Utah Administrative Code
Topic - Environmental Quality
Title R309 - Drinking Water
Rule R309-530 - Facility Design and Operation: Alternate Surface Water Treatment Methods
Section R309-530-8 - Membrane Filtration
Universal Citation: UT Admin Code R 309-530-8
Current through Bulletin 2024-06, March 15, 2024
(1) Definitions.
(a) "Backwash" means the cleaning operation
that typically involves periodic reverse flow to remove foulants accumulated at
the membrane surface or the intermittent waste stream from a microfiltration or
ultrafiltration membrane system.
(b) "Baseline Response" means the amount of
airflow or pressure decay due to diffusion of air through water in wetted pores
or membrane material in an integral membrane unit.
(c) "Challenge Test" means a study conducted
to determine the removal efficiency, known as the log removal value, of a
membrane material for a particular organism, particulate, or
surrogate.
(d) "Chemically Enhanced
Backwash" means a backwash process that includes the addition of chemicals to
reduce or remove membrane foulants.
(e) "Clean-in-Place (CIP)" means the periodic
application of a chemical solution, or series of chemical solutions, to a
membrane unit for the intended purpose of removing accumulated foulants and
thus restoring permeability and resistance to baseline levels; commonly used
term for in-situ chemical cleaning.
(f) "Concentrate" means the continuous waste
stream, typically consisting of concentrated dissolved solids, from a membrane
process, usually in association with nanofiltration and reverse osmosis
processes; in some cases, also used to describe a continuous bleed stream of
concentrated suspended solids wasted from microfiltration and ultrafiltration
systems operated in a crossflow, or feed-and-bleed, hydraulic
configuration.
(g) "Control Limit"
means a response from an integrity test, which, if exceeded, indicates a
potential problem with the membrane filtration system and triggers a response;
synonymous with "upper control limit" as used in the United States
Environmental Protection Agency's Membrane Filtration Guidance Manual, EPA
815-R-06 -009, to distinguish from additional voluntary or State-mandated
"lower control limits."
(h)
"Differential Pressure" means pressure drop across a membrane module or unit
from the feed inlet to concentrate outlet, as distinguished from transmembrane
pressure, which represents the pressure drop across the membrane
barrier.
(i) "Direct Integrity Test
(DIT)" means a physical test applied to a membrane unit to identify and isolate
integrity breaches.
(j) "Feedwater"
means the influent stream to a water treatment process.
(k) "Filtrate" means the water produced from
a membrane filtration unit.
(l)
"Foulant" means a substance that causes fouling.
(m) "Fouling" means the gradual accumulation
of contaminants on a membrane surface or within a porous membrane structure
that inhibits the passage of water, thus decreasing productivity.
(n) "Flux" means the filtration rate of a
membrane filtration system expressed as flow per unit of membrane area, such as
gallons per square foot per day.
(o) "Indirect Integrity Monitoring" means
monitoring some aspect of filtrate water quality that is indicative of the
removal of particulate matter.
(p)
"Log Removal Value (LRV)" means the filtration removal efficiency for a target
organism, particulate, or surrogate expressed as log10; LRV = log10(feed
concentration) -- log10(filtrate concentration).
(q) "Maintenance Clean" means a routine,
short-duration chemical cleaning to minimize the accumulation of
foulants.
(r) "Membrane Unit" means
a group of membrane modules that share common valving that allows the unit to
be isolated from the rest of the system for integrity testing or other
maintenance.
(s) "Membrane Module"
means the smallest component of a membrane unit in which a specific membrane
surface area is housed in a device with a filtrate outlet structure.
(t) "Normalized Flux" means the filtration
rate of a membrane filtration system expressed as flow per unit of membrane
area, such as gallons per square foot per day, at a given reference temperature
for monitoring system productivity independent of changes in water temperature.
For microfiltration, ultrafiltration, and membrane cartridge filtration, 20
degrees Celsius is used for normalization. For nanofiltration and reverse
osmosis, 25 degrees Celsius is used for normalization.
(u) "Productivity" means the amount of
filtered water that can be produced from a membrane module, filtration unit, or
system over a period of time, accounting for the use of filtrate in backwash
and chemical cleaning operations, as well as otherwise productive time that a
unit or system is offline for routine maintenance processes such as
backwashing, chemical cleaning, integrity testing, or repair.
(v) "Recovery" means the volumetric percent
of feedwater that is converted to filtrate in the treatment process over the
course of an operating cycle uninterrupted by chemical cleaning or a
solids-removal process such as backwashing and excluding losses that occur due
to the use of filtrate in backwashing or cleaning operations.
(w) "Resolution" means the size of the
smallest integrity breach that contributes to a response from a DIT; also
applicable to some indirect integrity monitoring methods.
(x) "Sensitivity" means the maximum LRV that
can be reliably verified by a DIT; also applicable to some continuous indirect
integrity monitoring methods.
(y)
"Transmembrane Pressure (TMP)" means the difference in pressure from the feed,
or feed-concentrate average, if applicable, to the filtrate across a membrane
barrier.
(2) Applicability. The requirements of Section R309-530-8 apply to membrane filtration used to treat surface water or groundwater under the direct influence of surface water to:
(a) obtain LRV
credit for Giardia, Cryptosporidium, and viruses;
(b) meet the turbidity treatment technique
requirements of Rule R309-200; or
(c) meet the filtration treatment technique
requirements for enhanced treatment for Cryptosporidium of Section
R309-215-15.
(3) Turbidity Treatment Technique and Performance Requirements.
(a) The
turbidity treatment technique and turbidity performance requirements for a
water system using membrane filtration to treat surface water or groundwater
under the direct influence of surface water are specified in Subsection
R309-200-5(5)(a)(ii).
(b) To receive log removal credit for
Giardia, Cryptosporidium, or viruses under Subsection
R309-200-5(5)(a)(ii),
a membrane shall:
(i) meet the definition of
membrane filtration in Rule R309-110;
(ii) be capable of establishing removal
efficiency through product-specific challenge testing and direct integrity
testing; and
(iii) undergo direct
integrity testing and continuous indirect integrity monitoring during
operation.
(4) Challenge Testing of Membrane Modules and LRV Credit.
(a) A membrane module proposed
for treatment of surface water or groundwater under the direct influence of
surface water shall:
(i) undergo
product-specific challenge testing meeting the requirements of Subsection
R309-215-15(18)(b)(ii)
to evaluate the membrane's removal efficiency; and
(ii) either have NSF/ANSI 419 certification
or be accepted by a state with a public drinking water program approved by U.S.
EPA.
(b) A water
supplier shall submit challenge test results for a proposed membrane module to
the division for review prior to pilot testing and facility design.
(c) The division shall award a maximum LRV
credit for Giardia, Cryptosporidium, and viruses to a membrane module proposed
by a water supplier to be used for design of a membrane filtration
facility.
(d) A water supplier
shall verify an LRV credit awarded to a membrane module by direct integrity
testing meeting the requirements of Subsection
R309-215-15(18)(b)(iii)
during normal operation of a constructed membrane filtration
facility.
(5) Pilot Test or Comparable Full-Scale Membrane Filtration Operational Data. Prior to design of a membrane filtration facility, a water supplier shall:
(a) complete a pilot test of a proposed
membrane module; or
(b) request and
receive approval from the division to use comparable operational data from a
full-scale membrane facility treating water of the same or similar quality for
a proposed membrane module.
(6) Pilot Test Protocol.
(a) Prior to initiating a pilot test, a water
supplier shall:
(i) submit a test protocol to
the division for review; and
(ii)
receive written concurrence with the protocol from the division.
(b) The pilot test protocol shall
specify the:
(i) source of water for the
test;
(ii) membrane module selected
for the test;
(iii) number of
membrane modules to be tested for the full duration of the pilot
test;
(iv) test duration, including
number of clean-in-place cycles;
(v) time of year to perform the
test;
(vi) objectives of the test,
including operating procedures to analyze the optimal balance among:
(A) flux;
(B) productivity;
(C) backwash frequency;
(D) maintenance-clean frequency;
and
(E) clean-in-place
frequency;
(vii)
hydraulic configuration to match the full-scale system;
(viii) continuous operational parameter
monitoring for each filter run, including:
(A) elapsed run time;
(B) feedwater, filtrate, and concentrate
pressure;
(C) feedwater, filtrate,
and concentrate flow; and
(D)
feedwater or filtrate temperature;
(ix) water quality monitoring of the
feedwater, filtrate, and concentrate, including:
(A) parameters to be sampled; and
(B) frequency of sample collection;
(x) backwash process, including
chemical enhancement, and data collection;
(xi) maintenance-clean process;
(xii) clean-in-place process, including:
(A) data collection; and
(B) direct integrity testing prior to
returning the pilot unit to service;
(xiii) direct integrity testing process and
data collection;
(xiv) indirect
integrity monitoring process and data collection;
(xv) prescreening to protect membrane
plugging or damage;
(xvi)
pretreatment required for membrane treatment efficiency and removal of
substances not removed by membrane treatment;
(xvii) post-treatment required; and
(xviii) waste disposal.
(7) Preliminary Design Report.
(a) Prior to submitting plans and
specifications to the division, a water supplier proposing a new or modified
membrane filtration facility shall:
(i) submit
a preliminary design report to the division that establishes design parameters
for a full-scale membrane filtration facility that meets the requirements of
Section R309-530-8; and
(ii)
receive written concurrence with the report from the division.
(b) The preliminary design report
shall include:
(i) a summary of pilot test
results or comparable full-scale membrane operational data addressing each of
the items listed in Subsection R309-530-8(6), Pilot Test Protocol;
(ii) preliminary design specifications for
membrane filtration, including:
(A) flux
operating range;
(B) differential
pressure operating range;
(C)
recovery;
(D)
productivity;
(E) membrane fouling
potential based on pilot test results;
(F) membrane removal efficiency, LRV,
verified during the pilot test;
(G)
total membrane area per module; and
(H) number of membrane modules for the
full-scale facility.
(iii) treatment objectives based on source
water quality, including:
(A) potential of
the treated water to produce disinfection byproducts when chlorine is added for
disinfection prior to distribution; and
(B) potential of the filtration process to
produce corrosive water and the need for chemical conditioning of the filtrate
prior to distribution;
(iv) design capacity and its basis;
(v) mode of filtration operation -- constant
flux or constant pressure;
(vi)
expected useful life of selected membranes;
(vii) identification of critical components
to be provided in duplicate to assure continued operation of membrane
filtration in the case of a component failure;
(viii) details of direct integrity testing
representative of an integral membrane filtration unit, including:
(A) description of the testing
procedure;
(B) method of direct
integrity testing meeting the requirements of Subsection
R309-215-15(18)(b)(iii);
(C) frequency of testing meeting the
requirements of Subsection
R309-215-15(18)(b)(iii)(F);
(D) estimated test resolution meeting the
requirements of Subsection
R309-215-15(18)(b)(iii)(B);
(E) estimated test sensitivity meeting the
requirements of Subsection
R309-215-15(18)(b)(iii)(C);
(F) for pressure-based testing, calculations
that demonstrate how the measured pressure or flow is converted to an
equivalent LRV;
(G) for
marker-based testing, identification of:
(I)
the particulate or molecular marker; and
(II) how the marker will be discretely
quantified or measured;
(H) estimated control limit meeting the
requirements of Subsections
R309-215-15(18)(b)(iii)(D)
and (E); and
(I) for pressure-based testing, a baseline
response if applicable, and how it was determined.
(ix) details of continuous indirect integrity
monitoring of filtrate quality from each membrane filtration unit, including:
(A) description of the monitoring
procedure;
(B) method of continuous
indirect integrity monitoring meeting the requirements of Subsection
R309-215-15(18)(b)(iv);
(C) frequency of monitoring meeting the
requirements of Subsection
R309-215-15(18)(b)(iv)(B);
(D) estimated performance-based control limit
meeting the requirements of Subsection
R309-215-15(18)(b)(iv)(D)
or (E); and
(E) triggers for initiating a DIT meeting the
requirements of Subsection
R309-215-15(18)(b)(iv)(D)
or (E);
(x) details of the backwashing process and
chemically enhanced backwashing process for membranes requiring backwashing,
including:
(A) triggers for initiating the
processes;
(B) backwashing and
chemically enhanced backwashing frequencies;
(C) duration of processes;
(D) water supply for backwashing;
(E) chemical supply for enhanced
backwashing;
(F) list of chemicals
used for chemically enhanced backwashing;
(G) treatment and disposal of backwash water
and chemicals at completion of the processes;
(H) backwash-water recycling; and
(I) description of cross-connection control
for the chemically enhanced backwashing process;
(xi) details of the maintenance-clean process
and the clean-in-place process for membranes requiring chemical cleaning,
including:
(A) triggers for initiating the
process;
(B) process
frequency;
(C) chemical supply for
the process;
(D) list of chemicals
used in the cleaning process;
(E)
heating requirements for the cleaning solution;
(F) cleaning-solution
recirculation;
(G) soak
cycle;
(H) chemical
recycling;
(I) post-CIP process for
verification that the chemical concentration was adequate for the cleaning
cycle;
(J) post-cleaning
requirements for returning a membrane unit to filtration, including:
(I) backwashing or flushing;
(II) direct integrity testing; and
(III) disposal of chemical waste stream and
rinse water; and
(K)
description of cross-connection control for the process.
(8) Design Criteria.
(a) See Subsection
R309-530-4(3)
for source water quality data collection and submission requirements that a
water supplier shall meet no later than the date that plans and specifications
are submitted to the division.
(b)
Treatment Capacity of a Membrane Filtration Facility.
(i) A membrane filtration facility that
provides the sole source of water to a water system shall be capable of meeting
peak day demand at the lowest feedwater temperature when the largest membrane
unit is out of service by providing either:
(A) one redundant membrane unit; or
(B) multiple membrane units with excess
treatment capacity for each unit at maximum design flux.
(ii) A membrane filtration facility that
provides the sole source of water to a noncommunity water system that can
discontinue water service and shut down does not have to be capable of meeting
peak day demand when the largest membrane unit is out of service.
(iii) The treatment capacity of a membrane
filtration facility shall account for the:
(A)
use of filtrate for backwashing and chemical cleaning;
(B) loss of concentrate; and
(C) loss of filtrate from flushing membranes
after chemical cleaning.
(c) Redundancy of Critical Components.
(i) A membrane filtration facility that
provides the sole source of water to a water system shall provide critical
components needed to maintain continuous operation of the filtration process,
as identified in the preliminary design report, in duplicate.
(ii) A membrane filtration facility that
provides the sole source of water to a noncommunity water system that can
discontinue water service and shut down does not have to provide critical
components in duplicate.
(d) Certification of Chemicals and
Components.
(i) Chemicals added during water
treatment, including chemicals used to clean membrane modules and associated
piping, shall be certified to meet NSF/ANSI 60.
(ii) Materials in contact with water during
or following the treatment process, including membrane filtration modules and
membrane repair materials, shall be certified to meet NSF/ANSI 61.
(e) Membrane Facility Housing. A
membrane filtration facility shall be housed in a structure that is:
(i) weatherproof;
(ii) accessible at times that the facility is
active;
(iii) protected from
flooding;
(iv) drained to prevent
the accumulation of water on the floor;
(v) locked and secured to prevent vandalism
and unauthorized entry;
(vi)
heated, cooled, and vented to protect the equipment;
(vii) dehumidified, if necessary, to protect
the equipment;
(viii) lighted to
allow routine operation and maintenance; and
(ix) sized and configured to allow operation
and maintenance, including the removal and replacement of membrane equipment.
(f) Prefiltration
Screening and Pretreatment. Prefiltration screening and pretreatment shall be
provided based on source water quality, pilot testing, and preliminary design
report recommendations.
(i) Prefiltration
screening shall remove particles and debris that may damage or plug a
membrane.
(ii) Chemicals used in
pretreatment shall be compatible with the membrane material.
(iii) A pretreatment process that uses a
polymer upstream of a membrane shall minimize or eliminate polymer carryover to
the membrane.
(iv) Equipment shall
be provided for routine testing of the effectiveness of the pretreatment
process.
(g)
Post-treatment. Post-treatment for membrane filtration shall be provided based
on pilot testing or preliminary design report recommendations.
(i) Equipment shall be provided for:
(A) routine testing of the effectiveness of
the post-treatment process; and
(B)
compliance monitoring required by drinking water rules.
(ii) Requirements for disinfection following
membrane filtration are specified in Rules R309-200, R309-210, R309-215, and
R309-520.
(h) Bypass
Water Handling.
(i) Untreated surface water
or groundwater under the direct influence of surface water may not bypass the
membrane filtration process.
(ii)
Water blended with filtrate from membrane filtration treatment prior to
distribution shall meet drinking water standards.
(i) Filter-to-Waste. Each membrane unit shall
be equipped to allow filtrate to be sent to waste instead of
distribution.
(j) Waste Disposal.
Waste generated by membrane filtration, including concentrate, filter-to-waste
water, backwash water, and spent membrane-cleaning solution, shall be disposed
of according to applicable regulations.
(k) Backwashing Equipment.
(i) For membranes that require backwashing,
backwashing equipment shall be provided to remove accumulated foulants from the
membrane surface.
(ii) Piping and
pumps shall be compatible with chemicals used for chemically enhanced
backwashing.
(iii) Air provided
during backwashing shall be:
(A)
filtered;
(B) dry; and
(C) oil free.
(iv) If water from backwashing is recycled,
it shall be:
(A) treated to remove solids;
and
(B) returned to the head of the
treatment facility.
(v)
To prevent damage to a membrane or its housing, for automatic backwashing, a
backwash pump shall be equipped with:
(A) a
variable frequency drive;
(B) soft
start and stop capabilities; or
(C)
slow opening and closing automatic valves.
(vi) A means shall be provided to measure the
total flow and the rate of flow of the backwash water during the backwashing
process.
(vii) Filtrate shall be:
(A) used to backwash membrane modules or
membrane units; and
(B) supplied in
sufficient volume to maintain rated plant capacity.
(l) Clean-in-Place and
Maintenance-Clean Equipment.
(i) For
membranes that require chemical cleaning, equipment shall be provided to remove
accumulated foulants on the membrane surface not removed by backwashing.
(ii) Piping and pumps shall be
compatible with the chemicals used for cleaning.
(iii) Equipment for chemical cleaning shall
be provided with cross-connection control to isolate chemicals from the
feedwater and filtrate during the cleaning process.
(iv) Secondary containment for leaks and
spills from a chemical storage tank shall be provided to:
(A) protect the operator and equipment;
and
(B) prevent release of
chemicals to the environment.
(m) Direct Integrity Testing Equipment.
(i) Equipment shall be provided for automatic
direct integrity testing of each membrane unit to:
(A) detect potential breaches; and
(B) record test results.
(ii) Equipment shall be capable of applying
direct integrity testing to physical elements of the membrane unit, including:
(A) membranes;
(B) seals;
(C) potting material;
(D) valves;
(E) piping; and
(F) any other component that could result in
contamination of the filtrate if the component's integrity were
compromised.
(iii) Air
provided for pressure-based testing shall be:
(A) filtered;
(B) dry; and
(C) oil free.
(iv) A particle used for marker-based testing
shall:
(A) be certified to meet NSF/ANSI
60;
(B) be inert;
(C) be compatible with the membrane
material;
(D) have an effective
size of 3 µm or less;
(E)
have a neutral surface charge;
(F)
be capable of being discretely measured; and
(G) be removed less efficiently than the
organism targeted for treatment by membrane filtration.
(v) A molecule used for marker-based testing
shall:
(A) be capable of being discretely
quantified; and
(B) have an
effective size equivalent to 3 µm or less.
(n) Indirect Integrity Monitoring
Equipment. Equipment shall be provided for the continuous monitoring and
recording of turbidity levels of the filtrate at each membrane unit as
specified in Subsection R309-530-8(8)(s).
(o) Sample Collection. A means to collect
samples shall be provided for the:
(i)
raw-water inlet to a membrane filtration facility;
(ii) feedwater inlet to a membrane
unit;
(iii) filtrate outlet from a
membrane unit;
(iv) concentrate
outlet;
(v) combined-filter
outlet;
(vi) finished-water outlet
from a membrane filtration facility;
(vii) water supply for membrane backwashing;
and
(viii) clean-in-place chemical
solution.
(p) Flow
Measurement. A means to measure and record the total flow and the rate of flow
shall be provided for the:
(i) raw-water
inlet to a membrane filtration facility;
(ii) feedwater inlet to a membrane
unit;
(iii) filtrate outlet from a
membrane unit;
(iv) concentrate
outlet;
(v) finished-water outlet
from a membrane filtration facility;
(vi) water supply for membrane backwashing;
and
(vii) recycled water.
(q) pH and Temperature
Measurement. A means to measure and record pH and temperature shall be provided
for the:
(i) raw-water inlet to a membrane
filtration facility; and
(ii)
finished-water outlet from a membrane filtration facility.
(r) Pressure Measurement. A means to measure
and record pressure for a membrane filtration unit shall be provided for the:
(i) feedwater inlet;
(ii) concentrate outlet; and
(iii) filtrate outlet.
(s) Turbidity Measurement. A means to measure
and record turbidity shall be provided for the:
(i) raw-water inlet to a membrane filtration
facility;
(ii) outlet from a
pretreatment process;
(iii)
filtrate outlet from a membrane unit;
(iv) combined-filter outlet;
(v) outlet from any other process downstream
of membrane filtration that may increase turbidity; and
(vi) clearwell outlet as required by
Subsection
R309-215-9(1)(a).
(t) Cross-Connection Control.
Cross-connection control shall be provided to prevent contamination of
feedwater and filtrate from cleaning chemicals and waste disposal.
(u) System Controls.
(i) System controls for a membrane filtration
facility shall be:
(A) located above
ground;
(B) protected from
flooding; and
(C) capable of
automatically shutting down the membrane filtration process to prevent damage
to the membranes or distribution of inadequately treated drinking
water.
(ii) Automated
system controls shall be provided with:
(A)
spare input/output cards of each type;
(B) a backup power supply; and
(C) surge protection.
(v) Alarms. A membrane filtration
facility shall include an alarm system that immediately notifies a water system
operator when:
(i) feedwater turbidity exceeds
the maximum design level;
(ii)
filtrate turbidity exceeds the level not to be exceeded at any time as
specified in Subsection
R309-200-5(5)(a)(ii);
(iii) a direct or indirect integrity test
exceeds a control limit;
(iv) the
maximum flow rate setting corresponding to the maximum design flux level is
exceeded;
(v) TMP exceeds the
maximum design level; and
(vi) a
pump driving the filtration, backwashing, or chemical cleaning process fails.
(w) Control of Remote
or Unoccupied Membrane Filtration Facility.
(i) A remote or unoccupied membrane
filtration facility shall be provided with alarms, communication systems, and
the ability to automatically shut down processes to prevent the distribution of
inadequately treated drinking water.
(ii) In addition to the items listed in
Subsection R309-530-8(8)(v), a remote or unoccupied membrane filtration
facility shall include an alarm system that immediately notifies a water system
operator of:
(A) failure of a critical
component identified in the preliminary design report;
(B) failure of a programable logic
controller;
(C) membrane unit
shutdown;
(D) clearwell water level
above the maximum or below the minimum;
(E) chlorine residual level above the maximum
or below the minimum;
(F) low level
in a chemical storage tank;
(G)
loss of electrical power;
(H)
unauthorized entry; and
(I) low
interior temperature of a treatment building.
(9) Facility Startup.
(a) A membrane filtration facility shall be
equipped to allow for disposal of feedwater and filtrate during the startup
process.
(b) Prior to installing
membrane modules:
(i) piping shall be flushed
to remove dirt and construction debris;
(ii) chemical-feed equipment shall be tested
to assure:
(A) proper operation;
and
(B) delivery of chemicals at
proper dosages;
(iii)
mechanical equipment shall be tested for leaks and proper operation;
(iv) instrumentation shall be calibrated and
tested for proper operation;
(v)
the control system shall be verified for:
(A)
digital and analog control inputs and outputs;
(B) instrumentation alarm limits;
(C) programming logic;
(D) instrumentation loops; and
(E) operational sequences.
(c) After installation,
a membrane module shall be:
(i) flushed to
waste to remove the storage solution; and
(ii) tested to assure smooth startup and
shutdown.
(d) A water
supplier shall comply with applicable disposal requirements for waste flushed
from newly installed piping, tanks, equipment, and membranes at a membrane
filtration facility.
(e) Prior to
use of a membrane filtration facility to provide drinking water:
(i) pipes, tanks, and associated equipment
shall be disinfected and flushed according to AWWA procedures;
(ii) membrane modules shall be disinfected
and flushed according to instructions from the membrane manufacturer taking
into consideration the chlorine tolerance of the membranes;
(iii) a facility shall be operated
continuously for a trial period to verify design parameters;
(iv) treated water quality shall be sampled
and demonstrate compliance with drinking water standards;
(v) final, operational control limits for
direct integrity testing shall be established;
(vi) a DIT shall be done per Subsection
R309-215-15(18)(b)(iii),
and the result may not exceed the established upper control limit;
and
(vii) a water supplier shall
obtain an operating permit as required by Section
R309-500-9.
(f) A water supplier shall assure
that adequate operator training and instruction are provided by the supplier of
the membrane units on each aspect of startup and operation of a membrane
filtration facility.
(10) Operating Permit -- Additional Information. In addition to meeting the requirements for an operating permit in Section R309-500-9, a water supplier requesting an operating permit for a membrane filtration facility treating surface water or groundwater under the direct influence of surface water shall provide to the division:
(a) a statement acknowledging that the
facility startup requirements of Subsection R309-530-8(9) have been
completed;
(b) normalized operating
flux range;
(c) normalized
operating flux per membrane unit;
(d) maximum operating differential pressure
for a membrane unit;
(e) membrane
unit backwashing frequency;
(f)
membrane unit clean-in-place frequency;
(g) minimum, verified, operational, direct
integrity testing resolution;
(h)
maximum, verified, operational, direct integrity testing sensitivity;
(i) verified, operational, direct integrity
testing control limit; and
(j)
verified, indirect integrity monitoring performance-based upper control
limit.
(11) Operational Membrane Integrity Testing and Monitoring and Reporting.
(a) Membrane Integrity Testing and
Monitoring.
(i) Direct Integrity Testing.
(A) A water system using membrane filtration
to treat surface water or groundwater under the direct influence of surface
water to meet the requirements of Section R309-530-8 shall comply with the
direct integrity testing requirements of Subsection
R309-215-15(18)(b)(iii).
(B) A DIT shall be done on a membrane unit
following:
(I) a clean-in-place process for a
membrane unit; and
(II) repair of a
membrane unit.
(C) A
membrane unit that has been chemically cleaned in place or repaired may not be
returned to service unless the result of a DIT of the membrane unit is at or
below the established control limit.
(ii) Indirect Integrity Monitoring. A water
system using membrane filtration to treat surface water or groundwater under
the direct influence of surface water to meet the requirements of Section
R309-530-8 shall comply with the indirect integrity monitoring requirements of
Subsection
R309-215-15(18)(b)(iv).
(b) Reporting Requirements for
Membrane Integrity Testing. A water system using membrane filtration to treat
surface water or groundwater under the direct influence of surface water to
meet the requirements of Section R309-530-8 shall comply with the reporting
requirements for direct integrity testing and indirect integrity monitoring of
Subsection
R309-215-15(20)(d)(x)(B).
(12) Membrane Replacement.
(a) A water supplier shall obtain plan
approval and an operating permit for replacement of:
(i) an approved membrane module with a
different module; and
(ii) an
approved number of modules with a greater number of the same modules.
(b) Replacement of a membrane
module with exactly the same product is considered ongoing operation and
maintenance and is not a public drinking water project that requires plan
approval or an operating permit.
(13) Calibration of Instrumentation. Instrumentation used to verify operation of a treatment process or determine compliance with monitoring and reporting requirements for a drinking water rule, shall be:
(a) calibrated
monthly;
(b) tested for accuracy
monthly; and
(c) maintained
according to manufacturer's recommendations.
Disclaimer: These regulations may not be the most recent version. Utah 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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