HomeMy WebLinkAboutDERR-2024-011504IMPRESSED CURRENT CATHODIC PROTECTION SYSTEM EVALUATION
DEQ Underground Storage Tank Program
TESTING PER CRITERIA & STANDARDS ESTABLISHED BY NACE AND/OR STI (STEEL TANK INSTITUTE)
• Access to the soil directly over the cathodically protected structure that is being evaluated must be provided.
• A site drawing depicting the UST cathodic protection system and all reference electrode placements must be completed.
I. UST OWNER II. UST FACILITY
COMPANY NAME: DON STOCKLY TRUCKING
ADDRESS: 3995 SOUTH 300 WEST
CITY: MURRAY STATE: UT ZIP: 84107
FACILITY NAME: DON STOCKLY TRUCKING
FACILITY ID#: 4001433
FACILITYADDRESS: 3995 SOUTH 300 WEST
CITY: MURRAY STATE: UT ZIP: 84107 COUNTY: SALT LAKE
III. CP TESTER IV. CP TESTER’S QUALIFICATIONS
TESTER’S NAME: BRYER DUNCAN
COMPANY NAME: M&M CATHODIC PROTECTION
ADDRESS: 303 REDBERRY RD.
CITY: DRAPER STATE: UT ZIP: 84020
PHONE NUMBER: (801) 750-3061
CP TESTERS CERTIFICATION NUMBER(s) & EXPIRATION DATE(s):
STEEL TANK INSTITUTE CP INSPECTOR: #CP-16578 EXP:11-18-2024
UTAH: CP TESTER #UT404 EXPIRES 1-18-2026
WYOMING: CP TESTER #CP-2021-C-10 EXPIRES 11-18-2024
V. REASON SURVEY WAS CONDUCTED (mark only one)
Routine - 3 year Routine – within 6 months of installation 90-day re-survey after fail Re-survey after repair/modification
Date next cathodic protection survey must be conducted no later than: 4-16-25 (required within 6 months of installation/repair & every 3 years thereafter).
VI. CATHODIC PROTECTION TESTER’S EVALUATION (mark only one)
PASS All protected structures at this facility pass the cathodic protection survey and it is judged that adequate cathodic protection has been
provided to the UST system (indicate all criteria applicable by completion of Section VIII).
FAIL One or more protected structures at this facility fail the cathodic protection survey and it is judged that adequate cathodic protection
has not been provided to the UST system (complete Section IX).
INCONCLUSIVE The cathodic protection survey of an impressed current system must be evaluated by a corrosion expert. (complete Section VII).
CP TESTER’S SIGNATURE:
DATE CP SURVEY PERFORMED: 10-16-24
VII. CORROSION EXPERT’S EVALUATION (mark only one)
The survey must be conducted and/or evaluated by a corrosion expert when: a) supplemental anodes or other changes in the construction of the impressed
current system are made; b) stray current may be affecting buried metallic structures or c) an inconclusive result was indicated in Section VI.
PASS All protected structures at this facility pass the cathodic protection survey and it is judged that adequate cathodic protection has been
provided to the UST system (indicate all criteria applicable by completion of Section VIII).
FAIL One or more protected structures at this facility fail the cathodic protection survey and it is judged that adequate cathodic protection
has not been provided to the UST system (complete Section IX).
CORROSION EXPERT’S NAME: COMPANY NAME:
NACE INTERNATIONAL CERTIFICATION: NACE INTERNATIONAL CERTIFICATION NUMBER:
CORROSION EXPERT'S SIGNATURE:
DATE REVIEWED:
VIII. CRITERIA APPLICABLE TO EVALUATION (mark all that apply)
-850 OFF Structure-to-soil potential more negative than –850 mV with respect to a Cu/CuSO4 reference electrode with protective current
temporarily interrupted (instant-off).
100mV POLARIZ. Structure(s) exhibit at least 100 mV of cathodic polarization (at least 100mV shift negative from depolarized state or recorded native)
IX. ACTION REQUIRED AS A RESULT OF THIS EVALUATION (mark only one)
NONE Cathodic protection is adequate. No further action is necessary at this time. Test again by no later than (see Section V).
RETEST Cathodic protection may not be adequate. Retest during the next 90 days to determine if passing results can be achieved.
REPAIR/RETEST Cathodic protection is not adequate. Repair/modification is necessary as soon as practical but within the next 90 days.
X. DESCRIPTION OF UST SYSTEM
TANK # PRODUCT CAPACITY TANK MATERIAL PIPING MATERIAL FLEX CONNECTORS
1 DSL 10,000 GAL STEEL STEEL CONTAIN@STP/CP@DISP
2
3
4
5
6
7
XI. IMPRESSED CURRENT RECTIFIER DATA (complete all applicable)
In order to conduct an effective evaluation of the cathodic protection system, a complete evaluation of rectifier operation is necessary.
RECTIFIER MANUFACTURER: BENCHMARK RATED DC OUTPUT: VOLTS:24 AMPS:12
RECTIFIER MODEL: BPS 24-12 SSR RECTIFIER SERIAL NUMBER: 9712119
RECTIFIER OUTPUT AS INITIALLY DESIGNED OR LASTLY RECOMMENDED (if available): VOLTS: AMPS:
TAP SETTINGS DC OUTPUT EVENT DATE
COURSE FINE VOLTS AMPS
HOUR METER COMMENTS
"AS FOUND" 10-16-24 A 5 6.67 V 1.56 A 5.2 mV (shunt) x .3 = 1.56 A
"AS LEFT" 10-16-24 B 3 10.97 V 3.81 A 12.7 mV (shunt) x .3 = 3.81 A
XII. IMPRESSED CURRENT POSITIVE & NEGATIVE CIRCUIT MEASUREMENTS (output amperage)
Complete if the system is designed to allow such measurements (i.e. individual lead wires for each anode are installed and measurement shunts are present).
CIRCUIT 1 2 3 4 5 6 7 8 9 10 TOTAL AMPS
ANODE (+)
TANK (-)
XIII. DESCRIPTION OF CATHODIC PROTECTION SYSTEM REPAIRS AND/OR MODIFICATION
Complete if any repairs or modifications to the cathodic protection system are made OR are necessary. Certain repairs/modifications are required to be
designed and/or evaluated by a corrosion expert (completion of Section VII required).
Additional anodes for an impressed current system (attach corrosion expert’s design).
Repairs or replacement of rectifer (explain in “Remarks/Other” below).
Anode header cables repaired and/or replaced(explain in “Remarks/Other” below).
Impressed current protected tanks/piping not electrically continuous (explain in “Remarks/Other” below).
REMARKS/OTHER: NO REPAIRS PERFORMED-SURVEYED TO VERIFY ISOLATION INSTALLED BY 3RD PARTY. PREVIOUS SURVEY WAS
REVIEED AND SIGNED OFF BU CORROSION EXPERT. SYSTEM GROUNDBED DESIGN/SPECIFICATION IS ALSO ATTACHED
XIV. UST FACILITY SITE DRAWING
Attach detailed drawing of the UST and cathodic protection systems. Sufficient detail must be given in order to clearly indicate where the reference electrode was
placed for each structure-to-soil potential that is recorded on the survey forms. Any pertinent data must also be included. At a minimum you should indicate the
following: All tanks, piping and dispensers; All buildings and streets; All anodes and wires; Location of CP test stations; Each reference electrode placement must be
indicated by a code (1,2,3 R-1, R-2, R-3etc.) corr esponding with the appropriate line number in Section XVI of this form. AN EVALUATION OF THE CATHODIC
PROTECTION SYSTEM IS NOT COMPLETE WITHOUT AN ACCEPTABLE SITE DRAWING. (LARGER SITE DRAWING IS ATTACHED TO THIS SURVEY)
XV. IMPRESSED CURRENT CATHODIC PROTECTION SYSTEM CONTINUITY SURVEY
• This section may be utilized to conduct measurements of continuity on underground storage tank systems that are protected by cathodic protection systems.
• When conducting a fixed cell - moving ground survey, the reference electrode must be placed in the soil at a remote location and left undisturbed.
• Conduct point-to-point test between any two structures for which the fixed cell - moving ground survey is inconclusive or indicates possible isolation.
• For impressed current systems, the protected structure must be continuous with all other protected structures in order to pass the continuity survey.
NOTE: The survey is not complete unless all applicable parts of sections I-XIV are also completed
DESCRIBE LOCATION OF “FIXED REMOTE” REFERENCE ELECTRODE PLACEMENT: POINT TO POINT CONTINUITY SURVEY WAS CONDUCTED
STRUCTURE “A” 1 STRUCTURE “B” 2 STRUCTURE “A” 3
FIXED REMOTE
INSTANT OFF
VOLTAGE
STRUCTURE “B” 4
FIXED REMOTE
INSTANT OFF
VOLTAGE
POINT-TO-POINT 5
VOLTAGE
DIFFERENCE (mV)
ISOLATED/ 6
CONTINUOUS/
INCONCLUSIVE
(example) PLUS TANK BOTTOM (example) PLUS PRODUCT LINE @ STP (example) -915 mV (example) -999 mV (example) ISOLATED
(example) PLUS TANK BOTTOM (example) PLUS PRODUCT LINE @ STP (example) 22 mV (example) ISOLATED
DSL TANK BOTTOM DSL FILL RISER .1 CONTINUOUS
DSL FILL RISER DSL ATG RISER .1 CONTINUOUS
DSL TANK BOTTOM PIPE DISP 1 .2 CONTINUOUS
DSL TANK BOTTOM PIPE DISP 2 .2 CONTINUOUS
DSL TANK BOTTOM RECT. NEG. .1 CONTINUOUS
REMARKS/OTHER: NO ISSUES WITH CONTINUITY
1. Describe the protected structure {“A”} that you are attempting to demonstrate is continuous (e.g. plus tank bottom).
2. Describe the “other” protected structure {“B”} that you are attempting to demonstrate is continuous (e.g. plus steel product line @ STP).
3. Record the fixed remote instant off structure-to-soil potential of the protected structure {“A”} in millivolts (e.g. –915 mV).
4. Record the fixed remote instant off structure-to-soil potential of the “other” protected structure {“B”} in millivolts (e.g. –908 mV).
5. Record the voltage difference observed between structure “A” and structure “B” when conducting “point-to-point” testing (e.g. 1mV).
6. Document whether the test (fixed cell and/or point to point) indicated the protected structure was isolated, continuous or inconclusive.
XVI. IMPRESSED CURRENT CATHODIC PROTECTION SYSTEM SURVEY
• This section may be utilized to conduct a survey of an impressed current cathodic protection system by obtaining structure-to-soil potential measurements.
• The reference electrode must be placed in the soil directly above the structure that is being tested and as far away from any active anode as practical to obtain a valid
structure-to-soil potential.
• Both on and instant off potentials must be measured for each structure that is intended to be under cathodic protection.
• The instant off potential must be -850 mV or more negative or the 100 mV polarization criterion must be satisfied in order to pass.
NOTE: This survey is not complete unless all applicable parts of sections I – XIV are also completed
LOCATION 1
CODE
STRUCTURE 2
CONTACT POINT 3
REFERENCE CELL PLACEMENT 4
ON 5
VOLTAGE
(mV)
INSTANT 6
OFF VOLT.
(mV)
100 mV POLARIZATION
ENDING 7
VOLTAGE
(mV)
VOLTAGE 8
CHANGE
(mV)
PASS/
FAIL 9
(example)
1
(example)
PLUS TANK
(example)
TANK BOTTOM
(example)
SOIL @ REG. TANK STP MANWAY
(example)
-1070mV
(example)
-875 mV
(example)
PASS
(example)
2
(example)
DIESEL PIPE
(example)
DISPENSER 7/8
(example)
SOIL @ DIESEL TANK STP MANWAY
(example)
-810 mV
(example)
-680 mV
(example)
-575 mV
(example)
105 mV
(example)
PASS
1 DSL TANK TANK BOTTOM BOREHOLE SOUTH -2340 -799 -698 101 PASS
2 DSL TANK TANK BOTTOM BOREHOLE CENTER -1789 -746 -642 104 PASS
3 DSL TANK TANK BOTTOM BOREHOLE NORTH -1388 -689 -584 105 PASS
4 PRODUCT PIPE-DSL PIPE AT DISP 1 SOIL AT DISP 1 -1085 -704 -600 104 PASS
5 PRODUCT PIPE-DSL PIPE AT DISP 2 SOIL AT DISP 2 -1088 -595 -493 102 PASS
6 - - -
7 - - -
8 - - -
9 - - -
10 - - -
11 - - -
12 - - -
13 - - -
14 - - -
15 - - -
16 - - -
17 - - -
18 - - -
19 - - -
20 - - -
21 - - -
22 - - -
23 - - -
24 - - -
25 - - -
26 - - -
27 - - -
28 - - -
29 - - -
30 - - -
31 - - -
32 - - -
33 - - -
34 - - -
35 - - -
36 - - -
37 - - -
38 - - -
39 - - -
40 - - -
41 - - -
REMARKS/OTHER: WE CAME TO VERIFIY CATHODIC PROTECTION IS PASSING AFTER 3RD PARTY INSTALLAED DIELECTRIC UNIONS UNDER
DISPENSERS. DSL TANK AND PIPING PASSES MINIMUM REQUIREMENT FOR CATHODIC PROTECTION PER STI
1. Designate numerically or by code on the site drawing each local reference electrode placement (e.g. 1,2,3 T-1, T-2, P-1, P-2etc.).
2. Describe the structure that is being tested (e.g. plus tank; diesel piping; flex connector, etc.).
3. Describe where the structure being tested is contacted by the test lead (e.g. plus tank bottom; diesel piping @ dispenser 7/8; etc.).
4. Describe the exact location where the reference electrode is placed for each measurement (e.g. soil @ regular tank STP manway; soil @ dispenser 2, etc.)
5. {Applies to all tests} Record the structure-to-soil potential (voltage) observed with the current applied (e.g. –1070 mV).
6. {Applies to all tests} Record the structure to soil potential (voltage) observed when the current is interrupted (e.g. 680 mV).
7. {Applies to 100 mV polarization test only} Record the voltage observed at the end of the test period (e.g. 575 mV).
8. {Applies to 100 mV polarization test only} Subtract the final voltage from the instant off voltage (e.g. 680 mV – 575 mV = 105 mV).
9. Indicate if the tested structure passed or failed one of the two acceptable criteria (850 instant off or 100 mV polarization) based on your interpretation of data.
ATTACHMENT 1 - LARGER SITE DRAWING:
ATTACHMENT 2 - CERTIFICATION OF CP TESTER:
ATTACHMENT 3 – REFERENCE ELECTRODE CALIBRATION TEST PERFORMED
Copper-Copper Sulfate reference electrode field calibration test (half-cell)
The following reference electrode calibration test is performed quarterly:
Visual inspection: The field reference electrode should always have a quantity of undissolved copper sulfate crystals
present in the solution to assure that the solution is saturated. The solution should be azure blue and clear since
contaminants can make the solution cloudy.
Parts required to perform field calibration test:
QUANTITY DESCRIPTION
1 COPPER-COPPER SULFATE CuCu/SO
4
HALF CELL –
CALIBRATION STANDARD – NOT USED IN FIELD
1 COPPER-COPPER SULFATE CuCu/SO
4
HALF CELL –
TO BE CALIBRATED – FIELD REFERENCE ELECTRODE
INSTRUCTIONS:
1. Place both the CALIBRATION STANDARD – NOT USED IN FIELD half-cell and the half cell to be
calibrated into a container of distilled water.
2. Connect the half-cells to the leads of a voltmeter capable of giving reading in mill volts.
3. Turn on the voltmeter and see if the voltmeter reads a potential difference of (+/-) 10mV or more.
4. Wait up to five (5) minutes.
5. If half-cells show 10mV or more difference of potential, the half-cell being calibrated is out of calibration
and should be replaced or cleaned and re-checked.
ATTACHMENT 4 – FLUKE MULTIMETER CALIBRATION
The following equipment shows the Fluke Multi-meters used for testing of CP potentials for these surveys:
The 77, 87, 175, 177, & 179 Manufacturer’s Calibration Information provides the information necessary to adjust and
verify the performance of the Fluke Models 175, 177, and 179 True RMS Multi-meters.
WE PERFORM A PERFORMANCE TEST ON THESE DEVICES QUARTERLY (within the last 90 days): The
performance tests verify the operation of the Meter when measuring low voltage DC potentials, such as those
encountered during a CP survey. We check the accuracy of each Meter function against its specifications as
referenced to a precision, stable, low-voltage supply reference that is accurate to within 0.007% (plus or minus
350uV) as measured by a calibrated 8.5 digit Keysight 3458A DMM that has an accuracy of 0.0008% (Keysight
Technologies, Loveland Standards and Calibration Labs Certificate of Calibration 1-7581424013-1, (valid through
January 21, 2024). If meter fails any part of the test per specifications of the manufacturer (+/- .09 volt @ 5 VDC ),
calibration adjustment and/or repair is indicated it is sent to the manufacturer for repair and or calibration.
WE PERFORM A CALIBRATION ON THESE DEVICES QUARTERLY (within the last 90 days): Calibration test
of multi-meters was performed against its specifications as referenced to a precision, stable, low-voltage supply, as
indicated above.
Signature showing calibration test of multi-meters completed within the last 90 days:
____________________________
Signature
____________________________
Printed Name
RRRRobert Butner, STI CP INspector/ NACE CP2obert Butner, STI CP INspector/ NACE CP2obert Butner, STI CP INspector/ NACE CP2obert Butner, STI CP INspector/ NACE CP2
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M&M Cathodic Protection Services ■ 303 Redberry Rd. Draper, UT 84020 ■ Phone: (888) 763-8572 Website: CathodicProtectionUtah.com
September 20, 2024
Don Stockley Trucking
ATTN: Trevor Moore
Facility ID: 4001433
2995 South 300 West
Murray, UT
SUBJ: SPECIFICATION FOR IMPRESSED CURRENT CP SYSTEM DESIGN
Mr. Moore,
We completed the design for the replacement of the anode groundbed for the underground storage tank at your
property. The specification and design criteria for this system are listed below.
SPECIFICATION AND DESIGN- GENERAL
The CP (herein referred to as “CP”) system was designed to provide proper CP potentials to properly protect the
underground storage tanks located at Don Stockley Trucking, Facility ID: 4001433, 2995 South 300 West, Murray,
UT. Proper CP potential is defined as: A negative (cathodic) potential of at least 850 mV with the CP applied. This
potential is measured with respect to a Copper Copper-Sulfate Electrode (CSE) contacting the electrolyte. Voltage
drops other than those across the structure/electrolyte boundary must be considered for valid interpretation of this
potential measurement.
Review of past CP reports show this system has been protected via an impressed current CP system for some
time. A review of the operating history of the UST system from provided reports was completed, including the date
of installation, tightness testing, internal inspection (where available), leak history (where available), previous
structure-to-soil potentials, and as-built drawings (where available).
This system was designed per criteria from NACE SP0285-2011 (formerly RP0285), “Corrosion Control of
Underground Storage Tank Systems by CP”
SPECIFICATION AND DESIGN – APPLICATION SPECIFIC
The project Don Stockley Trucking, Facility ID: 4001433, 2995 South 300 West, Murray, UT consists of one (1)
Underground Fuel Storage Tank (UST) that are steel in construction, with steel piping. CP has been provided for
many years via an installed impressed current system. The most recent CP survey performed by M&M Cathodic
Protection Services, Inc., showed that the system was not operating per minimum CP specifications. M&M
Cathodic Protection Service, Inc. conducted a series various tests on the system, groundbed, wiring, and rectifier.
Considering the age of the system as well as the results of various tests, it was determined that the anode ground
should be replaced to insure lasting cathodic protection for this asset for many years to come. Additionally, there
was discussions that the product piping under the dispensers should have dielectric unions installed to isolate these
tanks from the possibility of electronic shorts from these or future dispenser upgrades.
In preparation of a CP system design to replace the groundbed at the facility, past data was reviewed. It was
determined to install an impressed current groundbed.
PHYSICAL DESCRIPTION OF LOCATION:
One (1) 10,000 gallon capacity underground storage tanks constructed of steel, within a with dispensers within a
35’ x 25’ area).
Page 2 of 6
M&M Cathodic Protection Services ■ 303 Redberry Rd. Draper, UT 84020 ■ Phone: (888) 763-8572 Website: CathodicProtectionUtah.com
PROPERTIES OF ELECTROLYTE (soil):
Soil Type: Assumed native with backfill
TANK SPECIFICATIONS:
Tank: (Diesel Tank), 10,000 gallon, type Steel. Diameter: 8’, Length: 27’
Tank: (Diesel Tank) surface area: 779.12 ft2
CP SYSTEM DESIGN CALCULATIONS: ANODE GROUNDBED OVERVIEW
To provide CP for 100% of the external surface (779.12 ft2), assuming the external surface was not coated, the total
current requirement would be approx. 21.42 Amps. This was calculated utilizing a current requirement of 25mA per
ft2, which provides for adequate protection for the soil resistivity range to be expected for this region. Additionally, a
Safety Factor (the application of intentional error in the calculations which would move the result toward a more
protected state) of 10% was added to compensate for any anomalies that could be encountered.
Because the external surface of the tanks is coated, we calculated the CP system current requirements to protect
10% of the external surface (meaning we are calculating to provide CP to all external tank surfaces in the event that
10% of the external coating failed). To properly protect 10% of the external tanks surface, a CP current requirement
of approx. 2.14 Amps would be required; this is because the other 90% of the external surface is protected by the
intact coating. This result is based upon a number of assumptions, actual current usage for the system is
dependant on the actual coating condition and other factors. However, with the high current requirement variable
used (25mA per ft2) in these calculations, along with the Safety Factor added, we expect this system to operate at
or above the design specification herein.
CP SYSTEM DESIGN CALCULATIONS: NUMBER OF ANODES REQUIRED (based on consumption weight)
To calculate the number of anodes necessary we used the following calculations (reference industry standard NW
Cathodic High Silicon Chrome Cast Iron anodes PN #60100, see ATTACHMENT: NW Cathodic High Silicon
Chrome Cast Iron anodes PN #60100 Specification Sheet:
Weight per anode: NW Cathodic PN #60100 = 50lbs.
Consumption Rate: NW Cathodic PN #60100 = between 0.2 and 1.2 lbs per A-yr. (We used the 1.2 lbs
per A-yr)
Desired Life: 20 years
Current Requirement (to protect 10% of surface area): 2.14 Amps
Utilization Factor: .85
Minimum number of anodes needed: 1.2 Anodes
After taking into consideration the above, as well as desired current distribution for the tank and the steel piping, we
specified a quantity of 3 NW Cathodic PN #60100 High Silicon Chrome Cast Iron anodes to replace the damaged
groundbed.
Based on calculations, we can expect to provide effective CP for up to 10% of the total surface of the tanks for a
period exceeding 20 years or more.
BORE HOLE SIZE AND ANODE PLACEMENT
Anode holes are to be bores using non-destructive Hydrovac, approx. 8" to 12" in diameter, approx. 6' to 9' down.
Placed per ATTACHMENT 1: System Design Layout & Anode Placement. Once anodes are placed, all bore holes
are then to be filled with Loresco Type RS-3, Rapid Sinking and Super Conducting Earth Contact Backfill to within
6” to 12” of grade.
TYPE OF EARTH CONTACT BACKFILL RECOMMENDED
Loresco earth contact backfills are produced exclusively for the corrosion control industry. Each type has been
modified to enhance the functionality in relation to its suggested use. The enhancements insure intimate anode
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M&M Cathodic Protection Services ■ 303 Redberry Rd. Draper, UT 84020 ■ Phone: (888) 763-8572 Website: CathodicProtectionUtah.com
contact and enable electrolytic discharge to occur at the backfill periphery. All Loresco products have a greater than
99% fixed carbon content. This high carbon content, coupled with low resistivity, assures long system performance.
Loresco earth contact backfills set the performance standard. See ATTACHMENT: Loresco Type RS-3, Rapid
Sinking and Super Conducting Earth Contact Backfill Specification Sheet.
TYPE OF RECTIFIER RECOMMENDED
No rectifier is recommended, because the existing rectifier has been verified to be operating properly and will
provide protection current necessary, per this CP design specification. Our technician installed a 1 Ohm precision
power resistor on the rectifier DC output and verified proper operation over a range of output settings.
Specifications of existing rectifier are listed below:
MANUFACTURER: Becnhmark
MODEL: BPS-24-12-SSR
RATED DC OUTPUT: 24 VOLTS, 12 AMPS
SERIAL NUMBER: 9712119
Submitted for review and approval of M&M Corrosion Expert, by NACE Cathodic Protection Technician:
Robert A. Butner
NACE (National Association of Corrosion Engineers) CP2, Certification Number #59361
Steel Tank Institute - UST STI Inspector, Certification #CP-16053
State of Utah DERR Certified UST Installer, Certification #TL-0471
State of Utah DERR Certified UST CP Tester, Certification #0362
State of Wyoming DEQ Certified UST CP Tester, License #CP-2017-C-22
REVIEWED/APPROVED BY CORROSION EXPERT/NACE CATHODIC PROTECTION SPECIALIST (CP4):
SIGNATURE: ________________________________________
NAME: Charles Barney, Corrosion Expert/Cathodic Protection Specialist NACE CP4
COMPANY NAME: M&M Cathodic Protection Service, Inc.
NACE INTERNATIONAL CERTIFICATION: Cathodic Protection Specialist (CP4) & Corrosion Engineer
NACE INTERNATIONAL CERTIFICATION NUMBER: CP4 - 3181
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M&M Cathodic Protection Services ■ 303 Redberry Rd. Draper, UT 84020 ■ Phone: (888) 763-8572 Website: CathodicProtectionUtah.com
ATTACHMENT 1: System Design Layout & Anode Placement
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M&M Cathodic Protection Services ■ 303 Redberry Rd. Draper, UT 84020 ■ Phone: (888) 763-8572 Website: CathodicProtectionUtah.com
ATTACHMENT 2: NW Cathodic High Silicon Chrome Cast Iron anodes PN #60100 Specification Sheet
Page 6 of 6
M&M Cathodic Protection Services ■ 303 Redberry Rd. Draper, UT 84020 ■ Phone: (888) 763-8572 Website: CathodicProtectionUtah.com
ATTACHMENT 3: Loresco Type RS-3, Rapid Sinking, Super Conducting Earth Contact Backfill