EN ISO 17824:2014

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Erdöl- und Erdgasindustrie - Bohrlochausrüstungen - Sandfilter (ISO 17824:2009)Industries du pétrole et du gaz naturel - Equipement de fond de puits - Tamis de contrôle de sable (ISO 17824:2009)Petroleum and natural gas industries - Downhole equipment - Sand screens (ISO 17824:2009)75.180.10Oprema za raziskovanje in odkopavanjeExploratory and extraction equipmentICS:Ta slovenski standard je istoveten z:EN ISO 17824:2014SIST EN ISO 17824:2014en01-oktober-2014SIST EN ISO 17824:2014SLOVENSKI
STANDARD
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN ISO 17824
August 2014 ICS 75.180.10 English Version
Petroleum and natural gas industries - Downhole equipment - Sand screens (ISO 17824:2009)
Industries du pétrole et du gaz naturel - Equipement de fond de puits - Tamis de contrôle de sable (ISO 17824:2009)
Erdöl- und Erdgasindustrie - Bohrlochausrüstungen - Sandfilter (ISO 17824:2009) This European Standard was approved by CEN on 31 July 2014.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre:
Avenue Marnix 17,
B-1000 Brussels © 2014 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN ISO 17824:2014 ESIST EN ISO 17824:2014

Reference numberISO 17824:2009(E)© ISO 2009
INTERNATIONAL STANDARD ISO17824First edition2009-08-15Petroleum and natural gas industries — Downhole equipment — Sand screens Industries du pétrole et du gaz naturel — Equipement de fond de puits — Tamis de contrôle de sable
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ii © ISO 2009 – All rights reserved
ISO 17824:2009(E) © ISO 2009 – All rights reserved iiiContents Page Foreword.iv Introduction.v 1 Scope.1 2 Normative references.1 3 Terms and definitions.2 4 Abbreviated terms.6 5 Functional specification.6 5.1 General.6 5.2 Product type.7 5.3 Sand screen parameters.7 5.4 Well parameters.7 5.5 Operational parameters.7 5.6 Environmental compatibility.8 5.7 Compatibility with related well equipment.8 5.8 Design validation grades.8 5.9 Quality grades.8 5.10 Special quality requirements.8 6 Technical specification.9 6.1 General.9 6.2 Technical characteristics.9 6.3 Design criteria.9 6.4 Design verification.9 6.5 Design validation.10 6.6 Design changes.10 6.7 Design validation by scaling.11 7 Supplier/manufacturer requirements.13 7.1 General.13 7.2 Documentation and data control.13 7.3 Product identification.14 7.4 Quality control.14 8 Storage and transport.23 8.1 Storage.23 8.2 Product protection.23 8.3 Transport.23 Annex A (normative)
Collapse pressure test.24 Annex B (normative)
Burst pressure test.27 Annex C (informative)
Sized-bead test method.30 Annex D (informative)
Sand control screen illustrations.32 Annex E (informative)
Wire-wrap screen illustrations.34 Annex F (informative)
Pre-pack screen illustrations.35 Annex G (informative)
Metal-mesh screen illustrations.36 Annex H (informative)
Increased wire-wrap slot size inspection.37 Bibliography.38 SIST EN ISO 17824:2014

ISO 17824:2009(E) iv © ISO 2009 – All rights reserved Foreword ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through ISO technical committees. Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization. International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2. The main task of technical committees is to prepare International Standards. Draft International Standards adopted by the technical committees are circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. ISO shall not be held responsible for identifying any or all such patent rights. ISO 17824 was prepared by Technical Committee ISO/TC 67, Materials, equipment and offshore structures for petroleum, petrochemical and natural gas industries, Subcommittee SC 4, Drilling and production equipment. SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved vIntroduction This International Standard has been developed by user/purchasers and supplier/manufacturers of sand control screens intended for use in petroleum and natural gas wells. This International Standard provides requirements and information to both parties regarding the manufacture, mechanical properties and testing of sand control screens. Further, this International Standard addresses supplier/manufacturer requirements that set the minimum parameters with which it is necessary that supplier/manufacturers comply to claim conformity with this International Standard. This International Standard is structured with grades of increased requirements for both design validation and quality control. Three design validation grades (V1, V2 and V3) and three quality grades (Q1, Q2 and Q3) provide the user/purchaser the choice of requirements to meet a specific preference or application. Design validation grade V3 and quality grade Q3 represent equipment designed and manufactured consistent with minimum industry practice. Included within this International Standard are normative annexes A and B specifying test methods for determining the collapse and burst strength of sand control screens. Informative annexes C, D, E, F, G and H include measurement criteria for sand control screen filter media, illustrations of the three types of sand control screens, and increased wire-wrap slot size inspection requirements. It is necessary that users of this International Standard be aware that requirements above those outlined in this International Standard can be needed for individual applications. This International Standard is not intended to inhibit a supplier/manufacturer from offering, or the user/purchaser from accepting, alternative equipment or engineering solutions. This can be particularly applicable where there is innovative or developing technology. Where an alternative is offered, it is the responsibility of the supplier/manufacturer to identify any variations from this International Standard and provide details.
INTERNATIONAL STANDARD ISO 17824:2009(E) © ISO 2009 – All rights reserved 1Petroleum and natural gas industries — Downhole equipment — Sand screens 1 Scope This International Standard provides the requirements and guidelines for sand control screens for use in the petroleum and natural gas industries. Included are the requirements for design, design validation, functional evaluation, manufacturing, storage and transport. The requirements of this International Standard are applicable to wire-wrap screens, pre-pack screens and metal-mesh screens as defined herein. The following items are outside the scope of this International Standard: ⎯ expandable sand screens, slotted liners or tubing and accessory items such as centralizers or bull plugs; ⎯ shunt screen technology, inflow control devices, downhole sensors and selective isolation devices, even where they can be an integral part of the sand control screen; ⎯ screen filtration performance criteria, including test methods or analysis for sand retention efficiency; ⎯ end connections of the basepipe. 2 Normative references The following referenced documents are indispensable for the application of this document. The way in which these referenced documents are cited determines the extent (in whole or part) to which they apply. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. ISO 10414-1:2008, Petroleum and natural gas industries — Field testing of drilling fluids — Part 1: Water-based fluids ISO 11960, Petroleum and natural gas industries — Steel pipes for use as casing or tubing for wells NOTE ISO 11960 has been back adopted by API as API SPEC 5CT. Therefore, for the purposes of the provisions of this International Standard which cite ISO 11960, API SPEC 5CT is equivalent to ISO 11960. ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories ISO 9000, Quality management systems — Fundamentals and vocabulary ASME, Boiler and Pressure Vessel Code BPVC — Section II: Materials: Part D: Properties ASME, Boiler and Pressure Vessel Code BPVC — Section VIII: 1998, Div. 1, Appendix 8: Methods for Liquid Penetrant Examination (PT) ASME, Boiler and Pressure Vessel Code BPVC — Section IX: Welding and Brazing Qualifications ASTM E11, Standard Specification for Wire Cloth and Sieves for Testing Purposes ASTM E165, Standard Test Method for Liquid Penetrant Examination SIST EN ISO 17824:2014

ISO 17824:2009(E) 2 © ISO 2009 – All rights reserved 3 Terms and definitions For the purposes of this document, the terms and definitions given in ISO 9000 and the following apply. 3.1 annular gravel pack sized sand or synthetic proppant placed in the annulus outside the sand control screen during gravel packing 3.2 basepipe tubulars that have perforations or slots to allow fluid flow through the screen jacket NOTE See Figures E.1, F.1 and G.1. 3.3 box handling length axial length of blank basepipe on a sand control screen, measured between the end of the box connection and the nearest component along the basepipe NOTE See Figures D.4 and D.5. 3.4 center break axial length of blank pipe between two screen jackets on a sand control screen NOTE See Figure D.5. 3.5 component individual part of an assembly 3.6 design family group of sand control screens wherein the configuration, materials, and functionality are the same and the design stress levels in relation to material mechanical properties are based on the same criteria 3.7 design validation process of proving a design by testing to demonstrate conformity of the product to design requirements [ISO/TS 29001] 3.8 design verification process of examining the result of a given design or development activity to determine conformity with specified requirements [ISO/TS 29001] 3.9 direct-wrap screen sand screen in which the screen jacket rib wires are in direct contact with the base pipe along the axial length NOTE See Annexes E and F. 3.10 direct-wrap pre-pack screen pre-pack screen in which the inner screen, which may be wire-wrap or metal-mesh, is a direct-wrap screen NOTE See Annex F. SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved 33.11 downhole sensor device incorporated into the sand control screen to measure various downhole conditions 3.12 drainage or support layer component used in metal-mesh screens to provide structural support and/or to facilitate flow between the basepipe perforations and metal mesh NOTE See Figure G.1. 3.13 drift OD minimum ID of the drift tool utilized to verify screen assembly OD clearance 3.14 end ring component used to seal the annular gap between the ends of the screen jacket and basepipe 3.15 filter media OD 〈metal-mesh screens〉 metal-mesh OD 〈wire-wrap screens〉 wrap-wire OD 〈pre-pack screens〉 outermost wrap-wire OD NOTE See Figures D.1, D.2 and D.3. 3.16 fluid-loss control pill fluid with a concentration of a wide array of sized particles that forms a filter cake that seals off a screen surface with little or no leak-off through the screen's slot openings or pores 3.17 gravel packing well completion method used for the purpose of excluding formation sand from entering the well bore and including a sand control screen, sized sand or synthetic proppant 3.18 inflow control device device incorporated into a sand control screen that regulates the flow into or along the basepipe 3.19 informative information that is meant to enlighten the user/purchaser or supplier/manufacturer, without containing requirements 3.20 job-lot traceable ability for parts to be identified as originating from a job lot which identifies the included heat(s) 3.21 joint overall length maximum axial length of the screen measured from the outer end of the box connection to the end of the pin thread on the basepipe NOTE See Figures D.4 and D.5. SIST EN ISO 17824:2014

ISO 17824:2009(E) 4 © ISO 2009 – All rights reserved 3.22 metal-mesh metal fabric designed to filter solids, provide structural support and/or distribute flow NOTE See Figure G.1. 3.23 metal-mesh roll single, continuous spooling of mesh by the woven mesh manufacturer 3.24 metal-mesh screen sand control screen that consists of one or more layers of metal-mesh as the filter media NOTE See Annex G. 3.25 normative instructions or procedures that shall be implemented by the user/purchaser or supplier/manufacturer in order to comply with this International Standard 3.26 pin handling length axial length of blank basepipe on a sand screen assembly, measured between the last scratch of the pin thread and the nearest component along the OD of basepipe NOTE See Figures D.4 and D.5. 3.27 pore size supplier/manufacturer determined metal-mesh filter opening; typically expressed in microns NOTE See Figure G.1. 3.28 pre-pack screen sand control screen consisting of two concentric screen jackets with the annulus in between containing a sized distribution of sand or synthetic proppant used as the filter media NOTE See Annex F. 3.29 qualified person individual with demonstrated skills or abilities gained through training or experience or both as measured against established requirements, such as standards or tests that enable the individual to perform a required function 3.30 sand control screen mechanical filtration device used to retain the formation sand or annular gravel pack while allowing the passage of fluids into the production tubing 3.31 screen jacket sub-assembly of the sand control screen that includes filter media and associated support components and which is secured to the basepipe NOTE The screen jacket may include end rings, a drainage or support layer and/or a shroud. SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved 53.32 screen jacket length axial length of the screen jacket, including any end rings NOTE See Figures D.4 and D.5. 3.33 screen size OD designation of the basepipe 3.34 selective isolation device device that controls flow into the production string from selected zone(s) in a well 3.35 shroud perforated cylindrical component typically forming the outermost concentric layer of a screen and used to provide support and protection NOTE See Figure G.1. 3.36 shunt screen technology additional flow conduits assembled onto the sand control screen to allow the gravel packing slurry to bypass blockages in the annulus between the well bore and the screen OD during gravel packing operations 3.37 slip-on screen sand screen where the screen jacket is manufactured separately and later installed over the perforated basepipe NOTE See Annexes D and E. 3.38 slot opening between two consecutive wrap-wires in a wire-wrap screen NOTE See Figures E.1 and F.1. 3.39 slot size width of the opening in a wire-wrap screen expressed in gage, with one gage equal to 25,4 µm (0,001 in) 3.40 support rib several parallel, longitudinal supports in a wire-wrap screen jacket that are spaced apart to form the structure around which the wrap-wire is wrapped and welded NOTE See Figures E.1 and F.1. 3.41 wire-wrap screen sand control screen consisting of a wrap-wire helically wrapped and welded to a cylindrical array of internal support ribs positioned in the axial or long direction of the cylinder and used as the filter media NOTE See Annex E. SIST EN ISO 17824:2014

ISO 17824:2009(E) 6 © ISO 2009 – All rights reserved 3.42 wrap-wire continuous wire in a wire-wrap screen jacket that is helically wrapped around and welded to longitudinal support ribs NOTE See Figures E.1 and F.1. 3.43 wrap-wire reel single continuous spooling of a formed wire 4 Abbreviated terms ⎯ CB centre break ⎯ COC certificate of compliance ⎯ FEA finite element analysis ⎯ FLC fluid loss control ⎯ ga gage ⎯ ID inside diameter ⎯ LB box handling length ⎯ LDP liquid dye penetrant ⎯ LP pin handling length ⎯ LS screen jacket length ⎯ MTR material test report ⎯ NDE non-destructive examination ⎯ OD outside diameter ⎯ ppf pounds per foot ⎯ PSD particle size distribution ⎯ QC quality control 5 Functional specification 5.1 General The user/purchaser shall provide a functional specification to order products that conform to this International Standard. The specification shall include the following requirements and operating conditions as the user/purchaser deems appropriate, and/or may identify the supplier/manufacturer's specific product. These requirements and operating conditions may be conveyed by means of a dimensional drawing, data sheet, or other suitable documentation. SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved 75.2 Product type The user/purchaser shall specify the sand control screen type (wire-wrap screen, pre-pack screen or metal-mesh screen) as defined by the filter media. It is recognized that there are screens that utilize one or more of these screen types in their construction; however, the product type is defined by the primary filter media. 5.3 Sand screen parameters The user/purchaser shall specify the following sand screen parameters, as applicable: a) screen jacket length(s) and pin and box handling lengths; b) required slot size or pore size for sand retention of the annular gravel pack and/or formation sand; c) flow area of the screen for passage of fluids during well clean up, production and any stimulation activities; d) nominal basepipe size, mass, grade, alloy and end connections; e) drift OD; f) metallurgy requirements of screen jacket, rings, shrouds or other components; g) filter media type and size; h) centralization: type, quantity, material, maximum OD and location; i) joint length: R1, R2, R3 in accordance with ISO 11960, or other length as required; j) required collapse, burst and tensile ratings. 5.4 Well parameters The user/purchaser shall specify, as applicable, the following well parameters: a) drift ID of the casing or open hole ID, and any minimum restrictions through which it is necessary for the sand control screen to pass; b) IDs and ODs of tubing or casing sizes, the well's true vertical depth (TVD) and measured depth (MD), and a directional survey of the well, typically shown in a schematic; c) producing or perforation interval length. 5.5 Operational parameters The user/purchaser shall specify, as applicable, the following operational parameters: a) chemical treatment, including the chemical components, pressure, temperature, pump rate and exposure time; b) fracturing/gravel packing, including proppant/gravel description, pumping rate, annular fluid velocity, proppant/fluid ratio, maximum anticipated pressure; c) fluid/mud type (chemical components, solids loading, solids size) and density that the screens can encounter; d) well intervention service equipment, such as wash tools, electric line, slick line, braided line, coiled tubing or snubbing equipment; SIST EN ISO 17824:2014

ISO 17824:2009(E) 8 © ISO 2009 – All rights reserved e) installation methods and limitations; f) loading conditions: anticipated loading conditions (pressure, temperature, collapse, burst, tensile, compression and compaction loads, etc.) that can be applied to the sand control screen during deployment, gravel packing process, well clean up and/or production. 5.6 Environmental compatibility 5.6.1 General Where the user/purchaser has material selection and/or corrosion expertise, the user/purchaser shall state which material(s) have the ability to perform as required within the corrosive environment. Otherwise, material compatibility shall be specified in accordance with 5.6.2. 5.6.2 Well environment The following shall be provided to ensure environmental compatibility, as applicable: a) minimum and maximum anticipated values of the temperatures, flow rates (production and/or injection) and reservoir pressure; b) production/injection fluid, density, chemical/physical composition and the condition of the fluid and/or its components, being solid (sand, scale, etc.), liquid and/or gaseous, to which the product is exposed during its full life cycle; c) rock properties, such as particle size distribution, mineralogy and clay content; d) scaling tendencies of reservoir fluids that result in inorganic and organic solid precipitates, such as scale, paraffin, asphaltenes, etc. that can plug the screen. 5.7 Compatibility with related well equipment The following information shall be provided, as applicable: a) size, type, material, configuration and interface dimensions of the connection between the product and other well equipment; b) size, type and configuration of other products or tools that are passed through or over the product; c) size, type and configuration of other products that are used in conjunction with this product. 5.8 Design validation grades This International Standard specifies three grades of design validation (V1, V2, or V3 as detailed in 6.5) for which the product may be supplied. The user/purchaser shall select the design validation grade for each product to be provided. 5.9 Quality grades The user/purchaser shall select the quality grade (Q1, Q2, or Q3 as detailed in 7.4) for each product that is provided. 5.10 Special quality requirements The user/purchaser may select increased slot-size inspection requirements as covered in Annex H for applications that require additional slot inspection. SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved 96 Technical specification 6.1 General The supplier/manufacturer shall prepare a technical specification that conforms to the requirements defined in the functional specification. If the technical specification does not fully meet the functional requirements, the supplier/manufacturer shall identify the differences to the user/purchaser. 6.2 Technical characteristics The sand control screen shall perform in accordance with the functional specification as stated in Clause 5 and/or within the specifications defined in the product-specific data sheet. 6.3 Design criteria 6.3.1 Materials Materials shall be stated by the supplier/manufacturer and shall be suitable for the operational parameters and the environment specified in the functional specification. The supplier/manufacturer shall have documented specifications for all materials used in the manufacture of sand control screens. The user/purchaser may specify materials for the specific corrosion environment in the functional specification. If the supplier/manufacturer proposes to use another material, the supplier/manufacturer shall provide documented certification to the user/purchaser for acceptance that this material has performance characteristics suitable for all requirements specified for the well, including any production/injection parameters. Basepipe material shall conform to the requirements of ISO 11960 unless otherwise specified in the functional specifications. 6.3.2 Performance rating The supplier/manufacturer shall establish ratings for the collapse, burst and tensile strength of each screen design, considering any temperature effects and excluding end connections. As applicable, the performance ratings shall be based on the minimum specified yield strength and minimum specified material conditions, and the values shall be based on results of the validation tests in accordance with Annex A and/or Annex B. Within each design family, the supplier/manufacturer may utilize finite element analysis (FEA), mechanical strength calculations or other proven methods to determine performance ratings for sizes and similar configurations not tested within the limitations of scaling as outlined in 6.7. The material's minimum specified yield strength and minimum specified material conditions shall be used in the calculations, and the calculations shall include consideration of temperature effects. De-rating of metal mechanical properties shall be in accordance with ASME BPVC, Section II, Part D. 6.4 Design verification Design verification shall be performed to ensure that each sand control screen design meets the supplier/manufacturer's technical specifications. Design verification examines the design by evaluating activities such as design reviews, design calculations, physical tests, comparison with similar designs and historical records of defined operating conditions. SIST EN ISO 17824:2014

ISO 17824:2009(E) 10 © ISO 2009 – All rights reserved 6.5 Design validation 6.5.1 General Products shall be supplied to at least the design validation grade specified in the functional specification. The supplier/manufacturer shall document the test procedure and results and shall maintain on file material certifications and drawings that show all the applicable dimensions, materials and tolerances of parts contained in the tested product. Pre- and post-test dimensional inspections of critical operational areas, as determined by the supplier/manufacturer, shall be conducted, documented and maintained by the supplier/manufacturer. The supplier/manufacturer is responsible to ensure that all aspects of the test procedure, including materials and equipment used, are in compliance with applicable health, safety, environmental and regulatory requirements. Validation tests shall be conducted according to the requirements specified in the respective annexes of this International Standard. 6.5.2 Design validation grades This International Standard specifies three grades of design validation for sand control screens. These are listed below with a summary in Table 1. ⎯ Design validation grade V3 shall meet the supplier/manufacturer's documented validation requirements. ⎯ Design validation grade V2 shall meet the requirements in Table 1, and Annex A. All V2 screens meet the requirements of V3. ⎯ Design validation grade V1 shall meet the requirements in Table 1, and Annexes A and B. All V1 screens meet the requirements of V2 and V3. Table 1 — Summary of design validation grade requirements Design validation grade Validation test V3 V2 V1 Collapse resistance (See Annex A) no yes yes Burst resistance (See Annex B) no no yes 6.6 Design changes All design changes shall be documented and reviewed against the design verification and design validation to determine if the change is a significant change. A significant change is any change in form, fit or function to the design identified by the supplier/manufacturer that can affect the performance of the sand control screen during the validation tests in accordance with 6.5. A design that undergoes a significant change becomes a new design requiring design verification in accordance with 6.4 and design validation in accordance with 6.5. Design changes identified as non-significant shall include documented justification and be approved by a qualified person. The supplier/manufacturer shall, as a minimum, consider the following for each design change: ⎯ stress levels of the modified or changed components; ⎯ material changes; SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved 11⎯ functional changes; ⎯ dimensional changes. 6.7 Design validation by scaling 6.7.1 General Scaling is the process by which the performance ratings of untested screen designs may be determined based on the results of validation tested screen designs within a design family. The supplier/manufacturer may use documented methods, such as analytical calculations or FEA, to determine the performance ratings of any untested screen sizes between two tested screen sizes of the same design family. 6.7.2 Design families 6.7.2.1 Wire-wrap screens Separate design families are required for any of the following variations: ⎯ slip-on or direct-wrap designs; ⎯ wrap-wire size, shape or reduced minimum specified yield strength; ⎯ support rib size, shape, count per basepipe size or reduced minimum specified yield strength; ⎯ screen jacket end ring design; ⎯ nominal basepipe wall thickness, minimum specified yield strength or perforation pattern, where the rating depends on the pipe's characteristics. A separate design family is not required for changes in the screen slot size. 6.7.2.2 Pre-pack screens Separate design families are required for any of the following variations: ⎯ type of outer or inner screen jacket; ⎯ slip-on or direct-wrap design of inner screen; ⎯ wrap-wire size, shape, or reduced minimum specified yield strength of either screen jacket; ⎯ support rib size, shape, count per basepipe size, or reduced minimum specified yield strength of either screen jacket; ⎯ screen jacket end ring design; ⎯ nominal basepipe wall thickness, minimum specified yield strength or perforation pattern, where rating depends on the pipe's characteristics; If either the outer or inner screen jacket is metal mesh, then 6.7.2.3 applies. A separate design family is not required for changes in screen slot size or changes to the type of size of proppant. SIST EN ISO 17824:2014

ISO 17824:2009(E) 12 © ISO 2009 – All rights reserved 6.7.2.3 Metal-mesh screens Separate design families are required for any of the following variations: ⎯ single layer or multiple layered metal-mesh designs; ⎯ weave pattern of any layer; ⎯ wire diameter or count of any layer; ⎯ material composition or minimum specified yield strength of metal-mesh; ⎯ change in the direction of the warp or weft wires of any layer; ⎯ drainage or support layer(s) configuration; ⎯ post-weaving processes, such as heat treating, calandering, forming or welding, that change its mechanical properties; ⎯ radial clearances between metal-mesh and drainage or support layer, or protective shroud or basepipe; ⎯ protective shroud type, wall thickness, flow area, aperture or reduced specified yield strength; ⎯ screen jacket end ring design; ⎯ nominal basepipe wall thickness, metallurgy, minimum specified yield strength or perforation pattern, where rating depends on the pipe's characteristics; A separate design family is not required for changes in the metallurgy of the drainage or support layer(s) as long as these layers are not metal mesh. 6.7.3 Limitations of size scaling The supplier/manufacturer may apply collapse or burst ratings for different screen sizes within a design family, as defined in 6.7.2, as follows: ⎯ Collapse test rating: The rating for a validation tested screen size may be applied as the rating for smaller, untested screen sizes within a design family, but shall not be applied or extrapolated to larger screen sizes, or to any screen size that has a lower collapse resistance rating for its basepipe. EXAMPLE The collapse test rating for 139,70 mm, 25,30 kg/m (5-1/2”, 17 ppf ) screen can be applied to larger masses of the same screen size or to 60,32 mm (2-3/8") through 127,00 mm (5”) screen sizes of the same design family. It cannot be applied to 168,28 mm (6-5/8”) through 193,68 mm (7-5/8”) screen sizes or to smaller masses of 25,30 mm (5-1/2”) screens. ⎯ Burst test rating: The rating for a validation tested screen size may be applied as the rating for smaller untested screen sizes within a design family, but shall not be applied or extrapolated to larger screen sizes. EXAMPLE The burst test rating for 139,70 mm (5-1/2”) screen can be applied to 60,32 mm (2-3/8”) through 127,00 mm (5”) screen sizes of the same design family. It cannot be applied to 168,28 mm (6-5/8”) through 193,68 mm (7-5/8”) screen sizes. ⎯ Slot sizes: Collapse and burst ratings shall be de-rated for slot sizes larger than 304,8 µm (12 ga) based on supplier/manufacturer's documented methodology. Ratings shall not be increased for slot sizes smaller than 304,8 µm (12 ga). SIST EN ISO 17824:2014

ISO 17824:2009(E) © ISO 2009 – All rights reserved 137 Supplier/manufacturer requirements 7.1 General Clause 7 contains the detailed requirements to verify that each product manufactured meets the requirements of the functional and technical specifications. All testing and inspections for final acceptance and approval of test reports shall be performed by a qualified person. These include requirements for documentation and data control, product identification and quality control. 7.2 Documentation and data control 7.2.1 General The supplier/manufacturer shall establish, implement and maintain documented procedures to control all documents and data that relate to the requirements of this International Standard. These documents and data shall be legible and maintained to demonstrate conformance to specified requirements. These documents, include, but are not limited to functional and technical specifications, production orders and quality records; see 7.4.8. All documents and data shall be retained in facilities designed to provide an environment that prevents damage, deterioration or loss. They shall be available upon documented request to the user/purchaser. Documents and data may be in the form of any type of media, such as hard copy or electronic media and shall be retained for a minimum of five years from the date of manufacture. 7.2.2 Design documentation Documentation of designs shall include product drawings and specifications, methods, assumptions, calculations and design requirements. Product test records shall be maintained throughout the life of a design family, and shall be kept for at least five years after the design family is no longer manufactured. 7.2.3 Product data sheet Product data sheets shall be supplied if they are requested by the user/purchaser and shall contain the following information, as applicable: ⎯ name and address of supplier/manufacturer; ⎯ supplier/manufacturer assembly or part number; ⎯ supplier/manufacturer product name; ⎯ product type; ⎯ materials description; ⎯ drift OD; ⎯ filter OD; ⎯ joint overall length; ⎯ screen jacket length; ⎯ basepipe nominal size (screen size), material, grade, mass and drift diameter; ⎯ basepipe end connections; SIST EN ISO 17824:2014

ISO 17824:2009(E) 14 © ISO 2009 – All rights reserved ⎯ ratings for collapse, burst and tensile strength, as applicable; ⎯ design validation grade: V1, V2, or V3; ⎯ quality grade: Q1, Q2, or Q3. 7.3 Product identification Each product shall be permanently identified according to the supplier/manufacturer's documented specifications. The supplier/manufacturer's documented specifications shall define the type, method of application, and location of the identification. The following information shall be included as a minimum: ⎯ part and/or assembly number; ⎯ identifying number traceable to quality records; ⎯ supplier/manufacturer's identification. 7.4 Quality control 7.4.1 General This International Standard provides for three grades of quality control requirements, which allows the user/purchaser to select the grade that is required for a sp
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