Illinois Administrative Code
Title 35 - ENVIRONMENTAL PROTECTION
Part 604 - DESIGN, OPERATION, AND MAINTENANCE CRITERIA
Subpart B - SOURCE DEVELOPMENT
Section 604.255 - Well Pumps, Discharge Piping, and Appurtenances
Universal Citation: 35 IL Admin Code ยง 604.255
Current through Register Vol. 48, No. 38, September 20, 2024
a) Where line shaft pumps are used:
1) the casing must be firmly connected to the
pump structure or have the casing inserted into a recess extending at least
one-half inch into the pump base;
2) the pump foundation and base must be at
least six inches above the finished floor elevation; and
3) lubricants must comply with Section
604.105(f).
b) Where a submersible pump is used:
1) the top of the casing must be
effectively sealed to prohibit the entrance of water under all conditions of
vibration or movement of conductors or cables;
2) the electrical cable must be firmly
attached to the riser pipe at 20-foot intervals or less; and
3) mercury seals must not be used when an
existing submersible pump is replaced or a new submersible pump is
installed.
c) Discharge Piping
1) The discharge piping for each well
must:
A) be designed to minimize friction
loss;
B) be equipped with a check
valve in or at the well, a shutoff valve, a pressure gauge, and a means of
measuring flow;
C) be protected
from the entrance of contamination;
D) have control valves and appurtenances
located above the pumphouse floor when an above-ground discharge is
provided;
E) be equipped with a
smooth-nosed sampling tap at least 18 inches above the floor to facilitate
sample collection, located at a point where positive pressure is maintained but
before any treatment chemicals are applied;
F) when necessary to remove entrapped air
from the well, be equipped with an air release-vacuum relief valve located
upstream from the check valve, with exhaust/relief piping terminating in a
down-turned position at least 18 inches above the floor and covered with a 24
mesh, corrosion-resistant screen;
G) be valved to permit test pumping and
control of each well;
H) have all
exposed piping, valves, and appurtenances protected against physical damage and
freezing;
I) be anchored to prevent
movement and be supported to prevent excessive bending forces;
J) be protected against surge or water
hammer; and
K) be constructed so
that it can be disconnected from the well or well pump to allow the well pump
to be pulled.
2) The
well must have a means of pumping to waste that is not directly connected to a
sewer.
3) The discharge, drop, or
column piping inside the well for submersible, submersible jet, and submersible
line shaft pumps must:
A) be capable of
supporting the weight of the submersible pump, piping, water, and
appurtenances, and of withstanding the thrust, torque, torque fatigue, and
other reaction loads created during pumping; and
B) use lubricants, fittings, brackets, tape,
or other appurtenances that comply with Section
604.105(f).
d) Pitless Well Units
1) Pitless units must:
A) be shop-fabricated from the point of
connection with the well casing to the unit cap or cover;
B) be threaded or welded to the well
casing;
C) be of watertight
construction throughout;
D) be of
materials and weight at least equivalent and compatible to the
casing;
E) have field connection to
the lateral discharge from the pitless unit of threaded, flanged, or mechanical
joint connection; and
F) terminate
at least 18 inches above final ground elevation or three feet above the
100-year flood level or the highest known flood elevation, whichever is
higher.
2) The design of
the pitless unit must make provision for:
A)
access to disinfect the well;
B) a
properly constructed casing vent meeting the requirements of subsection
(e);
C) facilities to measure water
levels in the well, under subsection (f);
D) a cover at the upper terminal of the well
that will prevent the entrance of contamination;
E) a contamination-proof entrance connection
for electrical cable;
F) an inside
diameter as great as that of the well casing to facilitate work and repair on
the well, pump, or well screen; and
G) at least one check valve within the well
casing.
3) If the
connection to the casing is by field weld, the shop-assembled unit must be
designed specifically for field welding to the casing. The only field welding
permitted will be that needed to connect a pitless unit to the
casing.
e) Casing Vent
1) Well casing must be vented to the
atmosphere.
2) The vent must
terminate in a downturned position, at or above the top of the casing or
pitless unit, no less than 12 inches above grade or floor, in a minimum
11/2-inch diameter opening covered with a 24 mesh, corrosion-resistant
screen.
3) The pipe connecting the
casing to the vent must be of adequate size to provide rapid venting of the
casing.
4) Where vertical turbine
pumps are used, vents may be placed into the side of the casing.
f) Water Level Measurement
1) Each well must be equipped with a means
for taking water level measurements.
2) Where pneumatic water level measuring
equipment is used, it must be made using corrosion-resistant materials and
attached firmly to the drop pipe or pump column to prevent the entrance of
foreign materials.
g) Observation wells must meet the requirements in 77 Ill. Adm. Code 920.170.
Disclaimer: These regulations may not be the most recent version. Illinois may have more current or accurate information. We make no warranties or guarantees about the accuracy, completeness, or adequacy of the information contained on this site or the information linked to on the state site. Please check official sources.
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