Current through Register Vol. 56, No. 18, September 16, 2024
(a) All new, upgraded,
or expanded domestic treatment works shall be designed to provide adequate residuals
storage capacity based on anticipated downtimes (that is weather, maintenance
closures, etc.) of the ultimate residual management alternative. This design shall
insure the continual, uninterrupted operation of all residual production/processing
activities when the ultimate residual management alternative cannot be
utilized.
(b) The design of sludge or
septage storage facilities shall:
1. Prevent
overtopping from normal or abnormal operations, overfilling, wind and wave action,
precipitation, run-on and run-off, malfunctions of equipment, and human
error;
2. Specify materials that have
the appropriate physical and chemical properties, wall thickness, and structural
integrity to prevent massive failure due to climatic conditions, pressure gradients,
and daily operational stresses;
3.
Provide for the periodic removal of stored residuals, cleaning, and
inspection;
4. Prevent the migration of
residuals to ground water and/or surface waters;
5. Provide for adequate collection and treatment
of supernatant or leachates where applicable;
6. Permit residuals sampling and collection
pursuant to 7:14A-23.14; and
7. Include overflow prevention devices and/or high
level alarms and automatic shut off valves on influent lines.
(c) Slurry tanks shall be designed to provide for
mechanical mixing equipment capable of homogenizing stored residuals for removal and
sampling.
(d) Surface impoundments shall
be designed in accordance with the following conditions:
1. A depth indicator (gauge) which indicates
residuals quantities in storage shall be provided.
2. A fence shall be provided around the surface
impoundment to prevent unauthorized access or entry.
3. Surface impoundment liners shall conform to the
following design requirements:
i. The permeability
of the liner materials shall be no greater than 1 x 10[LESS THAN]-7[GREATER THAN] ,,
cm/sec for the material being contained. Permeability shall be determined by
utilizing the liquid portion of the intended contents to be stored.
ii. The liner shall be adequately supported by a
foundation or base so as to resist any pressure gradients that may cause settlement,
compression, or uplift.
iii. Liners
shall be of materials that are capable of resisting failures caused by: pressure
gradients, including static head and hydrogeologic forces, physical contact with the
contents, climatic conditions, and stresses associated with installation and daily
operations.
4. The design
shall provide for a minimum freeboard level of two feet.
5. Mechanical mixing equipment capable of
homogenizing stored residuals for removal and sampling shall be provided.
6. When flow is to, from, or between impoundments,
all interconnections shall be piped or lined with an impervious material and other
appropriate safeguards to prevent both the degradation/erosion of impoundment banks
or dikes, and discharges to groundwater.
7. Surface impoundments shall be utilized to store
only stabilized residuals that have met the stabilization requirements for pathogen
reduction and vector attraction reduction specified in N.J.A.C. 7:14A-20.
8. Surface impoundments require an application be
submitted for a NJPDES permit for potential groundwater discharges pursuant to
7:14A-10.7.
(e) Bunker silos, pads, and storage sheds shall be
in conformance with the following:
1. The storage
surfaces of bunker silos, pads, and storage sheds shall be designed with a minimum
slope of two percent to permit the drainage of leachate away from storage piles for
collection and treatment.
2. The
management and treatment method for the drainage from bunker silos, pads or storage
sheds shall be indicated.
3. Storage
surfaces shall be constructed of reinforced concrete, asphalt, or other suitable
material capable of preventing discharges to groundwater.
(f) Septage handling/receiving facilities shall be
designed to provide the following:
1. An unloading
ramp for the haul trucks with a hard surface sloped to a drain to facilitate the
cleaning of any spillage and washing the haul truck, connector hoses, and fittings.
The ramp drainage shall be a tributary to treatment facilities and shall exclude
excessive stormwater;
2. A flexible hose
fitted with an easy connect coupling to provide a direct connection from the haul
truck to the receiving facility;
3.
Washdown water with adequate pressure, a hose, and a spray nozzle for cleaning the
receiving station and the haul trucks. If a potable water source is utilized, it
shall be protected with a suitable backflow prevention device;
4. An adequate off-line septage receiving tank
which allows for the collection of representative samples from any truckload of
waste accepted for discharge at the wastewater treatment plant. The receiving tank
shall be designed to provide complete draining and cleaning by means of a sloped
bottom equipped with a drain sump. The design shall also provide for adequate
mixing, testing, uniform septage strength, and chemical addition for treatment or
odor control purposes;
5. Screening,
grit, and grease removal as appropriate to protect downstream treatment
units;
6. Valving and piping designed
with sufficient operational flexibility so as to control the flow rate and point of
discharge of septage to the wastewater treatment plant;
7. Laboratory facilities for determining septage
strength and/or toxicity to the wastewater treatment processes; and
8. Any pumps provided for the handling of septage
shall be of the non-clogging design and shall be capable of passing three inch
diameter solids.