21 JAN.2015 Yang Sirui Qin Gaoyuan Sun Jingyu Zhou Xiang DH1/A3-C2/DE/E/1097 23 MAY.2014 Yang Sirui Qin Gaoyuan Sun Jingyu Zhou Xiang DH1/A3-C2/DE/E/0956 15 APR.2014 Yang Sirui Qin Gaoyuan Sun Jingyu Zhou Xiang DH1/A3-C2/DE/E/0825 18 FEB.2014 Yang Sirui Qin Gaoyuan Sun Jingyu Zhou Xiang First issue DATE PREPARED BY CHECKED BY REVIEWED BY APPROVED BY DESCRIPTION OWNER VIETNAM ELECTRICITY THERMAL POWER PROJECT MANAGEMENT BOARD CONSULTANT POWER ENGINEERING CONSULTING JOINT STOCKCOMPANY CONTRACTOR DONGFANG ELECTRIC CORPORATION LIMITED SUBCONTRACTOR GUANGDONG ELECTRIC POWER DESIGN INSTITUTE EVN Ref No.: DH1/TD/795/023/001/00 DEC Ref No.: DH1_DDBSE3_D_0101_217 PROJECT: Document Status: DUYEN HAI THERMAL POWER PLANT PROJECT CONTRACT NO.： DH1-30032010 FOR APPROVAL Document Title: Cable Sizing Study For 400V/230V Cable Of Common System Area Document No.: Rev.: F4281S-D0101-217 DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study CONTENTS General Introduction Reference Documents 3 Cable Sizing Criteria Cable Installation Method Voltage Drop Current Carrying Capacity Short Circuit Calculation ATTACHMENT Table of Cable Sizing Calculation DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study General Introduction The purpose of this document is to show the cable selection methods for cable sizing and cable voltage drop calculation for MV and LV Power Cable including 6.6kV AC power cable and 0.6/1kV AC power cable.data Input: For sizing of the cables the following conditions will apply: a) Soil temperature for cables Not less than 30 °C at 1m depth direct buried or indirect buried ducts b) Soil thermal resistivity (Refer 1.2 °C cm/W ~(converts Kevin Unit According to SSP E- 210 Cable and 1.2Km/W) wire, item 3.2.2-Cable rating) c) Group de-rating According to Manufacture’s IEC 60087 or recommendations (which ever method gives the lowest result) d) temperatures for different In the air :30°C applications In the soil: 30°C Reference Documents - EPC Contract Technical Specification (Part VII) - POWER CABLE LIST (F4281S-D1114) - Short-Circuit Analysis Report (F4281S-D0101-203) - Documents for Relevant Load List (F4281S-D0310-201,202,203) - Technical specification for power cables(DH1-DE-A3-TD-E-0094) Cable Sizing Criteria  IEC60364-5-52Electrical_installations_of_buildings_– DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study Part_5-52Selection_and_erection_of_electrical_equipment_– Wiring_systems  IEC 60502 Power cables with extruded insulation and their accessories for rated voltages from kV up to 30 kV  IEC 60909-0 Short-circuit currents in there-phase a.c systems – calculation of currents  IEC 60909-1 Short-circuit currents in there-phase a.c systems – Factors for the calculation  IEC 60909-2 Electrical equipments – Data for Short-circuit current calculations  IEC 60909-3 Short-circuit currents in there-phase a.c systems – currents during two separate  EC 60909-4 Short-circuit currents in there-phase a.c systems – Examples for the calculation of short-circuit currents  IEC 60332-3-23 Tests on electrical cables under fire conditions - part 324 Test for vertical flame spread of vertically  Manual of power cable Cable is sized to fulfill the criteria of both current-carrying capacity and voltage drop Cable Installation Method The following method or their combinations is generally used to install cables:  On multi-level cable trays/cable ladder which are inside trenches  In conduit  In free air, on trays, brackets, ladders, etc  In cable ducts which are underground  Underground installation: All cables shall be run in PVC pipes encased concrete duck bank DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study  Above ground installation: All cables shall be run in Cable tray/Cable ladder/Conduits made of hot dipped galvanized steel with cover Covers will be provided wherever mechanical protection is required According to the cable tray/Cable ladder/Conduit routing Drawings All calculation for specific cables are based on the installation method that has the most stringent cable sizing requirements in its cable route Voltage Drop 5.1 Voltage Drop Of Normal Operation State The voltage drop is calculated in percentage of the rated nominal voltage The Calculation checks whether the voltage drop is within the required voltage drop tolerance, namely 3% of rated nominal voltage Voltage drop is defined by: ∆U(V) = √3 × I × L(R cos ∅ + X sin ∅) Where:  R and X (_/km) are the resistance and reactance of a cable per kilometer; R apply for the cable resistance of 90℃ The converting process for resistance from 20℃ to 90℃ is as following: ρ: Cable resistance for meter mm2 cable (Ω) ρ = ρ0 (1 + α(θcore − 20) ρ0 : cable resistance for meter mm2 cable (Ω) at 20℃ ρ0 =0.01851 for copper α: Temperature factor; α = 0.00393, for copper θcore : Conductor maximum temperature in rated conditions (℃) In this study, θcore = 90℃ will be used  Ur is the nominal voltage of the distribution board The default value is 230V for single phase and 400V for three –phase circuit  n is the number of conductors in parallel per phase; DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study  L (km) is the length of the conductor;  U x is the voltage drop values by phase system, cross section and formation of the cable according to the most common Cos  0.85 value used for this calculation According to above equation, if the result calculated by I,b' satisfies the specification, the result calculated by I b is also satisfaction 5.2 Voltage Drop Of Starting Motor State The voltage drop is calculated in percentage of the rated nominal voltage The Calculation checks whether the voltage drop is within the required voltage drop tolerance, namely 5% of rated nominal voltage Voltage drop is defined by: ∆U(V) = √3 × I × n × L(R cos ∅ + X sin ∅) Where: R and X (_/km) are the resistance and reactance of a cable per kilometer; R apply for the cable resistance of 90℃ “n” (Starting Current/Normal Current ) and cos ∅ (Starting Power Factor ) is chosen according to the following table Motor Rating ＞25kW ＜25kW Starting Current/Normal Current 6 Starting Power Factor 0.4 0.3 Current Carrying Capacity The current-carrying capacity of cable is according to the following manufacturer data of document F4281-GEDI-P-ZP-0076-0 Specification document of Jiangsu Jiangyang Cable Co., Ltd which is issued in letter No DH1-DE-A3-E-13-5338 DH!-DE-A3-TD-E-0084 Technical Specification of Power Cables which is issued in letter No DH1-DE-A3-E-13-0189 DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study  k is a coefficient equal to: -2 for single phase two wires system; -√3 for three phase four wires system;  I b' (A) is the current drawn by the connected load considered to correction factors  For cable installed in cable tray Ib′ = k1 ∗ k ∗ k ∗ ICable Capacity k1: is the correction factor refer to IEC 60502-2 TABLE B10 k2: is the correction factor for adjacent cables, refer to Chinese Standard GB50217-2007 Table D.0.6, k3:  is the Assymetrical Factor For cable installed in conduct under ground Ib′ = k ∗ k ∗ k ∗ k ∗ k ∗ ICable Capacity k4: is the correction factor refer to IEC 60502-2, P64 TABLE B10 k5: is the correction factor refer to IEC 60502-2, P65 TABLE B13 k6: is the correction factor refer to IEC 60502-2, TABLE B.17 k7 is the correction factor refer to Chinese Standard GB50217-2007 Table D.0.6, I b is the current drawn by the connected load without consideration to correction factors Short Circuit Calculation The short circuit capacity of the cables are calculated based on the following: I = kxS/√𝐭 where t = Permissible break time after fault in seconds DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study S = Conductor cross section in mm2 I = Current on dead short circuit in A K = Constant.143 for XLPE- insulated copper wire DUYEN HAI THERMAL POWER PROJECT Cable Sizing and Cable Voltage Drop Study ATTACHMENT Table of Cable Sizing Calculation DUYEN HAI THERMAL POWER PLANT PROJECT Cable Sizing From(Source point) NO Load Information To(Destination point) Description Location Description Location Input Power(kW) Power factor (Rated) Power factor (Starting) Installed current carrying Capacity Correction factor KKS Identity of Cable Ur(V) Ib (A) Starting Current/Norm al Current Installed current/load current Cable Voltage Drop Steady state Cable Information Type of Installation K1 K2 K3 K4 K5 K6 K7 K Ib'(A) (%) Voltage (kV) Cable Construction Size of cable（mm2） Cable Capacity of 50 Degree (A) Cable Capacity of 30 Degree (A) L (km) n R(Ohm/km)at 20 Deg R(Ohm/km)at 90 Deg X(Ohm/km) ⊿Usc (%) Cable Voltage Drop Motor Starting ⊿Umc (%) Busbar Voltage Drop Steady state Busbar Voltage Drop Motor Starting Total Voltage Drop Steady state Total Voltage Drop Motor Starting ⊿Usb (%) ⊿Umb (%) ⊿Ust (%) ⊿Umt (%) Short circuit current Protection device Trip time Minimum cable size S= Io√t/k (thermal stability) （kArms） (second) （mm2） ABHI5211 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM CCW Pump House MCC CHLORINATION PLANT 130.75 0.85 0.4 400 222.03 In cable tray 0.91 0.6 0.97 / / / / 0.5296 300.45 135.32 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X240+1X120 465 567 0.336 0.0754 0.0961 0.0269 2.76 4.76 6.56 0.15 18 ABHI5212 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM CCW Pump House MCC CHLORINATION PLANT 130.76 0.85 0.4 400 222.04 In cable tray 0.91 0.6 0.97 / / / / 0.5296 300.45 135.31 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X240+1X120 465 567 0.336 0.0754 0.0961 0.0269 2.76 4.76 6.56 0.15 18 ABHI5221 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Workshop MCC WORKSHOP 150 0.85 0.4 400 254.71 In cable tray 0.91 0.6 0.97 / / / / 0.5296 255.22 100.20 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.099 0.0991 0.1264 0.0281 1.22 4.81 10 3.22 14.81 15.82 0.15 43 ABHI5222 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.099 0.0991 0.1264 0.0281 1.22 4.81 10 3.22 14.81 15.82 0.15 43 ABHI5223 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Workshop MCC WORKSHOP 150 0.85 0.4 400 254.71 In cable tray 0.91 0.6 0.97 / / / / 0.5296 255.22 100.20 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.099 0.0991 0.1264 0.0281 1.22 4.81 10 3.22 14.81 15.82 1.15 119 ABHI5311 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Hydrogen Generator Plant MCC HYDROGEN GENERATOR PLANT 92.5 0.85 0.4 400 157.07 In cable tray 0.91 0.6 0.97 / / / / 0.5296 222.92 141.92 0.6/1kV Cu/XLPE NH-YJV22-0.6/13X150+1X70 345 421 0.108 0.124 0.1581 0.0279 1.02 3.89 10 3.02 13.89 12.30 0.15 33 ABHI5312 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Hydrogen Generator Plant MCC HYDROGEN GENERATOR PLANT 92.6 0.85 0.4 400 157.24 In cable tray 0.91 0.6 0.97 / / / / 0.5296 222.92 141.77 0.6/1kV Cu/XLPE NH-YJV22-0.6/13X150+1X70 345 421 0.108 0.124 0.1581 0.0279 1.02 3.89 10 3.02 13.89 12.30 0.15 33 ABHI5321 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM CCW Chlorination house MCC CHLORINATION PLANT 85 0.85 0.4 400 144.34 In cable tray 0.91 0.6 0.97 / / / / 0.5296 255.22 176.82 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.336 0.0991 0.1264 0.0281 2.34 4.34 5.14 0.15 14 ABHI5322 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM CCW Chlorination house MCC Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.336 0.0991 0.1264 0.0281 2.34 4.34 5.14 0.15 14 10 ABHI5411 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Screen wash pump of CCW PUMP HOUSE control box CW PUMP HOUSE 132 0.85 0.4 400 11 ABHI5412 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Screen wash pump of CCW PUMP HOUSE control box CW PUMP HOUSE 132 0.85 0.4 400 12 ABHI5521 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Power Hydrogen Control System(一) HYDROGEN GENERATOR PLANT 10 0.85 0.3 13 ABHI5531 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Power Chlorination Control System(一) HYDROGEN GENERATOR PLANT 10 0.85 0.3 ABHI5541 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM #1 CCW Pump House Thermal Distribution Cabinet lant MCC CW PUMP HOUSE ABHI5551 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM Illumination for 400V Distribution Room COMMON SYSTEM DISTRIBUTION ROOM 10 0.85 0.3 16 ABHI5561 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM ventilation power for 400V Distribution Room COMMON SYSTEM DISTRIBUTION ROOM 15 0.85 0.3 400 17 ABHI5591 400/230V COMMON SYSTEM PC I A0BHI00 COMMON SYSTEM DISTRIBUTION ROOM CCWP house common 400V AC Thermal power supply cabinet CW PUMP HOUSE 10 0.85 0.3 400 18 ABHJ5211 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM CCW Pump House MCC CHLORINATION PLANT 130.725 0.85 0.4 400 19 ABHJ5212 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM CCW Pump House MCC CHLORINATION PLANT 130.726 0.85 0.4 400 ABHJ5221 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM 21 ABHJ5222 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Workshop MCC WORKSHOP 150 0.85 0.4 400 254.71 In cable tray 0.91 0.6 0.97 / / / / 0.5296 255.22 100.20 22 ABHJ5223 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Workshop MCC WORKSHOP 150 0.85 0.4 400 254.71 In cable tray 0.91 0.6 0.97 / / / / 0.5296 255.22 100.20 23 ABHJ5311 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Hydrogen Generator Plant MCC HYDROGEN GENERATOR PLANT 92.5 0.85 0.4 400 157.07 In cable tray 0.91 0.6 0.97 / / / / 0.5296 222.92 24 ABHJ5312 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Hydrogen Generator Plant MCC HYDROGEN GENERATOR PLANT 92.5 0.85 0.4 400 157.07 In cable tray 0.91 0.6 0.97 / / / / 0.5296 222.92 ABHJ5321 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM CCW Chlorination house MCC 26 ABHJ5322 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM CCW Chlorination house MCC CHLORINATION PLANT 85 0.85 0.4 400 144.34 In cable tray 0.91 0.6 0.97 / / / / 0.5296 255.22 176.82 27 ABHJ5521 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Power Hydrogen Control System(二) HYDROGEN GENERATOR PLANT 10 0.85 0.3 400 16.98 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 322.33 28 ABHJ5531 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Power Chlorination Control System(二) HYDROGEN GENERATOR PLANT 10 0.85 0.3 400 16.98 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 322.33 CW PUMP HOUSE 0.85 0.3 400 8.49 In cable tray 0.91 0.6 1.00 / / / / 0.5460 42.63 502.11 14 15 20 25 Workshop MCC WORKSHOP Workshop MCC CHLORINATION PLANT WORKSHOP CHLORINATION PLANT 150 85 10 150 85 0.85 0.85 0.85 0.85 0.85 0.4 0.4 0.3 0.4 0.4 400 400 0.97 0.91 0.99 1.00 0.6 0.5243 297.45 132.70 0.6/1kV Cu/XLPE 465 567 0.359 0.0754 0.0961 0.0269 2.98 4.98 6.16 0.15 17 0.97 0.91 0.99 1.00 0.6 0.5243 297.45 132.70 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X240+1X120 465 567 0.359 0.0754 0.0961 0.0269 2.98 4.98 6.16 0.15 17 400 16.98 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 322.33 0.6/1kV Cu/XLPE NH-YJV22-0.6/14X16 83 101 0.181 1.15 1.4664 0.0789 1.67 4.47 10 3.67 14.47 0.86 0.15 400 16.98 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 322.33 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.181 1.15 1.4664 0.0789 1.67 4.47 10 3.67 14.47 0.86 0.15 Cu/XLPE ZR-YJV22-0.6/14X50 165 201 0.585 0.387 0.4935 0.0313 1.82 4.93 10 3.82 14.93 0.79 0.15 Cu/XLPE ZR-YJV22-0.6/14X10 64 78 0.014 1.83 2.3334 0.0823 0.21 0.54 10 2.21 10.54 6.93 0.15 10 1.4664 0.0789 400 400 400 COMMON SYSTEM DISTRIBUTION ROOM ABHJ5542 COMMON SYSTEM DISTRIBUTION ROOM #2 CCW Pump House Thermal Distribution Cabinet lant MCC CW PUMP HOUSE 31 ABHJ5551 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Maintenance power for 400V Distribution Room COMMON SYSTEM DISTRIBUTION ROOM 30 0.85 0.4 400 32 ABHJ5571 400/230V COMMON SYSTEM PC II A0BHJ00 COMMON SYSTEM DISTRIBUTION ROOM Warehouse MCC WAREHOUSE 60 0.85 0.4 400 33 ABLX5131 34 ABLX5141 35 36 37 ABLX5151 ABLX5161 ABLX5162 0.3 400 176.82 In cable tray In cable tray and Conduit 25.47 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 214.89 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.014 1.15 0.19 0.52 10 2.19 10.52 10.79 0.15 16 16.98 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 108.81 640.78 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X50 165 201 0.585 0.387 0.4935 0.0313 1.82 4.93 10 3.82 14.93 0.79 0.15 221.98 In cable tray 0.91 0.6 0.97 / / / / 0.5296 300.45 135.35 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X240+1X120 465 567 0.342 0.0754 0.0961 0.0269 2.81 4.81 6.45 0.15 17 221.98 In cable tray 0.91 0.6 0.97 / / / / 0.5296 300.45 135.35 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X240+1X120 465 567 0.342 0.0754 0.0961 0.0269 2.81 4.81 6.45 0.15 17 Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.102 0.0991 0.1264 0.0281 1.25 4.95 10 3.25 14.95 15.43 0.15 42 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.102 0.0991 0.1264 0.0281 1.25 4.95 10 3.25 14.95 15.43 0.15 42 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 #REF! 0.0991 0.1264 0.0281 1.25 4.95 10 3.25 14.95 15.43 1.15 116 141.92 0.6/1kV Cu/XLPE NH-YJV22-0.6/13X150+1X70 345 421 0.138 0.124 0.1581 0.0279 1.30 4.97 10 3.30 14.97 9.83 0.15 27 141.92 0.6/1kV Cu/XLPE NH-YJV22-0.6/13X150+1X70 345 421 0.138 0.124 0.1581 0.0279 1.30 4.97 10 3.30 14.97 9.83 0.15 27 Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.342 0.124 0.1581 0.0279 2.96 4.11 0.15 11 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X185+1X95 395 482 0.342 0.124 0.1581 0.0279 2.96 4.11 0.15 11 0.6/1kV Cu/XLPE NH-YJV22-0.6/14X16 83 101 0.196 1.15 1.4664 0.0789 1.81 4.84 10 3.81 14.84 0.80 0.15 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.196 1.15 1.4664 0.0789 1.81 4.84 10 3.81 14.84 0.80 0.15 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X16 64 78 95.2576 1.15 1.4664 0.0789 1.98 3.98 0.37 0.15 Cu/XLPE ZR-YJV22-0.6/14X16 64 78 95.2576 1.15 1.4664 0.0789 1.98 3.98 0.37 0.15 254.71 144.34 8.49 6 In cable tray In cable tray / 0.91 0.91 0.91 / 0.6 0.6 0.6 1.00 0.97 0.97 1.00 0.91 / / / 0.99 / / / 1.00 / / / 0.6 / / / 0.5405 0.5296 0.5296 0.5460 106.61 627.84 0.6/1kV 16.98 0.5296 255.22 0.6/1kV / 400/230V COMMON SYSTEM PC II A0BHJ00 0.85 100.20 / / 0.5296 255.22 / / / 0.5296 / / / / In cable tray and Conduit / / / 0.97 / / 0.6 0.97 / 224.15 0.91 0.6 0.97 224.15 16.98 0.91 0.6 ZR-YJV22-0.6/13X240+1X120 400/230V COMMON SYSTEM PC II A0BHJ00 0.91 In cable tray ABHJ5541 30 In cable tray In cable tray and Conduit 400 144.34 6 #2 CCW Pump House Thermal Distribution Cabinet lant MCC 29 254.71 42.21 248.55 255.22 100.20 255.22 176.82 42.63 502.11 0.6/1kV 0.6/1kV 0.6/1kV 0.6/1kV 0.6/1kV 4.96 4.96 In cable tray 50.94 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 107.44 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.015 1.15 1.4664 0.0789 0.42 1.45 10 2.42 11.45 10.11 0.15 15 101.89 In cable tray 0.91 0.6 1.00 / / / / 0.5460 173.19 169.99 0.6/1kV Cu/XLPE ZR-YJV22-0.6/13X95+1X50 260 317 0.09 0.193 0.2461 0.0284 0.85 3.09 10 2.85 13.09 9.88 0.15 27 400/230V WAREHOUSE MCC A0BLX00 WAREHOUSE Maintenance power of warehouse WAREHOUSE 30 0.85 0.4 400 50.94 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 54.74 107.44 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.04 1.15 1.4664 0.0789 1.11 3.86 10 3.11 13.86 3.89 0.15 11 400/230V WAREHOUSE MCC A0BLX00 WAREHOUSE ventilation power of warehouse WAREHOUSE 20 0.85 0.3 400 33.96 In cable tray and Conduit / / 1.00 0.91 0.99 1.00 0.6 0.5405 42.21 124.27 0.6/1kV Cu/XLPE ZR-YJV22-0.6/14X10 64 78 0.04 1.83 2.3334 0.0823 1.17 3.06 10 3.17 13.06 2.46 0.15 400/230V WAREHOUSE MCC A0BLX00 WAREHOUSE Illumination of warehouse In cable tray and Conduit Cu/XLPE ZR-YJV22-0.6/14X10 64 78 0.04 1.83 2.3334 0.0823 0.88 2.30 10 2.88 12.30 2.46 0.15 400/230V WAREHOUSE MCC A0BLX00 In cable tray and Conduit Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.08 1.15 1.4664 0.0789 1.48 3.95 10 3.48 13.95 1.95 0.15 In cable tray and Conduit Cu/XLPE ZR-YJV22-0.6/14X16 83 101 0.02 1.15 1.4664 0.0789 1.85 4.94 10 3.85 14.94 1.56 0.15 lift of warehouse SWITCH BOX of WAREHOUSE 15 0.85 0.3 WAREHOUSE lift of warehouse SWITCH BOX WAREHOUSE 20 0.85 0.3 WAREHOUSE lift of warehouse WAREHOUSE 20 0.85 0.3 400 400 400 25.47 33.96 33.96 / / / / / / 1.00 1.00 1.00 0.91 0.91 0.91 0.99 0.99 0.99 1.00 1.00 1.00 0.6 0.6 0.6 0.5405 0.5405 0.5405 42.21 165.70 54.74 161.17 54.74 161.17 0.6/1kV 0.6/1kV 0.6/1kV