL & OCTOBER, 1988 PLANTS. F ARLEY NUCLEAR LOCATIONS. UNIT I RIVER WATER STHUCTURE SURP DISCHARGE POINTf TEST.- UNIT COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
MEAN NO MEAN
. STD DEV NO MAX MIN FLod IMGD) 0.0253 2
TEMPERATURE (DEG C) 23.4000 2
PH 6.7000 2
COLOR IPCU) 6.5000 2
FECAL COLIFORM (ORG./100ML) 10.0000 2
. RADI0 ACTIVITY. TOTAL ALPHA PCs/
HADI0 ACTIVITY, TOTAL BETA PCs/L RADIOACTIVITY TOTAL RADIUM PCs RADIDACTIVITY. TOTAL RADIUM 226
)
)
)
)
)
)
)
)
)
)
p
PSGE 5 54' s
ALABAMk PodER C(WPANY STAT!STICAL HISTORY OF THE NPDES bATA FOR THE MONTHS OF APRIL & OCTOBERI I95l
)
FARLEY NUCLEAR PLANT:
I.0 CAT 10Ni UNIT i kIVER MATER STRUCTURE SUMP DISCHARGE Po!NTs LONG TERM DkTA IdRAB SAMPLE),
TEST COMPOSITE FOR 24 HOURS REAN(MG/L)
No MASS (PPD)
MEAN(MG/L)
STD DEV No RANGE (M ASS (PPD)
BOD (MG/L) 1.5500 2
0.3
)
C00 - CHEMICAL OXYGEN 'DEM AND (M 7.5495 2
1.6 CARBON. DRGANIC (MG/L) 50.0000 2
10.5
)
TOTAL SUSPENDED SOLIDS (MG/L) 12.5000 2
2.6
)
.AMMUNIA (AS N) (MG/L) 0.'1155 2
0.0 BROMIDd - (MG/L) 0.5000 2
0.1 TOTAL CHLORINE (MG/L) 0.0100 2
0.0
)
FLOURIDE - F (MG/L)
O.Il35 2
0.0 NIIMITE - NO2 (MG/L) 0.0203 ie 0.0 8
)
NITROGEN. ORGANIC - (MG/L) 0.4027 1
0.1
)
OIL AND GREASE (MG/L) l.0000 2
0.2 TOTAL PHOSPHURUS - P (hG/L) 0.0356 I
O.0
)
SULFATE - 504 (MG/L )
5.6353 2
1.2
)
SULFIDE (MG/L) 0.0105 2
0.0 SULFITE - (MG/L) l.0000 2
0.2
)
MBAS (MG/L) 0.0170 2
0.0
)
ALUMINUM. TOTAL - AL (MG/L) 2.6277 2
0.5 BARIUM - BA (MG/L) 0.1000 2
0.0 BORON. TOTAL - B (MG/L) 0.1030 2
0.0
)
COBALT. TOTAL - Co (MG/L) 0.0185 2
0.0 IRON. TOTAL - FE (MG/L) 1.0708 3
0.2 CAGNES!UM MG (MG/L) 1.1992 2
0.3
)
MOLYBDENUM. TOTAL - MO (MG/L) 0.0100 2
0.0 MANGANESE. TOTAL MN (MG/L) 0.0497 2
0.0
. TIN. TOTAL - SN (MG/L) 0.5101 2
0.1 3
n.
.PAGE 315 ALABAM A POWER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL & OCTOBER.198l PLANTS FARLEY. NUCLEAR LDCATION4 UNIT I RIVER WATER STRUCTURE SUMP DISCHARGE POINTf TEST COMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE)
MEAN(MG/L)
. NO M ASS (PPD)
MEANING /L). STD DEV NO RANGE (MASS (PPD)
TITANIUM. TOTAL - TI thG/L) 0.0582 2
0.0 ANTIMONY. TOTAL - SB (MG/L) 0.0100 2
Q.0 ARSENIC. TOTAL - AS (MG/L) 0.0500 2
0.0 BERYLLIUM. TOTAL - Bd (MG/L) 0.0100 2
0.0 CADMIUM. TOTAL.- CD (MG/L) 0.0100 2
0.0 CHROMIUM. TOTAL - CR (MG/L) 0.0500 3
0.0
. COPPER. TOTAL - CU (MG/L) 0.0100 J
0.0 LEAD. TOTAL - PB (MG/L) 0.0100 2
0.0 I:ERCURY. TOTAL - HG (MG/L)
<. 0.0004 2
0.0 NICKEL. TOTAL - NI (MG/L) 0.0145 2
0.0 0
SELENIUM. TOTAL - SE (MG/L) 0.0050 2
0.0 0.0100 2
0.0 SILVER. TOTAL - AG (MG/L) e THALLIUM. TOTAL - TL (MG/L) 0.0100 2
0.0 I
ZINC. TOTAL - ZN (MG/L) 0.0247 2
0.0 CYANIDE - (MG/L) 0.1000 2
0.0 i
PHENOLS (MG/L) 0.0100 i
O.0 l
)
9 e
I
)
,o
95G5 $$6
(
Al.A8AMA POWER CodPANY STATISTICAL HISTORY OF THE NPDES DATA l981 FOR THE MONTHS OF APRIL & OCTOBER; i
PLANTS FARLEY NUCLEAR LOCATIONS. UNIT I RIVER WATER STRUCTURE SUMP DISCHARGE POINT:
TEST COMPOSITE FOR 24 HOURS M EAN(UG/L)
. NO M ASSJ PPD),,
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
SENZENE (UG/L)
BIS (CHLOR 0 METHYL) ETHER (UG/L)
BRe40 FORM (UG/L)
CARBON TETRACHLORIDE (UG/L)
CHLOROBE9ZENE (UG/L)
CHLOR 0DIBROM0 METHANE (UG/L)
CHLOR 0ETHANd (UG/L)
,2-CHLORodTHfLVINL ETHER (UG/L)
CHLOROFORM (UG/L)
DICHLORodROM0 METHANE (UG/L)
DICHLORODIFLUOROMETHANE (UG/L)
I I,1-DICHLOR0 ETHANE (UG/L) 1-
+
I.2-DICHLOR0 ETHANE (UG/L)
)
I,I-DICHLOR0 ETHYLENE (UG/L)
)
I,2-DICHLOROPROPANE (UG/L>
I.2-DICHLOR0 PROPYLENE (UG/L)
ETHYL 8ENZENE (UG/L)
)
METHYL BRodIDE (UG/L)
CETHfL CHLORIDE (UG/L)
)
EETHYLENE CHLORIDE (UG/L)
)
I,1,2,2-TETRACHLORodTHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
TOLUENE (UG/L) l
(
PAGE JI7 ALA8AN A POWER COMPANY STATISTICAL HISTORY OF THE MPDES DATA FOR THE MONTHS OF APRIL & OCTOBER, 198l PLANT: FARLEY NUCLEAR LOCATIONS UNIT I RIVER NATER STRUCTUHE SUMP DISCHARGE POINTf TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
No MASSIPPD)
I.2-TRANS-DICHLOR0 ETHYLENE (UG/L)
1. I.1-TRICHLORodTHANE (UG/L)
3. l.2-TRICitLORDETHANE (UG/L)
TRICHLOW0 ETHYLENE (UG/L)
I TRICHLOROFLUOR(WETHANE (UG/L)
VINYL CHLORIDE (UG/L)
)
2-CHLOROPHENDL (UG/L)
)
2.4-0! CHLOROPHENOL (UG/L) 2,4-DIMETHfLPHENOL (UG/L)
)
4,6-DINITRO-0-CHESOL (UG/L)
)
2.4-DINITRt9HENOL (UG/L) 2-NITROPHENGL (UG/L3 4-N ITROPHENOL (UG/L) i.
)
P-CFLORO-M-CRESOL (UG/L)
PENTACHLOW(WHENOL (UG/L)
PHENGL (UG/L)
)
2.4,6-THICHLOR(WHENOL (UG/L)
ACENAPHTHENE (UG/L)
ACENAPHTHYLENE (UG/L)
)
ANTHdACENE (UG/L)
BENZIDINE (UG/L)
BENZO (a) ANTHRACENE (UG/L)
,)
BENZO (a) PYRENE (UG/L) 3.4-BENZOFLUORANTHENE (UG/L)
BENZO (ghi) PEHYLENE (UG/L) 3
i
~
)
PACE.il8
)
. ALABAMA POWER COMPANY
~
STATISTICAL HISTORY OF THE NPDES DATA l98i FOR THE MONTHS OF APRIL.& UCTOBER6
)
PLANT: FARLEY. NUCLEAR 1.0 CAT 10Ni UNIT i RIVER WATER STRUCTURE SUMP DISCHARGE Po!NTs
)
TEST CtWPOSITE FOR 24 H(XJRS NEAN(UG/L)
N.3 MASSIPPD)
)
SENZO (t) FLUORANTHENE (UG/L)
)
jl3IS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOR 0 ETHYL) ETHER (UG/L)
)
BIS (2-CdLOR0!SOPROPYL) ETHER (UG/L)
)
BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BRud0PHENYL P!fENYL ETHER (UG/L)
)
BUTYL 8t:NZYL PHTHALATE (UG/L)
)
2-CHLORONAPHTHALENE (('G/L) 4-CHLOR 0PHENYL PHENYL ETHER (UG/L)
CHRYSENE (UG/L)
)
DIBENZu (a.h) ANTHRACENE (UG/L)
I,2-DICHLOR08ENZENE (UG/L)
I,3-DICHLOR08ENZENE (UG/L)
D I,4-DICHLOR08ENZENE (UG/L) 3,3'-DICHL(WOBENZIDINE (UG/L)
D DIETHYL PHTHALATE (UG/L)
D DIMETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L)
D 2,4-DINITRUTOLUENE (UG/L)
D 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) 1,2-DIPHENYLHYDRAZINE(AS A20 BENZENE)
D FLUORANTHENE (UG/L)
FLUORENE (UG/L)
HEXACHLOROBENZENE (UG/L) 3
f PAGE 130 ALABAMA POWER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL.& OCTOBER, l988 PLANTS FARLEY NUCLEAR LOCATIONa UNIT 1 RIVER WATER STRUCTURE SUNP DISCHARGE P0!NT4 TEST C(WPOSITE FOR 24 HOURS NEAN( UG/L)
No M ASSI PPD)
HEXACHLORoduTADIENE (UG/L) i HEXACHLOROCYCLOPENTADIENE (UG/L)'
HEXACHLOROETHANd (UG/L3 INDEN0 (l.2.3-cd) PYWENE (UG/L)
)
JSOPHt10NE (UG/L) i
.NAPHIHALENE (UG/L)
)
MITR0 BENZENE (UG/L)
)
.N-NITROSODIMETHYLAMINE (UG/L)
N-NIIROSODI-N-PHOPYLAMINE (UG/L) i
)
N-NITROSODIr8HENfLAMINE (UG/L)
)
PHENANTHRENd (UG/L)
PYRENd (UG/L)
)
102.4-TRICHLOH08dNZENE (UG/L)
D l
D D
D D
h o
~
)
PIGE l'd3
. At.iBAM4 POWER Co#Al(Y
. staff ST1 CAL HISTbRY OF THE NPDES bdfd,,,,,,
FOR OCTOBER. 1981 PLANTi FARLEY
..e f.0CATIONi EAST YARD' DRAIN DfSCHARGE POINT 8 TEST - UNIT COMPOSITE FOR 24 HOURS
.LONG TERM DATA (GRAB SAMPLE)
MEAN No MEAN
. STD DEV NO MAX MIN FLod (MGD)
TEMPERATURE (DEG C) 21.9000 i
PH 6.5000 I
COLOR JPCU) 1.0000 I
)
FECAL COLIFORM (ORG./100ML) 120.0000 I
HADI0 ACTIVITY, TOTAL ALPHA PCJ/
)
RADI0 ACTIVITY. TOTAL BETA PCs/L D
RADI0 ACTIVITY TOTAL RADIUM PCs RADI0 ACTIVITY TOTAL RADIUM 226 e
I l
I I
I l
D i
i i
i a
PAGE 123 ALABAMA POWER.CtWPANY STATISTICAL ff] STORY OF THE NPDES DATA FOR OCTOBER. 1981 PLANTS FARLEY LOCATIONS EAST YARD DRAIN DISCHARGE. POINT 4
..i
. LONG. TERM DATA IQRAB SAMPLE)
TEST COMPOSITE FOR 24 HOURS MEAN(MG/L)
No MASS (PPD)
MEAN(MG/L)
STD DEV NO RANGE
.n (MASS (PPD)
BOD (MG/LJ 0.7000 1
C00 - CHEMICAL OXYGEN DEMAND (W 9.0000 I i CARBON. ORGANIC (MG/L) i TOTAL SUSPENDED SOLIDS (MG/L) 3.0000 I i AMMONIA (AS N) (MG/L) 0.1367 I i BROMIDE - (MG/L) 0.5000 1
i <
0.0100 1
TOTAL CHLOR INE (MG/L) 0.2422 1
FLOUd!DE - F (MG/L)
NITHITE - NO2 (MG/L) 0.0133 1
s NITROGEN. ORGANIC - (MG/L) 0.4873 I
)
OIL AND GREASE (MG/L) 1.3000 1
TOTAL PHOSPHORUS - P (MG/L) 0.0913 I
SULFATE - SO4 (MG/L) 28.8110 I
)
SULFIDE (MG/L) 0.0100 i
SULFITE - (MG/L)
I.0000 I
)
CBAS (MG/L) 0.0100 I
)
ALUMINUM. TOTAL - AL (MG/L)
I.6529 i
BARIUM - BA (MG/L) 0.1000 I
)
BURON. TOTAL - 8 (MG/L) 0.3981 I
)
COBALT. TOTAL - CD (MG/L) 0.0100 1
IRON. TOTAL - FE (MG/L)
I.222I 2
)
MAGNESIUM MG (MG/L) 6.0148 I
)
COLYBDENUM TOTAL - MD (MG/L) 0.0100 i
f ANGANESE. TOTAL MN (MG/L) 0.8552 I
TIN. TOTAL - SN (MG/L) 0.8823 1
?
PiGE l2d ALABAM A POWER COMPANY STATISTICAL HISTORY DF THE NPDES DATA F0W OCTOBEH. 1981 LOCATjoN8 EAST YARD DRAIN DISCHARGE PdlNil TEST
. COMPOSITE FOR 24 HOURS loNG ERM DAIA IGRd8 SAMPLEj MEAN(MG/L)
NO M ASS ( PPD)
JtEANtMG/Lk. STD DEV NO RANGE (M ASS (PPD)
TITANIUM. TOTAL - TI (MG/L) 0.0854 I
ANTIMONY. TOTAL - S8 (MG/L) 0.0100 l
ARSdNIC. TOTAL - AS (MG/L) 0.0500 i
BERYLLIUM TOTAL - BE (MG/L)~
0.0100 f
CADd IUM. TOTAL. - CO (MG/L) 0.0100 i
CHROMIUM. TOTAL - CR (MG/L) 0.0500 2
COPPER. TOTAL - CU (MG/L) 0.0100 2
LEAD. TOTAL - PB (MG/L) 0.0100 i
('ERCURY. TOTAL - HG (MG/L) 0.0005 i
NICKEL. TOTAI,.- NI (MG/LI 0.0380 l
I SELENIUM. TOTAL - SE (MG/L)
<. 0.0050 i
SILVER, TOTAL - AG (MG/L) 0.0100 1
i THALLIUM. TOTAL - TL (MG/L) 0.0100 1
ZINC. TOTAL - ZN (MG/L) 0.0193 I
CYANIDE - (MG/L) 0.1000 I
i PHENOLS (MG/L) 0.0100 1
1 I
i 0
)
)
i
)
PAGE 323 ALABAMA PoreER. CIWPANY STATISTICAL.JtISTORY OF THE NPDES DAT4 FOR OCTOBER, 1981 PLANTS FARLEY LOCATIONS EAST YARD DRAIN plSCHARGE POINTf TEST COMPOSITE FOR 24 HOURS
,..g M EAN (UG/L)
NO M ASS 4 PPD),.
. ACROLEIN (UG/L) i e
ACRYLONITRILE (UG/L) i BENZENE (UG/L) i e
BIS (CHLtWOMETHYL) ETHER (UG/L) i I
1 BROMOFtWM (UG/L) s' CARBON TETR* CHLORIDE (UG/L)
CHLINOBENZENE (UG/L)
I CHLOR 0DIBRodOMETHANE (UG/L)
CHLOR 0 ETHANE (UG/L) 2-CILORodTHYLVINL ETHER (UG/L)
I
)
CHLtWOFORM (UG/L)
DICHLORudRtWOMETHANE.(UG/L) i il DICHLOROUIFLUOROMETHANE (UG/L)
+
i i
I I,1-DICHLIMo t

THANE (UG/L) 1,2-DICHLORDETHANE (UG/L) l 1,3-DICHLOR0 ETHYLENE (UG/L)
?
D I,2-DICHLOROPRtWANE (UG/L) t 1,2-DICHLOROPROPYLENE (UG/L)
')
ETHYL 8ENZENE (UG/L)
'I CETHYL BROMIDE (UG/L)
CETHYL CHLORIDE (UG/L)
CETHYLENE CHLORIDE (UG/L)
I I,I,2,2-TETRACHLOR0 ETHANE (UG/L)
TETRACHLtW0 ETHYLENE (UG/L)
TULUENE (UG/L)
!m
I
)
PkGE $24
.. ALABAM A Pd4ER Q)MPANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBER, 1981 LOCATIONd EAST YARD DRAIN dlSCHAR'GE..PolNT:
TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO M ASSI PPul I 2-TRANS-DIChLOR0 ETHYLENE (UG/L>
I,I,I-TRICHLOR0ETHANd (UG/L)
I,I.2-TRICHLORodTHANd (UG/L)
)
TRICHL(MOETHfLENs (UG/L)
)
TRICHLOROFLUORtW6 THANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLORtWHENOL (UG/L)
I 2,4-DICHLOROPHENGL (UG/L)'
2,4-DIMETHfLPHENOL (UG/L) 4,6-DINITRO-0-CRESOL (UG/L)
I 2.4-DINITROPHENOL (UG/L) 2-NITROPHENOL (UG/L) 1 4-NITROPHENOL (UG/L)
I
.P-CHLORO-M-CRESOL (UG/L)
PENIACHLOROPHENOL (UG/L) 1 PHENOL (UG/L)
I 2,4,6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENE (UG/L) i ACENAPHTHYLENE (UG/L)
I ANTHRACENE (UG/L)
BENZlDINE (UG/L)
)
BENZO (a) ANTHRACENE (UG/L)
D BENZO (a) PYRENE (UG/L) 3,4-UENB)FLUURANTHENE (UG/L)
D BENZO.(gh!) PERYLENs (UG/L) 3 a
PAGE E25 ALAB AM A PCM ER. COMPANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBER, 1981 PLANTA FARLEY LOCATION 8. EAST YARD DRAIN DISCHARGE POINTS TEST COMPOSITE FOR 24 ftH1RS JIEAN(UG/L)
NO M ASS (PPD)
BENZO (k) FLUORANTHENE (UG/L)
SIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
BIS (2-CHLOROETHYL) ETHER (UG/L)
BIS (2-CHLOR 0 ISOPROPYL) ETHER (UG/L)
BIS (2-ETHfLHEXYL) PHTHALATE (UG/L) 4-BROM0PHENYL PHENYL ETHER (UG/L)
BUTYL BENZfL PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOROPHEtifL PHENfL ETHER (UG/L)
)
CHRYSENE (UG/L)
)
DIBENZO (a.n) ANTHRACENE (UG/L)
I,2-DICHLOR08ENZENE (UG/L)
I,3-DICHLOR08ENZENE (UG/L)
)
I,4-DICHLOR08ENZENE (UG/L) 3,3'-DICHLOROBENZIDINE (UG/L)
)
DIETHYL PHTHALATE (UG/L)
)
DIMETHYL PHTHALATE (UG/L)
D1-N-BUTYL PHTHALATE (UG/L) 2,4-DINITR0 TOLUENE (UG/L)
)
2,6-DINITR0 TOLUENE (UG/L)
DI-N-OCTYL PHTHALATE (UG/L)
)
I,2-DIPHENYLHYDRAZINE(AS AZ0 BENZENE)
)
FLUORANTHENE (UG/L)
FLUORENE (UG/L)
HEXACHLOROBENZENE (UG/L) 3
PiGE 12)
ALABAMA POWER. CtWPANY STATISTICAL HISTORY OF THE. NPDES D4TA FOR OCTOBER; 1981 PLANTS FARLEY LOCATIONd EAST Y RD DRAIN DlSCHARGEPOINTI TEST CdMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASS (PPD)
HEXACHLOR0BUTADIENE (UG/L)
HEXACHLOROCYCLOPENTADIENE (UG/L)
+
HEXACHLOR0 ETHANE (UG/L)
INDEN0 (1,2,3-cd) PYRENE (UG/L) 8
.ISOPHORONE (UG/L) e NAPHTHALENE ('JG/L) i NITROBENZENE (UG/L)
N-HITROSODIMETH(LAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L)
N-NITROSUDIPHENfLAMINE (UG/L) i PHENANTHRENE (UG/L)
PYRENE (UG/L)
I 1.2.4-TRICHLORodENZENE (UG/L) i I
)
i I
-)
I l
k 9
PAGE 127
- AL AB AM A POWER. C(MP ANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBER, 1981 PLANTS FARLEY LOCATION 4 NORTHWEST YARD. DRAIN
. DISCHARGE POINTf TEST. UNIT COMPOSITE FOR 24 HOURS, LIWG TERM DATA (GRAB SAMPLE)
STD DEV No MAX MIN MEAN NO MEAN FLOW (MGD) 0.0300 1
27.2000 i
TEMPERATURE (DEG C) e PH 7.3000 1
COLOR IPCU>
0.8000 I
FECAL COLIFORM (OHG./IOONL) 360.0000 i
NAD10 ACTIVITY, TOTAL ALPHA PCs/
RADIOACTIVITY, TOTAL BETA PCs/L RADI0 ACTIVITY, TOTAL RADIUM PCJ RADIOACTIVITY, TOTAL RADIUM 226 i
i 9
0 8
9 9
1 1
I i
^
PAGE 123 ALABAMA POWER COMPANY STATISTICAL. HISTORY OF THE NPDES DATA FOR OCTOBER. 1981 PLANT: FARLEY LOCATIONt NORTHWEST YARD DRAIN DISCHARGE POINTI
~ ' ' LONG TERM DATA (dR AB SAMPLE).
TEST COMPOSITE FOR 24 HOURS MEAN(MG/L)
NO MASS (PPD)*
MEAN(MG/L)". STD DEV NO RANGE (MASS (PPD)
IN)D (MG/L) 6.9000 1
1.7 C00 - CHEMICAL OXYGEN DEMAND (M 192.0000 1
48.0 CARBON ORGANIC (MG/L) 95.7450 1
23.9 e
TOTAL SUSPENDE0 SOLIDS (MG/L) 4.0000 I
I.0 I
AMMONIA (AS N) (MG/L) 0.1029 1
O.0 dROMIDE - (MG/L) 0.5000 3
0.1 i
TOTAL CHLORINE (MG/L) 0.0100 1
0.0 i
FLOURIDE - F (MG/L) 0.1051 I
0.0 NITRITE - NO2 (MG/L) 0.0672 3
0.0 5
N ITROGEN. ORGANIC - (MG/L) 0.7501 1
0.2 i
OIL AND GREASE (MG/L) 1.9000 1
0.5 TOTAL PHOSPrioRUS - P (MG/L) 0.0324 1
0.0
.)
SULFATE - SO4 (MG/L) 7.2I04 5
1.8 0.0100 1
0.0 i
SULFIDE (MG/L)
SULFITE - (MG/L) l.0000 1
0.3
)
0.0100 I
0.0
r. BAS (MG/L) l ALUM INdd. TOTAL - AL (MG/L) 1.5343 1
0.4 BARIUM - BA (MG/L) 0.1000 I
O.0
)
BORON. TOTAL - 8 (MG/L) 0.1343 I
0.0 I
COBALT. TOTAL - CO (MG/L) 0.0100 1
0.0 IRON. TOTAL - FE (MG/L) 0.2069 2
0.1
)
MAGNESIUM MG (MG/L) 13.6490 I
3.4 MOLYBDENU4. TOTAL - MO (MG/L) 0.0100 1
0.0 MANGANESE. TOTAL MN (MG/L) 0.0300 i
O.0
)
TIN. TOTAL - SN (MG/L) 0.5199 I
0.1
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PIGE $30 Jd.ABAMA PodER COM/ANY STATISTjCAL HISTORY OF THE, NPDES DATA FOR DCTOBER, 1981 PLANT 8 FARLEY LOCATIONS NORTHWEST YARD DRAIN dISCHARGEPOINT4
. TEST C(NPOSITE FOR 24 HOURS,
..g MEAN(UG/L)
NO M ASS (PPD),,
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L) 8 BENZENE (UG/L) 8 BIS (CHLORodETHfL) ETHER (UG/L)
BROM0 FORM (UG/L)
CARBON TETWACHLORIDE (UG/L)
CHLOR 0 BENZENE (UG/L) 8 CHLOR 0DIBROM0 METHANE (UG/L)
CHL(R0 ETHANE (UG/L)
)
2-CHLOR 0ETHYLVINL ETHER (UG/L)
)
CHLOROFORM (UG/L)
DICHLOROBROM0 METHANE (UG/L)
)
DICHLORODIFLUOR(WETHANE (UG/L) 3
)
Iol-DICHLORutirHANE (UG/L)
I I 2-DICHLOR0 ETHANE (UG/L) 0 i,1-DICHLOROETHfLENE (UG/L)
)
I.2-DICHLOR0 PROPANE (UG/L) lo2-DICHLOROPROPfLENE (UG/L)
ETHYLBENZENE (UG/L)
)
METHYL BROMIDE (UG/L)
CETHYL CHLORIDE (UG/L)
)
METHYLENE CHLORIDE (UG/L)
)
Iol.2.2-TETRACHLOR0 ETHANE (UG/L)
TETRACHLOR0 ETHYLENE (UG/L)
)
TOLUENE (UG/L) 0
n f
. ALAB AMA POWER. COMPANY STATISTICAL HJSTORY OF THE NPDES DATA FOR OCTOBER, 1981 PLANT 4 FARLEY LOCATIONa NORTHWEST YARD DRAIN DISCHARGE POJnlTs 4
TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASSlPPD)
I,2-TRANS-DICHLfR0 ETHYLENE (UG/L)
(
8. I,I-TRICHLORotiTHANE (UG/L) 8.1.2-TRICHLORDETHANE (UG/L)
TRICHLOR0 ETHYLENE (UG/L)
TRICHLOHOFLUORudETHANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLOROPHeiNOL (UG/L) 2,4-DICHLOROPHENOL (UG/L) 2,4-DIMETHYLPHEdOL (UG/L) o 4,6-DINITRO-0-CRESOL (UG/L)
'+
2,4-DINITROPHENOL (UG/L) 2-HITHOPHENOL (UG/L) 4-NITROPHENOL (UG/L)
P-CHLORO-M-CRESOL (UG/L)
PENTACHLORtWHENOL (UG/L)
PHENOL (UG/L)
~
2,4,6-TRICHLOROPHENOL (UG/L) l ACENAPHTHENE (UG/L)
ACENAPHTH(LENE (UG/L)
ANTHRACENti (UG/L)
BENZIDINE (UG/L)
BENZO fa) ANTHRACENE (UG/LJ BENZO (a). PYRENE (UG/L) 3,4-dENZ0FLUORANTHENE (UG/L)
BENZO ighl) PERYLENE (UG/L) o
m PAdE 15d AldBAMi P(MER C(WPANY STATf STjCAL HISTORY OF THE NPDES DATA FOR OCTOBER. 1981 PLANT 4 FARLEY LOCATIONd NORTHMEST YARD DRAIN blSCHARGE MdfNTJ TEST C(WPOSITE FOR 24 HOURS MEAN(UG/L)
. NO M ASS t PPD)
BENZO (It) FLUDRANTHENE (UG/L)
BIS (2-CHLOR 0ETH0XY) METHANE (UG/L)
. BIS (2-CHLOROETHYL) ETHER (UG/L)
BIS (2-CHLORDISOPROPYL) ETHER (UG/L)
BIS (2-ETHYLHEXYL) PHTHALATE (UG/L) 4-BROM0PHENYL PHENYL ETHER (UG/L)
BUTYL BtiNZYL PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L)
.4-CHLOROPHENYL PHENYL ETHER (UG/L)
CHRYSENE (UG/L)
DI8ENZr. (a.h> ANTHRACENE (UG/L)
I,2-DICHLORodENZdHE (UG/L)
I.3-DICHLOR0 BENZENE (UG/L)
I,4-DICHLOROBENZENE (UG/L) 3.3#-DICHLOROBENZIDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DIMETHYL PHTHALATE (UG/L)
DI-N-BUTYL PHTHALATE (UG/L) 2,4-DINITR0 TOLUENE (UG/L) 2,6-DINITR0 TOLUENE (UG/L)
DI-N-0CTYL PHTHALATE (UG/L)
I,2-DIPHENYLHYDRAZINE(AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUORENE (UG/L) i HEXACHLORudENZENE (UG/L) m
(
ALAP#AA POWER COMPANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBER, 198I PLANIt FARLEY LOCATIONS NORTHdEST YARD DRAIN DJSCHARGE POINT 9 TEST COMPOSITE FOR 24 HOURS MEAN(UG/L)
No MASS (PPD)
HEXACHLOROBUTADIENE (UG/L) i HEXACHLOROCYCLOPENTADIENE (UG/L)
HEXACHLOR0 ETHANE (UG/L)
INDEN0 (l.2.3-cd) PYRENE (UG/L)
JSOPil0RONE (UG/L)
NAPHTHALENE (UG/L)
NITROBENZENE (UG/L)
N-NITROSODIMETHYLAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L)
N-NITROSODIPHENYLAMINE (UG/L)
PHENANTHRENE (UG/L)
PYRENE (UG/L) 102.4-TWICHLOROBENZENE (UG/L) l 6
l l
A
n.
PA!E 134 ALABAMA P(MER. CtWPANY STATJSTJCAL HISTORY OF THE NPDES DATA FOR OCTOBER, 1933 PLANT 8 FARLEY LOCATIt** SERVICE NATER STHUCTURE SUMP - UNITS l A2
. DlSCHARGE P(ff MT3 TEST. UNIT COMPOSITE FOR 24 HOURS ~
LONG TERM DATA (GRAB SAMPLE)
MEAN No stEAN
.: STD DEV No MAX MIN FLIM (MGD)
TEMPERATURii (DEO C) 26.0000 1
PH 6.8000 I
COLOR IPCU) 1.0000 i
FECAL COLIFORM (ORG./lOONL)
O.
I HADI0 ACTIVITY. TOTAL ALPHA PCs/
RADI0 ACTIVITY. TOTAL BETA PCs/L RADIDACTIVITY. TOTAL RADIUM PCs RADI0 ACTIVITY. TOTAL RADIUM 226 I
I
._s PAGE 135 ALABAMA POWER CuMPANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBER. 1981 PLANTS F ARLEY
,LOCATI(*8.. SERVICE WATER STRUCTURE SUMP - UNITS I&2 DISCHARGE POINT 4
LONG. TERM DATA (GRAB SAMPLE)
TEST COMPOSITE FOR 24 HOURS
. ei MEAN(MG/L)
NO MASS (PPD).: R EAN( MG/LJ STD DEV NO RANGE....
(MASS (PPD)
BOD (MG/L) 0.8000 1
COD - CHEMICAL OXYGEN DEMAND (M 0
I i
CARBON. ORGANIC (MG/L) 50.0000 1
. TOTAL SUSPENDED StX. IDS (MG/L) 6.0000 Ii AMMONIA ( AS N) (MG/L) 0.1246 1 :
0.5000 1
BROMIDE - (MG/L)
TOTAL CHLORINE (MG/L) 0.0100 1
0.1228 i
FLOURIDE - F (MG/L) 0.0155 I
NITRITE - NO2 (MG/L) o NITROGEN. ORGANIC - (MG/L) 0.3815 I
O!L AND GREASE (MG/L) l.0000 1
TOTAL PHOSPHORUS - P (F.0/L) 0.0308 i
SULFATE - SO4 (MG/L) 6.6266 i
SULFIDE (MG/L) 0.0100 l
SULFITE - (MG/L)
I.0000 1
M8AS (MG/L) 0.0100 3
ALUMINUM. TOTAL - AL (MG/L) 2.9634 I
BARIUM - BA (MG/L) 0.1000 i
BORON. TOTAL - B (MG/L) 0.I 735 I
COBALT. TOTAL - CO (MG/L) 0.0100 I
IRON. TOTAL - FE (MG/L) 0.0088 2
NAGNESIUM MG (MG/L) 1.3896 I
l' MOLYBDENUM. TOTAL - MD (MG/L) 0.0100 I
CANGANESE. TOTAL MN (MG/L) 0.0300 I
TIN. TOTAL - SN (MG/L) 0.1122 I
PAGE I36
(
ALA8iMA POWER COMPANY STATISTICAL ff!SIORY OF THE NPDES DATA FOR OCTOBER. 1981
(
PLANTi FARLEY LOCATIONi SERVICE MATER STRUCTURE SUMP - UNITS I&2 b!SCHARGE POINTS
(
TEST COMPOSlTE FOR 24 HOURS i.ONG TERM DATk IGRid SAMPLE $
MEAN(MG/L)
NO M ASS (PPD)
MEAN(MG/l}
STD DEV NO RANGE AMASS (PPD)
(
TITA:fiUM. TOTAL - TI (MG/L) 0.0726 I
(
ANTIMONY. TOTAL - SB (MG/L) r ARSdNIC. TOTAL - AS (MG/L) 0.0500 1
BERYLLIUM. TOTAL - BE (MG/L) 0.0100 1
CADMIUM. TOTAL - CD (MG/L) 0.0I00 f
CHROMIUM. TOTAL - CR (MG/L) 0.0500 2
COPPER. TOTAL - CU (MG/L)
<. 0.0100 2
LEAD. TOTAL - PB (MG/L) 0.0100 1
CERURY. TOTAL - HG'(MG/L) 0.0003 i
e NICKEL. TOTAL.- NI (MG/L) 0.0154 i
i SELENIUM. TOTAL - SE (MG/L) 0.0050 i
SILVER. TOTAL - AG (MG/L) 0.0I00 i
THALLIUM. TOTAL - TL (MG/L) 0.0100 1
ZINC. TOTAL - ZN (MG/L) 0.0127 i
CYANIDE - (MG/L) 0.1000 I
PHENOLS (MG/L) 0.0100 I
p 1
I
'I e
g
$m PAGE 137
. ALABAM A POWER CtWPANY STATISTICAL HISTORY OF THE NPDES DATA FOR OCTOBBt. 1981 PLANT: FARLEY LOCATION: SERVICE NATER STRUCTURE SUMP - UNITS la2 DISCHARGE POINT 4 TEST COMPOSITE FOR 24 HOURS
,,g 3, i,
MEAN(UG/L)
NO M ASS ( PPD):
ACROLEIN (UG/L)
ACRYLONITRILE (UG/L)
BENZENE (L'G/L) s BIS (CHLOR (WETHYL) ETHER (UG/L)
I
'l I
BROM0 FORM (UG/L)
CARBJN TETRACHLORIDE (UG/L)
CHLOR 0 BENZENE (UG/L)
CHLORODIBROM0 METHANE (UG/L)
CHLOR 0 ETHANE (UG/L) t 2-CHLOR 0ETH(LVINL ETHER (UG/L)
CHLOROFORM (UG/L) e l
DICHLORudROM0 METHANE (UG/L) i DICHLORODIFLUORuMETHANE (UG/L)
.i.
I a
1 1,1-DICHLOR0 ETHANE (UG/L) 1,2-DI CHLORO t: THANE (UG/L)
+i e'
l.1-DICHLOR0 ETHYLENE (UG/L) l.2-DICHLOROPROMNE (UG/L) l 1,2-DICHLOR0 PROPYLENE (UG/L)
ETHYLBENZENE (UG/L)
CETHYL BROMIDE (UG/L) l METHYL CHLORIDE (UG/L)
' e CETHYLENE CHLORIDE (UG/L) l.l.2.2-TETRACHLOR0 ETHANE (UG/L)
TETRACHLORDEfHYLENE (UG/L)
! i TOLUENE (UG/L) o e
\\ b
m PAGE 138
..ALABAM A P(MER Ct*PANY STATIstlCAL HISTORY OF THE, NPDES DATA FOR OCTOBER. 1981 PLANTS FARLEY LOCATION: SERVICE WATER STRUCTURE SUMP - UNITS I&2 DISCHARGE. Po!NT:,
TEST COMPOSITE FOR 24 tk)URS,
J4EAN(UG/L)
NO M ASS ( PPD) 1.2-IRANS-DICHLOR0 ETHYLENE (UG/L)
I. l. I-TRICHLORUETH ANE (UG/L) 1.1.2-TRICHLOR0 ETHANE CHG/L)
TRICHLtM0 ETHYLENE (UG/L)
TRICHLOROFLUOROMETHANE (UG/L)
VINYL CHLORIDE (UG/L) 2-CHLOROPHdNOL (UG/L) 2,4-DICHLOROPHENOL (UG/L) 2,4-DIMETHYLPHENOL (UG/L) 4.6-DINITRO-0-CRESOL (UG/L) 2.4-DINI TRWHENOL (UG/L) 2-NITROPHENOL (UG/L) 4-NITROPHENOL (UG/L)
P-CHLOR 04-CRESOL (UG/L)
PENTACHLOROPHENUL (UG/L)
PHENOL (UG/L) 2,4.6-TRICHLOROPHENOL (UG/L)
ACENAPHTHENE (UG/L)
ACLNAPHTHYLENE (UG/L)
ANTHAACENE (UG/L)
BENZIDINE (UG/L)
BENZO (a) ANTHRACENE (UG/L)
BENZO (a) PYdENE (UG/L) 3.4-BENZOFLOORANTHENE (UG/L)
BENZO ighi) PERYLENE (UG/L)
n I
ALABAM A PO%ER Q)MPANY STATISTICAL HISTORY OF THE. NPDES DATA FOR OCTOBER, 1981 PLANT
FARLEY LOCATIONS SERVICE MATER STRUCTURE SUMP - UNITS 1&2 DISCHARGE PollfT4 TEST COMPOSITE FC,R 24 HOURS
FAN (UG/L)
NO M ASS ( PPD)
BENZO (ic ) FLUORANTHENE (UG/L) i BJS (2-CHLOR 0ETH0XY) METHANE (UG/LJ BIS (2-CHLOR 0ETHfL) ETHER (UG/L)
I BIS (2-CHLt*0!SOPHOPf L) ETHER (UG/L)
BIS (2-ETHYLHEXYL) PHTHALATE-(UG/L) 4-BROMOPHENfL PHENYL ETHER (UG/L)
BUTYL BENZYL PHTHALATE (UG/L) 2-CHLOR 0 NAPHTHALENE (UG/L) 4-CHLOR 0r>HENfL PHENYL ETHER (UG/L)
CHRYSENE (UG/L)
DIBEN ZO (a.n) ANTHRACENE (UG/L) 1,2-DICHL(E00ENZENE (UG/L) 1,3-DICHLOROBENZENE (UG/L)
I,4-DICHLOROSENZENE (UG/L) 3,3'-DICHLOROBENZlDINE (UG/L)
DIETHYL PHTHALATE (UG/L)
DIMETHYL PHTHALATE (UG/L)
DI-N-80TfL PHTHALATE (UG/L) l 2,4-DINITR0 TOLUENE ?UG/L) i 2,6-DINITROTOLUEME (UG/L)
DI-N-0CTYL PHTHALATE (UG/L) 3,2-DIPHENYLHYDRAZINE(AS AZ0 BENZENE)
FLUORANTHENE (UG/L)
FLUORENE (UU/L)
HEXACHLOROBENZENE (UG/L)
(.
Q GAGE 140 ALABAMA POWER, CtWPANY STATISTICAL HISTORY (F THE NPDES DATA FOR OCTOBER. 1981
(
PLANT: FARLEY LOCATIONS. SERVICE MATER STRUCTURE SUMP - UNITS I&2 DISCHARGE POINT *
(
TEST C(MPOSITE FOR 24 HOURS MEAN(UG/L)
NO MASSfPPD)
(
HEXACHLOROBUTADIENE (UG/L)
HEXACHL(ROCYCLOPENTADIENE (UG/L)
HEXAC:iLOR0 ETHANE (UG/L)
INDEN0 (1.2.3-cd) PYRENE (UG/L)
ISOPHORONE (UG/L)
NAPHTHALENE (UG/L)
(
NITRodENZENti (UG/L)
(
N-NITROSODIMETHYLAMINE (UG/L)
N-NITROSODI-N-PROPYLAMINE (UG/L).
e N-NITROSODIPHENYLAMINE (UG/L)
PHENANDMENE (UG/L)
PYRENE (UG/L)
(
lo204-TRICHLOROBENZENE (UG/L)
(
t 1
(
(
(
P
-

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