Definitions in Chapter 62-6, Parts I and II, F.A.C., are
also applicable to Chapter 62-6, Part IV, F.A.C.
(1) Composite sample - a defined mixture of
grab samples of wastewater or effluent taken in proportion to either time or
flow.
(2) Disposal component -
arrangement of equipment and/or materials that distributes effluent within a
drainfield.
(3) Effluent - the
recovered water product from a sampling point following the final design
treatment step.
(4) Failure - as in
subsection
62-6.002(23),
F.A.C., including non-compliance with applicable treatment performance
standards as defined in paragraph
62-6.025(11)(e),
F.A.C., unless the maintenance entity performs and documents maintenance after
a sampling event, undertakes a second sampling event within 30 days of the
first, and the results of which meet the applicable treatment performance
standard.
(5) Grab sample - a
sample which is taken from wastewater or effluent over a period of time not to
exceed fifteen minutes.
(6)
Effective storage volume - fillable volume in the drainfield material within
the vertical distance from the bottom of the drainfield to the invert of the
distribution pipe.
(7)
Performance-based treatment system - a specialized onsite sewage treatment and
disposal system designed by a professional engineer with a background in
wastewater engineering, licensed in the state of Florida, using appropriate
application of sound engineering principles to achieve specified levels of
CBOD
5 (carbonaceous biochemical oxygen demand after five
days), TSS (total suspended solids), TN (total nitrogen), TP (total
phosphorus), or fecal coliform found in domestic or commercial sewage waste, to
a specific and measurable established performance standard.
(a) Treatment components which have already
been approved as meeting the requirements of subsection
62-6.012(1),
F.A.C., are not required to obtain an Innovative System Permit to be approved
as a component of a performance-based treatment system. The manufacturer must
request such approval from the Onsite Sewage Program in writing. When proposed
as part of a performance-based treatment system, the treatment component's
proposed performance must not exceed the following:
1. For CBOD5 and TSS, the average effluent
concentration as reported by the applicable NSF 40 standard testing completion
report, or corresponding results of an NSF 245 or NSF 350 testing completion
report.
2. For TN, the average
performance expressed as percent removal reported in the applicable NSF 245
standard testing completion report.
3. For fecal coliform, the performance
expressed as percent removal for E. coli based on average influent and effluent
concentrations reported in the applicable NSF 350 testing completion
report.
(8)
Performance-based treatment system maintenance entity - any person or business
entity which has obtained an annual permit issued on Form DEP 4013, effective
06-21-2022, Operating Permit, adopted and incorporated by reference in
subsection
62-6.012(4),
F.A.C., at
https://www.flrules.org/Gateway/reference.asp?No=Ref-14365
from the Department of Health, county health department in the county where the
maintenance entity is located.
(9)
Total storage volume - the fillable volume from the bottom of the drainfield
material to the top of the drainfield.
(10) Treatment component - any arrangement of
equipment and/or material that treats sewage. A treatment component may coexist
within or after a disposal component.
(11) Treatment performance standards.
(a) Applications for performance-based
treatment system construction permits after the effective date of this rule
must include performance standards consisting of the following three criteria:
1. Annual average concentration is the
arithmetic mean of the results of all effluent samples taken within the
previous 365 days, expressed as a concentration.
2. Individual sample - result of analysis of
one effluent sample, whether grab sample or composite sample, expressed as a
concentration. If samples are taken from multiple sample points at the same
sampling event, the highest concentration sample must be used.
3. Percent removal - removal of a pollutant
from the discharge of the treatment system compared to the influent from the
establishment based on annual averages of both. The calculation percent removal
= (1- annual average effluent concentration/annual average influent
concentration) *100.
(b)
Treatment performance standards are established for five pollutants.
1. Carbonaceous biochemical oxygen demand
after five days (CBOD5), measured in mg oxygen per
liter
2. Total suspended solids
(TSS), measured in mg per liter
3.
Total nitrogen (TN), the sum of nitrite, nitrate and total Kjeldahl nitrogen,
measured in mg nitrogen per liter
4. Total phosphorus (TP), measured in mg
phosphorus per liter
5. Fecal
coliform, measured in colony forming units (cfu) or most probable number (MPN)
per 100 mL
(c) For
treatment performance standards other than domestic baseline treatment
standards, in lieu of measured influent values, the following annual average
design influent values may be assumed: 200 mg/L for CBOD5, 200 mg/L for TSS, 60
mg/L for TN, 10 mg/L for TP, 2, 000, 000 CFU/100 mL for fecal
coliform.
(d) Numerical values for
domestic sewage waste, domestic baseline septic tank effluent and several
levels of common treatment performance standards for the five pollutants are
defined in Table IXa and IXb. In the system construction application, the
engineer must design the system to meet average annual concentrations for all
applicable pollutants except for total nitrogen, for which percent removal must
be used. The site-specific application may propose to use soil or a disposal
component as part of the treatment system for secondary and advanced secondary
treatment systems, in which case treatment concentration standards must be
decreased by 90 percent for CBOD5, and TSS, by 99% for
fecal coliform, and by 30% for TN, and TP, as shown in Table IXb.
(e) Compliance during monitoring must consist
of meeting at least two of the three criteria. To achieve compliance the values
determined from samples of the system must be equal to or better than the
treatment standards listed. For concentrations, better means lower, for percent
removal, better means higher.
|
TABLE IXa
BASELINE TREATMENT
STANDARDS
|
|
POLLUTANT
|
Domestic Sewage Waste
Range
|
Domestic Baseline Septic Tank
Effluent Standards
|
Domestic Baseline Soil
Treatment Standard 24" Below Absorption Surface
|
|
CBOD5 (mg/L)
|
|
|
|
|
-annual average
|
300
|
240
|
10
|
|
-individual sample
|
500
|
360
|
20
|
|
-removal
|
NA*
|
NA
|
95%
|
|
TSS (mg/L)
|
|
|
|
|
-annual average
|
200
|
100
|
10
|
|
-individual sample
|
500
|
150
|
15
|
|
-removal
|
NA
|
NA
|
90%
|
|
TN (mg/L)
|
|
|
|
|
-annual average
|
100
|
100
|
70
|
|
-individual sample
|
150
|
150
|
100
|
|
-removal
|
NA
|
NA
|
30%
|
|
TP (mg/L)
|
|
|
|
|
-annual average
|
18
|
18
|
12
|
|
-individual sample
|
25
|
25
|
18
|
|
-removal
|
NA
|
NA
|
30%
|
|
Fecal coliform (cfu or
MPN/100ml)
|
|
|
|
-annual average
|
2.00E+06
|
2.00E+06
|
20
|
|
-individual sample
|
2.00E+07
|
2.00E+07
|
200
|
|
-percent reduction
|
NA
|
NA
|
99.999%
|
|
TABLE IXb
PERFORMANCE-BASED TREATMENT
SYSTEM STANDARDS
|
|
POLLUTANT
|
Design Influent Value
|
Aerobic Treatment Unit
Standards
NSF40
|
Aerobic Treatment Unit
Standards
NSF245
|
Secondary Treatment Standards
|
Secondary Treatment Standards with Soil
Treatment
|
Advanced Secondary Treatment
Standards
|
Advanced Secondary Treatment Standards with
Soil Treatment
|
Florida Keys Nutrient Reduction
Standards
|
Advanced Wastewater Treatment
Standards
|
|
CBOD5
(mg/L)
|
|
|
|
|
|
|
|
|
|
|
-annual average
|
200
|
20
|
20
|
20
|
2
|
10
|
1
|
10
|
5
|
|
-individual sample
|
|
60
|
60
|
60
|
6
|
30
|
3
|
30
|
10
|
|
-removal
|
|
90%
|
90%
|
90%
|
99%
|
95%
|
99.5%
|
95%
|
97%
|
|
TSS (mg/L)
|
|
|
|
|
|
|
|
|
|
|
-annual average
|
200
|
20
|
20
|
20
|
2
|
10
|
1
|
10
|
5
|
|
-individual sample
|
|
60
|
60
|
60
|
6
|
30
|
3
|
30
|
10
|
|
-removal
|
|
90%
|
90%
|
90%
|
99%
|
95%
|
99.5%
|
95%
|
97%
|
|
TN (mg/L)
|
|
|
|
|
|
|
|
|
|
|
-annual average
|
60
|
NR**
|
30
|
NR
|
|
30
|
21
|
10
|
3
|
|
-individual sample
|
|
|
50
|
|
|
50
|
35
|
40
|
6
|
|
-removal
|
|
|
50%
|
|
|
50%
|
65%
|
70%
|
95%
|
|
TP (mg/L)
|
|
|
|
|
|
|
|
|
|
|
-annual average
|
10
|
NR
|
NR
|
NR
|
|
10
|
7
|
1
|
1
|
|
-individual sample
|
|
|
|
|
|
20
|
14
|
4
|
2
|
|
-removal
|
|
|
|
|
|
0
|
30%
|
80%
|
90%
|
|
Fecal coliform (cfu or
MPN/100ml)
|
|
|
|
|
|
|
|
|
-annual average
|
2.00E+06
|
NR
|
NR
|
200
|
2
|
200
|
2
|
NR (Footnote 3)
|
1
|
|
-individual sample
|
|
|
|
800
|
8
|
800
|
8
|
|
25
|
|
-percent reduction
|
|
|
|
99.99%
|
99.9999%
|
99.99%
|
99.9999%
|
|
99.9999%
|
* NA = Not applicable
** NR = No requirement
Footnote 1. Where chlorine is used for disinfection in a
system designed to meet advanced wastewater treatment standard for fecal
coliform the design must include provisions for rapid and uniform mixing; and
the total chlorine residual of at least 1.0 mg/l must be maintained at all
times. The minimum acceptable contact time must be 15 minutes at the peak
hourly flow. No individual sample must exceed 5 mg/L TSS after the last
treatment step before application of the disinfectant.
Footnote 2. Where chlorine is used for disinfection in a
system designed to meet either the secondary treatment standard or the advanced
secondary treatment standard for fecal coliform, the design must include
provisions for rapid and uniform mixing and a total chlorine residual of at
least 0.5 mg/l must be maintained after at least 15 minutes contact time at the
peak hourly flow.
Footnote 3. Where discharge is to an injection well,
disinfection must meet the requirements for advanced secondary treatment
standards.
Footnote 4. Performance-based treatment systems (PBTS)
designed to meet Aerobic Treatment Unit (ATU) standards may be permitted where
ATUs are required, for example by county or city ordinance. An ATU not
permitted as a component of a PBTS must comply with Rule
62-6.012,
F.A.C.
(12)
Wastewater strength - the sum of the CBOD5 and TSS
concentrations.
