SECTION TBD



RPPSPEC64243Revision 0Procurement Specification for Brine Lag Storage TanksPrepared byBrett LucasWashington River Protection Solutions, LLCDate PublishedJuneJuly 2020Prepared for the U.S. Department of EnergyOffice of River ProtectionContract No. DEAC2708RV14800TABLE OF CONTENTS TOC \h \z \u \t "Heading 1,1,Heading 2,2,Heading 3,3" 1.0SCOPE PAGEREF _Toc44402800 \h 12.0APPLICABLE DOCUMENTS PAGEREF _Toc44402801 \h 22.1Government Documents PAGEREF _Toc44402802 \h 22.2NonGovernment Documents PAGEREF _Toc44402803 \h 22.3NonCode of Record Documents PAGEREF _Toc44402804 \h 42.4Hierarchy of Code PAGEREF _Toc44402805 \h 53.0SYSTEM, STRUCTURE, AND COMPONENT CHARACTERISTICS AND REQUIREMENTS PAGEREF _Toc44402806 \h 63.1System, Structure, and Component Functions and Functional Performance Requirements PAGEREF _Toc44402807 \h 63.1.1General Design Requirements PAGEREF _Toc44402808 \h 63.2System, Structure, and Component Interfaces PAGEREF _Toc44402809 \h 73.2.1Piping Interface PAGEREF _Toc44402810 \h 73.2.2Electrical Interface PAGEREF _Toc44402811 \h 73.2.3Instrument Interface PAGEREF _Toc44402812 \h 73.3System, Structure, and Component Characteristics PAGEREF _Toc44402813 \h 83.3.1Functional Characteristics PAGEREF _Toc44402814 \h 83.3.2Physical Characteristics PAGEREF _Toc44402815 \h 93.4Design and Construction Requirements PAGEREF _Toc44402816 \h 103.4.1Safety PAGEREF _Toc44402817 \h 103.4.2Major Components PAGEREF _Toc44402818 \h 103.4.3Materials PAGEREF _Toc44402819 \h 123.4.4Labeling PAGEREF _Toc44402820 \h 143.4.5Lifting, Securing, and Attachments PAGEREF _Toc44402821 \h 193.4.6Maintainability PAGEREF _Toc44402822 \h 193.5Preparation for Delivery PAGEREF _Toc44402823 \h 193.5.1Shipping Preparation PAGEREF _Toc44402824 \h 193.5.2Package Marking and Packaging Materials PAGEREF _Toc44402825 \h 203.5.3Shipping, Receiving, and Storage PAGEREF _Toc44402826 \h 203.6DOCUMENTATION PAGEREF _Toc44402827 \h 203.6.1Conceptual Design PAGEREF _Toc44402828 \h 213.6.2Preliminary Design PAGEREF _Toc44402829 \h 213.6.3Final Design PAGEREF _Toc44402830 \h 224.0FABRICATIONS REQUIREMENTS PAGEREF _Toc44402831 \h 224.1Welding PAGEREF _Toc44402832 \h 224.1.1Structural Welding PAGEREF _Toc44402833 \h 234.1.2Weld Materials PAGEREF _Toc44402834 \h 234.1.3Welding Procedure Specifications and Qualifications PAGEREF _Toc44402835 \h 234.1.4Weld Inspection Requirements PAGEREF _Toc44402836 \h 244.1.5Additional Welding Requirements PAGEREF _Toc44402837 \h 244.1.6Workmanship PAGEREF _Toc44402838 \h 244.2Cleanliness PAGEREF _Toc44402839 \h 244.2.1Material of Construction Compatibility PAGEREF _Toc44402840 \h 254.2.2Surface Finishes PAGEREF _Toc44402841 \h 254.2.3Cleaning PAGEREF _Toc44402842 \h 255.0PRODUCT INSPECTION AND TESTING REQUIREMENTS (QUALITY?ASSURANCE REQUIREMENTS) PAGEREF _Toc44402843 \h 255.1Qualification Testing Requirements PAGEREF _Toc44402844 \h 255.1.1General PAGEREF _Toc44402845 \h 255.1.2Shop Acceptance Tests PAGEREF _Toc44402846 \h 265.1.3Pressure Test PAGEREF _Toc44402847 \h 265.1.4Factory Acceptance Testing PAGEREF _Toc44402848 \h 265.2Production Inspection Requirements PAGEREF _Toc44402849 \h 265.2.1Fabrication, Inspection, and Test Plan PAGEREF _Toc44402850 \h 265.2.2Inspection procedures and qualifications PAGEREF _Toc44402851 \h 275.2.3Visual Inspections PAGEREF _Toc44402852 \h 285.2.4Radiography PAGEREF _Toc44402853 \h 285.2.5Hold Points PAGEREF _Toc44402854 \h 286.0DELIVERY, STORAGE, AND HANDLING PAGEREF _Toc44402855 \h 286.1DELIVERY, STORAGE & LOAD HANDLING PAGEREF _Toc44402856 \h 296.1.1General PAGEREF _Toc44402857 \h 296.1.2Transportability PAGEREF _Toc44402858 \h 296.1.3Packaging PAGEREF _Toc44402859 \h 296.1.4Handling PAGEREF _Toc44402860 \h 316.1.5Storage PAGEREF _Toc44402861 \h 336.1.6Delivery PAGEREF _Toc44402862 \h 366.1.7Marking for Shipment PAGEREF _Toc44402863 \h 367.0PROJECT MANAGEMENT PAGEREF _Toc44402864 \h 377.1Work Plan PAGEREF _Toc44402865 \h 377.2Schedule PAGEREF _Toc44402866 \h 377.3Submittals PAGEREF _Toc44402867 \h 377.3.1Electronic Submittal Requirements PAGEREF _Toc44402868 \h 377.3.2List of Submittals PAGEREF _Toc44402869 \h 387.3.3Submittals Required with Proposal PAGEREF _Toc44402870 \h 387.3.4Submittals Required after Receipt of Order PAGEREF _Toc44402871 \h 387.3.5Submittals Required Prior to Fabrication (Design Phase) PAGEREF _Toc44402872 \h 387.3.6Submittals Required for Contract Completion PAGEREF _Toc44402873 \h 407.3.7Request for Information PAGEREF _Toc44402874 \h 417.3.8Approval of Submittals PAGEREF _Toc44402875 \h 417.3.9Drawings, Calculations, and Supporting Data PAGEREF _Toc44402876 \h 427.3.10Quality Assurance/Quality Control PAGEREF _Toc44402877 \h 437.3.11Warranty PAGEREF _Toc44402878 \h 447.3.12Operation and Maintenance Manual PAGEREF _Toc44402879 \h 447.4Quality Assurance Program PAGEREF _Toc44402880 \h 447.4.1Nonconformance Reports PAGEREF _Toc44402881 \h 447.4.2Inspection and Examination PAGEREF _Toc44402882 \h 457.4.3Suspect/Counterfeit Items PAGEREF _Toc44402883 \h 457.4.4Certificate of Conformance PAGEREF _Toc44402884 \h 458.0NOTES PAGEREF _Toc44402885 \h 458.1Definitions PAGEREF _Toc44402886 \h 458.1.1General Definitions PAGEREF _Toc44402887 \h 458.1.2Other Definitions PAGEREF _Toc44402888 \h 458.2List of Terms PAGEREF _Toc44402889 \h 458.3List of Trademarks PAGEREF _Toc44402890 \h 47APPENDICES TOC \h \z \t "Heading 6 Appendix Title,6" Tank Data Sheets PAGEREF _Toc535906944 \h A-1LIST OF TABLES AND FIGURES TOC \h \z \t "Caption-Table,1" \c "Figure" Table?ernment Documents. PAGEREF _Toc44336293 \h 2Table?22.NonGovernment Documents. (2?sheets) PAGEREF _Toc44336294 \h 2Table?23.NonCode of Record Documents. (1 sheet) PAGEREF _Toc44336295 \h 4Figure?31.NF Label Coding. PAGEREF _Toc44336296 \h 15Figure?32.NH Label Coding. PAGEREF _Toc44336297 \h 16Figure?33.NL Label Coding. PAGEREF _Toc44336298 \h 17SCOPEThis procurement specification establishes the requirements for design, fabrication, testing, and delivery of Fourtwo brine storage tanks (equipment identification numbers: 60L-TK-001 and 60L-TK-002) and associated structures, systems, and components (SSC). The brine storage tanks are required to store, cool, and maintain inventory of brine at Hanford’s Effluent Treatment Facility (ETF) resulting from processing effluent waste streams from the Effluent Management Facility (EMF) at the Waste Treatment and Immobilization Plant (WTP). The addition of the brine storage tanks will allow ETF to process the brine through the Effluent Grout Treatment Facility (EGTF) at ETF. The SELLER shall provide the tanks in accordance to the requirements of this specification.The following is a summary of the SELLER’s responsibilities described in this specification:Design, fabricate, test, and deliver structures, systems, and components (SSC) in accordance with requirements of this specification and approved drawings.Design and fabricate Fourtwo storage tanks in accordance with this specification, American Society of Mechanical Engineers (ASME?) BPVC.VIII.1, ASME Boiler and Pressure Vessel Code, Section VIII, Division 1: Rules for Construction of Pressure Vessels, the BUYER’s drawings, and other referenced documents. Design and fabricate any external piping (recirculation, mixing , & agitation equipment, isolation valves, etc.) in accordance with this specification, ASME B31.3, Process Piping, Normal Fluid Service, the BUYER’s drawings, and other referenced documents.Furnish design data required by this specification to document design of the storage tanks.Procure materials and SSCs.Maintain records and accounting of parts and materials required to complete the work scope.Fabricate and assemble the system.Test and inspect as required by this specification, ASME BPVC.VIII.1 and ASME B31.3. (if required). Brine storage tank do not require ASME U-stamping. Furnish labor, supervision, tools, equipment, and consumable materials required toperform work in accordance with this specification and the statement of work.Provide packaging, crating, loading, and shipping of SSCs.Provide the BUYER full access to the facility for performing random or scheduled inspections and/or surveillance of work performed.Perform nondestructive examinations (NDEs) for welds as required by this specification.Provide cleaning and identification of SSCs.Provide documentation for design, fabrication, inspections, testing, and delivery of SSCs.APPLICABLE DOCUMENTSThe following documents, of the exact issue shown, form a part of the basis of design to the extent specified in the applicable sections of this document and establish the Code of Record. In the event of a conflict between documents referenced herein and the requirements of this specification, the requirements of this specification shall take precedence over requirements in documents listed in REF _Ref529795111 \h Table?21 and REF _Ref529795307 \h Table?22 only when the specification requirements are more stringent or ernment DocumentsDocuments listed in REF _Ref529795111 \h Table?21 constitute a part of this specification to the extent specified herein and establishes the Code of Record. The most current version of the documents shall be used, unless otherwise specified. In the event of conflict between the documents referenced herein and the contents of this specification, the contents of this specification shall be considered a superseding requirement.Table? STYLEREF 1 \s 2 SEQ Table \* ARABIC \s 1 ernment Documents.Document NumberTitleCode of Federal Regulations (CFR)29 CFR 1910 Occupational Safety and Health Standards(DOE) U.S.?Department of EnergyDOE/RL9236, Rev. 1, Release 84Hanford Site Hoisting and Rigging Manual(WAC) Washington State Administrative CodeWAC 173-303-640Dangerous Waste Tank SystemsNonGovernment DocumentsThe following documents of the exact issue shown in REF _Ref529795307 \h \* MERGEFORMAT Table?22 form a part of this specification to the extent specified herein and establishes the Code of Record. In the event of conflict between the documents referenced herein and contents of this specification, the contents of this specification shall be considered a superseding requirement.Table? STYLEREF 1 \s 2 SEQ Table \* ARABIC \s 1 2.NonGovernment Documents. (2?sheets)Document NumberTitle(AISC) American Institute of Steel ConstructionAISC, 15th EditionSteel Construction ManualAISC Steel Design Guide 27 (2013) Structural Stainless Steel(ASCE?) American Society of Civil EngineersASCE 7-16Minimum Design Loads for Buildings and Other Structures(ASME?) American Society of Mechanical EngineersASME BPVC (2019) Section II Section V Section VIII-1 Section IXASME Boiler & Pressure Vessel Code“Materials”“Nondestructive Examination”“Rules for Construction of Pressure Vessels”“Welding and Brazing Qualifications”ASME BPVC Section VIII-1 (2019)ASME Boiler and Pressure Vessel Code, Section VIII, Division 1: Rules for Construction of Pressure VesselsASME B16.34 2017Valves – Flanged, Threaded, ad Welding EndASME B31.3-2018Process PipingASME B16.5-2017Pipe Flanges and Flanged FittingsASME B16.9-2018Factory-Made Wrought Buttwelding FittingsASME B16.20-2017Metallic Gaskets for Pipe FlangesASME BTH-1-2017Design of Below-the-Hook Lifting DevicesASME B30.20-2018 Below-the-Hook Lifting Devices(ASNT) American Society Nondestructive TestingASNT CP-189-2016ASNT Standard for Qualification and Certification of NondestructiveTesting PersonnelASNT SNT-TC-1A-2016Standard Topical Outlines for Qualification of Nondestructive Testing Personnel(ASTM?) American Society of Testing and MaterialsASTM A380/A380M-17Standard Practice for Cleaning, Descaling, and Passivation of Stainless Steel Parts, Equipment, and SystemsASTM A36/A36M-19Standard Specification for Carbon Structural SteelASTM A182/A182M-20Standard Specification for Forged or Rolled Alloy and Stainless Steel Pipe Flanges, Forged Fittings, and Valves and Parts for High-Temperature ServiceASTM A193/A193M-20Standard Specification for Alloy-Steel and Stainless Steel Bolting for High Temperature or High Pressure Service and Other Special Purpose ApplicationsASTM A194/A194M-20Standard Specification for Carbon Steel, Alloy Steel, and Stainless Steel Nuts for Bolts for High Pressure or High Temperature Service, for BothASTM A240/A240M-19Standard Specification for Chromium and Chromium-Nickel Stainless Steel Plate, Sheet, and Strip for Pressure Tanks and for General Applications.ASTM A276-17Standard Specification for Stainless Steel Bars and ShapesASTM A312/A312M-19Standard Specification for Seamless, Welded, and Heavily Cold worked Austenitic Stainless Steel PipesASTM A403/A403M-20Standard Specification for Wrought Austenitic Stainless Steel Piping FittingsASTM A479/A479M-19Standard Specification for Stainless Steel Bars and Shapes for Use in Boilers and other Pressure TanksASTM A500/A500M-20Standard Specification for Cold-Formed Welded and Seamless Carbon Steel Structural Tubing in Rounds and ShapesASTM A992/A992M-11(Reapproved 2015)Standard Specification for Structural Steel Shapes(AWS?) American Welding SocietyAWS B2.1/B2.1M-BMG:2014Base Metal Grouping for Welding Procedure and Performance QualificationANSI/AWS A2.4:2020 Standard Symbols for Welding Brazing, and Nondestructive ExaminationAWS D1.1/D1.1M:2020Structural Welding Code — SteelAWS D1.3/D1.3M:2018Structural Welding Code — Sheet SteelAWS D1.6/D1.6M:2017Structural Welding Code — Stainless SteelAWS D9.1M/D9.1:2018Sheet Metal Welding CodeAWS QC1:2016Specification for AWS Certification of Welding InspectorsInstitute of Electrical and Electronics Engineers, Inc. (IEEE?)IEEE?C22017National Electrical Safety Code? (NESC?)IEEE?Std?1422007IEEE Recommended Practice for Grounding of Industrial and Commercial Power SystemIEEE Std 242-2001IEEE Recommended Practice for Protection and Coordination of Industrial and Commercial Power SystemsIEEE Std 841-2009IEEE Standard for Petroleum and Chemical Industry—Premium-Efficiency, Severe-Duty, Totally Enclosed Fan-Cooled (TEFC) Squirrel Cage Induction Motors—Up to and Including 370 kW (500 hp)IEEE Std 1100-2005IEEE Recommended Practice for Powering and Grounding Electronic EquipmentNational Electrical Manufacturers Association (NEMA)NEMA MG12016Motors and Generators(NFPA) National Fire Protection AssociationNFPA 70-2020National Electrical Code(UL) Underwriters LaboratoriesUL 508A, 2018Standard for Industrial Control Panels(ICC) International Code CouncilIBC-2018International Building CodeNonCode of Record DocumentsThe SELLER shall draft a Request for Information (RFI) to inquire about specific Tank Operations Contractor (TOC) standards, procedures, and documents. The following documents ( REF _Ref526327677 \h Table?23) are used in or referenced by this specification, but are not considered Code of Record. Unless otherwise shown or noted, the latest edition and addenda are applicable.Table? STYLEREF 1 \s 2 SEQ Table \* ARABIC \s 1 3.NonCode of Record Documents. (1 sheet)Document NumberTitleQAAVS?B13“Fabrication/Inspection/Test Plan”QA-AVS B16“Source Inspection”QAAVS?B22“Nonconformance Documentation and Reporting”QAAVS?B25“Certified Welding Inspector (CWI)”QAAVS?B28“Welding Procedures and Qualifications”QAAVS?B31“Nondestructive Examination Process”QAAVS?B46“Liquid Penetrant Material Certification”QAAVS?B49“Certified Material Test Report”QAAVS?B52“Inspection and Test Report”QAAVS?B61“Certification of Calibration Services”QAAVS?B76“Procurement of Potentially Suspect or Counterfeit Items”QAAVS?B79“Certificate of Conformance”QA-AVS B85“Packaging/Shipping Procedures”TFC-BSM-IRM_DC-C-02, Rev F-24Records ManagementTFC-BSM-IRM_DC-C-07, Rev A-13Vendor ProcessesTFC-BSM-AD-STD-02, Rev. D-12Editorial Standards for Technical DocumentsTFC-ENG-DESIGN-C-06, Rev. L-5Engineering Change ControlTFC-ENG-DESIGN-C-09, Rev. E-10Engineering DrawingsTFC-ENG-DESIGN-C-10, Rev. B-16Engineering CalculationsTFC-ENG-DESIGN-C-25, Rev. G-5Technical Document ControlTFC-ENG-DESIGN-C-34, Rev. C-3Development of Technical Requirements for ProcurementsTFC-ENG-DESIGN-C-42, Rev. A-8Design Requirements Compliance MatrixTFC-ENG-DESIGN-D-13.2, Rev. A-29Guidance for Applying Engineering Codes and Standards to DesignTFC-ENG-DESIGN-D-51, Rev. A-5ECN Preparation and Work Completion WalkdownTFC-ENG-DESIGN-P-12, Rev. G-11Plant Installed SoftwareTFC-ENG-DESIGN-P-54, Rev. A-11Checking of Engineering DocumentsTFC-ENG-DESIGN-P-59, Rev. B-4Plant Installed Software Quality AssuranceTFC-ENG-DESIGN-D-71Elementary Diagram GuideTFC-ENG-FACSUP-C-23, Rev. G-2Equipment Identification and Data ManagementTFC-ENG-FACSUP-C-25, Rev E-0Hoisting and RiggingTFC-ENG-STD-01, Rev A-7,Human Factors in DesignTFC-ENG-STD-02, Rev B-0Environmental/Seasonal Requirements for TOC Systems, Structures, and ComponentsTFC-ENG-STD-06, Rev D-2Design Loads for Tank Farm FacilitiesTFC-ENG-STD-10, Rev A-18Drawing StandardTFC-ENG-STD-12, E-4TOC Equipment Identification Numbering and Labeling StandardTFC-ENG-STD-14, C-4Setpoint StandardTFC-ENG-STD-15, Rev. C-7Standard for Raceway Systems and Flexible Cords & CablesTFC-ENG-STD-23, Rev. A-9Human-Machine Interface for Process Control SystemsTFC-ENG-STD-41, Rev A-11Electrical InstallationsTFC-ENG-STD-51, Rev A-1Vendor Calculation StandardTFC-ENG-STD-52, Rev. A-1 Subcontractor Welding StandardTFC-ESHQ-S-STD-05, Rev. B-11Walking Working SurfacesRPP-8360, Rev 6Lifting Point Evaluation ProcessHNF-27957200 Area ETF, Load-In and LERF Pipe Class Specification (to be used in lieu of TOC standard TFC-ENG-STD-47)HNF-7453Analysis of Remote Sprinkler Areas of Building 2025EHNF-SD-ETF-FHA-001Fire Hazards Analysis for the 200 Area Effluent Treatment Facility (ETF)Hierarchy of CodeExcept in those instances where Washington State has been granted regulatory authority by the Federal Government, the hierarchical relationship among requirements specified in Section? REF _Ref532476389 \n \h 3.0 is as follows:Federal requirements (e.g., Code of Federal Regulations);Washington State requirements (e.g., Washington Administrative Code);Local ordinances;DOE orders and standards;National consensus codes and standards; andHanford Sitespecific codes and standards.This hierarchy establishes the order of precedence of requirements levied in this specification. In the event of a conflict between two requirements, the SELLER shall submit a RFI for clarifications prior to use.SYSTEM, STRUCTURE, AND COMPONENTCHARACTERISTICS AND REQUIREMENTSSystem, Structure, and Component Functions and Functional Performance RequirementsGeneral Design RequirementsNOTE: Tanks will be installed outdoors.For the tank operating conditions, design data, and configuration refer to the Data Sheets in REF _Ref532477498 \n \h Appendix?A.SELLER shall design, supply, and install internals. SELLER shall design and supply any required external SSCs. Additional information regarding the interface of the tanks to the interfacing piping and other systems are as follows:Provide flanged (RF) connections on tank shell/nozzlesProvide isolation valves and/or blind flanges (RF) on tank flanges and valves to maintain cleanliness and blank off unused tank flanges. Note: Piping routed by others will connect to brine storage tank external flanges or isolation valves. Provide junction box for all electrical and control system connections. Note: Conduits and cables will be routed up to the brine storage tank junction boxes by others. Provide ladders, stairs, manways, hand ways, etc. for future maintenance activities on and around the storage tanks. SELLER shall be responsible for the detailed design of all lifting and tailing lugs, and/or trunnions. Design, fabricate, test, and label storage tanks in accordance with:this specification,the SELLER’s BUYERapproved drawings, andapplicable regulations.If there is a conflict among the above listed requirements, applicable regulations will take precedence. Bring any conflicts to the BUYER’s attention for resolution via request for information (RFI) process; see section 6.3.7 of this specification. The BUYER will review and comment on design drawings and calculations. The BUYER review does not release the SELLER from responsibility to design and fabricate the tanks in accordance with applicable regulations, and this specification.System, Structure, and Component Interfaces Piping InterfaceThe interface flange (raise face) for the 3” brine supply piping from ETF shall be located above the normal full fluid line, on the roof of the tank, to prevent siphoning. The interface flange (raise face) for the 2” brine supply piping to the Effluent Grout Treatment Facility (EGTF) shall be on nozzle extending outside of tank skirt from bottom-center of tank bottom head (low point of tank). Provide an addition raised face flange near the bottom of the tank, with isolation valve and blind flange, for future brine tank expansion should ETF need more capacity.Provide 1” nozzle with spray ring internal to tanks for cleaning and flushing of tank and lines prior to routine internal inspections. Spray rings shall be positioned to spray tank walls and located above normal full fluid line. Piping line from Hanford raw water distribution system to SELLER provided storage tanks will be installed by others. Provide one 3” spare piping interface flange (raised face) on the roofProvide two 2” spare piping interface flanges (raised faced) on the roofProvide nozzle supports where required. Electrical InterfacePower available 3-phase 480 VAC or 1-phase 120 VAC.Provide junction boxes for power and control systems for any required instruments or other required tank components including but not limited to:Temperature Transmitter(s)Level Transmitter(s)Heat traceMixers, recirculation pumps, agitators, etc.All electrical devices and instrumentation shall be wired to a junction box located at the near the base of the tanks. The junction box shall be located on the tanks to allow for operator accessibility with appropriate National Electric Code (NEC) required working clearances.Power and low voltage (120V and less) shall be separated to allow maintenance. All terminals shall be finger safe.Individual power and control panels, if required, shall be Listed and certified in accordance with UL 508A, Standard for Industrial Control Panels.Wire management shall be professionally neat, organized and workman-like manner. Electrical components shall be provided in accordance with UL and NFPA 70 requirements. The overall assembly shall be UL listed and labeled, or listed/certified and labeled by a Nationally Recognized Testing Laboratory (NRTL), for example Canadian Standards Association (CSA), for the application, installation condition, and the environment in which installed.Instrument InterfaceThe SELLER shall provide a recommended list of analog and/or digital instrumentation to measure temperature, fluid level, and any other instruments for agitation and mixing. Provide a summary list of discrete status and alarm indications for various component conditions and faults such as for valve status, breaker shunt trip, etc. This list shall be submitted for approval prior to purchase of the instrumentation and control system.Provide junction boxes for power and control systems for any required instruments or other required tank components including but not limited to:Temperature Transmitter(s)Level Transmitter(s)Heat traceValve position indicators Valve operators (if required)Any instruments for agitation, recirculation, and/or mixing equipmentJunction boxes and terminal strips should be appropriately sized for required instruments, and possibly oversized to allow additional instruments to be added to the tank. Provide documentation of National Institute of Standards and Technology (NIST) certified calibration for each instrument. Instruments for the brine storage tanks shall be HART compatible. Provide control panels, as required, for agitation, mixing, and recirculation equipment. Control signal to control panels will be provided by EGTF. For instruments and control panels installed for the brine storage tanks, provide:Operation Manual;Maintenance Manual;Calibration Instructions;System, Structure, and Component CharacteristicsFunctional CharacteristicsThe ETF will process upnore than 45 million gallons of liquid effluent from WTP’s Effluent Management Facility (EMF) resulting 60-150 thousand gallons of brine per year. Brine Storage Tanks at ETF for are required for storage, cooling, and inventory control. The brine storage tanks will allow for the load out of brine or solidification into grout by sending brine to the ETF Effluent Grout Treatment Facility (EGTF). System Design Life. The tanks and accessories shall have a design life of 30?years.Design and Operating Conditions. The brine storage tanks will be installed and operate outdoors, with varying temperature and weather conditions. The brine stored within the storage tanks will require mixing, agitation, and/or recirculation equipment to help with solids suspension, temperature control, and maintaining the make-up of the brine. The inclusion of this equipment may require additional nozzles on the tank and internal and/or external piping and supports. Due to exposure to colder temperatures, the brine tanks will require insulation and heat trace to help maintain a minimum internal temperature of 80°F. Heat trace locations and methods will be determined during the design phase. See data sheet in Appendix A for the tank operating conditions.See Section? REF _Ref532478725 \n \h \* MERGEFORMAT 3.1.1 for additional conditions.Agitation/Mixing/Recirculation Equipment. The brine storage tanks require equipment for agitation/mixing/recirculation to maintain solids suspension, brine mixture and temperature while in storage prior to processing by EGTF. Agitation/mixing/recirculation equipment shall also provide a means to transfer brine between the two storage tanks (60L-TK-001 and 60L-TK-002) and for the two storage tanks (60L-TK-004 and 60L-TK-004) for volume control should one tank require pumping down for internal inspection or other maintenance activities. General equipment shall be grounded per NFPA?70, IEEE?Std?142, and IEEE?C2.Electric motors shall comply with the applicable requirements of NEMA MG 1 and IEEE Std 841.Alternating current motor protection shall comply with NFPA?70 and IEEE?Std?242.Grounding for computer/control and data processing equipment shall comply with the requirements of NFPA?70 and IEEE?Std?1100.Tank Internals. Tank internals include, but not limited to, wash spray ring system and components required for tank agitation/mixing/and recirculation.At a minimum, the following items shall be considered in the design of the internals:Weight of the materials and components,Flow induced loading from mixing, recirculation, and/or agitation equipment,Compatible with brine as the fluid mediaPerformance Requirements. For brine storage tank operating conditions, design data, and tank configuration refer to the Data Sheets in REF _Ref532477498 \n \h \* MERGEFORMAT Appendix?A.Physical CharacteristicsThis section provides the physical characteristics for the tanks and accessories.Environmental Conditions. Design the tanks and accessories to operate outdoors and empty storage outdoors in the environmental conditions specified in TFCENGSTD02 (see REF _Ref532477498 \n \h \* MERGEFORMAT Appendix?A and Section? REF _Ref532479161 \n \h 3.1.1 of this specification).Design Loads. Design loads shall comply with TFCENGSTD06, Natural Phenomena Hazard Design Category (NDC2), Limit State?D.At a minimum, evaluation of loads shall include: The loads and moments on nozzles specified in section 3.4.2.2 of this specification. The loads and moments imposed by attachments from lifting provisions. The loads and moments imposed by attachments from piping, ladders, and platforms. Packaging, Storing, Shipping, and Load Handling. When the SELLER has requirements for packaging, storage, shipping, and handling (PSSH), the SELLER’s PSSH requirements must be approved by the BUYER. Otherwise, the SELLER shall use the requirements in Section? REF _Ref532479448 \n \h 6.0.Design and Construction RequirementsSafetyThe tanks and accessories shall be designed for safe installation, operation, and maintenance.Major ComponentsFabricate, test, inspect, and ship completed tanks.Containment Boundary Design Requirements.Proposed weld joint configurations are to be approved by the BUYER prior to fabrication, unless the BUYER chooses to waive this requirement.Nozzle and Manway Requirements.At a minimum, nozzle wall thickness shall be per ASME BPVC, Section VIII, Division 1.Primary nozzle load combinations to be considered in the design shall be: Weight?+?Seismic + Operating Pressure + Operating Loads.Secondary nozzle load combinations to be considered in the design shall be: Primary?Loads + Thermal.External Nozzles loads shall be designed to meet requirements below, unless otherwise specified:Size (NPS)Force (lbf)Moment (lb-ft)F(axial)F(Lateral)F(Horizontal)M(axial)M(Lateral)M(Horizontal)3/4252550100200200150501001002002001-1/210010020020040040021001002002004004003100100200200400400In establishing nozzle and manway projections, clearance shall be provided for removing flange stud bolts from between the flange and tank (or insulation) and for accessing flange stud nuts. Minimum project from the outside of the tank wall to the nozzle face shall be:a. 8 inches for nozzles up to and including NPS 8.b.10 inches for nozzles (manways) larger than NPS 8.All nozzles shall be the set-in type or through type with full penetration welds. All inside nozzle neck and manway edges shall be rounded to 1/8-inch minimum radius. Nozzles shall be extended sufficiently such that flanges and bolting are outside tank insulation. Internal spray ring shall be welded to tank nozzle.Nozzle for EGTF feed shall be at the low point of the bottom head and extended beyond tank skirt for flanged connection to SELLER provided isolation valve.Unless specified otherwise, external nozzle flanges are to conform to ASME?B16.5.Refer to Section? REF _Ref532480230 \n \h \* MERGEFORMAT 4.1.4 for nondestructive examination (NDE) requirements.All manways and nozzles designated as “spare” shall be provided with blinds, gaskets, studs, and nuts. Manways covers shall be hinged. If blind flanges to ASME B16.5 are usedare used as for cover plates, corrosion allowance shall be added to the thickness only. For manways, the bolt holes shall straddle centerlines and be parallel to, or coincident with, the natural tank centerlines. Adequate space shall be provided between back of flange and tank wall for installation of fastener and access for tools. Stops shall be provided to prevent damage to tank shell or insulation from the over-rotation of the manway hinge. Reinforcement pad thickness shall not exceed the parent wall thickness the nozzle is attached to. Tank Internal Components. Design of support members for tank internals shall be the responsibility of the SELLER. Internal supports shall use welded connections exclusively; no bolted connections.The SELLER shall submit a preliminary layout for review prior to detail design for internal equipment and piping, including proposed support methods.Design of internal components such as spray rings and components for mixing/agitation/recirculation shall consider stresses caused by differential thermal expansion, seismic loads, and horizontal transportation of the tank. The nozzles and internals shall be analyzed for effectiveness of design.Tank External Components.Lifting and tailing lugs shall be designed and installed by the SELLER.The materials welded to the shell shall match the material of the shell.PipingPiping materials and specifications shall comply with HNF-27957, Pipe Class 163LS.Fittings for stainless-steel tubing shall be Swagelok flareless, compression type tube fittings.Corrosion of Parts.Design of tanks shall include a corrosion allowance of 0.002 in/yr over the design life of the tanks.Supports.The brine storage tanks will be skirt supported on Buyer-supplied pad.be ground supported. Concrete foundation will be designed by BUYER. Tank support gusset quantity and geometry shall be determined by SELLER as required to meet loading. Unless otherwise specified by the BUYER, design all tanks as selfsupporting units. Consider seismic loadings in support design, depending on installation method and location. Tanks will be located outdoors; wind, snow, and volcanic loadings are applicable.Allow for thermal expansion and thermal expansion loads during base and/or support design.Design and fabricate any tank accessory supports and attachments in accordance with good structural design and practice, and ASME BPVC, Section VIII, Division 1.Design tank supports to meet NDC2, Limit State?D.Tanks will be anchored to reinforced concrete pad, with anchors (by others). Provide reaction forces at the anchorage locations and mounting hole details for the tank base.SELLER shall determine anchorage size and locations for cast-in-place anchor bolts. Minimum anchor bolt size shall be ?”. The actual number and size of anchor bolts used shall be such that anchor bolt stresses do not exceed 15,000 psi under any of the load combinations specified. Incorporate lifting features into the tank design. Design and position lifting features to prevent any strain or distortion of the tank. Design lifting features to accept lifting by forklift, crane, or other appropriate device, and label these features appropriately as lifting points. Lifting lugs/features shall be designed in accordance with RPP-8360.Provide additional structural support as necessary to support the tank accessories (instruments, agitation/mixing devices, etc.) and any external piping (if required for agitation/mixing devices)Name plates for insulated tanks (No U-stamping required)Provide two nameplate with bracketsASME BPVC, Section VIII, Division 1 nameplate Equipment Identification Number (EIN) label with barcodeName plates shall be in U.S. Customary unitsBrackets shall not be removable without destruction of the bracketNameplates shall use either stainless steel textst on a black background or black textsts on a stainless steel background.Design code required nameplate shall be installed on a bracket designed to be totally encased under the tank insulation. An additional nameplate bracket and duplicate nameplate shall be attached to the tank support, not pressure tank shell, and project beyond the insulation. MaterialsCertified Material Test Reports (CMTR) shall be submitted to the BUYER for all pressure boundary and structural materials. All other materials used in construction shall be provided with a Certificate of Conformance, in accordance with QAAVS?B49. Certificates of Conformance shall be traceable to the material used in the fabrication and conform to the requirements in Section? REF _Ref532801230 \n \h 6.3.5. Material CMTRs are also acceptable, and if supplied, shall contain the test results from all testing specified by the referenced material code or standard, and be traceable to the material used in the fabrication.Provide materials complying with ASME BPVC, Section VIII, Division 1 tanks.Plate, Sheet, or Strip.ASME?SA240/SA240M, Type?316/316L stainless steel, for tank shell.Heads.ASME SA240/SA240M, Type 316/316L stainless steel.Structural Shapes.ASME SA276 or ASME SA479/SA479M Type 316/316L structural shapes, angles and plate.Pipe.ASME?SA312/SA312M, Grade TP, Type?316/316L, seamless.Fittings.ASME?SA403/SA403M, Class?WP, Type?316/316L, seamless, buttwelding in accordance with ASME?B16.9, wall thickness to match pipe.Flanges.Weld neck or slipon Class?150, forged stainless steel, raised face, ASME?SA182/SA182M, Grade?F316. Bore weld neck flanges to match pipe internal diameter.Threaded Couplings.Class?3000, threaded, forged stainless steel, ASME?SA182/SA182M, Grade?F316/316L.Fasteners.Flanges: Stud bolts with two nuts, continuously threaded alloy steel studs, ASME?SA193/SA193M, Grade?B8M, Class 2, and heavy hex nuts, ASME?SA194/SA194M, Grade?8M.Bolts: Threaded alloy steel bolts, ASME SA193/SA193M, Grade B8M, Class 2.Nuts: Heavy hex nuts ASME SA194/SA194M, Grade 8M.Gaskets.Flange Gaskets: Flexitallic?-style “LS” spiral wound gasket, Class?150, Flexicarb? flexible graphite, Type?316 stainless-steel outer ring manufactured to ASME?B16.20.Backing Rings.Backing rings or consumable inserts are not to be used.Manway.Each tank shall include at least twoone manway assemblyies for internal access. The top manway on the roof shall provide a minimum 16in. (major dimension) access and the side manway shall provide minimum 30-in. The assembly shall include a gasket suitable for water serviceU-Bolts.U-Bolts: Anvil Fig 137SS, Type 316/316L stainless steel standard U-bolt with double hex nuts.LabelingAttach an identification nameplate to each tank in accordance with the requirements stated in ASME?BPVC, Section VIII, Division 1. Also, attach a nameplate containing the BUYER identification information to each tank. Nameplates shall not be removable without destruction of the nameplate.NOTE: All equipment that is designed to be mechanically lifted shall have lifting points, the center of gravity, and the lifting weight marked. All specialized lifting devices shall be marked in accordance with DOE/RL9236.The basis for labeling requirements is provided in TFCENGSTD12 and TFCENGFACSUPC23.Equipment or containers that manage dangerous waste shall also comply with labeling requirements set forth in WAC 173303640(5)(d).The following components shall be labeled:a.Pipingb.Valves and other in-line componentsc.Major equipment (e.g., pumps and motors)d.Instrumentse.TanksEINs and the associated Equipment Descriptions shall be provided in the SELLERS’s approved design documentation.If BUYER provided documents do not contain the necessary EINs in accordance with TFCENGSTD12, the SELLER shall request the missing EINs through the RFI (Site Form A6003417) processLabel MaterialsLabels shall use a Metalphoto? (anodized photosensitized aluminum) base () or stainless steel.Metalphoto labels shall use a black background (foreground color will be bare aluminum).Stainless-steel labels shall use black text on a stainless-steel (plain/natural) background.Labels shall be 15 gauge thickness, minimum.Labeling RequirementsLabels excerpted from TFCENGSTD12 are shown in Figures? REF _Ref503346341 \h 31, REF _Ref503346354 \h 32, and REF _Ref503346364 \h 33. Application of labels that are inconsistent with this standard, unless addressed by approved deviations, are prohibited.Font USE ALL CAPITAL SIMPLE BLOCK TYPE FONT. All labels in a given area shall be of the same font.Spacing between words shall be at least one full character width.Spacing between lines on the label shall typically be at least one times the character height of the line being printed.Power and multiconductor control cables shall have cable numbers marked at the origination and termination and at junction points in between (i.e., pull boxes and manholes).Cables shall be identified in accordance with the cable schedule. Internal jumper shall be identified with the wire number of the associated external cableThe alphanumeric conductor identifications used shall be the wire numbers shown on the wiring diagrams. Wire numbers shall also be marked on terminal block identification strips in black indelible ink.Permanently label conduits with numbers shown on the drawings, at both ends. For 10 ft maximum length, place on label at the center.Figure? STYLEREF 1 \s 31.NF Label Coding.81470514732000Design ID: NFLabel Size Code: B2Width: 4.00”Height: 2.50”LineBarcodeMax CharRow HgtJust C/L/RStartFontRefDenSideTop1230.26C2.000.40R-HEL-BOLD2320.17C2.000.75R-HEL-BOLD3320.17C2.000.95R-HEL-BOLD4290.17C2.001.35R-HEL-BOLD5180.13R-0.051.67R-HEL-BOLD667.190.16C2.002.30R-HEL-BOLD790.25C2.102.15R-HEL-BOLDThe NF label is applied to large Tiger Tag backing plates. The NF is available in one- or twosided format and can be hung or adhered with approved adhesives or acrylic adhesive backing pads.It is designed for use in harsh environments. The large size is suitable for major components such as tanks, pumps, motors, and mixers.Figure? STYLEREF 1 \s 32.NH Label Coding.12815956261700Design ID: NHLabel Size Code: C0Width: 3.00”Height: 1.50”LineBarcodeMax CharRow HgtJust C/L/RStartFontRefDenSideTop1230.19C1.500.36R-HEL-BOLD2320.13C1.500.60R-HEL-BOLD3320.13C1.500.73R-HEL-BOLD4290.13C1.500.99R-HEL-BOLD5180.10R-0.201.16R-HEL-BOLD690.11C1.501.49R-HEL-BOLD767.190.15C1.601.39R-HEL-BOLDThe NH label is applied to small Tiger Tag backing plates. The NH is available in one- or twosided format and can be hung or adhered with approved adhesives or acrylic adhesive backing pads.It is designed for use in harsh environments. This is the primary label for use in the tank farms. This label should be specified in all cases except for individual control panel instruments and controls, hand switches, etc., or where size prohibits.Figure? STYLEREF 1 \s 33.NL Label Coding.111887011684000Design ID: NLLabel Size Code: CAWidth: 2.00”Height: 1.00”LineBarcodeMax CharRow HgtJust C/L/RStartFontRefDenSideTop1230.13C1.000.20R-HEL-BOLD2250.10C1.000.40R-HEL-BOLD3250.10C1.000.50R-HEL-BOLD4090.10C1.000.83R-HEL-BOLD547.1090.10C1.100.73R-HEL-BOLDThe NL label is a polyester label designed for multiple purposes. It is available in onesided format with an integral adhesive pad. It is also available in one- or twosided format attached to a stainless-steel backing plate that can be hung with aircraft cable.Description fields limited to 25 characters each.No provision for old EIN.No provision for FED FROM data.Label Information: Equipment labels shall contain:EIN (provided by BUYER per TFCENGSTD12),Equipment Description (provided by BUYER),Bar Code (provided by BUYER),Fed From [insert power supply breaker information] (if applicable)Electrical Equipment:The following specific label information is required by code – rated voltage; number of phases; supply power source; type (normal, standby, or emergency); and location;Control threshold switches are labeled for their functionSwitches are labeled with position (onoff, handoffauto, etc.)Indication and direction of operation, as necessaryAttaching Labels:Labels may be attached to the equipment using permanent stainless-steel fasteners, or hung in a permanent fixed location with stainless-steel aircraft cable, as best suited to the application. Stainless cable shall be 0.063 in. in diameter in a 7 by 7 strand matrix and fastened with stainless-steel wire crimps.Label Placement:Labels shall be placed as follows:To be readily visible and readable,Horizontal (except hanging labels),To eliminate identity confusion,So they will not be easily damaged or cause hazard to the operator, andTo avoid obscuring indications or interfering with equipment operation.Large equipment shall be labeled in multiple locations.Wire shall not be used to hang tags inside electrical equipment.Lifting, Securing, and AttachmentsDOE/RL9236, RPP8360, and TFCENGSTD06 shall be used where applicable to the design of any equipment or items requiring load-handling requirements.Other lifting and securing details:Ropes, chains, and straps may be used to secure the tank and associated equipment to the transporter deck. Padding shall be placed between cables or chains and stainless steel or high alloy equipment to prevent discoloration of the tank shell or contamination of the metal. Cushioning, blocking, bracing, and anchoring shall be used where protection from shock and vibration is required. Lifting lugs and tailing lugs shall not be used as tie down points. Nozzles and manways shall not be used as tie-down points. External attachments shall not be used as tie down points unless specifically designed to accommodate shipping loads. Transport and tie-down instructions and diagrams shall be provided.Where equipment is braced internally, it shall be marked to identify removal. Lift points shall be clearly identified on the equipment. MaintainabilityMaintenance and Repair Cycles.SELLER shall recommend frequency requirements for maintenance of the components.Spare Parts.SELLER shall specify recommended spares and spare parts.Preparation for DeliveryShipping PreparationMode and method of transporting, and the extent of storage of the tank assemblies are to be mutually agreed on by the SELLER and BUYER prior to fabrication and delivery of the tanks. The packaging procedure submitted for prior approval by the BUYER shall be used. For safety considerations, a means of pressure relief is to be provided on the tanks during shipping to prevent pressure buildup and/or to equalize pressure due to elevation and/or temperature changes.SELLER shall provide lift and rigging plan to cover the lifting and handling instructions for each lifted item (entire package as well as individual items that are uncrated). The plan shall describe the lift points, special lifting devices and hardware, lifting and handling instructions, lift diagrams that include estimated weight and center of gravity, and lift test plans. Prior to shipment, the SELLER shall provide detailed handling instructions including a dimensioned drawing for each equipment/assembly indicating all dimensions and tools necessary for support, lift, and shipment of the completed equipment. Tolerances for such dimensions shall be noted, either on the specific dimension or in general notes. Dimensions locating centers of gravity shall be generated by SELLER calculation and shall be noted on the drawing, and the calculations shall be submitted with the drawings. These drawings shall be provided with the shipping plan. Package Marking and Packaging MaterialsPackages shall be suitably marked on the outside to facilitate identification of the purchase order, the procurement specification, the package contents, weight, and any special handling instructions.Shipping, Receiving, and StorageTank shall not be released for shipment without approval from the BUYER.Preparation of equipment for transportation shall conform to the packing, marking, and shipping instructions or other documents identified in the Purchase Order. Provide the BUYER with a copy of the bill of lading concurrent with the shipment. Properly and clearly describe the shipment on the bill of lading. At final destination, the BUYER will inspect the shipment, as necessary, to ensure that received items have not been damaged during shipment and that required items and supporting documentation have been received. The receipt inspection constitutes final acceptance.The SELLER shall provide special storage instructions to address long-term (up to six months) storage of the SSCs on site.DOCUMENTATIONEngineering calculations and drawings shall be developed in accordance with TFC-ENG-STD-51 and TFC-ENG-STD-10.Technical documents shall follow editorial standards in accordance with TFC-BSM-AD-STD-02.As-built drawings shall be required at the completion of fabrication, representing the true configuration of the final brine storage tanks.As-built drawing changes may be managed through the SELLER’S approved redline fabrication change control procedure.BUYER’s review of SELLER’s drawings, or release of the equipment for shipment by BUYER’s representative, shall in no way relieve SELLER of the responsibility for complying with all the requirements of this specification and the purchase order.Conceptual DesignA conceptual design shall be provided for in-process design review.The SELLER shall provide a 30% conceptual design review presentation including the following, as a minimum:Piping and instrument diagrams (P&IDs)Equipment arrangement drawing(s) depicting mixing, agitation, or recirculation equipment and routingStorage tank arrangement drawings Equipment and instrumentation listsStructural details and supporting calculationsElectrical load list and one line diagramsElectrical elementary diagrams or other description of how equipment will be controlled & operatedPreliminary interface description and requirementsPreliminary DesignCalculations for process equipment (e.g., piping and tanks), skids (if required), and structural supports. Preliminary calculations shall be complete enough to confirm general sizing and operating parameters of the tanks and process equipment to ensure that there will be no unforeseen issues moving forward into final design.Preliminary drawings for the storage tanks, mixing/agitation/recirculation equipment, and structural supports need to provide enough detail to show a layout and dimensions. Preliminary datasheets that include SELLER information and design and operating parameters. Information shall include, but is not limited to: instrumentation, mixing/agitation/recirculation equipment, and tanks.The SELLER shall submit preliminary 60% design review package for in-process design review including the following drawings, diagrams, reports, and calculations in preliminary form with 30% design review comments incorporated:P&IDs*Instrument schedule Electrical one-line diagrams and schematicsElectrical load list and calculations identifying power requirementsElectrical elementary diagramsInstrument data sheetsArrangement drawings*Structural interfaces and supporting calculations to include size, weight, footprint, center of gravity, anchor hole size/layout/spacing, and anchor loads for the equipment being supplied;*Transportation, load handling, hoisting and rigging;General arrangement drawings showing mixing/agitation/recirculation equipment, connections, piping details, and mechanical layouts, including any equipment specifications and sizing calculations*Pressure relief device calculationsTank drawings, and sizing calculations*Materials of construction evaluations, including corrosion/erosion evaluations, and NACE corrosion protection evaluations;**Calculations for below the hook lifting devices and lift pointsAsterisk (*) denotes minimum design media needed for the preliminary Resource Conservation and Recovery Act of 1976 (RCRA) permit application.The SELLER shall submit the preliminary RCRA design media following incorporationof 60% design review comments.The RCRA design media shall be stamped by a State of Washington licensed RegisteredProfessional Engineer with the caveat “For Permitting Only”.The SELLER shall be responsible for managing 60% design review comments, dispositioning comments, and tracking comments to closure.Final DesignThe SELLER shall submit the final design documents listed in Ssection 3.7.2, and as describedin the following sections with previously generated design review comments ments generated during an in-process 90% design review will be provided to the SELLER.The SELLER shall manage comments, disposition comments, and incorporate comments as agreed upon in comment dispositions, and track comments to closure in the final design submittal.Final RCRA Permit Design Media.Design media identified in Section? REF _Ref499035825 \r \h \* MERGEFORMAT 3.6.2 shall be updated as required, incorporating any outstanding BUYER comments, and submitted in support of the final RCRA permit application.Design media supporting the RCRA permit shall be stamped by a State of Washington licensed Registered Professional Engineer.Document Index. A composite list of the SELLER documents including, but not limited to: drawings, calculations, reports, studies, manuals, etc., and submitted to the BUYER. Documents listed in the Document Index shall reflect, at a minimum:Document titlesUnique document numbersDocument revisions.FABRICATIONS REQUIREMENTSWeldingRefer to TFC-ENG-STD-52, “Subcontractor Welding Standard” for information on welding requirements.Welding qualifications shall be in accordance with applicable fabrication standards or as specified by the BUYER. Weld size and type shall be selected by the manufacturer based on applicable loads and system pressure requirements established within this specification and must meet all applicable codes.Special care shall be taken to limit contamination of stainless-steel components with halides, which are common to adhesive products. If necessary, stainless-steel components shall be cleaned with neutral detergent and water. All weld joints and seams along the pressure boundaries shall be 100?percent continuously welded. Weld joints and seams shall be wire brushed or buffed after final NDE and inspections as required to remove heat discoloration, oxidation, all burrs, and sharp edges. For stainless-steel material, the wire brush shall not be made of carbon-steel elements or a stainless-steel brush previously used on carbon steel.Structural WeldingAll structural welding shall meet the requirements of the following codes, as applicable, and all welds shall be visually inspected per statically loaded AWS criteria as follows:AWS? D1.1/D1.1M, Structural Welding Code – Steel, for structural carbon steelAWS??D1.3/D1.3M, Structural Welding Code – Sheet Steel, for sheet steel.AWS??D1.6/D1.6M, Structural Welding Code – Stainless Steel, for structural stainless steel and stainless steel to carbon steel.Weld MaterialsAll welding filler materials and fluxes used in the fabrication and repair of components shall be in accordance with the requirements of ASME BPVC, Section VIII, Division 1 or AWS?B2.1/B2.1MBMG. Legible CMTRs for all weld materials shall be submitted to the BUYER.Welding Procedure Specifications and QualificationsAll welding procedure specifications shall meet the requirements set forth in the applicable fabrication code as follows:The SELLER shall prepare written Welding Procedures. Welding procedures and performance qualifications shall be in accordance with ASME BPVC, Section VIII, Division 1 for all pressure boundary welds. Welding procedures and performance qualifications for structural steel welds shall be qualified in accordance with AWS D1.3 or D1.6 as applicable.The SELLER shall submit copies of all Welding Procedures, Procedure Qualification Records, and Welder Performance Qualification Records to be employed in the performance of this specification. The SELLER shall provide records to indicate that the Welder and/or Operator are qualified.The SELLER’s Quality Control Procedures shall include the requirement that Welders shall have in their possession no more than one type of filler metal at any one time; an exception is that Welders may have both bare wire and covered electrodes that deposit weld metal of the same Anumber class. The SELLER’s filler metal control procedure shall be submitted and approved.Welder Performance Qualification Records shall be submitted for all personnel performing welding, including tacking. Welders shall be qualified in accordance with ASME BPVC, Section VIII, Division 1.Weld Inspection RequirementsPersonnel performing visual weld inspections shall be a Certified-Welding Inspector (Minimum Level II) in accordance with the requirements specified in AWS?QC1. Documentation shall be submitted prior to the start of fabrication inspection per QAAVS B25.All areas from which temporary attachments have been removed shall be examined by the liquid penetrant or magnetic particle method, as applicable, after the surface has been restored.NDE processes required within this purchase order shall meet the requirements in Section 5.2.2Data packages and changes, thereto, shall be submitted to the BUYER as identified in the purchase order.The SELLER will maintain and submit weld history data for each weld.Additional Welding RequirementsAll tools used for stainless steel shall be kept separate from any tools previously used or currently being used for cleaning carbon-steel components. Tools for stainless steel shall be used only on stainless-steel surfaces. Similarly, appropriate controls shall be put into place to ensure ferrous and nonferrous material is properly segregated and that tools specifically used on nonferrous material be designated.Preparation for welds shall be accomplished by nonthermal methods, where practical.Thermally cut surfaces shall be ground to provide slagfree metal and fitup equivalent to machining.Where welding destroys protective plating on hardware items, the weld and surrounding area shall be thoroughly cleaned, primed, and painted, as appropriate.Where free-iron contamination (shows up as rust streaks on stainless steel) is observed, the surface area shall be cleaned prior to welding.WorkmanshipAcceptable workmanship shall be based on satisfactory completion of the inspections in Section? REF _Ref532806355 \n \h 5.0 and those required by the Quality Assurance (QA) Clauses.CleanlinessProtect stainless steel against carbon steel contamination from tooling and fixtures during fabrication. Exercise control during stages of fabrication to minimize exposure of stainless steel to contaminants, in particular to any chloride that might cause stresscorrosion cracking. Avoid chloridebearing compounds; however, if used, completely remove by thorough cleaning. Do not use compounds, liquids, or markers on stainless-steel surfaces that contain more than 50?ppm of chloride content by weight.Material of Construction CompatibilitySelection of fasteners and interfacing components (bolts, nuts, washers, unions, gaskets, etc.) shall be based on required performance (e.g., strength, fluid compatibility) and avoidance of potential for galvanic corrosion (e.g., connection/contact of dissimilar metals).Surface FinishesExercise care to prevent scratching, abrading, nicking, and denting during receiving, storage, fabrication, and handling.CleaningAfter fabrication is completed, and before testing and inspection, clean, descale, and degrease the tanks and associated components. Clean exterior surfaces, but take particular care to clean the inside of the tanks thoroughly. Methods may include cleaning by hot water spray, etc. If a detergent is required, use a detergent that has less than 50ppm chloride content for stainless-steel tanks.Use fresh water with less than 50ppm chloride content for wash and final rinse. After final rinse, dry inside surfaces using heat, lintfree cloth, or other means to ensure cleanliness. If deionized water is used for the final rinse, the tanks may be allowed to evaporate to dryness. If heat is used for drying stainless steel, do not allow the metal temperature to rise above 250?°F and use deionized water for the final rinse before drying.Ensure that the cleanliness of the tanks meets the approval of the BUYER at the time of the final inspection.After cleaning, provide temporary plugs, covers, shields, or other devices required to close all external openings on the tanks.PRODUCT INSPECTION AND TESTING REQUIREMENTS (QUALITY?ASSURANCE REQUIREMENTS)Qualification Testing RequirementsGeneralThe Seller shall qualify Inspection Personnel performing acceptance inspections. In?addition, the Seller shall document all qualifications.The results of inspections shall be documented and submitted to the BUYER for review and approval before acceptance. The BUYER’s approval indicates concurrence that results verify compliance with the associated design requirements.NDE Personnel shall be qualified to ASNT CP-189 or ASNT?SNTTC1A.Shop Acceptance TestsPerform inspection and testing of the completed tanks in accordance with the requirements of this specification and ASME BPVC, Section VIII, Division 1.The term “BUYER’s Inspector” refers to the BUYER’s Inspector. Provide the test location, equipment, instrumentation of certified accuracy, and any supplementary temporary connections and auxiliary parts necessary to fully execute the tests.Provide the test location, equipment, instrumentation of certified accuracy, and any supplementary temporary connections and auxiliary parts necessary to fully execute the tests. Provide test personnel qualified to conduct, record, and verify test results.Provide the BUYER with a minimum ten (10) working day advance written notice of shop acceptance tests. (See Fabrication, Inspection, and Test Plan Section 5.2.1)Submit the test results as part of the Quality Assurance Document Package.Pressure TestPerform hydrostatic test in accordance with ASME BPVC, Section VIII, Division 1 for tanks at atmospheric pressure. Ensure that weld surfaces are free of coating materials during test. Perform hydrostatic tests in accordance with ASME B31.3 for piping. Ensure weld surfaces are free of coating materials during tests. Water for shoptesting austenitic stainless-steel tanks shall be potable quality with a chloride-ion content of less than 50?ppm. After testing, drain water and dry, standing water is not allowed to evaporate to dryness, unless deionized water is used as a final rinse.Provide test reports in accordance with QA-AVS B52.Factory Acceptance TestingBefore performing the Factory Acceptance Test (FAT), a FAT procedure shall be submitted to the BUYER for review.The results of the FAT shall be documented and submitted to the BUYER.The FAT test shall include as a minimum the operation, demonstration, and testing of the following:Operation/demonstration of mixing, recirculation, and/or agitation equipment.Operation/demonstration of all instrumentation.Megger testing (if required) of all conductors shall be conducted between each phase and the ground individually. Record measured resistances. Resistance measurements shall be corrected for temperature and documented in the test results. The SELLER shall provide qualified Inspectors per ASNT SNT-TC-1A for all NDE inspections and for functional tests in this section. Production Inspection RequirementsFabrication, Inspection, and Test PlanThe SELLER shall develop a Fabrication, Inspection, and Test (FIT) Plan that sequences the operations and denotes the SELLER’s source inspection and witness notification points. The SELLER shall submit the FIT Plan for BUYER approval prior to the start of fabrication. The FIT shall be in accordance with QAAVS?B13.The BUYER reserves the right to witness all tests and inspections listed below and shall be given a minimum of ten working days’ written notice prior to each test date. It should be noted that third party Inspectors may be required to be present during testing as the representative for the BUYER or an independent representative for the BUYER and/or their representative for specific points in the fabrication/testing process:Fabrication, Inspection, and Test Plan (Section 5.2.1)Weld Inspection and Examination (Section 5.2.3 and 5.2.4)Shop Acceptance Test (Section 5.1.2)Pressure Test (Section 5.1.3)Factory Acceptance Testing (Section 5.1.4)Inspection procedures and qualificationsNDE processes required within this purchase order shall require review and approval of the SELLER as follows:Personnel certification procedure;NDE operational procedures; andPersonnel certifications, including current and valid visual acuity examinations (less than 1?year old). NOTE: The examination must be performed annually.Per QAAVS?B31, the personnel certification procedure and certification package for NDE personnel shall accurately reflect the requirements embodied in the applicable issue of ASNT?SNTTC1A, plus any other requirements of the SELLER.The NDE operational procedures shall contain all applicable requirements of the documentation referenced in the purchase order including:Reference standard or image quality indicator information;Chemical purity requirements per QAAVS B46;Calibration requirements per QAAVS B61; andReport forms, as a minimum per QAAVS B52.Data packages and changes, thereto, shall be submitted to the BUYER as identified in the purchase order.Personnel performing NDE (RT, PT, UT, or MT) shall be qualified and certified to ASNT CP-189 or ASNT?SNTTC1A (Level?II or III), current edition unless otherwise specified. The recommended practices in ASNT?SNTTC1A are mandatory requirements for this purchase order per QAAVS?B31.The SELLER will maintain and submit weld history data for each weld per QAAVS?B13.Visual InspectionsUnless specified otherwise, the minimum visual inspection required is 100% of all structural welds in accordance with AWS D1.3, or D1.6.All recirculation, mixing, and/or agitation pressure containing piping welds shall be visually inspected in accordance with B31.3 Normal Fluid Service.RadiographyAll brine storage tank pressure containing welds shall have 100% radiography in accordance with ASME BPVC, Section VIII, Division 1.All recirculation, mixing, and/or agitation pressure containing piping welds shall have 100% radiography in accordance in accordance with B31.3 Normal Fluid Service.Hold PointsSELLER shall provide required notifications of verification points and shall not proceed past the required hold points without written authorization from the BUYER. The minimum hold/witness points are listed below and shall be incorporated into the Fabrication, Inspection, and Test Plan:Prior to first production weld for each weld procedure:HoldPrior to NDE InspectionWitnessPrior to Hydrostatic/Leak testWitnessPrior to Final InspectionHoldPrior to ShippingHoldNOTE: BUYER’s “hold/witness” points may be waived by correspondence (e.g. e-mail) from the BUYER, which will be included in the work control documents.DELIVERY, STORAGE, AND HANDLINGThis section provides the generic requirements related to delivery, storage, and handling for allequipment associated with TOC and related projects. In addition to the requirements herein referto the appropriate equipment specific sub sections for additional requirements.Work shall be performed in accordance with the referenced codes, standards, and documents forthis Specification..DELIVERY, STORAGE & LOAD HANDLINGGeneralAll hoisting, rigging, transport and load handling activities shall comply with DOERL-92-36, RPP-8360 “Lifting Attachment and Lifted Item Evaluation”, and TFCENG-STD-06.SELLER shall receive, clean, package, store, preserve, handle, and ship Structures, Systems and Components to protect against physical damage, or any effect that would affect quality or cause deterioration at all times while items are located on the SELLER’s premises.SELLER shall follow manufacturer’s recommendation for storage and handling of all purchased items.SELLER shall shall submit a Packaging, Storage, Shipping, and Load Handling (PSSH) Plan in accordance with QA Clause B85. The PSSH plan shall include all plans, procedures, and drawings that address how items will be packaged, stored, shipped, and handled in accordance with the requirements described throughout this specification with the exception of topics covered by the Lift and Rigging Plan described in Section 6.1.4.1.TransportabilityAll components, unless specified otherwise in this section or related sections, shall be compatible with being transported by public roadway to contract specified destination unless otherwise specified or allowed by equipment specific design documents. Items shall either be self-supporting or provided with packing and dunnage so as to ensure their stability and protection from damage. Refer to equipment-specific specifications and procurement documents for limits on weight, size, disassembly, protective capability and long-term storage.Equipment shall be packaged, supported, and secured to the transport vehicle in a manner so it can withstand a 0.8g (forward) hard-braking stop, and rearward or lateral acceleration of 0.5g, as well as, shock and vibration loads associated with transportation. Calculations that demonstrate compliance with these requirements shall be included in the PSSH plan described in Section 6.1.1. Note that this is the minimum requirement; if a supplier has more stringent requirements, the supplier’s requirements shall be applied. Where equipment is braced internally, it shall be marked to identify removal.PackagingA detailed packing list shall be provided with each shipment. The packing list shall identifycontent (every item in the shipment including quantities), package type (the container it ispackaged in or on), packaging materials (including temporary supports and preservatives, ifused), dimensions/weight for each package in the shipment, installation drawing numberreferences, total number of packages in the shipment, and total weight for the shipment.Package TypePackage type shall provide the level of protection as required, based on the equipment type.Containers, crates and skids shall be used as the foundation methodology for packaging.Package MaterialsPressure sensitive tape should be used in lieu of adhesives in contact with bare metal.Package Materials Contacting Stainless Steel and Nickel AlloyTapes, adhesives, desiccants, or any other packaging materials contacting austenitic stainlesssteel and nickel alloy surfaces:Shall not be compounded from, or treated with chemical compounds containing elements in such quantities that harmful concentrations are leachable, or that they could be released by breakdown under expected environmental conditions and could contribute to intergranular cracking or stress corrosion cracking, such as thosec ontaining fluorides, chlorides, sulfur, lead, zinc, copper, and mercury.Paperbacked (masking) tape shall not be used.Upon removal of tape, all residual adhesive shall be removed by wiping with a reagent grade nonhalogenated solvent (acetone, alcohol, or equal).Starch, silicone, and epoxy tape material may be used for tape adhesive provided that the requirements of this section are met.Package Materials Contacting OtherTapes, adhesives, desiccants, or any other packaging materials contacting other surfaces andcontainers:Tapes and adhesives used to seal non austenitic materials, nickel alloys, or containers are not subject to restrictions of austenitic stainless steel and nickel alloy surfaces.Tape shall be impervious to water and not subject to cracking or drying out if exposed to sunlight, heat, or cold.Other Packaging and Shipping ProtectionsSeal Openings: All equipment openings shall be capped, plugged or sealed. Clear plastic closures shall not be used. Prevent entry of foreign material and humidity and protected against corrosion and physical damage.Protection from Corrosion: Items subject to deleterious corrosion shall be protected (e.g. usingeither contact-preservatives, inert gas blankets, or vapor-proof barriers with desiccants to absorb any moisture inside the container). The SELLER shall submit for BUYER approval a description of the preservation methodology specific to each package level type. Uncoated carbon steel (where applicable) and all stainless steel materials shall be wrapped to prevent exposure during shipment and storage.Apply a rust preventative coating to machined carbon steel surfaces prior to shipment.Shipment Load Protection:SELLER shall be responsible for loading, bracing, and anchoring equipment to prevent any damage during shipment. Anchoring, bracing, and loading diagram(s) shall be submitted to BUYER in the PSSH plan and approved by the SELLER carrier/shipper. If such supports are to be removed before placing item in service, it is to be noted on SELLER drawings.Cushioning, blocking, bracing and anchoring shall be used where protection from shock and vibration is required.Protect equipment and finishes against impact, abrasion, and other damage.Packaging InspectionPrior to shipment from the SELLER’s facilities, BUYER shall be provided opportunities (as appropriate) to inspect shipments to assure that products comply with all requirements, quantities are correct, products are undamaged, and packages are ready for shipment.Packaging InspectionPrior to shipment from the SELLER’s facilities, BUYER shall be provided opportunities (as appropriate) to inspect shipments to assure that products comply with all requirements, quantities are correct, products are undamaged, and packages are ready for shipment.HandlingLifting and Rigging PlanSELLER shall provide a Lift and Rigging plan that describes the lift points, special lifting devices and hardware, lifting and handling instructions, lift diagrams that include estimated weight and center of gravity, and lift test plans in accordance with DOE-RL-92-36, RPP-8360, and TFC-ENG-STD-06. Lift diagrams shall be dimensioned drawings for each equipment/assembly indicating all dimensions and tools necessary for support, lift, and shipment of the lifted item. Tolerances for such dimensions shall be noted, either on the specified dimension or in general notes.Lifting Attachments and EquipmentThe SELLER may use these specifications for design, or provide lifting instructions proprietary to the manufacturer. Lift instructions shall provide the same information required above including lifting attachment locations and how to lift the item. Calculations on the lifting attachments may be required for custom made equipment and must be provided for Special or Critical lifts.The objective of the process is to ensure that all items to be lifted and their lifting attachments, can withstand the loads imposed by lifting operations with acceptable margins of safety. Equipment designs, tests, and reports shall be submitted for evaluation and approval during design review. Design shall include load conditions for lifting the load and rotation of the load from horizontal to vertical if appropriate. The suspended assembly shall hang true vertical end to end. This process shall also ensure the design includes the ability to safely remove the item from a facility at the end of its design life. Long length equipment must provide an area free of sharp edges or corners at the lower end of the equipment such that a choke hitch using a synthetic sling may be used during equipment removal. The lifting attachment(s) on the equipment (lifting eyes, lugs, ears, etc.) and the lifted item shall be designed in accordance with the following procedure except ASME BTH-1 Design of Below the-Hook Lifting Devices (BTH-1) should be used to verify lifting lugs hole diameter compared to the shackle pin diameter (the D to d ratio). The analysis shall follow TFC-ENG-DESIGN-C-10 Attachment A – Calculation Format and Preparation Instructions and the analysis method described in RPP-8360.Lift points shall be clearly identified on the equipment.All custom designed Hanford Site lifting devices shall be rated for cold weather temperature of 10 degrees Fahrenheit or below.Any item containing or comprised of austenitic stainless steel or nickel based alloys shall be stored, handled, and constructed in a manner that prevents direct contact with materials such as carbon steel, lead, zinc, copper, mercury, halogenated material, low melting elements, and any chloride containing material.Critical WeldsAll critical welds shall be identified in the SELLER’s design media. For the purpose of this requirement, critical welds are defined as those welds whose failure could result in loss or load or loss of load control.All critical welds on lifting devices should be full-penetration welds, if possible.Critical welds shall be verified and inspected per applicable codes and this Specification..Shipping and Handling DrawingPrior to shipment, the SELLER shall provide detailed handling instructions including a dimensioned drawing for each equipment/assembly indicating all dimensions and tools necessary for support, lift and shipment of the completed equipment. Tolerances for such dimensions shall be noted, either on the specific dimension or in general notes. Dimensions locating centers of gravity shall be generated by SELLER calculation and shall be noted on the drawing, and the calculations shall be submitted with the drawings. These drawings shall be provided with thePSSH plan described in Section 6.1.1.Unpacking and Assembly DrawingSELLER shall provide a dimensioned drawing that includes receiving instructions, offloading and unpacking instructions, and on-site assembly instructions (if equipment is shipped in a disassembled state). These drawings shall be provided with the PSSH plan described in Section6.1.1.Special Lifting DevicesAny special handling devices needed for assembly or installation shall be identified and supplied with the equipment. SELLER provided structural and mechanical lifting devices, as defined by ASME B30.20 shall conform to the requirements of ASME B30.20 and ASME BTH-1. Below the Hook devices shall be load tested in accordance with ASME B30.20. All custom designed lifting devices for use on the Hanford Site shall be rated in accordance with environmental conditions of Section 3.3.2.1.Below-the-Hook Device MarkingBTH lifting devices shall be provided with markings in accordance with ASME B30.20 and tags in accordance with DOE-RL-92-36. In addition to the requirements of ASME B30.20 and DOERL-92-36, the markings should include Hanford Drawing number (if applicable), shall include special lifting instructions, and shall clearly indicate lifting attachments. The marking shall be in the form of a name tag, name plate, or other permanent marker.OffloadingOffloading at BUYER designated delivery site will be performed by the BUYER or a BUYER designated representative.StorageThis section contains requirements that shall be fulfilled by the organization responsible for performing the storage items. These storage requirements only apply after item fabrication has been completed. Levels and methods of storage are defined to minimize the possibility of damage or lowering of quality due to corrosion, contamination, deterioration, or physical damage from the time an item is stored upon receipt until the item is removed from storage and placed in its final location, is consumed, or is removed for its intended use. Special storage instructions from the manufacturer, if specified, shall be addressed as part of the storage process for both short and long term storage of items. Storage AreasPeriodic inspections shall be performed to ensure that storage areas are being maintained in accordance with applicable requirements.Access to Storage Areas: Access to storage areas for Levels A, B, and C items shall be controlled and limited only to personnel designated by the responsible organization. Access to storage areas involving Level D items shall be controlled as designated by the responsible organization.Cleanness and Housekeeping Practices: Cleanness and good housekeeping practices shall be enforced at all times in the storage areas. The storage areas shall be cleaned as required to avoid the accumulation of trash, discarded packaging materials, and other detrimental soil. Fire Protection: Fire Protection commensurate with the type of storage area and the material involved shall be provided and maintained. Storage of Food and Associated Items: The use or storage of food, drinks, and salt tablet dispensers in controlled storage areas shall not be permitted.Measures to Prevent Entrance of Animals: Measures shall be taken to prevent the entrance of rodents and other animals into indoor storage areas or equipment to minimize possible contamination and mechanical damage to stored material.Storage MethodsReady Access to Stored Items: All items shall be stored in such a manner as to permit ready access for inspection or maintenance without excessive handling to minimize risk of damage.Arrangement of Items: Items stacked for storage shall be arranged so that racks, cribbing, or crates are bearing the full weight without distortion of the item. Storage of Hazardous Material: Hazardous chemicals, paints, solvents, and other materials of a like nature shall be stored in well ventilated areas and not within the same room as the equipment.Identification: Items and their containers shall be plainly marked so that they are easily identified without excessive handling or unnecessary opening of crates and boxes.Coverings: Weatherproof coverings, when used for outdoor storage, shall be the flame resistant type of sheeting or tarpaulins. They shall be placed so as to provide drainage and to ensure air circulation to minimize condensation. They shall be tied down to prevent moisture from entering and to protect the coverings from wind damage.Outdoor Storage: Items stored outdoors shall be positioned or covered to avoid trapping moisture in pockets or internally. For example, valves shall be positioned such that water does not collect under the bonnet but can drain from the valve packing area.Control of Items in StorageInspectionsInspections shall be performed and documented on a periodic basis to ensure that the integrity ofthe item and its container, as provided for under Section 6.1.3 and Section 6.1.5, is beingmaintained. Deficiencies noted shall be corrected and documented. The characteristics verifiedduring this inspection shall include such items as:Identification and markingProtective covers and sealsCoatings and preservativesDesiccants and inert gas blanketsPhysical damageCleanness.Care of ItemsRequirements for proper maintenance during storage shall be documented in storage recordsdescribed by SELLER’s PSSH plan. Care of items in storage (includes storage in place) shallbe exercised in accordance with the following:Items in storage shall have all covers, caps, plugs, or other closures intact. Methods used to seal openings shall be in accordance with Section 6.1.3.5. Covers removed for internal access shall be immediately replaced and resealed after completion of the purpose for removal.Temporary preservatives shall be left intact during storage. Should reapplication of preservatives be required at the site, only those previously approved shall be used.Items pressurized with inert gas shall be monitored at such a frequency as to ensure that the gas pressure is maintained within specified limits during storage. Desiccant humidity indicators shall also be monitored, and desiccants shall be changed or reprocessed when specified.Space heaters enclosed in electrical items shall be energized.Rotating electrical equipment shall be given insulation resistance tests on a scheduled basis.The shafts of rotating equipment shall be rotated on a periodic basis. The degree of turn shall be established so that the parts receive a coating of lubrication, where applicable, and so that the shaft does not come to rest in a previous position (90 deg.and 450 deg. rotations are examples).Other maintenance requirements specified by the manufacturer's instructions for the item shall be performed.Post-Fire Evaluation In the event that a fire should occur in the storage area at any time, each item known to havebeen heated to an ambient temperature of over 150°F (65°C) or subjected to smokecontamination shall be withheld from installation or use until it has been thoroughly examined,and the item has been verified to be in conformance with specified requirements.Removal of Items from StorageOnly items that have been inspected and are considered acceptable for installation or use inaccordance with the associated receiving inspection procedure (if applicable) shall be removedfrom storage for installation or use.Storage RecordsWritten records shall be prepared that include such pertinent information as storage location,results of inspections, results of in-storage maintenance to include the results of configurationcontrol activities for the item while in storage, protection requirements, changes in itemownership including (if applicable) certificates of conformance, and personnel authorized accessto the storage location(s).Environmental Storage RequirementsSELLER shall specify any additional environmental storage requirements (e.g. temperaturerange, humidity, range, protection from precipitation) and required maintenance during storage(e.g. pump/rotor rotation schedule)DeliveryAll equipment shall be shipped in accordance with the applicable DOT standards and in an orientation ready for lifting. Additional handling of the equipment to orientate it for lifting is not acceptable.Transport and tie-down instructions and diagrams shall be provided.Calculations will be required for the design of all transport tie-downs attachment points. Lift points shall not be used for transport tie-downs.Transport tie-down points shall be identified on the equipment.The delivery address for all equipment will be designated by the BUYER and defined in the procurement contract associated with the respective equipment.Marking for ShipmentPrior to shipment, all packages shall be clearly and suitably tagged to identify, at a minimum:BUYER’s name with destination addressSELLER’s name with return addressPackage numbers showing the Purchase Order (PO) Number followed by the package number and the total number of packagesPackage contents descriptionWeight of packageCenter of gravityParts list (for each package)Handling instructions (e.g., Fragile, Center of Gravity, Keep Dry, This Side Up, Sling Here, Do Not Freeze) and stacking limitations, as appropriateSpecial instructions (Desiccant Inside, Special Inspection, Storage, Unpacking Restrictions, etc.) as appropriateTemporary marking of items for shipment not within a container, such as pipe, tanks, pumps, and motors, shall exhibit the above specified information in a location that is in plain unobstructed view. Marking may be applied directly to bare metal surfaces, provided it has been established that the marking material is not deleterious to the item. Stamping and etching are not allowed as temporary marking methods.If any hazardous chemicals are included with shipments, the transport vehicleFor shipment packaging list requirements, refer to Section 6.1.3.Package markings shall appear on a minimum of two sides of a container, preferably on one side and one end.Package markings shall be applied with waterproof ink or paint in characters that are legible. When information relative to handling and special instructions is required, such information shall be preceded by the word CAUTION in letters that are at least 1/2 in. (12.7 mm), as permitted by package size. Alternatively if tags or labels are used, they shall be affixed to the container using a waterproof adhesive, tacks where practical, or a corrosion-resistant wire.Temporary supports shall be marked (tagged or painted).Clearly mark partial deliveries of component parts of equipment to identify equipment and contents to permit easy accumulation of parts and to facilitate assembly.PROJECT MANAGEMENTWork PlanA work plan covering design, fabrication, testing, and submittal schedule dates shall be provided. Any changes to the work plan will require written concurrence of the BUYER.ScheduleTo be provided by the SELLER upon award.SubmittalsThe SELLER’s submittals shall be per the following subsections. All electronic submittals shall be in a suitable format per TFCBSMIRM_DCC02 and in compliance with TFCBSMIRM_DCC07.Electronic Submittal RequirementsRequired submittals are identified and listed on the procurement TOC Master Submittal Register (MSR) (Site Form A6005317), in addition to the submittals lists below. The MSR identifies the minimum submittals required by this specification and identifies when the submittals are required to be submitted in the procurement process. The MSR included with the purchase order will constitute the governing MSR.Submittals shall be provided using the TOC Incoming Letter of Transmittal (Site Form A6005315.2). All transmittal subject headings shall contain, at a minimum, the subcontract number, submittal number identified by the MSR, and submittal description.All deliverable documentation shall be complete, accurate, legible, and reproducible. Before delivery, design media and documents shall be reviewed by qualified SELLER’s personnel for technical adequacy and appropriate content in accordance with the SELLER’s Quality Assurance procedures. The SELLER shall attest, in writing, to the accuracy and completeness of the information contained in the final deliverables.The SELLER will not place any proprietary legend or stamp on any data produced as a result of this specification. All shop drawings or other data are the property of DOE. Asbuilt drawings shall be required at the completion of construction.Deliverables shall be subject to approval by the BUYER. Deliverables shall comply with this specification and technical basis documents and other requirements identified herein.List of SubmittalsThis list of submittals along with relevant dates shall be kept as part of the MSR.Submittals Required with ProposalItemTitleDescription1Conceptual Drawing and Documentation ListList of drawings and documentation that will be provided in completion of the contract.2N/AQuality Assurance ProgramN/ACopy of the SELLER’s Quality Assurance Program.3Identification of SubcontractorsList of all proposed subcontractors. The SELLER shall flow down all requirements to subcontractors, as applicable.4Preliminary ScheduleSummary of activities required to design, fabricate, test, and ship.5Conceptual Data SheetsThe SELLER shall submit product data sheets for all components, equipment, and accessories.6American Society of Mechanical Engineers (ASME) Certificate of AuthorizationThe SELLER shall submit the current certificatein accordance with ASME BPVC.VIII.1.Submittals Required after Receipt of OrderItemTitleDescription7Configuration DrawingDetailed drawing detailing all major components and orientation.8Data SheetsThe SELLER shall submit product data sheets for all components, equipment, and accessories.9Work PlanList of all proposed subcontractors. The SELLER shall flow down all requirements to subcontractors, as applicable.10Detailed ScheduleSummary of activities required to design, fabricate, test, and ship.Submittals Required Prior to Fabrication (Design Phase)The SELLER shall not begin fabrication until all submittals required prior to fabrication have been performed and the submittals are complete and approved by the BUYER. ItemTitleDescription11Piping and Instrument Diagrams (P&IDs)Piping and Instrumentation Diagrams depicting interconnection of process equipment and instrumentation using standard set of symbols. P&ID shall show all required piping, equipment, valves, instrumentation, controls (if required), sizes of items, flow directions, vents, drains, and identifications with names and EINs. 12Fabrication DrawingsAll fabrication and assembly drawings, including manufacturer standard details, associated with the fabrication, assembly drawings shall be submitted. Drawings shall include dimensions, required clearances, part number callouts, associated American Society for Testing and Materials (ASTM?) standards, associated ASME standards, connection locations and sizes, welding, shipping weight, and operating weight. 13Leak/Hydrostatic Test ProceduresTest procedures shall be submitted for review and approval per QAAVS?B52.14Preliminary Fabrication, Inspection and Test PlanPreliminary Fabrication, Inspection (including weld maps), and Test plan shall be submitted for review and approval.15Welding and Welding Procedure QualificationsAll Welding and Welding Procedure Qualification Records, shall be submitted by the SELLER in accordance with Section?4.1 per QAAVS?B31.16Nondestructive examination (NDE) ProceduresAll NDE Procedures shall be submitted by the SELLER in accordance with Section?4.1 per QAAVS?B31.17Authorization to Start FabricationThe SELLER shall not start fabrication until written authorization has been received from the BUYER.18Packaging, Storage, Shipping, and Handling (PSSH) PlanThe SELLER shall submit a PSSH Plan for approval by the BUYER. The PSSH Plan shall be in accordance with QA-AVS B85 and include all plans, procedures, and drawings that address how items will be packaged, stored, shipped, and handled.19Lifting and Rigging PlanThe SELLER shall provide a Lift and Rigging Plan to cover the lifting and handling instructions for each lifted item. The plan shall describe the lift points, location of center of gravity, special lifting devices and/or hardware needs, and lift diagram. 20Site Assembly InstructionThe SELLER shall provide site assembly instructions, including unpacking and installation drawings.21CalculationsPreliminary calculations shall be provided for review. Calculations may include, but are not limited to, structural and lifting calculations, tank design calculations, and anchorage force calculations.22Preliminary Design PackagePreliminary design package includes Preliminary calculations for tank, internals, external attachments, and supports including seismic calculations and fatigue analysis if required and anchorage loads. Preliminary Drawings for the tanks with dimensions and tolerances, weld callouts, and material callouts.Includes descriptions, locations, and details for all SSCs associated with storage tanks (mixers, motors, agitators, instruments, heat trace, pumps, electrical panels, etc.).Submittals Required for Contract CompletionThe SELLER shall not ship until all tests and inspections have been performed and the documentation data package is complete and approved by the BUYER. The SELLER shall notify the BUYER three weeks before the intended shipping date. The SELLER shall allow the BUYER one week after receiving the package and before shipment to review the data package.ItemTitleDescription23As-Built Drawings and SpecificationsThe SELLER shall deliver to the BUYER one (1) hard copy and one (1) electronic file in portable document format of the final fabrication level asbuilt drawings and specifications accurately depicting the product delivered. Drawings shall include dimensioned layouts, dimensioned subassemblies, dimensioned component details, material and fastener size, descriptions, weld symbols, and notes. The designer’s name, responsible engineer’s name, bills of lading, and drawing number shall appear on the index (cover sheet).24Final CalculationsReviewed and approved calculations shall be legible and prepared on 81/2 by 11in. sheets with all pages numbered and bound in a hard copy binder and individual electronic files in portable document format of the final calculations.25Inspection and Testing ReportsInspections, examinations, testing, and NDE activities shall be documented and the documentation delivered before shipment of the product. Weld maps shall depict location and identification of each weld performed during fabrication. Inspection reports shall provide actual inspection results, specifying what was inspected, who inspected it, the characteristics that were inspected, and the acceptance criteria. All test requirements called out in specification(s) and fabricator drawings shall be documented in the testing reports. Including any required data reports/sheet per ASME BPVC, Section VIII, Division 1.26Final Fabrication, Inspection, and Test PlanFinal Fabrication, Inspection (including weld maps), and Test Plan documentation.27Certified Material Test Reports (CMTRs)CMTRs shall be provided for the production materials per QAAVS?B49.28Welding InspectionsWelding documentation (i.e. weld inspections, weld maps) shall meet QAAVS?B28 and be submitted in accordance with the requirements of Section?4.1, prior to shipping.29NDE InspectionsNDE documentation shall meet QA-AVS B28 and be submitted in accordance with the requirements of Section 5.2 prior to shipping.30Spare Parts ListThe SELLER shall provide a list of all spare parts, identifying each specific subassembly to which it applies.31Certificate of ConformanceThe Certificate of Conformance shall identify the contract requirements met per QAAVS?B79.32Warranty InformationThe SELLER shall provide their warranty offer.33Maintenance ManualsManuals shall be provided including recommended lubrication details for bearings, etc. including grease type, volume, and lubrication frequency, as well as, bolt torque requirements, and hoisting and rigging sequences. Provide manuals for all SSCs associated with storage tanks (mixers, motors, agitators, instruments, heat trace, pumps, electrical panels, etc.). 34Operation ManualsManuals shall be provided including recommended commissioning, startup, shutdown, and normal and offnormal operational procedures. Calibration and troubleshooting sections should also be included. Provide manuals for all SSCs associated with storage tanks (mixers, motors, agitators, instruments, heat trace, pumps, electrical panels, etc.).35Final Design PackageFinal design package includes Final calculations for tank, internals, external attachments, and supports, code calculations, seismic calculations and fatigue analysis if required, Fluid induced loads, anchorage loads, nozzle loads (if required), and design of attachments. Design details of each weld joint configuration, and weld maps. Final Drawings for the tanks with dimensions and tolerances, weld callouts, and material callouts. 36Final QA data packageFinal QA data package shall include the completed Fabrication, Inspection, and Test Plan, Inspection and test reports, weld inspections, material CMTRs, Weld filler material CMTRs, Certificates of Conformance. 37ASME Certificate of Compliance Provide ASME Certificate of Compliance in accordance with ASME BPVC.VIII.1.38Bill of LadingProperly and clearly describe the shipment on the bill of lading.Request for InformationNotify the BUYER, as soon as possible, in the event of conflicts among the specifications, drawings, and/or the manufacturer’s recommended processes or instructions. Requested changes shall be submitted per the RFI process described in TFCBSMIRMDC-C07.Approval of SubmittalsAll Submittals transmitted shall include the designation in the Master Submittal Register (MSR) per TOC Vendor Processes stated in TFCBSMIRM_DCC07. Submittals are divided into two types: (1)?those requiring “approval” (e.g., approval data or prepurchase evaluation data); and (2)?those “not requiring approval” (e.g., vendor information data). Submittals “not requiring approval” will be reviewed to verify completeness and adequacy for their intended purposes. A submittal requiring approval that is not approved is identified as: (1)?“Not Approved Revise and Resubmit” the submittal is considered technically deficient, or incomplete, and therefore unacceptable (resubmittal is required, hence the fabrication, procurement, or performance of procedures shall not proceed); or (2)?“Approved with Exception” the fabrication, procurement, and performance may proceed (resubmittal is required to verify incorporation of the exception). Submittals “not requiring approval,” that are determined to be incomplete or inadequate will be marked “Resubmit.” An explanation of the deficiencies will be included for corrective action by the SELLER.Approval by the BUYER does not relieve the SELLER of responsibility for accuracy or adequacy of design under this specification.If any revision has been made to previously submitted items, the SELLER shall resubmit updated versions of said items for approval, in addition to the items listed above.Certified data shall be defined to mean that the design adequacy of a given item (document, drawing, calculation, etc.) be verified by persons other than those who prepared the item. Each deliverable (drawing, calculation, etc.) shall have at least an originator's/preparer's signature and a checkedby or approvedby signature.Drawings, Calculations, and Supporting DataSubmit design drawings, calculations, and supporting data prior to beginning tank fabrication. Design drawings shall indicate the location of anchor points and reaction forces at the anchor points. The BUYER will review and comment on design calculations and drawings. The BUYER review does not release the SELLER from responsibility to design and fabricate the tanks in accordance with applicable regulations, and this specification. Include assumptions and input/output data with the calculations. If computer calculations are performed, include the name of the calculation program and the version number.After completion of the tank fabrication, inspection, and testing, submit asbuilt drawings, calculations, and supporting data.Calculation Requirements:The SELLER shall submit the documentation for engineering analysis/design, data analysis/reduction, and engineering/environmental modeling using commercial-off-the-shelf software in accordance with QA-AVS B15.The SELLER shall submit the documentation for spreadsheets used to perform mathematical calculations in the performance of work using commercial-off-the-shelf software in accordance with QA AVS B18.Piping Calculations:For each system (agitation/mixing/recirculation, spray rings, etc.) prepare calculations will meet hydraulic requirements, provide basis for line sizing, prepare pressure and stress analysis in accordance with B31.3\Tank Calculations: Code Calculations shall include relevant design calculation from ASME BPVC, Section VIII, Division 1, formulas and source paragraphs, values used in formulas, the calculated results, and comparison with accepted values. Structural CalculationsAnalysis and design of each structureDesign of equipment and tank supports, including internal tank supportsAnchorage designSeismic calculations Submit lifting, rigging, and tailing lug calculationsQuality Assurance/Quality ControlQuality Assurance Manual.Submit an uncontrolled copy of the SELLER’s QA manual for the BUYER’s approval in accordance with QA-AVS B16. The BUYER may waive this requirement if the SELLER’s QA Program has been previously reviewed and approved.Quality Assurance Clauses.The SELLER shall comply with the Procurement QA Clauses as stated in the procurement documents.Fabrication Procedures. If applicable, submit a copy of:Welding Procedure Specifications (WPS),Welding Procedure Qualification Record (WPQR),Welding and NDE Personnel Listing, andRadiographic Test Procedure.Certifications. Submit a copy of:Welder Performance Qualification Records;NDE Personnel Certifications; andMaterial certifications for steel, weld filler materials, and certify the chloride content of materials used in fabrication of stainless steel.Inspection Reports. Submit a copy of:Weld Inspection Reports.Test Reports. Submit a copy of:Leak Test Report.Shipping Submittals. Submit a copy of:Bill of Lading with the tank shipment.Substitutions.Ensure that any substitutions are in conformance with the BUYER’s substitution procedures.WarrantyThe SELLER is to guarantee the tank and associated equipment at design conditions and warrant that materials and workmanship, plus apparatus supplied (if any), are in accordance with Subcontract document requirements.Operation and Maintenance ManualProvide an Operations and Maintenance Manual, with detailed instructions for performance of any required maintenance activities, including as a minimum: lubrication, refurbishment/overhaul, calibration/testing, and spare parts list.Quality Assurance ProgramThe SELLER shall conduct work in accordance with a QA Program that meets the QA criteria specified by the BUYER using Quality Assurance Requirements (Site Form A6006661).The BUYER reserves the right to verify the quality of work at the SELLER’s facilities, including any subtier facilities. Access to subtier facilities shall be requested through the SELLER and verification may be performed jointly with the SELLER.The SELLER shall have a documented and implemented QA Program. This work is designated as Quality Level?3. The SELLER’s QA Program shall control a combination of design, materials, preparation, fabrication, inspection, testing, cleaning, packaging, and shipping that have to be done correctly to ensure the production of an acceptable finished product.Nonconformance ReportsNonConformance Reports identified at the SELLER’s or lowertier subcontractor’s facility, associated with this specification, with a proposed disposition of “Accept as is” or “Repair,” shall be submitted to and approved by BUYER’s Engineering and QA before the Subcontractor takes any corrective action on the nonconformance. Submittals must conform to QAAVS?B22.Inspection and ExaminationThe SELLER shall include the qualifications of the Inspectors for all critical items or features identified from the design.Suspect/Counterfeit ItemsProcurement of genuine, new, and unused parts shall conform to QAAVS?B76.Certificate of ConformanceObjective evidence in the form of a written document for all parts procured shall be provided by the SELLER. Documentation shall be in the form of a Certificate of Conformance. Certificates of Conformance shall be traceable to the material used in the fabrication. Documentation shall conform to QAAVS?B79.NOTESDefinitionsGeneral DefinitionsThe following definitions are to be used:May – denotes a “permissive” for a stated action, or denotes a possible outcome, depending on the context of the verbiage.Must – denotes a requirement.Shall – denotes a requirement.Should – denotes a recommendation. If a “should” recommendation cannot be satisfied, justification of an alternative design solution shall be submitted to Washington River Protection Solutions, LLC Engineering for approval.Will – denotes a statement of fact.Other DefinitionsBUYER – solicitors of purchasing proposal (i.e., Washington River Protection Solutions, LLC).SELLER – supplying contractor(s).List of TermsAPIAmerican Petroleum InstituteASMEAmerican Society of Mechanical EngineersASNTAmerican Society for Nondestructive TestingAWSAmerican Welding SocietyBPVCBoiler and Pressure Tank CodeCMTRCertified Material Test ReprtCWICertified Weld InspectorDOEU.S. Department of EnergyEINEquipment Identification NumberEMFEffluent Management FacilityETFEffluent Treatment FacilityEGTFEffluent Grout Treatment FacilityFATFactory Acceptance Test°FDegrees FahrenheitFITFabrication, Inspection and Testftfoot, feetgpmgallons per minutein.inch, inchesin/yrinch, inches per yearlbpoundlbfpound forcemmmillimeterMSRMaster Submittal RegisterMTModification TravelerNDEnondestructive examinationNDCNatural Phenomenon Hazard Design CategoryNISTNational Institute of Standards and TechnologyQAQuality AssurancePDMPeroxide Destruct Moduleppmparts per millionPSSHpackaging, storage, shipping, and handlingPTPenetration TestingRFRasised FaceRFIRequest for InformationRTRadiographic TestTOCTank Operations ContractorUTUltrasonic TestingWACWashington Administrative CodeWPSWelding Procedure SpecificationWPQRWelding Procedure Qualification RecordWRCWelding Research CouncilWTPWaste Treatment FacilityList of TrademarksASMEASME Registered trademark of the American Society of Mechanical Engineers, New York, New York.ANSIRegistered trademark of the American National Standards Institute, Inc., New York, New York.ASMERegistered trademark of the American Society of Mechanical Engineers, New York, New York.ASTMRegistered trademark of ASTM?International, West Conshohocken, Pennsylvania.AWSRegistered trademark of the American Welding Society, Miami, Florida.FlexicarbRegistered trademark of Flexitallic Investments, Inc., Houston, Texas.FlexitallicRegistered trademark of Flexitallic Investments, Inc., Kingwood, Texas.Microsoft and WindowsRegistered trademarks of The Microsoft Corporation, Redmond, WashingtonTank Data Sheets ................
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