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Home My WebLink AboutDDW-2024-006215SALT LAKE AREA OFFICE 859 W South Jordan Pkwy – Ste 200 South Jordan, Utah 84095 Phone: (801) 566-5599 www.hansenallenluce.com E N G I N E E R I N G E X C E L L E N C E S I N C E 1 9 7 4 February 23, 2024 Attn: Nathan Lunstad, P.E. Department of Environmental Quality Division of Drinking Water P.O. Box 144830 Salt Lake City, UT 84114-4830 RE: Operating Permit Request for 700 East Well; South Salt Lake City; Water System #18032, File #12684 Mr. Lunstad: This letter’s purpose is to request an Operating Permit for the 700 East Well. Plan Approval for the 700 E. Well was originally given for the cleaning and redevelopment of the well. This included the installation of a new pumping system to replace the aging system. Initial plan approval for these items did not require the submission of any additional documentation. During the redevelopment of the Well, additional work had to be completed to install a new well liner and centralizers to stabilize it. Coordination with DDW indicated that a new PNF was not required, and the relevant changes just needed to be included with the Operating Permit submission. Initial documentation was reviewed by DDW staff for the proposed centralizers, and they had requested a water quality sample of volatile organic compounds (VOCs), see attached email. The following items detail compliance with the Operating Permit Checklist:  (1) Certification of Rule Conformance: As a registered professional Engineer in the State of Utah, I confirm that all conditions of the Plan Approval were accomplished.  (2) As a registered professional Engineer in the State of Utah, I certify that the project (including changes to the project), to the best of our knowledge, has been built in accordance with Utah Administrative Code.  (3) Record Drawings have been provided to the South Salt Lake. No major changes were made to the plans.  (4) City personnel observed the disinfection and flushing of the piping to ensure accordance with ANSI/AWWA C652-11. Bac-T results are attached.  (5) Additional water quality testing for VOCs as requested in the plan approval process for the centralizers was completed. See attached.  (6) Relevant information for additional changes completed during the redevelopment of the well have been compiled and included as an attachment. Completed Checklist DDW-Eng-0010 Page 1 of 1 12/8/2015 Utah Division of Drinking Water ― Checklist for Issuing Operating Permits (Per Utah Administrative Code, Rule R309-500-9) Water System Name: South Salt Lake System Number: 18032 Project Description: 700 East Well File Number: 12684 Items 1 through 8 below must be submitted to the Division and found to be acceptable prior to operating permit issuance. However, distribution lines without booster pumps may be placed into service prior to submitting all of the items if a professional engineer (PE) responsible for the entire water system has been identified to the Director and has received items 1 through 4 below. [In this case, a public water system will submit all items needed to obtain an Operating Permit for each distribution system project after the new water lines have been placed into service as determined by the water system’s designated PE.] ☒ 1. Certification of Rule Conformance by a PE that all conditions of Plan Approval have been accomplished, and if applicable, changes made during construction were in conformance with rules R309-500 through 550 ☒ 2. As-built or record drawings incorporating all changes to approved plans and specifications, unless no changes were made to the previously submitted and approved pre-construction drawings ☒ 3. Confirmation that as-built or record drawings have been received by the water system ☒ 4. Evidence that bacteriological samples have been collected to verify proper flushing and disinfection in accordance with the appropriate ANSI/AWWA Standards: ☐ ANSI/AWWA C651-14 AWWA Standard for Disinfecting Water Mains Two consecutive sample sets at least 16 hours apart, none positive (every 1200 feet, end- of-line, each branch, etc.) ☐ ANSI/AWWA C652-11 AWWA Standard for Disinfection of Water-Storage Facilities One or more samples, none positive ☐ ANSI/AWWA C653-13 AWWA Standard for Disinfection of Water Treatment Plants Two consecutive samples per unit, none positive, no less than 30 minutes apart ☐ ANSI/AWWA C654-13 AWWA Standard for Disinfection of Wells Two consecutive samples, none positive, no less than 30 minutes apart ☒ 5. Water quality data, where appropriate [Guidance: Include appropriate raw and finished water data that demonstrate satisfactory performance of the new treatment facility. Storage tank water shall be analyzed for residual volatile organic compounds after tank interior painting or re-coating.] ☒ 6. If applicable, all other documentation that may have been required during the plan review process ☐ 7. If applicable, confirmation that the water system owner has received the O&M manual for the new facility ☐ 8. If applicable, location data of new storage tank, treatment facility, or source Centralizer Correspondance City of South Salt Lake Page 1 of 1 700 East Well Liner Isolator MEMORANDUM DATE: February 11, 2022 TO: Michael Newbury, P.E. Permitting Section Manager Division of Drinking Water FROM: Bill Bigelow, P.E. Hansen, Allen & Luce, Inc. 859 West South Jordan Parkway South Jordan, Utah 84095 SUBJECT: Non-NSF Approved Device HAL PROJECT NO.: 126.47.200 This memo is to request DDW review of a non-NSF approved device to be used in a public drinking water well. South Salt Lake City’s 700 East Well has suffered well casing/well screens separation due to corrosion. In response, the City desires to install a well liner to stabilize the well and preserve a reasonable life expectancy. The City is designing a cathodic protection system to prevent further corrosion in the well. The well liner needs to be electrically isolated from the well casing in order for the cathodic protection system to be effective. Traditional centralizers made of steel cannot be used, therefore the City is looking at centralizers that are non-conductive. The City’s corrosion engineer, Mr. Jeffrey Mattson, P.E. has specified the following centralizers to accomplish the well casing/well liner separation objective: Device: Polyethylene Casing Insulator # CI 1620-1EXT-1 Manufacturer: Advanced Products and Systems, LLC, Lafeyette, LA (See Attached Detail Drawings for manufacturer’s detailed product information). Please review this and let us know if this device can be granted an exception for use in the City’s 700 East public drinking water supply well. Attachments: Manufacturer’s Information Number Of Segments * Runners 1-1/2" and 2” high are available on 4” and above Polyethylene casing Insulators NOTE: Centered or centered and restrained polyethylene insulators are also available on PVC pipe through 24”. Polyethylene Casing Insulators Dielectric Strength (ASTM D-149) 450-500 Volts/Mil Flexural Strength (ASTM D-790) 4600 psi Compressive Strength (ASTM D-695) 4600 psi Tensile Strength (ASTM D-638) 4600 psi Water Absorption (ASTM D-570) < 0.01% Impact Strength (ASTM D-256) 1.3 ft. lb/in. Maximum Continuous Operating 180 ˚F (82 ˚C) Temperature for most sizes of schedule 40 and schedule 80 PVC, C 900, SDR 21 & 26, Ultra-Rib and more, they are only recommended for use on 12” and smaller ductile iron pipe. Polyethylene casing insulators are recommended for every 5 feet of pipeline. Molded into the inner surface of the casing insulators are grooves which prevent slippage of any carrier pipe coating. Lightweight, economical and easy to install, APS Polyethylene Casing Insulators require only a screwdriver for installation. Do not exceed 35 in-lbs of torque. Sizes are available from 1" through 60" with a standard runner height of 1". Casing Insulators from 1" through 12" are constructed of two halves, 2 PI and 4 PI sections make up 14" and above. polyEThylEnE SpaCErS & InSulaTorS (modEl CI) With excellent dielectric resistance and low moisture absorption for minimal electric current loss and no impairment of cathodic protection, polyethylene spacers and insulators are an economical choice for use on all plastic pipe, metal pipe up to 60" in diameter and smaller ductile pipe. Polyethylene casing spacers and insulators are manufactured by injection molding using polyethylene, which provides high impact strength and a low coefficient of friction. Two halves are used to construct the 1" through 12" spacers while 14" and above are multi-segmented. Runner height for polyethylene spacers can be increased to provide clearance for bell and spigot connections. Ideal polyEThylEnE CaSIng InSulaTorS 9 Carrier Size 1" 1 1/2" 2" 3" 4" 4" 4" 4" 6" 6" 6" 8" 8" 8" 10" 10" 10" 12" 12" 12" 14" 16" 18" 20" 22" 24" 26" 28" 30" 32" 34" 36" 38" 40" 42" 44" 46" 48" 50" 52" 54" 56" 60" Min. Casing Size 3" 3" 4" 6" 6" 8" 10" 12" 10" 12" 14" 12" 14" 16" 14" 16" 18" 16" 18" 20" 18" 20" 22" 24" 26" 28" 30" 32" 34" 36" 38" 40" 42" 44" 46" 48" 50" 52" 54" 56" 58" 60" 64" Diameter Over Shoes* 2 1/4" 2 3/4" 3 1/2" 5" 5 1/2" 6 1/4" 7 3/8" 8 3/8" 8 3/4" 9 5/8" 10 5/8" 10 3/4" 11 3/4" 12 5/8" 12 3/4" 13 3/4" 14 3/4" 14 3/4" 15 7/8" 16 3/4" 15 7/8" 17 7/8" 19 7/8" 21 7/8" 23 7/8" 25 7/8" 27 7/8" 29 7/8" 31 7/8" 33 7/8" 35 7/8" 37 7/8" 39 7/8" 41 7/8" 43 7/8" 45 7/8" 47 7/8" 49 7/8" 51 7/8" 53 7/8" 55 7/8" 57 7/8" 61 7/8" Shoe Height 1/2" 1/2" 5/8" 3/4" 9/16" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" No. of Runners 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 30 Full 4 PI — — — — — — — — — — — — — — — — — — — — 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 15 Full 2 PI — — — — — — — — — — — — — — — — — — — — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — — Total Segs 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 Insulator Width 3" 3" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 3/4" 3 3/4" 3 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" Advance Products & Systems' Casing Spacers and Insulators combine proven dependability and ease of unreliable wooden skids. APS Casing Spacers and Insulators are your answer to lower installation costs with continued Casing Spacers are used to center water, sewer, gas and other fluids in casings. Casing insulators are used to support from a casing pipe through which it must pass. APS provides each in a number of common sizes as well as end seals to accommodate any combination of pipe sizes. These products are virtually corrosion proof and provide insulating protection from a possible electrical shorting between the carrier pipe and casing. APS has the experience to manufacture almost any configuration required from multiple carrier product lines within a single casing to concentrically fitting a bell and spigot ductile iron pipe within its casing. APS has quality personnel APS Casing Spacers require no special tools, no grease, and they are easily bolted on by a single worker. They eliminate the need to fill the casing annulus with sand, grout or pea gravel which all act as electrolytes and can introduce unwanted current to the prevent damage as the carrier pipe is being installed in the casing and, along with spacers and insulators: (Model SSI) Carbon Steel (Model SI Polyethylene (Model CI). 14 Vanessa Stewart From:Bill Bigelow Sent:Monday, February 6, 2023 10:53 AM To:Sarah Romero Rivera Cc:Jason Taylor; Lance Nielsen Subject:RE: FW: South Salt Lake City (System #18032) File#12684 Sarah, The well liner project is now completed. Next step is to design a new pumping system (the original pump that was submitted by Rhino Pumps at the beginning of this project is too large to fit inside the new liner in the well, so a smaller one will need to be designed and submitted for approval). I assume that once the new pump has been installed and tested, then we will be ready to submit an Operating Permit to DDW. If you have any other questions I will be happy to fill you in on details. Bill William Bigelow, P.E. Principal HANSEN, ALLEN & LUCE, INC. 859 W. South Jordan Pkwy. Ste. 200 South Jordan, UT 84095 Office: 801-566-5599 Mobile: 801-664-4377 www.halengineers.com Confidentiality Notice. This email message (and any attachments) is confidential and may be privileged. If you believe it has been sent to you in error, please notify the sender and delete this email. From: Sarah Romero Rivera <sarahromero@utah.gov> Sent: Monday, February 6, 2023 10:46 AM To: Bill Bigelow <bbigelow@halengineers.com> Subject: Re: FW: South Salt Lake City (System #18032) File#12684 Bill, Any further updates on this project? Thanks, Sarah I. Romero, PE 15 Environmental Engineer | Division of Drinking Water P: (801) 896-8255 drinkingwater.utah.gov On Mon, Nov 14, 2022 at 9:16 AM Bill Bigelow <bbigelow@halengineers.com> wrote: Sarah, The well liner and centralizers have now been constructed and the well is now being developed. After development is finished (which should be very soon) we will start test pumping the well. That would be an ideal time to collect water quality samples. Bill William Bigelow, P.E. Principal HANSEN, ALLEN & LUCE, INC. 859 W. South Jordan Pkwy. Ste. 200 South Jordan, UT 84095 Office: 801-566-5599 Mobile: 801-664-4377 www.halengineers.com Confidentiality Notice. This email message (and any attachments) is confidential and may be privileged. If you believe it has been sent to you in error, please notify the sender and delete this email. From: Sarah Romero Rivera <sarahromero@utah.gov> Sent: Monday, November 14, 2022 9:12 AM 16 To: Bill Bigelow <bbigelow@halengineers.com> Subject: Re: FW: South Salt Lake City (System #18032) File#12684 Bill, Do you have any updates on this project? Thank you, Sarah I. Romero, PE Environmental Engineer | Division of Drinking Water P: (801) 896-8255 drinkingwater.utah.gov On Tue, Apr 5, 2022 at 1:09 PM Bill Bigelow <bbigelow@halengineers.com> wrote: Great, thank you for following up on that issue. Thanks Bill 17 William Bigelow, P.E. Principal HANSEN, ALLEN & LUCE, INC. 859 W. South Jordan Pkwy. Ste. 200 South Jordan, UT 84095 Office: 801-566-5599 Mobile: 801-664-4377 www.halengineers.com Confidentiality Notice. This email message (and any attachments) is confidential and may be privileged. If you believe it has been sent to you in error, please notify the sender and delete this email. From: Sarah Romero Rivera <sarahromero@utah.gov> Sent: Tuesday, April 5, 2022 1:07 PM To: Bill Bigelow <bbigelow@halengineers.com> Subject: Re: FW: South Salt Lake City (System #18032) File#12684 Bill, I just got an answer from our sampling specialist. She said a VOC sample after construction would be sufficient. Best, Sarah On Mon, Mar 28, 2022 at 10:23 AM Bill Bigelow <bbigelow@halengineers.com> wrote: Thanks Sarah. It will be several months before the well will be ready for sampling. 18 Bill William Bigelow, P.E. Principal HANSEN, ALLEN & LUCE, INC. 859 W. South Jordan Pkwy. Ste. 200 South Jordan, UT 84095 Office: 801-566-5599 Mobile: 801-664-4377 www.halengineers.com Confidentiality Notice. This email message (and any attachments) is confidential and may be privileged. If you believe it has been sent to you in error, please notify the sender and delete this email. From: Sarah Romero Rivera <sarahromero@utah.gov> Sent: Monday, March 28, 2022 9:27 AM To: Bill Bigelow <bbigelow@halengineers.com> Subject: Re: FW: South Salt Lake City (System #18032) File#12684 Bill, Just wanted to give you an update. I am meeting with our sampling specialist (Emily Frary) on April 5th to determine what kind of monitoring/sampling 700 E well will be required due to the installation of the centralizers. She has been out and I have not been able to reach her. She will be back on April 5. Thank you, Sarah On Tue, Mar 15, 2022 at 10:54 AM Bill Bigelow <bbigelow@halengineers.com> wrote: 19 Michael, good question. I will do some research and let you know what I come up with. Bill William Bigelow, P.E. Principal HANSEN, ALLEN & LUCE, INC. 859 W. South Jordan Pkwy. Ste. 200 South Jordan, UT 84095 Office: 801-566-5599 Mobile: 801-664-4377 www.halengineers.com Confidentiality Notice. This email message (and any attachments) is confidential and may be privileged. If you believe it has been sent to you in error, please notify the sender and delete this email. From: Michael Newberry <mnewberry@utah.gov> Sent: Tuesday, March 15, 2022 10:29 AM To: Bill Bigelow <bbigelow@halengineers.com> Cc: Jeff Mattson <jmattson@corrosioncontroltech.com>; Jason Taylor <jtaylor@sslc.gov>; Sarah Romero Rivera <sarahromero@utah.gov> Subject: Re: FW: South Salt Lake City (System #18032) File#12684 Bill, one question I'd have is if the isolators ("..injection molded high density virgin polyethylene) has the same specs as HDPE pipe (used for water lines)?...we might be able to make the case that if it's the same thing, just not NSF certified, we could issue an exception for the use of these devices. Can you help maybe answer that question? 20 Michael Newberry, P.E. Permitting Section Manager | Division of Drinking Water P: (385) 515-1464 drinkingwater.utah.gov Emails to and from this email address may be considered public records and thus subject to Utah GRAMA requirements. On Mon, Mar 14, 2022 at 1:49 PM Bill Bigelow <bbigelow@halengineers.com> wrote: Michael, Thanks for your time last week to talk about the South Salt Lake City 700 East Well project. I went back in the emails and found that we have already notified Sarah of the well liner project and she responded. (see email string below this email). As we discussed, rather than submit a new PNF for the 700 Well Liner work we will document that work in the request for an operating permit when the work is completed. This email is to request your review of the NSF materials issue associated with the well liner that we spoke about briefly several weeks ago. As we discussed, the reason for the well liner is that the City’s 700 East Well is failing structurally. The purpose of the well liner will be to stabilize the well so that it can continue to be a reliable water source for South Salt Lake City. We have hired a corrosion engineer, Mr. Jeff Mattson, PE, to help us design the well liner against future corrosion. He has recommended that the City install a cathodic protection system in the well to prevent further degradation on the original well casing, protect the new well liner and also the new pump column. The well casing, well liner and pump column all have to be 100% electrically isolated from one another in order for the corrosion protection system to work. The well liner and pump column will be fitted with centralizers/isolators to keep them centered in the well and also to keep them electrically isolated from each other and the original well casing. Centralizers/Isolators are available from the pipeline industry that are used as skids when placing a pipeline through a buried casing, like the ones used for railroad or highway crossings. The centralizer/isolators that have been specified are made out of plastic but they are not NSF approved. Stainless steel bolts will be used to tighten the isolators around the well liner and pump column. These are the only materials used in the casing spacers. A brochure from one of the manufacturers is attached to this email. 21 I contacted two of the manufacturers that make electrical casing isolators that meet the corrosion engineer’s specifications: Advanced Products and Systems, LLC, Lafeyette, LA and CCI Piping Systems, LLC, Breaux Bridge, LA. APS’ website contains the following description of the materials used: “Advance casing insulators are manufactured from injection molded high density virgin polyethylene” I asked both suppliers whether or not any of their products are NSF approved. Both said no, they have not had any projects that require that kind of certification. Obviously this is a special application for their products, which are normally designed for use with pipeline installations through sleeves under highways, bridges, etc. I have attached the product information details from APS to this email. Simply put, we cannot find casing isolators that are NSF approved. Can DDW review this information and let us know whether or not the recommended casing isolators can be approved for use in this well? Please let me know if there is any other information that would be helpful to you with this question. Thank You, Bill William Bigelow, P.E. Principal HANSEN, ALLEN & LUCE, INC. 859 W. South Jordan Pkwy. Ste. 200 South Jordan, UT 84095 Office: 801-566-5599 Mobile: 801-664-4377 www.halengineers.com Confidentiality Notice. This email message (and any attachments) is confidential and may be privileged. If you believe it has been sent to you in error, please notify the sender and delete this email. From: Sarah Romero Rivera <sarahromero@utah.gov> Sent: Thursday, February 10, 2022 2:52 PM To: Bill Bigelow <bbigelow@halengineers.com>; Jason Taylor <jtaylor@southsaltlakecity.com> Subject: Re: South Salt Lake City (System #18032) File#12684 Checklist Items 4 & 5 Water Quality Results The analyses presented on this report were performed in accordance with the National Environmental Laboratory Accreditation Program (NELAP) unless noted in the comments, flags, or case narrative. If the report is to be used for regulatory compliance, it should be presented in its entirety, and not be altered. Client Service Contact: 801.262.7299 South Salt Lake City Attn: Nick Williams 195 West Oakland Avenue South Salt Lake, UT 84115 Work Order: 24A1382 Project: [none] 1/25/2024 Approved By: Andrew Royer, Project Manager 9632 South 500 West Sandy, Utah 84070 Serving the Intermountain West since 1953 801.262.7299 Main 866.792.0093 Fax www.ChemtechFord.com Page 1 of 5 Certificate of Analysis 24A1382-01Lab Sample No.: Name: Sample Site: Sample Matrix: Sample Date: Receipt Date: Sampler: 700 E. Water Nick Williams 1/22/2024 11:40 AM 1/22/2024 12:22 PM Comments: PO Number: Project: Source Code:Sample Point:Report to State: System No.:UTAH18032 South Salt Lake City Minimum Reporting LimitParameter Sample Result Units Analytical Method Analysis Date/Time Flag Preparation Date/Time EPA Max Contaminant Level (MCL) Microbiology Coliform, Total 1 Org/100 mL 01/23/2024 13:3001/22/2024 13:30 Absent EPA 9223B E. Coli 1 Org/100 mL 01/23/2024 13:3001/22/2024 13:30 Absent EPA 9223B Volatile Organic Compounds 1,1,1,2-Tetrachloroethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,1,1-Trichloroethane 0.5 ug/L 01/24/202401/24/2024200NDEPA 524.2 1,1,2,2-Tetrachloroethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,1,2-Trichloroethane 0.5 ug/L 01/24/202401/24/20245NDEPA 524.2 1,1,2-Trichlorotrifluoroethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,1-Dichloroethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,1-Dichloroethene 0.5 ug/L 01/24/202401/24/20247NDEPA 524.2 1,1-Dichloropropene 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,2,3-Trichlorobenzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,2,3-Trichloropropane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,2,4-Trichlorobenzene 0.5 ug/L 01/24/202401/24/202470NDEPA 524.2 1,2,4-Trimethylbenzene 1.0 ug/L 01/24/202401/24/202470NDEPA 524.2 1,2-Dichlorobenzene 0.5 ug/L 01/24/202401/24/2024600NDEPA 524.2 1,2-Dichloroethane 0.5 ug/L 01/24/202401/24/20245NDEPA 524.2 1,2-Dichloropropane 0.5 ug/L 01/24/202401/24/20245NDEPA 524.2 1,3,5-Trimethylbenzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,3-Dichlorobenzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,3-Dichloropropane 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 1,4-Dichlorobenzene 0.5 ug/L 01/24/202401/24/202475NDEPA 524.2 2,2-Dichloropropane 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 2-Chlorotoluene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 4-Chlorotoluene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Benzene 0.5 ug/L 01/24/202401/24/20245NDEPA 524.2 Bromobenzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Bromochloromethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Bromodichloromethane 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 Bromoform 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 Bromomethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Carbon Tetrachloride 1.0 ug/L 01/24/202401/24/20245NDEPA 524.2 Chlorobenzene 0.5 ug/L 01/24/202401/24/2024100NDEPA 524.2 Chloroethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Chloroform 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 Page 2 of 5 9632 South 500 West Sandy, UT 84070801-262-7299 Office www.ChemtechFord.com Page 2 of 5 Certificate of Analysis 24A1382-01Lab Sample No.: Name: Sample Site: Sample Matrix: Sample Date: Receipt Date: Sampler: 700 E. Water Nick Williams 1/22/2024 11:40 AM 1/22/2024 12:22 PM Comments: PO Number: Project: Source Code:Sample Point:Report to State: System No.:UTAH18032 South Salt Lake City Minimum Reporting LimitParameter Sample Result Units Analytical Method Analysis Date/Time Flag Preparation Date/Time EPA Max Contaminant Level (MCL) Volatile Organic Compounds (cont.) Chloromethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 cis-1,2-Dichloroethene 1.0 ug/L 01/24/202401/24/202470NDEPA 524.2 cis-1,3-Dichloropropene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Dibromochloromethane 0.5 ug/L 01/24/202401/24/2024 ND EPA 524.2 Dibromomethane 1.0 ug/L 01/24/202401/24/20245NDEPA 524.2 Dichlorodifluoromethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Ethyl Benzene 0.5 ug/L 01/24/202401/24/2024700NDEPA 524.2 Hexachlorobutadiene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Isopropylbenzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Methyl tert-Butyl Ether (MTBE)1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Methylene Chloride 1.0 ug/L 01/24/202401/24/20245NDEPA 524.2 Naphthalene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 n-Butyl Benzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 n-Propyl Benzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 p-Isopropyltoluene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 sec-Butyl Benzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Styrene 0.5 ug/L 01/24/202401/24/2024100NDEPA 524.2 tert-Butylbenzene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Tetrachloroethene 0.5 ug/L 01/24/202401/24/20245NDEPA 524.2 Toluene 0.5 ug/L 01/24/202401/24/20241000NDEPA 524.2 trans-1,2-Dichloroethene 0.5 ug/L 01/24/202401/24/2024100NDEPA 524.2 trans-1,3-Dichloropropene 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Trichloroethene 0.5 ug/L 01/24/202401/24/20245NDEPA 524.2 Trichlorofluoromethane 1.0 ug/L 01/24/202401/24/2024 ND EPA 524.2 Vinyl Chloride 0.5 ug/L 01/24/202401/24/20242NDEPA 524.2 Xylenes, total 1.5 ug/L 01/24/202401/24/202410000NDEPA 524.2 Page 3 of 5 9632 South 500 West Sandy, UT 84070801-262-7299 Office www.ChemtechFord.com Page 3 of 5 Certificate of Analysis Report Footnotes Abbreviations ND = Not detected at the corresponding Minimum Reporting Limit. 1 mg/L = one milligram per liter or 1 mg/Kg = one milligram per kilogram = 1 part per million. 1 ug/L = one microgram per liter or 1 ug/Kg = one microgram per kilogram = 1 part per billion. 1 ng/L = one nanogram per liter or 1 ng/Kg = one nanogram per kilogram = 1 part per trillion. Values reported in RED exceed Primary Drinking Water standards . Values reported in BLUE exceed Secondary Drinking Water standards . BLANK values in the MCL column indicate no standard. On calculated parameters, there may be a slight difference between summing the rounded values shown on the report vs the unrounded values used in the calculation. Data Comparisons Page 4 of 5 9632 South 500 West Sandy, UT 84070801-262-7299 Office www.ChemtechFord.com Page 4 of 5 Page 5 of 5 Check List Item 6 Additional Documentation New Pump Information Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 South Salt Lake City 700 East Well Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 April 18, 2023 To: South Salt Lake City Attn: Jason Taylor Project Name: 700 East Well Bid Date: April 18, 2023 Jason, We are pleased to offer the following submittal Rev NC for the above referenced project: -Qty (1) National 11-H-110 8 Stage Oil Lube Vertical Turbine Pump -Rated for 1200 gpm at 497 ft. TDH -Cast Iron/Bronze Construction -Skotchkote Fusion Bonded Epoxy Coating on Impellers -416SS Pump Shaft w/ Tungsten Carbide Journals -Marine Bowl Bearings -Stainless Steel Bolting and Hardware -Epoxy Coating on Bowl Assembly -304SS Cone Strainer -8” Column Assembly with 1-1/2” Shafting, 2-1/2” Oil Tube -Sounder Tube, 1-1/4” Schedule 80 Flush Thread -Casing Isolators -Installation at job site -Startup Optional Adder -200HP, 1800 RPM, 3/60/460V, VHS, NRR, Premium Efficient, Inverter Duty Motor -Service Factor 1.15 -WP1 Enclosure Note: Existing discharge head and tension assembly being provided by the city. If you have any questions or need any further information, please feel free to contact me. Dean Larson Nickerson Company, Inc. 801-973-8888 Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 Table of Contents 1 2 3 General Information Specific Pump Data Accessories Warranty 4 Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 General Pump Information FULL PRODUCT GUIDE performance | quality | service | trust ARIZONA (Main Office) 7706 N. 71st Ave., Glendale, AZ 85303-1703 (623) 979-3560 • Fax (623) 979-2177 (800) 966-5240 CALIFORNIA 2830 E. San Antonio Dr., Fowler, CA 93625 (559) 497-5071 • Fax (559) 497-8816 (800) 868-9755 FLORIDA 195 E. 3rd Street, Zolfo Springs, FL 33890 (863) 735-8222 • Fax (863) 735-8202 (800) 994-3045 GEORGIA 902 East Union Street, Vienna, GA 31092 (229) 268-2921 • Fax (229) 268-7136 (800) 741-2921 MISSISSIPPI 11176 Green Valley Dr., Olive Branch, MS 38654 (662) 895-1110 • Fax (662) 895-5083 (866) 668-4914 TEXAS 4229 Adrian St., Lubbock, TX 79415 (806) 745-5396 • Fax (806) 745-6668 (800) 745-5393 Creating Quality Pump Systems and Satisfied Customers Visit us on the web at: www.nationalpumpcompany.com A GORMAN-RUPP COMPANYCustom Packaged Pump Stations 4 From gold mines to golf courses to grain fields, our pumps are hard at work around the world. Serving commercial, industrial, municipal, power, residential, mining, oil and gas, and agricultural irrigation needs, each National Pump produced is an individual pumping system designed to do a specific pumping job. Precisely matched drivers, discharge heads, impellers, bowls and column / shaft assemblies deliver consistent pumping capacity. We offer a full range of vertical turbine and submersible pumps, water or oil lubricated, of threaded or flanged construction, with capacities to 20,000 GPM and pressures up to 1,500 PSI. All pump models are in stock as standard materials, and they can be customized at the service center level. We also manufacture custom pumps, using special alloys and coatings to suit your specific needs. We have multiple patterns in order to meet special alloy requirements in a timely manner. National Keeps You Pumping Around The World Proud member of American Petroleum Institute and these organizations: FPG 3/14 National Pump Company offers a variety of custom packaged pump stations. All of our packages can be custom fabricated to replace an existing system or designed to meet a new application. NPC’s packages are designed around seven different control packages that range from an NPS 1, constant speed with mechanical controls to an NPS 8 for up to eight pumps with multiple motor controls utilizing VFD or Solid State Soft Starters with programmable logic controls. Each control package can be enhanced with options depending on the application. These options include, but are not limited to: sequencing, pump alternation, touch screen or push button interface, remote monitoring, NEMA 12, 3R, 4, and 4X enclosures, pressure transducers or mechanical pressure control. We offer packages complete with disconnects for single power connection or for remote panel mounting. Additionally, several mechanical options are also available, including aluminum and fiberglass station enclosures. All metal surfaces are grit blasted and powder coated for a superior, non-chip finish. All packages are U.L. Listed and designed to meet the National Electric Code. We also have complete CAD drawings for your engineering/specifications and approval process. Call us today to see how we can assist... ® Pump Type 6” - 30” Vertical Deep Well Close Coupled Vertical Turbine 6” - 30” Submersible Turbine Application Agricultural Irrigation, Municipal Water Supply, Industrial Process Water, Golf Course & Turf Irrigation, Dewatering, Offshore Platforms Fuel Oil Transfer & Storage, Water/brine Injection, Light Hydrocarbon Service, Raw & Potable Water Supply, Pipeline Boosters, Cooling Tower Service, Desalinization, Dry Docks Agricultural Irrigation, Municipal Water Supply, Industrial Process Water, Golf Course & Turf Irrigation, Dewatering, Offshore Platforms, Booster Pumps Description Water or oil lubricated lineshaft, threaded or flanged column pipe Product lubricated or enclosed lineshaft, mechanical seals or stuffing box Vertical deep well, vertical booster, horizontal in-line booster pumps Materials Cast iron enameled bowls, bronze impellers, bronze or rubber bearings as standard; special materials available Cast iron enameled bowls, bronze impellers, threaded or flanged column pipe, special coatings and materials available Cast iron enameled bowls, bronze impellers, threaded or flanged column pipe, special coatings and materials available Performance Capacity To 20,000 GPM To 20,000 GPM To 20,000 GPM Head (TDH)To 2,000 Ft. (865 PSI)To 2,000 Ft. (865 PSI)To 2,000 Ft. (865 PSI) Horsepower Up to 1,500 hp with electric motor or right angle gear drive. VFD, electric motor with solid or hollow shaft available Up to 1,500 hp with electric motor or right angle gear drive. VFD, electric motor with solid or hollow shaft available Submersible electric motor up to 1,500 hp 2, 4, 6 pole speeds Model 6”-30” diameter bowls NF fab. steel heads N260 & Hi-Pro cast iron heads 6”-30” diameter bowls NF, NLF, NTF, NUF heads 6”-30” diameter bowls Features and Options Extra lateral for deep set pumps up to 1,200 Ft., chrome plated bowl shaft, LH or RH oil tube Suction bell, single or dual wear rings, dynamic balanced impellers, keyed or colletted impellers Flanged connection on bowls, motor brackets for all motor sizes A GORMAN-RUPP COMPANY Pump Type API 610 Test Facilities 4”, 6”, 8” Stainless Steel Submersible Application Pipeline Booster, Condensate Return, Light Hydrocarbon Transfer, Crude Oil Booster, Flare Knockout, Secondary Recovery Injection, Offshore Fire Water and Process Water, Aircraft Hydrant Fueling, Slop Oil, Cooling Tower Type of Tests: Bowl assembly, complete unit performance, mechanical run, NPSH testing, string test 40 Ft. TPL max, vibration, hydrostatic testing, witness and non- witness testing General water supply, booster, sump circulation, dewatering, and irrigation Description API-610 vertically suspended single casing type VS-1 and vertically suspended double casing type VS-6 Size: 18 Ft. wide x 16 Ft. deep x 45 Ft. long Two (2) 5 Ft. diameter holes extend to depth of 45 Ft. 100,000 gallon capacity Threaded connections, completely submerged sealed motor. 2 and 3 wire; 1 phase and 3 phase oil filled, rewindable motors available Materials API-610 Materials Classes: I-1, I-2, S-1 thru S-9 C-6, A-7, A-8, D-1 Threaded and flanged connections, complete units or de-staged, with calibrated motors to measure full performance range in flow, head and efficiency Pro Series — Stainless Steel, with Noryl impellers and diffusers Max Purity & NS Series – All Stainless Steel Performance Capacity 50 GPM - 20,000 GPM To 20,000 GPM To 110 GPM (4”) 5 GPM to 600 GPM (6” & 8”) Head (TDH)To 3,000 Ft (1,300 PSI)To 300 Lb flange (rated at 750 PSI) To 1,000 Ft. (4”) To 1,450 Ft. (6” & 8”) Suction and Discharge 2” - 24” ANSI flange sizes 150# - 1500# ANSI Ratings 2” - 16” discharge 4” (1”, 1 ¼”, 1 ½” ) 1 ¼” to 5” (6” & 8”) Horsepower To 2,500 HP 5 to 1,000 HP @ 3,600 RPM (460 & 4160 Volt), 1,800 RPM, 900 RPM ½ to 10 HP – 4” 5 to 200 HP – 6” & 8” Model 6” thru 30” bowl sizes Fabricated type “L”, “F”, and “T” style discharge heads All National Pump Company pumps can be tested as well as other manufacturers’ pumps Pro Series Pro-Pressure Max Purity NS Series High Pressure Booster Pumps Self-priming Shallow Well and Convertible Jets Vertical Horizontal Multi-stage Deep Well Jets Self-priming Centrifugal End Suction Centrifugal and Split-case General purpose booster, warm and cold water wash down, cleaning Residential and general water supply systems, booster and light irrigation General water supply, booster, sump circulation and irrigation for 2”, 3” & 4” or larger water wells Lawn sprinkling, light irrigation, general dewatering and sump drainage, liquid transfer General purpose, process, booster and liquid transfer Threaded connections, motor- drive, mechanical seals, ODP and TEFC motors Threaded connections, motor- drive, mechanical seal, back pull-out design, convertible to deep well use Threaded connections, motor- drive, mechanical seals 2 stage or 3 stage Fast priming, threaded connections, motor and engine drive, portable or permanent installation, mechanical seals, back pull-out design Motor-driven, ODP and TEFC motors, mechanical seals- standard Stainless Steel and cast iron with Noryl impellers and diffusers Cast Iron with Noryl impellers or brass impellers Cast Iron with Noryl impellers or brass impellers Cast Iron with Noryl impellers or brass impellers Cast Iron with Noryl impellers or brass impellers To 70 GPM To 30 GPM To 64 GPM To 220 GPM To 120 GPM To 390 Ft.To 248 Ft.To 350 Ft.To 165 Ft.To 160 Ft. ¾” to 1 ¼ “ suction 1 ¼” - 2” discharge 1 ¼” suction ¾” - 1” discharge 1 ¼” suction 1” discharge 2” - 3” suction 1 ½” - 3” discharge 1 ¼ “ - 2” suction 1” - 1 ½” discharge ½ to 3 HP ½ to 1 ½ HP ¾ to 2 HP ¾ to 5 HP 1/3 to 3 HP BF5000-8000-12000 18K • 25M 50Y • 70V SW Series SFH Series SF Series MSH MSV MSC SFLP BMLS EC A GORMAN-RUPP COMPANY A GORMAN-RUPP COMPANYVertical Turbine, Lineshaft & Submersible Pumps 6” & Larger Delivering Vertical Turbine Pump Reliability, Quality and Service Since 1969 API, Test Facilities, and Submersibles Water Systems MAXIMUM Efficiency MAXIMUM Performance MAXIMUM Dependability 1 2 3 f API/Oil & Gas f Commercial f Industrial f Irrigation f Mining f Municipal f Residential Pump Type6” - 30” Vertical Deep Well Close Coupled Vertical Turbine 6” - 30” Submersible Turbine ApplicationAgricultural Irrigation, Municipal Water Supply, Industrial Process Water, Golf Course & Turf Irrigation, Dewatering, Offshore Platforms Fuel Oil Transfer & Storage, Water/brine Injection, Light Hydrocarbon Service, Raw & Potable Water Supply, Pipeline Boosters, Cooling Tower Service, Desalinization, Dry Docks Agricultural Irrigation, Municipal Water Supply, Industrial Process Water, Golf Course & Turf Irrigation, Dewatering, Offshore Platforms, Booster Pumps DescriptionWater or oil lubricated lineshaft, threaded or flanged column pipe Product lubricated or enclosed lineshaft, mechanical seals or stuffing box Vertical deep well, vertical booster, horizontal in-line booster pumps MaterialsCast iron enameled bowls, bronze impellers, bronze or rubber bearings as standard; special materials available Cast iron enameled bowls, bronze impellers, threaded or flanged column pipe, special coatings and materials available Cast iron enameled bowls, bronze impellers, threaded or flanged column pipe, special coatings and materials available Performance Capacity To 20,000 GPMTo 20,000 GPMTo 20,000 GPM Head (TDH)To 2,000 Ft. (865 PSI)To 2,000 Ft. (865 PSI)To 2,000 Ft. (865 PSI) HorsepowerUp to 1,500 hp with electric motor or right angle gear drive. VFD, electric motor with solid or hollow shaft available Up to 1,500 hp with electric motor or right angle gear drive. VFD, electric motor with solid or hollow shaft available Submersible electric motor up to 1,500 hp 2, 4, 6 pole speeds Model6”-30” diameter bowls NF fab. steel heads N260 & Hi-Pro cast iron heads 6”-30” diameter bowls NF, NLF, NTF, NUF heads 6”-30” diameter bowls Features and Options Extra lateral for deep set pumps up to 1,200 Ft., chrome plated bowl shaft, LH or RH oil tube Suction bell, single or dual wear rings, dynamic balanced impellers, keyed or colletted impellers Flanged connection on bowls, motor brackets for all motor sizes A GORMAN-RUPP COMPANY Pump Type API 610 Test Facilities 4”, 6”, 8” Stainless Steel Submersible Application Pipeline Booster, Condensate Return, Light Hydrocarbon Transfer, Crude Oil Booster, Flare Knockout, Secondary Recovery Injection, Offshore Fire Water and Process Water, Aircraft Hydrant Fueling, Slop Oil, Cooling Tower Type of Tests: Bowl assembly, complete unit performance, mechanical run, NPSH testing, string test 40 Ft. TPL max, vibration, hydrostatic testing, witness and non- witness testing General water supply, booster, sump circulation, dewatering, and irrigation Description API-610 vertically suspended single casing type VS-1 and vertically suspended double casing type VS-6 Size: 18 Ft. wide x 16 Ft. deep x 45 Ft. long Two (2) 5 Ft. diameter holes extend to depth of 45 Ft. 100,000 gallon capacity Threaded connections, completely submerged sealed motor. 2 and 3 wire; 1 phase and 3 phase oil filled, rewindable motors available Materials API-610 Materials Classes: I-1, I-2, S-1 thru S-9 C-6, A-7, A-8, D-1 Threaded and flanged connections, complete units or de-staged, with calibrated motors to measure full performance range in flow, head and efficiency Pro Series — Stainless Steel, with Noryl impellers and diffusers Max Purity & NS Series – All Stainless Steel Performance Capacity 50 GPM - 20,000 GPM To 20,000 GPM To 110 GPM (4”) 5 GPM to 600 GPM (6” & 8”) Head (TDH)To 3,000 Ft (1,300 PSI)To 300 Lb flange (rated at 750 PSI) To 1,000 Ft. (4”) To 1,450 Ft. (6” & 8”) Suction and Discharge 2” - 24” ANSI flange sizes 150# - 1500# ANSI Ratings 2” - 16” discharge 4” (1”, 1 ¼”, 1 ½” ) 1 ¼” to 5” (6” & 8”) Horsepower To 2,500 HP 5 to 1,000 HP @ 3,600 RPM (460 & 4160 Volt), 1,800 RPM, 900 RPM ½ to 10 HP – 4” 5 to 200 HP – 6” & 8” Model 6” thru 30” bowl sizes Fabricated type “L”, “F”, and “T” style discharge heads All National Pump Company pumps can be tested as well as other manufacturers’ pumps Pro Series Pro-Pressure Max Purity NS Series High Pressure Booster Pumps Self-priming Shallow Well and Convertible Jets Vertical Horizontal Multi-stage Deep Well Jets Self-priming Centrifugal End Suction Centrifugal and Split-case General purpose booster, warm and cold water wash down, cleaning Residential and general water supply systems, booster and light irrigation General water supply, booster, sump circulation and irrigation for 2”, 3” & 4” or larger water wells Lawn sprinkling, light irrigation, general dewatering and sump drainage, liquid transfer General purpose, process, booster and liquid transfer Threaded connections, motor- drive, mechanical seals, ODP and TEFC motors Threaded connections, motor- drive, mechanical seal, back pull-out design, convertible to deep well use Threaded connections, motor- drive, mechanical seals 2 stage or 3 stage Fast priming, threaded connections, motor and engine drive, portable or permanent installation, mechanical seals, back pull-out design Motor-driven, ODP and TEFC motors, mechanical seals- standard Stainless Steel and cast iron with Noryl impellers and diffusers Cast Iron with Noryl impellers or brass impellers Cast Iron with Noryl impellers or brass impellers Cast Iron with Noryl impellers or brass impellers Cast Iron with Noryl impellers or brass impellers To 70 GPM To 30 GPM To 64 GPM To 220 GPM To 120 GPM To 390 Ft.To 248 Ft.To 350 Ft.To 165 Ft.To 160 Ft. ¾” to 1 ¼ “ suction 1 ¼” - 2” discharge 1 ¼” suction ¾” - 1” discharge 1 ¼” suction 1” discharge 2” - 3” suction 1 ½” - 3” discharge 1 ¼ “ - 2” suction 1” - 1 ½” discharge ½ to 3 HP ½ to 1 ½ HP ¾ to 2 HP ¾ to 5 HP 1/3 to 3 HP BF5000-8000-12000 18K • 25M 50Y • 70V SW Series SFH Series SF Series MSH MSV MSC SFLP BMLS EC A GORMAN-RUPP COMPANY A GORMAN-RUPP COMPANYVertical Turbine, Lineshaft & Submersible Pumps 6” & Larger Delivering Vertical Turbine Pump Reliability, Quality and Service Since 1969 API, Test Facilities, and Submersibles Water Systems MAXIMUM Efficiency MAXIMUM Performance MAXIMUM Dependability 1 2 3 f API/Oil & Gas f Commercial f Industrial f Irrigation f Mining f Municipal f Residential FULL PRODUCT GUIDE performance | quality | service | trust ARIZONA (Main Office) 7706 N. 71st Ave., Glendale, AZ 85303-1703 (623) 979-3560 • Fax (623) 979-2177 (800) 966-5240 CALIFORNIA 2830 E. San Antonio Dr., Fowler, CA 93625 (559) 497-5071 • Fax (559) 497-8816 (800) 868-9755 FLORIDA 195 E. 3rd Street, Zolfo Springs, FL 33890 (863) 735-8222 • Fax (863) 735-8202 (800) 994-3045 GEORGIA 902 East Union Street, Vienna, GA 31092 (229) 268-2921 • Fax (229) 268-7136 (800) 741-2921 MISSISSIPPI 11176 Green Valley Dr., Olive Branch, MS 38654 (662) 895-1110 • Fax (662) 895-5083 (866) 668-4914 TEXAS 4229 Adrian St., Lubbock, TX 79415 (806) 745-5396 • Fax (806) 745-6668 (800) 745-5393 Creating Quality Pump Systems and Satisfied Customers Visit us on the web at: www.nationalpumpcompany.com A GORMAN-RUPP COMPANYCustom Packaged Pump Stations 4 From gold mines to golf courses to grain fields, our pumps are hard at work around the world. Serving commercial, industrial, municipal, power, residential, mining, oil and gas, and agricultural irrigation needs, each National Pump produced is an individual pumping system designed to do a specific pumping job. Precisely matched drivers, discharge heads, impellers, bowls and column / shaft assemblies deliver consistent pumping capacity. We offer a full range of vertical turbine and submersible pumps, water or oil lubricated, of threaded or flanged construction, with capacities to 20,000 GPM and pressures up to 1,500 PSI. All pump models are in stock as standard materials, and they can be customized at the service center level. We also manufacture custom pumps, using special alloys and coatings to suit your specific needs. We have multiple patterns in order to meet special alloy requirements in a timely manner. National Keeps You Pumping Around The World Proud member of American Petroleum Institute and these organizations: FPG 3/14 National Pump Company offers a variety of custom packaged pump stations. All of our packages can be custom fabricated to replace an existing system or designed to meet a new application. NPC’s packages are designed around seven different control packages that range from an NPS 1, constant speed with mechanical controls to an NPS 8 for up to eight pumps with multiple motor controls utilizing VFD or Solid State Soft Starters with programmable logic controls. Each control package can be enhanced with options depending on the application. These options include, but are not limited to: sequencing, pump alternation, touch screen or push button interface, remote monitoring, NEMA 12, 3R, 4, and 4X enclosures, pressure transducers or mechanical pressure control. We offer packages complete with disconnects for single power connection or for remote panel mounting. Additionally, several mechanical options are also available, including aluminum and fiberglass station enclosures. All metal surfaces are grit blasted and powder coated for a superior, non-chip finish. All packages are U.L. Listed and designed to meet the National Electric Code. We also have complete CAD drawings for your engineering/specifications and approval process. Call us today to see how we can assist... ® Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 Specific Pump Information Pump Data Sheet - American Turbine Company: Nickerson Company, Inc. Name: SSL 700 East Well Date: 4/7/2023 SSL 700 East Well Pump: Size: 11-H-110 (8 stage) Type: VERT.TURB.ENCLOSED Speed: 1770 rpm Synch Speed: 1800 rpm Dia: 9.18 in Curve: CV11-H-1104P6CY Impeller: 11-H-110 Specific Speeds:Ns: 2601 Nss: 6501 Dimensions:Suction: --- Discharge: --- Vertical Turbine:Bowl Size: 11.1 in Max Lateral: 1.15 in Thrust K Factor: 6.3 lbf/ft Pump Limits: Temperature: 180 °F Power: 284 hp Pressure: 370 psi g Eye Area: 16.7 in² Sphere Size: 0.75 in Search Criteria: Flow: 1200 US gpm Head: 497 ft Fluid: Water Temperature: 68 °F Density: 62.32 lb/ft³Vapor Pressure: 0.3391 psi a Viscosity: 0.9946 cP Atm Pressure: 14.7 psi a NPSHa: --- Motor: Size: 200 hp Speed: 1800 rpm Frame: 445 Standard: NEMA Enclosure: WP-I Sizing Criteria: Max Power on Design Curve Selected from catalog: ATP.60 Vers: 6c220729 ---- Duty Point ---- Flow:1200 US gpm Head:503 ft Eff:82% Power:186 hp NPSHr:21.2 ft ---- Design Curve ---- Shutoff Head:596 ft Shutoff dP:258 psi Min Flow:677 US gpm BEP: 82% @ 1148 US gpm NOL Power: 190 hp @ 1347 US gpm -- Max Curve -- Max Power: 191 hp @ 1350 US gpm UNLESS OTHERWISE SPECIFIED: [1] LIMITS AND PERFORMANCE BASED ON STANDARD MATERIALS. [2] PERFORMANCE SHOWN MEETS HI 14.6-2011 GRADE 1B TOLERANCES AT THE RATED CONDITION WITHIN THE SELECTION WINDOW. [3] NPSHR AT 1ST STAGE IMPELLER CENTERLINE. He a d - f t % - E f f i c i e n c y 100 200 300 400 500 600 0 10 20 30 40 50 60 70 80 90 0 82 9.18 in9.2 in 8.25 in 100 hp 125 hp 150 hp 200 hp NP S H r - f t US gpm150012501000750500250 20 0 40 Performance Evaluation: Flow Speed Head Efficiency Power NPSHr US gpm rpm ft %hp ft 1440 1770 405 77 190 29.2 1200 1770 503 82 186 21.2 960 1770 566 80 171 15.2 720 1770 600 73 149 11.1 480 1770 ------------ 17-4SS 17-4SS TNEMEC N140 EPOXY W/ TUNGSTEN CARBIDE JOURNALS 2.50 LH TUNGSTEN CARBIDE JOURNALS, 10 PL, SPACED AT BEARING LOCATIONS Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 Accessories Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 The following accessories will be provided: • Casing Isolators • 1-1/4” Schedule 80 Flush Thread Sounder Tube • Skotchkote 134 Fusion Bonded Epoxy on Impellers CALPICO MODEL PX injection molded plastic casing insulators are ideal to keep carrier pipe isolated from casing. This model is manufactured from high density polyethylene, which provides high impact strength and a low co-efficient of friction. Non-deteriorating polyethylene lasts indefinitely inside the casing. Excellent dielectric resistance and low moisture absorption for minimal electric current loss and no impairment of cathodic protection. The only metal is the hardware. A grooved inner surface prevents slippage and damage to any coating the pipe may have. Model PX insulators are light in weight, economical, easy to handle, and easy to install. No special tools are required. Our Model PX insulator is offered in sizes 4" through 12". Sizes 14" through 16" also available on some applications -- Consult factory. They are constructed in two halves with 6" wide bands. They can be manufactured with runners heights 1" - 6" (or higher, some applications) to accommo- date centering of pipe in larger casing, and to clear the dimension of the bell or coupling. A fusion process in which HDPE material is added to each runner extends height and essentially provides a one piece runner. All bolts, nuts, and washers are 1/4" cadmium plated and are shipped in a package attached to each insulator. Option: PX-SS (304ss) or PX-SSS (316ss) hardware. 4" - 10" = 2 TOP & 2 BOTTOM RUNNERS; 12" - 16" = 3 TOP & 3 BOTTOM RUNNERS. STANDARD SPECIFICATIONS: *Tensile Strength 3100-5500 psi ASTM D-638-651 *Density 0.96 ASTM D-792 *Appearance Translucent White *Compressive Strength 3200 psi ASTM D-693 *Yield Strength 3000 psi ASTM D-638 *Break Strength 2100 psi ASTM D-638 *Water Absorption <0.1%ASTM D-570 *Impact Strength 1.1 ft. lb/in.ASTM D-256 *Flexural Strength 1110 psi ASTM D-790 Max. Operating Temp. 200 degree Typical Spacing: General - 13' length of carrier pipe: 2 spacers per stick. 18' - 20' length: 3 spacers per stick. Note: Pipe with a tendency to bow, may require 3 per 13' stick or 4 per 18' - 20'. SOME APPLICATIONS, AND LARGE DIAMETER PIPE MAY REQUIRE ADDITIONAL SPACERS. - Consult factory. Install 1' - 1 1/2' from the end of each joint & typically every 8' - 10' thereafter, or per engineer specifications. Centering - Restrained / Non-Ctg - Restrained / Non-Ctg - Non-Restrained… Typical carrier pipe types: * C900 * SDR35 * DIP * HDPE * IPS C A L P I C O INC. ENVIRONMENTAL MANUFACTURING INC. PI P E FI T T I N G S AC C E S S O R I E S P-3 Pipe ID Nominal Pipe OD Average Pipe ID Average Miniwall Thickness Approx Ship Wt. in Lbs./Ft Max Water Pressure PSI ** 0.50” 0.840” 0.528” 0.147” 0.210 850 0.75” 1.050” 0.724” 0.154” 0.283 690 1.00” 1.315” 0.935” 0.179” 0.417 630 1.25” 1.660” 1.256” 0.191” 0.573 520 1.50” 1.900” 1.476” 0.200” 0.695 470 2.00” 2.375” 1.913” 0.218” 0.961 400 2.50” 2.875” 2.289” 0.276” 1.466 420 3.00” 3.580” 2.864” 0.300” 1.961 370 4.00” 4.500” 3.786” 0.337” 2.866 320 5.00” 5.563” 4.767” 0.375” 3.888 290 6.00” 6.625” 5.709” 0.432” 5.466 280 8.00” 8.625” 7.565” 0.500” 8.301 250 10.00” 10.750” 9.492” 0.593” 12.306 230 12.00” 12.750” 11.294” 0.687” 16.933 230 Weights & Dimensions of Schedule 80 PVC * * Per ASTM D-1785 for PVC Pipe ** Water at 23˚C (73˚ F) for Unthreaded Pipe 8887 Green Valley Drive ● Manhattan, KS 66502 ● FAX (785) 539-1349 ● Toll Free (888) 587-0807 1 of 6 3 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 Handling and Safety Precautions: Read all Health Hazard, Precautionary and First Aid, Material Safety Data Sheet, and product label prior to handling or use. Data Sheet and Application Guide February 2016 Product Description 3M Scotchkote Fusion-Bonded Epoxy Coating 134 is a one-part, heat curable, thermosetting epoxy coating designed for corrosion protection of metal. The epoxy is applied to preheated steel as a dry powder which melts and cures to a uniform coating thickness when properly applied. This bonding process provides excellent adhesion and coverage on applications such as valves, pumps, pipe drains, hydrants, pipes, tanks and porous castings. Scotchkote coating 134 is NSF/ANSI 61 certified for potable water applications and is also resistant to wastewater, corrosive soils, hydrocarbons, harsh chemicals, and sea water. Powder properties allow easy manual or automatic application by electrostatic or air-spray equipment. Product Features • No primer required for most applications. • For electrostatic or air-spray application on preheated metal articles. • Can be electrostatically applied to unheated metal parts and subsequently cured by baking. • Long gel time allows application on large or complex articles, minimizing fear of runs, sags, laminations, or unsightly overspray. • Especially useful for coating the inside of pipe or other fabrications where a smooth, corrosion resistant coating is required. • Can be machined by grinding or cutting to meet close tolerance requirements. • Allows easy visual inspection of coated articles. • Can be painted with alkyd paint, acrylic lacquer, polyurethane, or acrylic enamel for color coding. • Applied coating will not sag cold flow. • Lightweight for lower shipping costs. • Protects over wide temperature range. • Resists direct burial soil stress. • Resists cavitation and cathodic disbondment. • Can be used for elevated temperature service in presence of H2S, CO2, CH4, crude oil and brine when applied over phenolic primer such as 3M Scotchkote Liquid Phenolic Primer 345. • Long-term performance history in water, sewage, and other service environments. • Scotchkote coating 134 has been tested and certified to NSF /ANSI Standard 61, Drinking Water System Components. For NSF certified applications, the max approved thickness is 60 mil (1.5 mm) and the maximum approved operating temperature is 140°F/60°C. Primers may not be used for potable water applications. • Scotchkote coating 134 meets the requirements of AWWA Standard C213 and C550. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 2 of 6 Temperature Operating Range For non-potable water applications Scotchkote coating 134, when properly applied to a nominal thickness of 15 mils, should perform on pipelines operating between -100°F/-73°C to 203°F/95°C. For temperatures reaching 230°F/110°C thicker coatings, greater than 30 mils, may improve the service capability. However, it is difficult to accurately predict field performance from the laboratory data due to the wide variations in actual field conditions. Soil types, moisture content, temperatures, coating thickness, and other factors specific to the area all influence the coating performance and upper temperature operating limits. General Application Information 1. Remove oil, grease and loosely adhering deposits. 2. Abrasive blast clean the surface to NACE No. 2/SSPC-SP10 ISO 8501:1, Grade SA 2 ½ near-white metal. 3. Apply mechanical masks or mask with materials such as 3M Scotch® Glass Cloth Tape 361 or 3M Aluminum Foil Tape 425 as required. 4. Preheat article to the desired application temperature per cure specifications. 5. Deposit Scotchkote coating 134 by powder spray to the specified thickness. 6. Cure according to cure specifications. 7. Visually and electrically inspect for coating flaws after the coating has cooled. 8. Repair all defects. Cure Specifications Scotchkote coating 134 may be applied to metal articles which have been preheated to a temperature of 300°F/149°C to 475°F/246°C. After application, Scotchkote coating 134 must be cured according to the cure guide to achieve maximum performance properties. If Scotchkote coating 134 is electrostatically applied to unheated parts, the cure time should be measured from the time the coated part reaches the cure temperature. After cure, the coating may be force cooled using air or water to facilitate inspection and handling. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 3 of 6 Product - Physical and Chemical Properties 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 Cure Guide Temperature of Article at Time of Powder Application Typical Gel Time Cure Time 475°F/246°C 40 seconds 7 minutes 450°F/232°C 60 seconds 10 minutes 400°F/204°C 120 seconds 15 minutes 350°F/177°C 330 seconds 25 minutes 425°F/218°C 90 seconds 25 minutes for NSF/ANSI 61 approved applications Typical Properties Proerty Value Color Forest Green Color Forest Green Specific Gravity – Powder (Air Pycnometer) 1.51 Coverage 127 ft2/lb/mil (066 m2/kg/mm) Fluid Bed Density 33 lbs/ft3 (530 kg/m3) 33 lbs/ft3 (530 kg/m3) Shelf Life at 80°F/27°C 18 months Shelf Life at 80°F/27°C 18 months Average Gel Time (400°F/204°C) 120 seconds Edge Coverage 12% to 18% Minimum Explosive Concentration 0.03 oz/ft3 (30,6 g/m3) Ignition Temperature 986°F/530°C V.O.C. (As Supplied) 0 g/L, as calculated Chemical/Pressure/Temperature Resistance Test Conditions Gas Phase Results Autoclave, 120°F/49°C 48 hours, 1500 psi/10.3 MPa 99.5% CO2 0.5% H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase Autoclave, 150°F/66°C 48 hours, 2200 psi/15.2 MPa 80% CH4 12% CO2 8% H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase Autoclave, 200°F/93°C 24 hours, 3300 psi/22.8 MPa 86% CH4 8% CO2 6% H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase Autoclave, 300°F/149°C 24 hours, 3000 psi/20.7 MPa 90% CH 10% CO2 Trace H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase All tests performed on 3M™ Scotchkote™ Fusion Bonded Epoxy Coating 134 applied over a 1 mil/25,4 μm phenolic primer. Liquid phase for all test conditions: 33% kerosene, 33% toluene, 34% brine solution of 5% NaCl. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 4 of 6 Continued Product - Physical and Chemical Properties Chemical Resistance Testing ASTM G20-10 Immersion Testing at 20°C Solution 30 days 60 days 90 days Acetic Acid (5%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Acetone No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery Carbon Disulfide No blistering or disbondment No blistering or disbondment No blistering or disbondment Gasoline No blistering or disbondment No blistering or disbondment No blistering or disbondment Hydrochloric Acid (10%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Kerosene No blistering or disbondment No blistering or disbondment No blistering or disbondment Lime Water, Saturated No blistering or disbondment No blistering or disbondment No blistering or disbondment Methyl Alcohol No blistering or disbondment No blistering or disbondment No blistering or disbondment Methyl Ethyl Ketone No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery Nitric Acid (10%) Discoloration; No blistering or disbondment Discoloration; No blistering or disbondment Discoloration; No blistering or disbondment Sodium Carbonate Solution (20%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Sodium Chloride Solution (10%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Sodium Hydroxide Solution (10%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Sulfuric Acid (30%) No blistering or disbondment No blistering or disbondment Slight discoloration; No blistering or disbondment Toluene No blistering or disbondment No blistering or disbondment No blistering or disbondment Trichloroethylene No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 5 of 6 Continued Product - Physical and Chemical Properties 3M internal – Historical Chemical Resistance testing based on similar, but not identical products.** Testing Temperature 73°F (23°C*) Acetic Acid up to 25% Ferric Nitrate Potassium Borate Ferric Sulfate Potassium Carbonate Aluminum Chloride Ferrous Nitrate Potassium Chloride Aluminum Hydroxide Ferrous Sulfate Potassium Dichromate up to 10% Aluminum Nitrate Formaldehyde up to 100%Potassium Hydroxide Aluminum Sulfate Formic Acid up to 10%Potassium Nitrate Ammonium Carbonate Freon;gas and liquid Potassium Sulfate Ammonium Chloride Gas (Mfg)Propylene Glycol Ammonium Hydroxide up to 100% Gas (Natural)Sewage Ammonium Nitrate Gasoline Leaded Silver Nitrate Ammonium Phosphate Gasoline Unleaded Soap Solution Ammonium Sulfate Glycerine Soaps Amyl Alcohol Heptane Sodium Bicarbonate Barium Carbonate Hexane Sodium Bisulfate Barium Chloride Hexylene Glycol Sodium Carbonate Barium Hydroxide Hydrochloric Acid up to 25%Sodium Chlorate Barium Nitrate Hydrofluoric Acid up to 40%Sodium Chloride Barium Sulfate Hydrogen Sulfide Sodium Hydroxide Benzene Isopropyl Alcohol Sodium Meta Silicate up to 5% Boric Acid Jet Fuel Sodium Nitrate Borax Sodium Sulfate Butyl Alcohol Linseed Oil Sodium Thiosulfate up to 5% Cadmium Chloride Lubricating Oil Stannic Chloride Cadmium Nitrate Magnesium Carbonate Sulfur Cadmium Sulfate Magnesium Chloride Sulfuric Acid up to 60% Calcium Carbonate Magnesium Hydroxide Synthetic Sea Fuel (60% Naphtha, Calcium Chloride Magnesium Nitrate 20% Toluene, 15% Xylene, Calcium Hydroxide Magnesium Sulfate 5%Benzene) Calcium Nitrate Synthetic Silage Calcium Sulfate Mercuric Chloride Tetrapropylene Calcium Disulfide Methanol (softened)Toluene Carbon Tetrachloride MIBK (Methyl Isobutyl Ketone) Caustic Potash Mineral Oil Trieth ylene Glycol Caustic Soda Mineral Spirits Trisodium Phosphate Chlorine 2% Molasses Turpentine Citric Acid up to 25% Motor Oil Undecanol Copper Chloride Muriatic Acid Urea Copper Nitrate Naphtha Urine Copper Sulfate Nickel Chloride Vinegar Crude Oil Nickel Nitrate Water Cyclohexane Nickel Sulfate Chlorinated Cyclohexene Nitric Acid up to 30%Demineralized Cyclopentane Nonane Distilled Detergent Octane Salt Diesel Fuel Oxalic Acid Sea Diethylene Glycol Pentane Xylol Dipropylene Glycol Perchloroethylene Zinc Chloride Ethanol (softened) Phosphoric Acid up to 50%Zinc Nitrate Ethylbenzene Phosphorous Trichloride Zinc Sulfate Ethylene Glycol Potassium Aluminum Sulfate 10-10-10 Fertilizer, Saturated Ferric Chloride up to 50% Potassium Bicarbonate **Tests conducted for two years. No effect unless otherwise stated. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 6 of 6 3M and Scotchkote are trademarks of the 3M Company. 3 Storage In a cool dry location less than 80°F (27°C) Shelf-Life 18 months from date of manufacture Availability For ordering, technical, product information, or the Safety Data Sheet, call: Phone: 800-722-6721 Fax: 877-601-1305 Important Notice All statements, technical information, and recommendations related to 3M’s products are based on information believed to be reliable, but the accuracy or completeness is not guaranteed. Before using this product, you must evaluate it and determine if it is suitable for your intended application. You assume all risks and liability associated with such use. Any statements related to the product, which are not contained in 3M’s current publications, or any contrary statements contained on your purchase order, shall have no force or effect unless expressly agreed upon, in writing, by an authorized officer of 3M. Warranty; Limited Remedy; Limited Liability Because conditions of product use are outside of our control and vary widely, the following is made in lieu of all express or implied warranties: This product will conform to 3M’s published product specifications and be free from defects in material and manufacture on the date of your purchase. 3M MAKES NO OTHER WARRANTIES INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. If this product is defective upon your receipt, your exclusive remedy shall be, at 3M’s option, to replace the 3M product or refund the purchase price of the 3M product. Except where prohibited by law, 3M will not be liable for any direct, indirect, special, incidental or consequential loss or damage arising from this 3M product, regardless of the legal theory asserted. Electrical Markets Division 6801 River Place Blvd. Austin, TX 78726-9000 800.722.6721 www.3M.com/corrosion Please recycle © 3M 2016 All rights reserved 78-8141-8528-2 Rev A Nickerson Company, Inc. 2301 West Indiana Ave. Salt Lake City, UT 84104 801-973-8888 Warranty Subject to the terms and conditions set forth below, NATIONAL PUMP COMPANY (“Na- tional”) warrants that its manufactured equipment is free from defects in workmanship and materials USING ITS SPECIFICATIONS AS A STANDARD. This warranty does not extend to anyone except the first purchaser to whom the goods are shipped from National. National’s obligation under this warranty is expressly limited to replacing or repairing, free of charge, F.O.B. point of manufacture, any defective part or parts of its manufac- tured equipment; however, NATIONAL SHALL HAVE NO SUCH LIABILITY EXCEPT WHERE IT IS SHOWN TO THE SATISFACTION OF NATIONAL THAT THE DAMAGE OR CLAIM RESULTED FROM BREACH OF THIS WARRANTY. All parts claimed defective must be delivered to National at its factory or any factory branch, freight or express thereon PREPAID. Every claim under this warranty SHALL BE DEEMED WAIVED UNLESS MADE IN WRITING AND RECEIVED BY NATIONAL WITHIN THIRTY (30) DAYS OF THE DATE THE DEFECT WAS DISCOVERED OR SHALL HAVE BEEN DISCOVERED, and within one year of the date of installation. The installation date must be within six months of the date the pump was purchased from National. This Warranty does not cover those parts of the manufactured equipment which are not manufactured by National except to extend to the purchaser the same warranty, if any, which is given to National by the manufacturers of said parts. National makes no other representation of warranty of any kind, express or implied, in fact or in law, including without limitation, the warranty of merchantability or the warranty of fitness for a particular purchase, other than the limited warranty set forth herein. In no event shall National be liable for any consequential or incidental damages resulting directly or indirectly from the use or loss of use of the manufactured equipment. National shall not be liable for any alleged negligence, breach of warranty, strict liability, or any other theory other than the limited liability set forth herein. THIS WARRANTY CONTAINS THE ENTIRE WARRANTY RELATING TO THE MANU- FACTURED GOODS OF NATIONAL, AND NO CONDUCT, ORAL STATEMENTS OR REPRESENTATIONS NOT CONTAINED IN THIS WARRANTY SHALL HAVE ANY FORCE OR EFFECT OR BE DEEMED A WAIVER THEREOF, THIS WARRANTY SHALL NOT BE MODIFIED IN ANY WAY EXCEPT IF IN WRITING AND SIGNED BY AN AUTHORIZED REPRESENTATIVE OF NATIONAL. This Warranty, and any liability of National hereunder, shall be governed by, construed, and enforced in accordance with the laws of the State of Ohio. i. Casing (HAL Drawings) WELL LINER DETAILS NE G I N EE R S FIGURE CITY OF SOUTH SALT LAKE 700 EAST WELL LINER PROJECT       RECOMMENDED BUILD SHEET NE G I N EE R S FIGURE CITY OF SOUTH SALT LAKE 700 EAST WELL LINER PROJECT Casing (Additional Information) 1 of 6 3 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 Handling and Safety Precautions: Read all Health Hazard, Precautionary and First Aid, Material Safety Data Sheet, and product label prior to handling or use. Data Sheet and Application Guide February 2016 Product Description 3M Scotchkote Fusion-Bonded Epoxy Coating 134 is a one-part, heat curable, thermosetting epoxy coating designed for corrosion protection of metal. The epoxy is applied to preheated steel as a dry powder which melts and cures to a uniform coating thickness when properly applied. This bonding process provides excellent adhesion and coverage on applications such as valves, pumps, pipe drains, hydrants, pipes, tanks and porous castings. Scotchkote coating 134 is NSF/ANSI 61 certified for potable water applications and is also resistant to wastewater, corrosive soils, hydrocarbons, harsh chemicals, and sea water. Powder properties allow easy manual or automatic application by electrostatic or air-spray equipment. Product Features • No primer required for most applications. • For electrostatic or air-spray application on preheated metal articles. • Can be electrostatically applied to unheated metal parts and subsequently cured by baking. • Long gel time allows application on large or complex articles, minimizing fear of runs, sags, laminations, or unsightly overspray. • Especially useful for coating the inside of pipe or other fabrications where a smooth, corrosion resistant coating is required. • Can be machined by grinding or cutting to meet close tolerance requirements. • Allows easy visual inspection of coated articles. • Can be painted with alkyd paint, acrylic lacquer, polyurethane, or acrylic enamel for color coding. • Applied coating will not sag cold flow. • Lightweight for lower shipping costs. • Protects over wide temperature range. • Resists direct burial soil stress. • Resists cavitation and cathodic disbondment. • Can be used for elevated temperature service in presence of H2S, CO2, CH4, crude oil and brine when applied over phenolic primer such as 3M Scotchkote Liquid Phenolic Primer 345. • Long-term performance history in water, sewage, and other service environments. • Scotchkote coating 134 has been tested and certified to NSF /ANSI Standard 61, Drinking Water System Components. For NSF certified applications, the max approved thickness is 60 mil (1.5 mm) and the maximum approved operating temperature is 140°F/60°C. Primers may not be used for potable water applications. • Scotchkote coating 134 meets the requirements of AWWA Standard C213 and C550. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 2 of 6 Temperature Operating Range For non-potable water applications Scotchkote coating 134, when properly applied to a nominal thickness of 15 mils, should perform on pipelines operating between -100°F/-73°C to 203°F/95°C. For temperatures reaching 230°F/110°C thicker coatings, greater than 30 mils, may improve the service capability. However, it is difficult to accurately predict field performance from the laboratory data due to the wide variations in actual field conditions. Soil types, moisture content, temperatures, coating thickness, and other factors specific to the area all influence the coating performance and upper temperature operating limits. General Application Information 1. Remove oil, grease and loosely adhering deposits. 2. Abrasive blast clean the surface to NACE No. 2/SSPC-SP10 ISO 8501:1, Grade SA 2 ½ near-white metal. 3. Apply mechanical masks or mask with materials such as 3M Scotch® Glass Cloth Tape 361 or 3M Aluminum Foil Tape 425 as required. 4. Preheat article to the desired application temperature per cure specifications. 5. Deposit Scotchkote coating 134 by powder spray to the specified thickness. 6. Cure according to cure specifications. 7. Visually and electrically inspect for coating flaws after the coating has cooled. 8. Repair all defects. Cure Specifications Scotchkote coating 134 may be applied to metal articles which have been preheated to a temperature of 300°F/149°C to 475°F/246°C. After application, Scotchkote coating 134 must be cured according to the cure guide to achieve maximum performance properties. If Scotchkote coating 134 is electrostatically applied to unheated parts, the cure time should be measured from the time the coated part reaches the cure temperature. After cure, the coating may be force cooled using air or water to facilitate inspection and handling. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 3 of 6 Product - Physical and Chemical Properties 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 Cure Guide Temperature of Article at Time of Powder Application Typical Gel Time Cure Time 475°F/246°C 40 seconds 7 minutes 450°F/232°C 60 seconds 10 minutes 400°F/204°C 120 seconds 15 minutes 350°F/177°C 330 seconds 25 minutes 425°F/218°C 90 seconds 25 minutes for NSF/ANSI 61 approved applications Typical Properties Proerty Value Color Forest Green Color Forest Green Specific Gravity – Powder (Air Pycnometer) 1.51 Coverage 127 ft2/lb/mil (066 m2/kg/mm) Fluid Bed Density 33 lbs/ft3 (530 kg/m3) 33 lbs/ft3 (530 kg/m3) Shelf Life at 80°F/27°C 18 months Shelf Life at 80°F/27°C 18 months Average Gel Time (400°F/204°C) 120 seconds Edge Coverage 12% to 18% Minimum Explosive Concentration 0.03 oz/ft3 (30,6 g/m3) Ignition Temperature 986°F/530°C V.O.C. (As Supplied) 0 g/L, as calculated Chemical/Pressure/Temperature Resistance Test Conditions Gas Phase Results Autoclave, 120°F/49°C 48 hours, 1500 psi/10.3 MPa 99.5% CO2 0.5% H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase Autoclave, 150°F/66°C 48 hours, 2200 psi/15.2 MPa 80% CH4 12% CO2 8% H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase Autoclave, 200°F/93°C 24 hours, 3300 psi/22.8 MPa 86% CH4 8% CO2 6% H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase Autoclave, 300°F/149°C 24 hours, 3000 psi/20.7 MPa 90% CH 10% CO2 Trace H2S Excellent adhesion, no coating loss or blisters in aqueous, hydrocarbon, or gas phase All tests performed on 3M™ Scotchkote™ Fusion Bonded Epoxy Coating 134 applied over a 1 mil/25,4 μm phenolic primer. Liquid phase for all test conditions: 33% kerosene, 33% toluene, 34% brine solution of 5% NaCl. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 4 of 6 Continued Product - Physical and Chemical Properties Chemical Resistance Testing ASTM G20-10 Immersion Testing at 20°C Solution 30 days 60 days 90 days Acetic Acid (5%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Acetone No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery Carbon Disulfide No blistering or disbondment No blistering or disbondment No blistering or disbondment Gasoline No blistering or disbondment No blistering or disbondment No blistering or disbondment Hydrochloric Acid (10%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Kerosene No blistering or disbondment No blistering or disbondment No blistering or disbondment Lime Water, Saturated No blistering or disbondment No blistering or disbondment No blistering or disbondment Methyl Alcohol No blistering or disbondment No blistering or disbondment No blistering or disbondment Methyl Ethyl Ketone No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery Nitric Acid (10%) Discoloration; No blistering or disbondment Discoloration; No blistering or disbondment Discoloration; No blistering or disbondment Sodium Carbonate Solution (20%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Sodium Chloride Solution (10%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Sodium Hydroxide Solution (10%) No blistering or disbondment No blistering or disbondment No blistering or disbondment Sulfuric Acid (30%) No blistering or disbondment No blistering or disbondment Slight discoloration; No blistering or disbondment Toluene No blistering or disbondment No blistering or disbondment No blistering or disbondment Trichloroethylene No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery No blistering or disbondment, coating is slightly rubbery 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 5 of 6 Continued Product - Physical and Chemical Properties 3M internal – Historical Chemical Resistance testing based on similar, but not identical products.** Testing Temperature 73°F (23°C*) Acetic Acid up to 25% Ferric Nitrate Potassium Borate Ferric Sulfate Potassium Carbonate Aluminum Chloride Ferrous Nitrate Potassium Chloride Aluminum Hydroxide Ferrous Sulfate Potassium Dichromate up to 10% Aluminum Nitrate Formaldehyde up to 100%Potassium Hydroxide Aluminum Sulfate Formic Acid up to 10%Potassium Nitrate Ammonium Carbonate Freon;gas and liquid Potassium Sulfate Ammonium Chloride Gas (Mfg)Propylene Glycol Ammonium Hydroxide up to 100% Gas (Natural)Sewage Ammonium Nitrate Gasoline Leaded Silver Nitrate Ammonium Phosphate Gasoline Unleaded Soap Solution Ammonium Sulfate Glycerine Soaps Amyl Alcohol Heptane Sodium Bicarbonate Barium Carbonate Hexane Sodium Bisulfate Barium Chloride Hexylene Glycol Sodium Carbonate Barium Hydroxide Hydrochloric Acid up to 25%Sodium Chlorate Barium Nitrate Hydrofluoric Acid up to 40%Sodium Chloride Barium Sulfate Hydrogen Sulfide Sodium Hydroxide Benzene Isopropyl Alcohol Sodium Meta Silicate up to 5% Boric Acid Jet Fuel Sodium Nitrate Borax Sodium Sulfate Butyl Alcohol Linseed Oil Sodium Thiosulfate up to 5% Cadmium Chloride Lubricating Oil Stannic Chloride Cadmium Nitrate Magnesium Carbonate Sulfur Cadmium Sulfate Magnesium Chloride Sulfuric Acid up to 60% Calcium Carbonate Magnesium Hydroxide Synthetic Sea Fuel (60% Naphtha, Calcium Chloride Magnesium Nitrate 20% Toluene, 15% Xylene, Calcium Hydroxide Magnesium Sulfate 5%Benzene) Calcium Nitrate Synthetic Silage Calcium Sulfate Mercuric Chloride Tetrapropylene Calcium Disulfide Methanol (softened)Toluene Carbon Tetrachloride MIBK (Methyl Isobutyl Ketone) Caustic Potash Mineral Oil Trieth ylene Glycol Caustic Soda Mineral Spirits Trisodium Phosphate Chlorine 2% Molasses Turpentine Citric Acid up to 25% Motor Oil Undecanol Copper Chloride Muriatic Acid Urea Copper Nitrate Naphtha Urine Copper Sulfate Nickel Chloride Vinegar Crude Oil Nickel Nitrate Water Cyclohexane Nickel Sulfate Chlorinated Cyclohexene Nitric Acid up to 30%Demineralized Cyclopentane Nonane Distilled Detergent Octane Salt Diesel Fuel Oxalic Acid Sea Diethylene Glycol Pentane Xylol Dipropylene Glycol Perchloroethylene Zinc Chloride Ethanol (softened) Phosphoric Acid up to 50%Zinc Nitrate Ethylbenzene Phosphorous Trichloride Zinc Sulfate Ethylene Glycol Potassium Aluminum Sulfate 10-10-10 Fertilizer, Saturated Ferric Chloride up to 50% Potassium Bicarbonate **Tests conducted for two years. No effect unless otherwise stated. 3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134 6 of 6 3M and Scotchkote are trademarks of the 3M Company. 3 Storage In a cool dry location less than 80°F (27°C) Shelf-Life 18 months from date of manufacture Availability For ordering, technical, product information, or the Safety Data Sheet, call: Phone: 800-722-6721 Fax: 877-601-1305 Important Notice All statements, technical information, and recommendations related to 3M’s products are based on information believed to be reliable, but the accuracy or completeness is not guaranteed. Before using this product, you must evaluate it and determine if it is suitable for your intended application. You assume all risks and liability associated with such use. Any statements related to the product, which are not contained in 3M’s current publications, or any contrary statements contained on your purchase order, shall have no force or effect unless expressly agreed upon, in writing, by an authorized officer of 3M. Warranty; Limited Remedy; Limited Liability Because conditions of product use are outside of our control and vary widely, the following is made in lieu of all express or implied warranties: This product will conform to 3M’s published product specifications and be free from defects in material and manufacture on the date of your purchase. 3M MAKES NO OTHER WARRANTIES INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. If this product is defective upon your receipt, your exclusive remedy shall be, at 3M’s option, to replace the 3M product or refund the purchase price of the 3M product. Except where prohibited by law, 3M will not be liable for any direct, indirect, special, incidental or consequential loss or damage arising from this 3M product, regardless of the legal theory asserted. Electrical Markets Division 6801 River Place Blvd. Austin, TX 78726-9000 800.722.6721 www.3M.com/corrosion Please recycle © 3M 2016 All rights reserved 78-8141-8528-2 Rev A Number Of Segments * Runners 1-1/2" and 2” high are available on 4” and above Polyethylene casing Insulators NOTE: Centered or centered and restrained polyethylene insulators are also available on PVC pipe through 24”. Polyethylene Casing Insulators Dielectric Strength (ASTM D-149) 450-500 Volts/Mil Flexural Strength (ASTM D-790) 4600 psi Compressive Strength (ASTM D-695) 4600 psi Tensile Strength (ASTM D-638) 4600 psi Water Absorption (ASTM D-570) < 0.01% Impact Strength (ASTM D-256) 1.3 ft. lb/in. Maximum Continuous Operating 180 ˚F (82 ˚C) Temperature for most sizes of schedule 40 and schedule 80 PVC, C 900, SDR 21 & 26, Ultra-Rib and more, they are only recommended for use on 12” and smaller ductile iron pipe. Polyethylene casing insulators are recommended for every 5 feet of pipeline. Molded into the inner surface of the casing insulators are grooves which prevent slippage of any carrier pipe coating. Lightweight, economical and easy to install, APS Polyethylene Casing Insulators require only a screwdriver for installation. Do not exceed 35 in-lbs of torque. Sizes are available from 1" through 60" with a standard runner height of 1". Casing Insulators from 1" through 12" are constructed of two halves, 2 PI and 4 PI sections make up 14" and above. polyEThylEnE SpaCErS & InSulaTorS (modEl CI) With excellent dielectric resistance and low moisture absorption for minimal electric current loss and no impairment of cathodic protection, polyethylene spacers and insulators are an economical choice for use on all plastic pipe, metal pipe up to 60" in diameter and smaller ductile pipe. Polyethylene casing spacers and insulators are manufactured by injection molding using polyethylene, which provides high impact strength and a low coefficient of friction. Two halves are used to construct the 1" through 12" spacers while 14" and above are multi-segmented. Runner height for polyethylene spacers can be increased to provide clearance for bell and spigot connections. Ideal polyEThylEnE CaSIng InSulaTorS 9 Carrier Size 1" 1 1/2" 2" 3" 4" 4" 4" 4" 6" 6" 6" 8" 8" 8" 10" 10" 10" 12" 12" 12" 14" 16" 18" 20" 22" 24" 26" 28" 30" 32" 34" 36" 38" 40" 42" 44" 46" 48" 50" 52" 54" 56" 60" Min. Casing Size 3" 3" 4" 6" 6" 8" 10" 12" 10" 12" 14" 12" 14" 16" 14" 16" 18" 16" 18" 20" 18" 20" 22" 24" 26" 28" 30" 32" 34" 36" 38" 40" 42" 44" 46" 48" 50" 52" 54" 56" 58" 60" 64" Diameter Over Shoes* 2 1/4" 2 3/4" 3 1/2" 5" 5 1/2" 6 1/4" 7 3/8" 8 3/8" 8 3/4" 9 5/8" 10 5/8" 10 3/4" 11 3/4" 12 5/8" 12 3/4" 13 3/4" 14 3/4" 14 3/4" 15 7/8" 16 3/4" 15 7/8" 17 7/8" 19 7/8" 21 7/8" 23 7/8" 25 7/8" 27 7/8" 29 7/8" 31 7/8" 33 7/8" 35 7/8" 37 7/8" 39 7/8" 41 7/8" 43 7/8" 45 7/8" 47 7/8" 49 7/8" 51 7/8" 53 7/8" 55 7/8" 57 7/8" 61 7/8" Shoe Height 1/2" 1/2" 5/8" 3/4" 9/16" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" No. of Runners 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 30 Full 4 PI — — — — — — — — — — — — — — — — — — — — 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 15 Full 2 PI — — — — — — — — — — — — — — — — — — — — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — — Total Segs 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 Insulator Width 3" 3" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 3/4" 3 3/4" 3 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" Advance Products & Systems' Casing Spacers and Insulators combine proven dependability and ease of unreliable wooden skids. APS Casing Spacers and Insulators are your answer to lower installation costs with continued Casing Spacers are used to center water, sewer, gas and other fluids in casings. Casing insulators are used to support from a casing pipe through which it must pass. APS provides each in a number of common sizes as well as end seals to accommodate any combination of pipe sizes. These products are virtually corrosion proof and provide insulating protection from a possible electrical shorting between the carrier pipe and casing. APS has the experience to manufacture almost any configuration required from multiple carrier product lines within a single casing to concentrically fitting a bell and spigot ductile iron pipe within its casing. APS has quality personnel APS Casing Spacers require no special tools, no grease, and they are easily bolted on by a single worker. They eliminate the need to fill the casing annulus with sand, grout or pea gravel which all act as electrolytes and can introduce unwanted current to the prevent damage as the carrier pipe is being installed in the casing and, along with spacers and insulators: (Model SSI) Carbon Steel (Model SI Polyethylene (Model CI). City of South Salt Lake Page 1 of 1 700 East Well Liner Isolator MEMORANDUM DATE: February 11, 2022 TO: Michael Newbury, P.E. Permitting Section Manager Division of Drinking Water FROM: Bill Bigelow, P.E. Hansen, Allen & Luce, Inc. 859 West South Jordan Parkway South Jordan, Utah 84095 SUBJECT: Non-NSF Approved Device HAL PROJECT NO.: 126.47.200 This memo is to request DDW review of a non-NSF approved device to be used in a public drinking water well. South Salt Lake City’s 700 East Well has suffered well casing/well screens separation due to corrosion. In response, the City desires to install a well liner to stabilize the well and preserve a reasonable life expectancy. The City is designing a cathodic protection system to prevent further corrosion in the well. The well liner needs to be electrically isolated from the well casing in order for the cathodic protection system to be effective. Traditional centralizers made of steel cannot be used, therefore the City is looking at centralizers that are non-conductive. The City’s corrosion engineer, Mr. Jeffrey Mattson, P.E. has specified the following centralizers to accomplish the well casing/well liner separation objective: Device: Polyethylene Casing Insulator # CI 1620-1EXT-1 Manufacturer: Advanced Products and Systems, LLC, Lafeyette, LA (See Attached Detail Drawings for manufacturer’s detailed product information). Please review this and let us know if this device can be granted an exception for use in the City’s 700 East public drinking water supply well. Attachments: Manufacturer’s Information Number Of Segments * Runners 1-1/2" and 2” high are available on 4” and above Polyethylene casing Insulators NOTE: Centered or centered and restrained polyethylene insulators are also available on PVC pipe through 24”. Polyethylene Casing Insulators Dielectric Strength (ASTM D-149) 450-500 Volts/Mil Flexural Strength (ASTM D-790) 4600 psi Compressive Strength (ASTM D-695) 4600 psi Tensile Strength (ASTM D-638) 4600 psi Water Absorption (ASTM D-570) < 0.01% Impact Strength (ASTM D-256) 1.3 ft. lb/in. Maximum Continuous Operating 180 ˚F (82 ˚C) Temperature for most sizes of schedule 40 and schedule 80 PVC, C 900, SDR 21 & 26, Ultra-Rib and more, they are only recommended for use on 12” and smaller ductile iron pipe. Polyethylene casing insulators are recommended for every 5 feet of pipeline. Molded into the inner surface of the casing insulators are grooves which prevent slippage of any carrier pipe coating. Lightweight, economical and easy to install, APS Polyethylene Casing Insulators require only a screwdriver for installation. Do not exceed 35 in-lbs of torque. Sizes are available from 1" through 60" with a standard runner height of 1". Casing Insulators from 1" through 12" are constructed of two halves, 2 PI and 4 PI sections make up 14" and above. polyEThylEnE SpaCErS & InSulaTorS (modEl CI) With excellent dielectric resistance and low moisture absorption for minimal electric current loss and no impairment of cathodic protection, polyethylene spacers and insulators are an economical choice for use on all plastic pipe, metal pipe up to 60" in diameter and smaller ductile pipe. Polyethylene casing spacers and insulators are manufactured by injection molding using polyethylene, which provides high impact strength and a low coefficient of friction. Two halves are used to construct the 1" through 12" spacers while 14" and above are multi-segmented. Runner height for polyethylene spacers can be increased to provide clearance for bell and spigot connections. Ideal polyEThylEnE CaSIng InSulaTorS 9 Carrier Size 1" 1 1/2" 2" 3" 4" 4" 4" 4" 6" 6" 6" 8" 8" 8" 10" 10" 10" 12" 12" 12" 14" 16" 18" 20" 22" 24" 26" 28" 30" 32" 34" 36" 38" 40" 42" 44" 46" 48" 50" 52" 54" 56" 60" Min. Casing Size 3" 3" 4" 6" 6" 8" 10" 12" 10" 12" 14" 12" 14" 16" 14" 16" 18" 16" 18" 20" 18" 20" 22" 24" 26" 28" 30" 32" 34" 36" 38" 40" 42" 44" 46" 48" 50" 52" 54" 56" 58" 60" 64" Diameter Over Shoes* 2 1/4" 2 3/4" 3 1/2" 5" 5 1/2" 6 1/4" 7 3/8" 8 3/8" 8 3/4" 9 5/8" 10 5/8" 10 3/4" 11 3/4" 12 5/8" 12 3/4" 13 3/4" 14 3/4" 14 3/4" 15 7/8" 16 3/4" 15 7/8" 17 7/8" 19 7/8" 21 7/8" 23 7/8" 25 7/8" 27 7/8" 29 7/8" 31 7/8" 33 7/8" 35 7/8" 37 7/8" 39 7/8" 41 7/8" 43 7/8" 45 7/8" 47 7/8" 49 7/8" 51 7/8" 53 7/8" 55 7/8" 57 7/8" 61 7/8" Shoe Height 1/2" 1/2" 5/8" 3/4" 9/16" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1 1/2" 2" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" 1" No. of Runners 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 30 Full 4 PI — — — — — — — — — — — — — — — — — — — — 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 15 Full 2 PI — — — — — — — — — — — — — — — — — — — — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — 1 — — Total Segs 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 Insulator Width 3" 3" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 1/4" 3 3/4" 3 3/4" 3 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 4 3/4" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" 6" Advance Products & Systems' Casing Spacers and Insulators combine proven dependability and ease of unreliable wooden skids. APS Casing Spacers and Insulators are your answer to lower installation costs with continued Casing Spacers are used to center water, sewer, gas and other fluids in casings. Casing insulators are used to support from a casing pipe through which it must pass. APS provides each in a number of common sizes as well as end seals to accommodate any combination of pipe sizes. These products are virtually corrosion proof and provide insulating protection from a possible electrical shorting between the carrier pipe and casing. APS has the experience to manufacture almost any configuration required from multiple carrier product lines within a single casing to concentrically fitting a bell and spigot ductile iron pipe within its casing. APS has quality personnel APS Casing Spacers require no special tools, no grease, and they are easily bolted on by a single worker. They eliminate the need to fill the casing annulus with sand, grout or pea gravel which all act as electrolytes and can introduce unwanted current to the prevent damage as the carrier pipe is being installed in the casing and, along with spacers and insulators: (Model SSI) Carbon Steel (Model SI Polyethylene (Model CI). POTA-POX ® PLUS PRODUCT DATA SHEET SERIES N140 PRODUCT PROFILE © May 15, 2023 by Tnemec Company, Inc.PDSN140 GENERIC DESCRIPTION Polyamidoamine Epoxy COMMON USAGE Innovative potable water coating which offers high-build edge protection and allows for application at a wide range of temperatures (down to 35°F or 2°C with 44-700 Accelerator). For use on the interior and exterior of steel or concrete tanks, reservoirs, pipes, valves, pumps, and equipment in potable water service. COLORS 1211 Red, 1255 Beige, 00WH Tnemec White, 15BL Tank White, 35GR Black and 39BL Delft Blue. Note: Epoxies chalk with extended exposure to sunlight. Lack of ventilation, incomplete mixing, miscatalyzation or the use of heaters that emit carbon dioxide and carbon monoxide during application and initial stages of curing may cause yellowing to occur. SPECIAL QUALIFICATIONS Certified by NSF International in accordance with NSF/ANSI/CAN Std. 61 and the extraction requirements of NSF/ANSI/CAN 600. Note: Series N140 is an NSF-approved primer, stripe coat, and intermediate coat for applications on the interior of steel tanks; Series N140 is an NSF-approved primer and finish coat for applications on pumps, valves, fittings, and mechanical devices. Reference Tnemec’s certified product listing at www.nsf.org for additional details. Conforms to AWWA C210 (without 44-700). Contact your Tnemec representative for systems and additional information. A two-coat and three-coat system of Series N140 meets the requirements of AWWA C550 Protective Interior Coatings for Valves and Hydrants. Published technical data and instructions are subject to change without notice. The online catalog at www.tnemec.com should be referenced for the most current technical data and instructions or you may contact your Tnemec representative for current technical data and instructions. COATING SYSTEM SURFACER/FILLER/PATCHER Series 215, 217, 218 PRIMERS Self-priming, Series 22, 91-H2O, 94-H2O, 98-H2O, L140, L140F, N140F TOPCOATS Interior: Series 21, 22, FC22, L140, L140F, N140, N140F, 264, 265, 406. Exterior: Series 22, 27, 66, L69, L69F, N69, N69F, V69, V69F, 73, 118, L140, L140F, N140, N140F, 156, 157, 161, 180, 181, 700, V700, 701, V701, 1026, 1028, 1029, 1077, 1078, 1078V, 1080, 1081, 1094, 1095, 1096, 1224. Note: When topcoating with Series 700, V700, 701, or V701, an intermediate coat of Series 73, 1095 or 1096 is required. Note: The following recoat times apply for Series N140: Immersion Service—Surface must be scarified by blasting with fine abrasive after 60 days. Atmospheric Service—After 60 days, scarification or an epoxy tie-coat is required. Note: When topcoating with Series 406, recoat times will vary with temperature. Reference the Series 406 product data sheet for specific recoat times. Contact your Tnemec representative for specific recommendations. Published technical data and instructions are subject to change without notice. The online catalog at www.tnemec.com should be referenced for the most current technical data and instructions or you may contact your Tnemec representative for current technical data and instructions. SURFACE PREPARATION STEEL Immersion Service: SSPC-SP10/NACE 2 Near-White Blast Cleaning or ISO Sa 2 1/2 Very Thorough Blast Cleaning with a minimum angular anchor profile of 1.5 mils. Non-Immersion Service: SSPC-SP6/NACE 3 Commercial Blast Cleaning or ISO Sa 2 Thorough Blast Cleaning with a minimum angular anchor profile of 1.5 mils. Note: Commercial Blast Cleaning generally produces the best coating performance for this exposure. If conditions will not permit this, in moderate exposures Series N140 may be applied to SSPC-SP2 or SP3 Hand or Power Tool Cleaned surfaces (SSPC Rust Grade Condition C). CAST/DUCTILE IRON All external surfaces of ductile iron pipe and fittings shall be delivered to the application facility without asphalt or any other protective lining on the exterior surface. All oils, small deposits of asphalt paint, grease, and soluble deposits should be removed and uniformly abrasive blasted using angular abrasive in accordance with NAPF 500-03-04: External Pipe Surface condition. When viewed without magnification, the exterior surfaces shall be free of all visible dirt, dust, loose annealing oxide, rust, mold coating and other foreign matter. Any area where rust reappears before application shall be reblasted. The surface shall contain a minimum angular anchor profile of 1.5 mils (38.1 microns) (Reference NACE RP0287 or ASTM D 4417, Method C). CONCRETE Allow new cast-in-place concrete to cure a minimum of 28 days at 75°F (24°C). Verify concrete dryness in accordance with ASTM F 1869 “Standard Test Method for Measuring Moisture Vapor Emission Rate of Concrete Subfloor Using Anhydrous Calcium Chloride” (moisture vapor transmission should not exceed three pounds per 1,000 square feet in a 24 hour period), F 2170 “Standard Test Method for Determining Relative Humidity in Concrete using in situ Probes” (relative humidity should not exceed 80%), or D 4263 “Standard Test Method for Indicating Moisture in Concrete by the Plastic Sheet Method” (no moisture present). Prepare concrete surfaces in accordance with NACE No. 6/SSPC-SP13 Joint Surface Preparation Standards and ICRI Technical Guidelines. Abrasive blast, shot-blast, water jet or mechanically abrade concrete surfaces to remove laitance, curing compounds, hardeners, sealers and other contaminants and to provide an ICRI-CSP 2- 3 surface profile. Large cracks, voids and other surface imperfections should be filled with a recommended filler or surfacer. PRIMED SURFACES Immersion Service: Scarify the Series N140 prime coat by brush-blasting with fine abrasive before topcoating if: (a) the Series N140 prime coat has been in exterior exposure for 60 days or longer and Series 66, L69, L69F, N69, N69F, V69, V69F, L140, L140F, N140, N140F, or 161 is the specified topcoat; (b) the Series N140 prime coat has been in exterior exposure for 7 days or longer and Series 264 or 265 is the specified topcoat. ALL SURFACES Must be clean, dry and free of oil, grease and other contaminants. Published technical data and instructions are subject to change without notice. The online catalog at www.tnemec.com should be referenced for the most current technical data and instructions or you may contact your Tnemec representative for current technical data and instructions. Page 1 of 3 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 TECHNICAL DATA © May 15, 2023 by Tnemec Company, Inc.PDSN140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 VOLUME SOLIDS 67.0 ± 2.0% (mixed—A, B & 44-700 Epoxy Accelerator) † RECOMMENDED DFT 2.0 to 10.0 mils (50 to 225 microns) per coat. Note: Reference the NSF website at www.nsf.org for details on the maximum allowable DFT. Note: The number of coats and thickness requirements will vary with substrate, application method and exposure. Contact your Tnemec representative. CURING TIME AT 5 MILS DFT Without 44-700 Accelerator: Temperature To Handle To Recoat Immersion 90°F (32°C) 5 hours 7 hours 7 days 80°F (27°C) 7 hours 9 hours 7 days 70°F (21°C) 9 hours 12 hours 7 days 60°F (16°C) 16 hours 22 hours 9 to 12 days 50°F (10°C) 24 hours 32 hours 12 to 14 days Curing time varies with surface temperature, air movement, humidity and film thickness. Refer to product listing on www.nsf.org for specific potable water return to service information. Ventilation: When used in enclosed areas, provide adequate ventilation during application and cure. Note: For faster curing and low temperature applications, add No. 44- 700 Epoxy Accelerator, see separate product data sheet for cure information. VOLATILE ORGANIC COMPOUNDS Unthinned: 2.4 lbs/gallon (285 grams/litre) Thinned 5% (No. 60 Thinner): 2.6 lbs/gallon (311 grams/litre) Thinned 10% (No. 4 Thinner): 2.8 lbs/gallon (334 grams/litre) † HAPS Unthinned: 2.4 lbs/gal solids Thinned 5% (No. 60 Thinner): 2.4 lbs/gal solids Thinned 10% (No. 4 Thinner): 3.3 lbs/gal solids THEORETICAL COVERAGE 1,070 mil sq ft/gal (27.2 m²/L at 25 microns). See APPLICATION for coverage rates. † NUMBER OF COMPONENTS Two: Part A (amine) and Part B (epoxy) — One (Part A) to one (Part B) by volume. PACKAGING Part A Part B Yield (mixed) Large Kit 5 gallon pail 5 gallon pail 10 gallons (37.9 L) Small Kit 1 gallon can 1 gallon can 2 gallons (7.6 L) Reference 44-700 Epoxy Accelerator product data sheet for its packaging information. NET WEIGHT PER GALLON 12.66 ± 0.25 lbs (5.82 ± 0.11 kg) (mixed) † STORAGE TEMPERATURE Minimum 20°F (-7°C) Maximum 110°F (43°C) TEMPERATURE RESISTANCE (Dry) Continuous 250°F (121°C) Intermittent 275°F (135°C) SHELF LIFE Part A: 24 months; Part B: 12 months at recommended storage temperature. FLASH POINT - SETA Part A: 82°F (28°C) Part B: 80°F (27°C) 44-700: None HEALTH & SAFETY Paint products contain chemical ingredients which are considered hazardous. Read container label warning and Material Safety Data Sheet for important health and safety information prior to the use of this product. Keep out of reach of children. PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 APPLICATION PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 COVERAGE RATES Dry Mils (Microns) Wet Mils (Microns) Sq Ft/Gal (m²/Gal) Suggested 6.0 (150) 9.0 (230) 179 (16.6) Minimum 2.0 (50) 3.0 (75) 537 (49.9) Maximum 10.0 (225) 15.0 (375) 107 (10.0) Note: Roller or brush application requires two or more coats to obtain recommended film thickness. Allow for overspray and surface irregularities. Wet film thickness is rounded to the nearest 0.5 mil or 5 microns. Application of coating below minimum or above maximum recommended dry film thicknesses may adversely affect coating performance. Reference the NSF website at www.nsf.org for details on the maximum allowable DFT. † MIXING Start with equal amounts of Series N140 Parts A and B. Power mix contents of each container separately, making sure no pigment remains on the bottom. Pour a measured amount of Part B into a clean container large enough to hold both components. If Series 44-700 is not being used, proceed with mixing and add an equal volume of Part A to Part B while under agitation. Continue agitation until the two components are thoroughly mixed. Note: Both components must be above 50°F (10°C) prior to mixing. For optimum mixing and application properties, the material should be above 60°F (16°C). If using Series 44-700 accelerator, slowly add four (4) fluid ounces of 44-700 per gallon to Series N140 Part A material while under agitation and proceed with adding Part B. Note: The use of more than the recommended amount of 44-700 will adversely affect performance. Thin by volume and thoroughly mix. Failure to thoroughly mix the Part A and Part B components prior to thinning can affect product’s gloss and performance. Do not use mixed material beyond pot life limits. Note: For application of the unaccelerated version to surfaces between 50°F to 60°F (10°C to 16°C) or the accelerated version to surfaces between 35°F to 50°F (2°C to 10°C), allow mixed material to stand 30 minutes and restir before using. THINNING Use No. 4 or No. 60 Thinner. For air spray, thin up to 10% or 3/4 pint (380 mL) per gallon with No. 4 Thinner or thin up to 5% or 1/4 pint (190 mL) per gallon with No. 60 Thinner. For airless spray, roller, or brush, thin up to 5% or 1/4 pint (190 mL) per gallon. Caution: Series N140 NSF certification is based on thinning with No. 4 Thinner for tanks and No. 60 Thinner for pumps, valves, fittings, and mechanical devices. Use of any other thinner voids NSF/ANSI/CAN Std. 61 certification. POT LIFE Without 44-700 6 hours at 50°F (10°C) 4 hours at 75°F (24°C) 1 hour at 100°F (38°C) With 44-700 2 hours at 50°F (10°C) 1 hour at 75°F (24°C) 30 minutes at 100°F (38°C) Page 2 of 3 SPRAY LIFE Without 44-700: 1 hour at 77°F (25°C) With 44-700: 30 minutes at 75°F (24°C) Note: Spray application after listed times will adversely affect ability to achieve recommended dry film thickness. APPLICATION EQUIPMENT Air Spray Gun Fluid Tip Air Cap Air Hose ID Mat’l Hose ID Atomizing Pressure Pot Pressure DeVilbiss JGA E 765 or 704 5/16” or 3/8” (7.9 or 9.5 mm) 3/8” or 1/2” (9.5 or 12.7 mm) 50-80 psi (3.4-5.5 bar) 10-20 psi (0.7-1.4 bar) Airless Spray Tip Orifice Atomizing Pressure Mat’l Hose ID Manifold Filter 0.015”-0.019” (380-485 microns) 3000-4800 psi (207-330 bar) 1/4” or 3/8” (6.4 or 9.5 mm) 60 mesh (250 microns) Low temperatures or longer hoses require higher pot pressure. Use appropriate tip/atomizing pressure for equipment, applicator technique and weather conditions. Roller: Use 3/8” or 1/2” (9.5 mm to 12.7 mm) synthetic woven nap roller cover. Use longer nap to obtain penetration on rough or porous surfaces. Brush: Recommended for small areas only. Use high quality natural or synthetic bristle brushes. SURFACE TEMPERATURE Without 44-700: Min. 50°F (10°C), Max. 135°F (57°C) With 44-700: Min. 35°F (2°C), Max. 135°F (57°C) The surface should be dry and at least 5°F (3°C) above the dew point. Coating will not cure below minimum surface temperature. CLEANUP Flush and clean all equipment immediately after use with the recommended thinner or MEK. † Values may vary with color. © May 15, 2023 by Tnemec Company, Inc.PDSN140 PRODUCT DATA SHEET POTA-POX ® PLUS | SERIES N140 WARRANTY & LIMITATION OF SELLER'S LIABILITY: Tnemec Company, Inc. warrants only that its coatings represented herein meet the formulation standards of Tnemec Company, Inc. THE WARRANTY DESCRIBED IN THE ABOVE PARAGRAPH SHALL BE IN LIEU OF ANY OTHER WARRANTY, EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. THERE ARE NO WARRANTIES THAT EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. The buyer's sole and exclusive remedy against Tnemec Company, Inc. shall be for replacement of the product in the event a defective condition of the product should be found to exist and the exclusive remedy shall not have failed its essential purpose as long as Tnemec is willing to provide comparable replacement product to the buyer. NO OTHER REMEDY (INCLUDING, BUT NOT LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR LOST PROFITS, LOST SALES, INJURY TO PERSON OR PROPERTY, ENVIRONMENTAL INJURIES OR ANY OTHER INCIDENTAL OR CONSEQUENTIAL LOSS) SHALL BE AVAILABLE TO THE BUYER. Technical and application information herein is provided for the purpose of establishing a general profile of the coating and proper coating application procedures. Test performance results were obtained in a controlled environment and Tnemec Company makes no claim that these tests or any other tests, accurately represent all environments. As application, environmental and design factors can vary significantly, due care should be exercised in the selection and use of the coating. Tnemec Company, Inc. 6800 Corporate Drive Kansas City, Missouri 64120-1372 +1 816-483-3400 www.tnemec.com PDSN140© May 15, 2023 by Tnemec Company, Inc.Page 3 of 3 CALPICO MODEL PX injection molded plastic casing insulators are ideal to keep carrier pipe isolated from casing. This model is manufactured from high density polyethylene, which provides high impact strength and a low co-efficient of friction. Non-deteriorating polyethylene lasts indefinitely inside the casing. Excellent dielectric resistance and low moisture absorption for minimal electric current loss and no impairment of cathodic protection. The only metal is the hardware. A grooved inner surface prevents slippage and damage to any coating the pipe may have. Model PX insulators are light in weight, economical, easy to handle, and easy to install. No special tools are required. Our Model PX insulator is offered in sizes 4" through 12". Sizes 14" through 16" also available on some applications -- Consult factory. They are constructed in two halves with 6" wide bands. They can be manufactured with runners heights 1" - 6" (or higher, some applications) to accommo- date centering of pipe in larger casing, and to clear the dimension of the bell or coupling. A fusion process in which HDPE material is added to each runner extends height and essentially provides a one piece runner. All bolts, nuts, and washers are 1/4" cadmium plated and are shipped in a package attached to each insulator. Option: PX-SS (304ss) or PX-SSS (316ss) hardware. 4" - 10" = 2 TOP & 2 BOTTOM RUNNERS; 12" - 16" = 3 TOP & 3 BOTTOM RUNNERS. STANDARD SPECIFICATIONS: *Tensile Strength 3100-5500 psi ASTM D-638-651 *Density 0.96 ASTM D-792 *Appearance Translucent White *Compressive Strength 3200 psi ASTM D-693 *Yield Strength 3000 psi ASTM D-638 *Break Strength 2100 psi ASTM D-638 *Water Absorption <0.1%ASTM D-570 *Impact Strength 1.1 ft. lb/in.ASTM D-256 *Flexural Strength 1110 psi ASTM D-790 Max. Operating Temp. 200 degree Typical Spacing: General - 13' length of carrier pipe: 2 spacers per stick. 18' - 20' length: 3 spacers per stick. Note: Pipe with a tendency to bow, may require 3 per 13' stick or 4 per 18' - 20'. SOME APPLICATIONS, AND LARGE DIAMETER PIPE MAY REQUIRE ADDITIONAL SPACERS. - Consult factory. Install 1' - 1 1/2' from the end of each joint & typically every 8' - 10' thereafter, or per engineer specifications. Centering - Restrained / Non-Ctg - Restrained / Non-Ctg - Non-Restrained… Typical carrier pipe types: * C900 * SDR35 * DIP * HDPE * IPS C A L P I C O INC.