Description

see Item Code: LKASXJ4140SE2NTRANSMISSION MATERIALS STANDARD SPECIFICATION ll-TMSS-02, Rev.01 7.0 DATA SCHEDULE 1 x 2500 mm2 132kV, XLPEPOWERCABLE Date: SEC Enquiry No. SECPurchase Order Date: No. or Contract No. PTS10W0306 SECPTSNo./Project Title with J.O. No. REFERENCE DESCRIPTION SECTION NO. 3.0 'B' 'A' 'C' APPLICABLECODESAND STANDARDS IEC60840 and ll-TMSS-02 Reference Manufacturing Standard 4.0 DESIGNAND CONSTRUCTIONREQUIREMENTS 4.2 Design Criteria/Rating AEIC/IEC 60840 Rev.1 Tech. Specs. wnere applicaDle. a. Cable Nominal Voltage, (kV) b. System Short Circuit Current, kA c. Maximum Conductor short circuit current 132 40 132 40 temperature. .C d. Maximum permissible continuous 2S0 -250 conductor temperature. .C e. Emergency Loading Maximum emergency conductor 90 -90 105 105 for one second . . . loading temperature. .C Permissible Load in Amps, A 72 During any 12 months During the life of the cable 1500 -72 1500 Materials Details: Conductor: Material Copper 'A' 'B' 'C' - TBU SPECIFIEDDATA/PARAMETER. BIDDER/SUPPLIER/VENDOR/CONTRACTORPROPOSEDDATA/PARAMETERS. REMARKSSUPPORTINGTHE PROPOSEDDEVIATION IN COLUMN 'B'. - DATA/PARAMETERTO BE PROVIDED/PROPOSEDBYTHE BIDDER/SUPPLIER/ VENDOR/CONTRACTORIN COLUMN 'B' (*) Pleaserefer to Page22 of 35 Allowable loading duration; hrs i) ii) 4.3 4.3.1 * * Production IlT~SS02R01/FAZ Sampling Tests will be according to ICEAS-108-720 Date of Approval: December 12,2011 Copper 0072ohm/km * 0. 1600 or 2000) No. XLPEPOWERCABLE REFERENCE SECTION NO.O. 63.76 apprx.00393 * k. of segments: 5 No. Rev.66 * Proximity effect loss factor (kp) * DC Resistance at 90.) 'C' ::.6 Minimum thickness. 2011 0. * 1000. C. mm max.608 11TM5502R01/FAZ Date of Approval: December 12.of strands:91( per segment) 19 ( for central conductor) appx. Conductor for stranding * (Non-segm enta 1/segm enta I) * No. of strands * Dia. 0.C * Temp.00734 Conductor AC resistance at 20.608 at any point 35 . mm Cross-sectional area.3. mm 400 mm2 0. O/km Short circuit capability of conductor in kA for 1 second staryting with 90. 1. 0.512 800 to 2000 mm2 0. C conductor temperature up to max. 1200. mm 400 mm2 0.O! 7.630. coeff at 20.egmentallea stranded compacted * Diameter.0 DATASCHEDULE 132kV.C/"C Skin effect loss factor (k.0 Resistance at 25.800. mm2 (400. =0. short circuit current temperature 40 * Water blocking material between strands 4.64 800 to 2000 mm2 0.C * max.0092 40 Yes (Swelling tapes shall be applied inside the segments) Conductor shield: SEMICON Material Same Average thickness. of strand prior to compaction.78 mm in segments (before compaction) 2500 appx.r TRANSMISSION MATERIALSSTANDARD SPECIFICATION ll-TMSS-02. O/km * (without tapes) max.2 '6' 'A' DESCRIPTION max.011 ohm/km Conductor DC resistance at 20. 2. 0. C. mm Dia. Rev.C ) Same 1.6 19. 0. K.m Short circuit capability in kAfor 1 second of the metallic shield starting with 90. Over insulation.C ) Max.75 1. 115 3.7241x10.44 * Average thickness. O/km Self inductance. mH/km ACresistance at 90. mm Thermal resistivity.4 'B' 'A' DESCRIPTION Metallic shield: Material 21. mm2 Diameter over metallic shield.5 2. C. mm Thermal resistivity. O/km DCresistance at 90.75 1. XLPEPOWERCABLE REFERENCE SECTIONNO. 0. C. mm * Thermal resistivity.Overconductor shield.07 apprx.m/W Conductor Moisture Impervious layer Material 4.3. MO-km (Actual Test Value) * Insulation shield: Material SEMICON 1. coefficient at 20.O/km AC resistance at 20. mm Dia. 305 (geomertical) apprx.!ix nom. C.OverInsulationshield.3 SUPER CLEANXLPE 21. O. mm Minimum thickness. 68 3. 121 0. .6 19.08 Typical1.m/W Relative permittivity or dielectric constant (E) * * Loss factor (0) Specific Resistance.08 0. 111 3.40 * Average thickness.m/W 4.00393 0. O/km * * * * * * * * * Resistivityat 20.3.158 0.01 7.5 Semi Conducting Tape 'C' apprx.F ll-TMSS-02.4 (at any point) apprx.C/"C DCresistance at 20.5 Plain annealed copper wires + Total effective cross-sectional area.s 40 apprx.3 (at 20. 10x10-4 Min. C conductor temperature 11 TMSS02ROl/FAZ Super clean XLPE 40 Date of Approval: December 12. * * Dia. 2011 copper tape contact h'. mm Temp.3. 781 (at 20.5 Same Insulation: Material 4.07 apprx.44 (at any point) apprx.K.TRANSMISSION MATERIALSSTANDARD SPECIFICATION . C. C. K.0 DATA SCHEDULE 132kV. mm Minimum thickness. apprx. 3 Special Thermal Short Circuit Test 6.4 (original thick. 0.0 DATA SCHEDULE 132kV. m b.3. 4040 apprx.12 Thickness. (orig.55 (at any point) apprx. mm j. Cablereel width. Total quantity required. kg h. mm * Diameter over the layer.PE laminated AI.mm apprx. 130 YES/No Date of Approval: lMDPE 3. XLPE POWER CABLE REFERENCE SECTIONNO. thickness) apprx. 0. Are matched sets of cable reel length required? c. Tape 3.95 * Overall cable diameter. Cableweight. mm 4. 117 Same (over metallic screen) SWELLABLE TAPE 0.55 3. 19850 -498 m apprx. If "YES". mm llT~SS02R01/FAZ 3.3.3. mm Diameter over the layer.how many reels are reuired per set? d. Cablelength per reel. 4. Rev.01 Yes (during Type Test only) Dependingupon project requirement * * * * * * December 12. mm * Moisture impervious layer (second layer) : Material SE~ICONDUCTIVE apprx. 2011 -2% apprx.0 PACKING a. 122 Graphite apprx.) apprx.Ol 7.12 Thickness. Tolerancein cable length of matched reel sets e. kg/km g. Conductorweight. mm Yes . 22500 apprx.95 * * Thickness.6 'A' DESCRIPTION Moisture impervious layer (first layer) : Material SE~I-CONDUCTIVE 'B' SCSwellable tapes 'C' (under metallic screen) SWELLABLE TAPE 0.4 apprx. mm YES/No Third Moisture impervious layer 4.7 Jacket: Material * (LlDPE. mm Minimum thicknes. lMDPE or HDPE) Average thickness. kg/km f.8 Conductive layer: Material 5. Cablereel diameter. M i. 2250 .TRANSMISSION MATERIALSSTANDARD SPECIFICATION F ll-TMSS-02. 34700 apprx. 0. Reeland cable weight. Maximum sidewall pressure. years b. XLPE POWER CABLE REFERENCE DESCRIPTION SECTION NO.0 g. 3-phase capacitance in trefoil/Flat formation.0 DATASCHEDULE 132kV. mH/km c. Minimum bending radius. 2011 / . IlF/km Over 30 * * ~30 years (designed life) based on operation conditions 0. C soil temperature.Ol 7. for 1/2/3 ( Il-hour 13-hours / IHours ICable ( 13-hours) hours starting with a prior loading of / 12-hours 13-hours A* (cables laid in trench.5 m axial spacing between phases and assumed Native Soil Thermal Resistivity of 1.TRANSMISSION MATERIALSSTANDARD SPECIFICATION F ll-TMSS-02. kN/m * 5.261 + 8% 1 cable d. mm * 2600 / at conductor * Cables laid in flat formation with 0.m/W IlT~SS02ROI/FAZ Date of Approval:December 12. Lifeexpectancyof cable. 'A' 'e' 'B' OTHERREQUIREDINFORMATION a.2 K. Maximum permissible overload in % Il-hour / 12-hours of 3 cables in underground cable duct trefoil/Flat formation at 40. 3-phase inductance in trefoil/Fiat formation. Maximum pulling Tension (kN) * 125 f. direct buried) * 50% 75% 100% = 1358 Il-hour 250/250/250 250/250/230 217/180/167 e.Rev.335 (trefoil) 0. TRANSMISSION MATERIALS STANDARD SPECIFICATION F ll-TMSS-02.Ol 7. ADDITIONAL TECHNICALINFORMATION OR FEATURESTO BE FURNISHEDBY SEC: B.Rev. 23 OF 3S . XLPE POWER CABLE A. OTHER PARTICULARSTO BE FILLEDUP BY BIDDER/VENDOR/SUPPLIER/CONTRACTOR: Actual Manufacturer of Equipment/Material Name of the Company Location and address Vendor/Supplier/ Contractor Saudi Cable Company Jeddah Name and Signature of authorized rpresentative and Date Official Seal/Stamp of the Company & Date IlT~SS02ROI/FAZ Date of Approval: December 12. ADDITIONAL SUPPLEMENTARY DATA OR FEATURES PROPOSED BY BIDDER/VENDOR/SUPPLIER/CONTRACTOR: C. 2011 Page NO.0 DATA SCHEDULE 132kV.
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