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Home My WebLink About13155.5D W. 40th AvenueCity Of W heat Rj'd�e COMMUNUTY DEVELOPMENT APPROVED Reviewed for Code Compliance 7 7; Plans Examiner Date valid ofpennit., The issuance of a permit or approval of plans spec4kownr and computations shaft not be o permit for, or an approval of, any motabon to any of the provisions of the building code or of a{V My ordinances. Permits presuming to gW outhorlty to violohe or cancel the pro isions of the YWldlay coda or other "nonan of the City shall not be vahat SITE POWER SCL WEST HOSPITAL SITE Encore Electric Em Available Fault Current Calculation ey dansakaek Ver. 4.00 Utility Fault Current 22,50 amperes kVA 300 E = 480 I = kVAx 1000 = trans. FLA trans. FLA = 361 E x 1.732 I..= trans. FLA x 100 361 _ transformer Z % Isca = ampere short-circuit current RMS symmetrical. Inca = 0 amperes Point to Point Method I Three Phase 480277 Length (distance) L =© Aluminum in Nonmetallic Race-- 1.732 x L x I (ASC) Inca = 22,500 V factor = N x C x E L-N # conductors per phase N = Phase conductor constant C = 21,391 Phase Conductor 500kcmi1 Volt Line to Line E L - L = 480 Volt f = 0.057 Neutral conductor constant C = 21,391 Neutral Conductor 500kcmil Multiplier Volt Line to Neutral E L - N = 277 Volt f = 0.114 M = 1 1 + f Line to Line M = 0.946 Line to Neutral M = 0.898 Fault Current at Service Equipment Iso. x M = fault current at terminals of main disconnect L- L = amperes Iso. x M = fault current at terminals of main disconnect L- N NEMIamperes Fault Current from MDSB TO COLO WIREWAY Aluminum in Nonmetallic Racew T Three Phase � Three Phase Feeder Length (distance) L = 150 1.732 x L x I (ASC) Isc, = 21,288 Phase 20,199 Neutral V factor = N x C x E L-N # conductors per phase N = 2 Phase conductor constant C = 12,862 Phase Conductor 250 kcmil Volt Line to Line E L - L = 480 Volt f = 0.448 Neutral conductor constant C = 12,862 Neutral Conductor F250 kcmil Volt Line to Neutral E L - N = 277 Volt Multiplier f = 0.850 M= 1 Line to Line M = 0.691 1 + f Line to Neutral M = 0.540 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = t amperes Calculation does not include motor contribution Fault Current from COLO WIREWAY TO 150KVA DISC (TYP 2) 1 Aluminum in Nonmetallic Racew y Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Three Phase L 50 Isca 14,70 Phase 14,701 Neutral C = 12,862 Phase Conductor 250kcmfl E L - L = 480 Volt f = 0.103 C = 12,862 Neutral Conductor250kcmfl E L - N = 277 Volt f = 0.206 M = 1 Line to Line M = 0.907 1 + f Line to Neutral M = 0.829 Iso. x M = fault current at terminals of the panel L- L = � amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from COLO DISC TO 150KVA (TYP OF 2) Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Acetal Raceway � Three Phase L 10 Isca 13,329 Phase 13,329 Neutral C = 15,081 Phase Conductor 4/0 E L - L = 480 Volt f = 0.032 C = 15,082 Neutral Conductor4/0 E L - N = 277 Volt f = 0.064 M = 1 Line to Line M = 0.969 1 + f Line to Neutral M = 0.940 Iso. x M = fault current at terminals of the panel L- L = ® amperes Iso. x M = fault current at terminals of the panel L- N = r amperes Calculation does not include motor contribution l A A J COLO 150KVA TO 400A PANEL (TYP OF 2) Bolted Fault Current: 12917 A Primary Voltage: 480 V Transformer kVA: 150 Secondary Voltage: 208 Transformer Impedance: 5 s.c.: 6508 AMPS Bolted Fault Current: 6508 A @ 208V Length (in ft.): 10 Cable per Phase: 2 Cable Size: 310 Cable Material: Copper Cable Type: 3 Single Conductors Conduit Type: Steel s.c.: 6347AMPS Bolted Fault Current: 6347 A 0_ 208V Fault Current from COLO 400A PANEL TO TRAILER (TYP OF 13) Copper in Nonmetallic Raceway Single Phase Feeder Length (distance) L Single Phase � 1001 1 2 x L x I (ASC) Isca = 6,34 Phase 6,30 Neutral 'f' factor - N X C X E L -N # conductors per phase N 1 Phase conductor constant C = 6,044 Phase Conductor 2 Volt Line to Line E L - L = 480 Volt f = 0.438 Neutral conductor constant C = 6,044 Neutral Conductor 2 Volt Line to Neutral E L -N — 277 Volt Multiplier f = 0.758 M = 1 Line to Line M0.696 1 + f Line to Neutral M = 0.569 Ise. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from MDSB TO SUB WIREWAY Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Aluminum in Nonmetallic Race. y Three Phase L = 250 Isca = 21,286 Phase 20,199 Neutral C 12,862 Phase Conductor 250kcmfl E L - L = 480 Volt f = 0.746 C = 12,862 Neutral Conductor250kcmfl E L - N = 277 Volt f = 1.417 M = 1 Line to Line M = 0.573 1 + f Line to Neutral M = 0.414 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from SUB WIREWAY TO 150KVA DISC (TYP 2) Aluminum in Nonmetallic Race. Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Three Phase L = 50 Isca = 12,189 Phase 12,189 Neutral C 12,862 Phase Conductor 250kcmil D- E L - L = 480 Volt f = 0.085 C = 12,862 Neutral Conductor250kcmil EL -N = 277 Volt f = 0.171 M = 1 Line to Line M = 0.921 1 + f Line to Neutral M = 0.854 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = 1 1 ' amperes Calculation does not include motor contribution Fault Current from SUB DISC TO 150KVA (TYP OF 2) Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Metal Raceway Three Phase L 10 Isca 11,229 Phase 11,229 Neutral IN C = 15,081 Phase Conductor 4/0 E L - L = 480 Volt f = 0.027 C = 15,082 Neutral Conductor4/0 EL -N = 277 Volt f = 0.054 M = 1 Line to Line M = 0.974 1 + f Line to Neutral M = 0.949 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N Em amperes Calculation does not include motor contribution SUB 150KVA TO 400A PANEL (TYP OF 2) Bolted Fault Current: 10935 A Primary Voltage: 480 V �J iYY1 Transformer kVA: 150 Secondary Voltage: 208 Transformer Impedance: 5 s.c.: 6261 AMPS Bolted Fault Current: 6261 A a 208V Length (in ft.): 10 Cable per Phase: 2 Cable Size: 310 Cable Material: Copper Cable Type: 3 Single Conductors Conduit Type: Steel s.c.: 6111 AMPS Bolted Fault Current: 6111 A Cm 208V Fault Current from SUB 400A PANEL TO TRAILER (TYP OF 12) 1 Copper in Nonmetallic Raceway Single Phase Feeder Length (distance) 'f' factor = 2 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral M = 1 Line to Line 1 + f Line to Neutral Single Phase L = 100 Isci = 6,111 Phase 6,111' Neutral C 6,044 Phase Conductor 2 E L - L = 480 Volt f = 0.421 C = 6,044 Neutral Conductor 2 EL -N = 277 Volt f 0.730 M =0.704 M 0.578 Iso. x M = fault current at terminals of the panel L- L Molly M1, amperes Iso. x M = fault current at terminals of the panel L- N MMFM amperes Calculation does not include motor contribution Fault Current from MDSB TO GARAGE WIREWAY Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral M = 1 Line to Line M 0.218 1 + f Line to Neutral M = 0.128 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Aluminum in Nonmetallic Race- - L = Three Phase 600 Isc, = 21,286 Phase 20,199 Neutral C 12,862 Phase Conductor 250 kcmil - E L - L = 480 Volt f = 3.583 C = 12,862 Neutral Conductor 250kcmil - E L - N = 277 Volt f =� 6.803 M = 1 Line to Line M 0.218 1 + f Line to Neutral M = 0.128 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from GARAGE WIREWAY TO TAP DISC (TYP 3) 1 Copper in Metal Raceway Three Phase Feeder Length (distance) L Three Phase � 51 1 1.732 x L x I (ASC) Isco - 4,646 Phase 4,641 Neutral 'f' factor = N x C x E L -N # conductors per phase N 1 Phase conductor constant C = 2,42 Phase Conductor 6 Volt Line to Line E L - L = 480 Volt Phase conductor constant f = 0.035 Neutral conductor constant C = 2,425 Neutral Conductor 6 Volt Line to Neutral E L - N = 277 Volt Multiplier f = 0.069 M = 1 Line to Line M =L 0.967 1 + f Line to Neutral M = 0.935 Iso. x M = fault current at terminals of the panel L- L = E L - N amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from GARAGE TAP DISC TO PDU 45KVA DISC (TYP) I Copper in Nonmetallic Raceway Length (distance) L Three Phase � = 1001 I Three Phase Feeder 1.732 x L x I (ASC) Isca = 4,490 Phase 4,490 Neutral 'f' factor = N x C x E L -N # conductors per phase N 1 Phase conductor constant C = 2,430 Phase Conductor 6 Volt Line to Line E L - L = 480 Volt f = 0.667 Neutral conductor constant C = 2,430 Neutral Conductor 6 Volt Line to Neutral E L - N = 277 Volt Multiplier f =� 1.334 M = 1 Line to Line M 0.600 1 + f Line to Neutral M = 0.428 Iso. x M = fault current at terminals of the panel L- L = � amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from GARAGE PDU DISC TO 45KVA (TYP) I Copper in Nonmetallic Raceway --i Three Phase Feeder Length (distance) 'f' factor : 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line Multiplier Neutral conductor constant Volt Line to Neutral M = 1 Line to Line 1 + f Line to Neutral Three Phase L = 10 Isca = 2,694 Phase 2,60 Neutral C = 2,430 Phase Conductor 6 E L - L = 480 Volt f = 0.040 C = 2,430 Neutral ConductorF6 E L - N = 277 Volt f = 0.080 M = 0.962 M = 0.926 Isca x M = fault current at terminals of the panel L- L = amperes Isca x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution GARAGE PDU 45KVA TO 150A PANEL (TYP) Bolted Fault Current: 2590 A Primary Voltage: 480 V �J 1 Transformer kVA: 45 Secondary Voltage: 208 Transformer Impedance: 5 s.c.: 1761 AMPS Bolted Fault Current: 1761 A @ 208V Length (in ft.): 10 Cable per Phase: 1 Cable Size: 110 Cable Material: Copper Cable Type: 3 Single Conductors Conduit Type: Steel s.c.: 1728 AM PS Bolted Fault Current: 1728 A a 208V Fault Current from MDSB TO PANEL H Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line Neutral conductor constant VO It Line to Neutral plier Copper in Metal Raceway Three Phase L = 15 Isca = 21,286 Phase 20,199 Neutral C 12,844 Phase Conductor i:0 —211 E L - L = 480 Volt f = 0.090 C12,844 Neutral Conductor 30 E L - N = 277 Volt f = M = 1 Line to Line M = 0.918 1 + f Line to Neutral M =` Iso. x M = fault current at terminals of the panel L- L = � amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from PANEL H TO LAYDOWN 75KVA DIS Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant VO It Line to Neutral C Aluminum in Nonmetallic Race. Three Phase L = 475 Isca = 19,536 Phase 19,53!3!1Neutral C = 5,831 Phase Conductor t0 E L - L = 480 Volt f = 5.735 C = 5,838 Neutral Conductor t;0 E L - N = 277 Volt f =011k.476 M = 1 Line to Line M = 0.148 1 + f Line to Neutral M = 0.080 Iso. x M = fault current at terminals of the panel L- L = r r amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from LAYDOWN DISC TO 75KVA DISC Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Nonmetallic Raceway Three Phase L 10 Isca 2,906 Phase 2,900 Neutral C 6,044 Phase Conductor 2 E L - L = 480 Volt f = 0.017 C = 6,044 Neutral Conductor F2 E L - N = 277 Volt f = 0.035 M = 1 Line to Line M = 0.983 1 + f Line to Neutral M = 0.967 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = r amperes Calculation does not include motor contribution LAYDOWN 75KVA TO 225A PANEL Bolted Fault Current: 2851 A Primary Voltage: 480 V Transformer kVA: 75 Secondary Voltage: 208 Transformer Impedance: 5 s.c.: 2549AMPS Bolted Fault Current: 2549 A A 208V Length (in ft.): 10 Cable per Phase: 1 Cable Size: 4.+0 Cable Material: Copper Cable Type: 3 Single Conductors Conduit Type: Steel s.c.: 2507AMPS Bolted Fault Current: 2507 A @ 208V Fault Current from LAYDOWN TRAILER FEED Single Phase Feeder Length (distance) 'f' factor = 2 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Nonmetallic Raceway Single Phase L 100 Isca 1,720 Phase 1,729 Neutral C 2,430 Phase Conductor 6 E L - L = 480 Volt f = 0.296 C = 2,430 Neutral Conductor F6 E L - N = 277 Volt f = 0.513 M = 1 Line to Line M = 0.771 1 + f Line to Neutral M = 0.661 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from PANEL H TO LAYDOWN PDU DISC Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Aluminum in Nonmetallic Racew Three Phase L = 475 Isca = 19,536 Phase 19,53!' Neutral C = 3,731 Phase Conductor 2 E L - L = 480 Volt f = 8.977 C = 3,730 Neutral Conductor F2 E L - N = 277 Volt f = 17.963 M = 1 Line to Line M = 0.100 1 + f Line to Neutral M = 0.053 Iso. x M = fault current at terminals of the panel L- L= ®amperes Iso. x M = fault current at terminals of the panel L- N = r r amperes Calculation does not include motor contribution Fault Current from LAYDOWN PDU DISC TO PDU Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line Neutral conductor constant Volt Line to Neutral plier Copper in Nonmetallic Raceway Three Phase L 100 Isca 1,956 Phase 1,950 Neutral C 2,430 Phase Conductor 6 E L - L = 480 Volt f = 0.291 C = 2,430 Neutral Conductor F6 E L - N = 277 Volt f = 0.582 M = 1 Line to Line M = 0.775 1 + f Line to Neutral M = 0.632 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from LAYDOWN PDU DISC TO 45KVA Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Acetal Raceway � Three Phase L 100 Isca 1,517 Phase 1,517 Neutral C 2,421 Phase Conductor 6 E L - L = 480 Volt f = 0.226 C = 2,425 Neutral Conductor F6 EL -N = 277 Volt f = 0.452 M = 1 Line to Line M = 0.816 1 + f Line to Neutral M = 0.689 Iso. x M = fault current at terminals of the panel L- L= ®amperes Iso. x M = fault current at terminals of the panel L- N = r amperes Calculation does not include motor contribution LAYDOWN PDU 45KVA TO 150A PANEL Bolted Fault Current: 1238 A Primary Voltage: 480 V Transformer kVA: 45 Secondary Voltage: 208 Transformer Impedance: 5 I s.c.: 1332AMPS Bolted Fault Current: 1332 A @ 208V Length (in ft.): 10 Cable per Phase: 1 Cable Size: 110 Cable Material: Copper Cable Type: 3 Single Conductors Conduit Type: Steel s.c.: 1313 AMPS Bolted Fault Current: 1313 A Q 208V Fault Current from MDSB TO XFMR CX -1 Three Phase Feeder T' factor - 1.732 x L x NxCxEL-N plier M= 1 1+f Length (distance) (ASC) # conductors per phase Phase conductor constant Volt Line to Line Neutral conductor constant Volt Line to Neutral Line to Line Line to Neutral Isco x M = fault current at terminals of the panel L- L = Iso. x M = fault current at terminals of the panel L- N = Copper in Metal Raceway Three Phase L = 25 Isco = 21,288 Phase 20,199 Neutral C 10,751 Phase Conductor 2.0 E L - L = 480 Volt f = 0.179 C = 10,755 Neutral Conductor 2%0 EL -N = 277 Volt f = 9 M =r 0.848 M =11L 0.747 Effnrim amperes 11Mamperes Calculation does not include motor contribution RI g ItJ H1:e \ fix, DPP\ Yet C 14 ■ NO I BoltedPmmar Fault Cement 18063A Primary Voltage: 480V i /�1 Transformer kVA: 112 5 1 6ecandaryVoltage: 208 jW hansfarmer Impedance: 5 1 e.c: 5431 AMPS Bolted Fau tCumenC W1 A @ 206V Length fn a.): 10 Cable per Phase: 2 Cable size: 3m Cable Material: copper Cable type: 3 single conductors Conduit Type: steel 1 e.c: 5318AMPS Bol@d Fau tCumenC 5316 A @ 206V BLDG POWER SCL WEST HOSPITAL BUILDING Encore Electric Em Available Fault Current Calculation ey dansakaek Ver. 4.00 Utility Fault Current 33,90 amperes kVA 1500 E = 480 I = kVAx 1000 = trans. FLA trans. FLA = 1804 E x 1.732 I..= trans. FLA x 100 1804 _ transformer Z % Isca = ampere short-circuit current RMS symmetrical. Inca = 0 amperes Point to Point Method I Three Phase 480277 Length (distance) L IAluminum in Nonmetallic Racew - 1.732 x L x I (ASC) Inca = 33,900 V factor = N x C x E L-N # conductors per phase N = Phase conductor constant C = 23,451 Phase Conductor 600 kcmil Volt Line to Line E L - L = 480 Volt f = 0.174 Neutral conductor constant C = 23,451 Neutral Conductor 600kcmil Multiplier Volt Line to Neutral E L - N = 277 Volt f = 0.348 M = 1 1 + f Line to Line M = 0.852 Line to Neutral M = 0.742 Fault Current at Service Equipment Iso. x M = fault current at terminals of main disconnect L- L = amperes Iso. x M = fault current at terminals of main disconnect L- N = t amperes ® Fault Current from MDSB TO DS-1 Aluminum in Nonmetallic Race" Three Phase � Three Phase Feeder Length (distance) L = 600 1.732 x L x I (ASC) Isc, = 28,879 Phase 25,156 Neutral V factor = N x C x E L-N # conductors per phase N = 3 Phase conductor constant C = 21,391 Phase Conductor 500 kcmil - Volt Line to Line E L - L = 480 Volt f = 0.974 Neutral conductor constant C = 21,391 Neutral Conductor F500 kcmil Volt Line to Neutral E L - N = 277 Volt Multiplier f = 1.698 M= 1 Line to Line M = 0.507 1 + f Line to Neutral M = 0.371 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from DS -1 TO MANLIFT Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line Neutral conductor constant Volt Line to Neutral plier Copper in Nonmetallic Raceway Three Phase L 200 Isca 1 4,62r Phase 14,62-7 Neutral C = 6,041 Phase Conductor 2 E L - L = 480 Volt f = 1.746 C = 6,044 Neutral Conductor F2 E L - N = 277 Volt f = 3.495 M = 1 Line to Line M = 0.364 1 + f Line to Neutral M = 0.222 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from MDSB TO DS -2 Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Aluminum in Nonmetallic Race. Three Phase L = 200 Isc, = 28,879 Phase 25,150 Neutral C 12,862 Phase Conductor 250kcmil E L - L = 480 Volt f = 0.810 C = 12,862 Neutral Conductor250kcmil E L - N = 277 Volt f = 1.412 M = 1 Line to Line M = 0.552 1 + f Line to Neutral M = 0.415 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N MUM amperes Calculation does not include motor contribution Fault Current from MDSB TO WEST WELDER Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant VO It Line to Neutral Aluminum in Nonmetallic Race. y Three Phase L 400 Isca 28,879 Phase 25,150 Neutral C = 16,811 Phase Conductor 350kcmfl E L - L = 480 Volt f = 2.479 C = 16,813 Neutral Conductor350kcmfl E L - N = 277 Volt f = 4.320 M = 1 Line to Line M = 0.287 1 + f Line to Neutral M = 0.188 Iso. x M = fault current at terminals of the panel L- L = I I amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from MDSB TO EAST WELDER Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant VO It Line to Neutral Aluminum in Nonmetallic Race. Three Phase L = 200 Isc, = 28,879 Phase 25,150 Neutral C = 16,811 Phase Conductor 35Okcmil E L - L = 480 Volt f = 1.240 C = 16,813 Neutral Conductor350kcmil E L - N = 277 Volt f = 2.160 M = 1 Line to Line M = 0.447 1 + f Line to Neutral M = 0.316 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from MDSB TO DS -3 Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Aluminum in Nonmetallic Racew y Three Phase L = 200 Isca = 28,879 Phase 25,150 Neutral C 12,862 Phase Conductor 250kcmil E L - L = 480 Volt f = 0.810 C = 12,862 Neutral Conductor250kcmil E L - N = 277 Volt f = 1.412 M = 1 Line to Line M = 0.552 1 + f Line to Neutral M = 0.415 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N MUM amperes Calculation does not include motor contribution Fault Current from PDU FEEDER (TYPICAL) Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Nonmetallic Raceway Three Phase L = 50 Isco = 15,951V Phase 15,95,' Neutral C 2,430 Phase Conductor 6 E L - L = 480 Volt f = 1.184 C = 2,430 Neutral Conductor F6 E L - N = 277 Volt f = 2.370 M = 1 Line to Line M = 0.458 1 + f Line to Neutral M = 0.297 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution Fault Current from PDU DISC TO 45KVA XFMR (TYPICAL) I Copper in Metal Raceway Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N X C X E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Three Phase L 10 Isca 7,30 Phase 7,30 Neutral C 2,421 Phase Conductor 6 E L - L = 480 Volt f = 0.109 C = 2,425 Neutral Conductor F6 E L - N = 277 Volt f = 0.217 M = 1 Line to Line M = 0.902 1 + f Line to Neutral M = 0.821 Iso. x M = fault current at terminals of the panel L- L = OWN M... amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution PDU 45KVA XFMR TO 150A PANEL (TYPICAL) Bolted Fault Current: 6588 A Primary Voltage: 480 V Transformer kVA: 45 Secondary Voltage: 208 Transformer Impedance: 5 I s.c.: 2145AMPS Bolted Fault Current: 2145 A @ 208V Length (in ft.): 10 Cable per Phase: 1 Cable Size: 110 Cable Material: Copper Cable Type: 3 Single Conductors Conduit Type: Steel I s.c.: 2096AMPS Bolted Fault Current: 2096 A @ 208V Fault Current from MDSB TO PANEL H Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Metal Raceway Three Phase L 15 Isca 28,879 Phase 25,150 Neutral C = 12,841 Phase Conductor 3/0 E L - L = 480 Volt f = 0.122 C = 12,844 Neutral Conductor3/0 E L - N = 277 Volt f = 0.212 M = 1 Line to Line M = 0.892 1 + f Line to Neutral M = 0.825 Iso. x M = fault current at terminals of the panel L- L = ® amperes Iso. x M = fault current at terminals of the panel L- N = r r amperes Calculation does not include motor contribution Fault Current from MDSB TO XFMR CX -1 Three Phase Feeder Length (distance) 'f' factor = 1.732 x L x I (ASC) N x C x E L -N # conductors per phase Phase conductor constant Volt Line to Line plier Neutral conductor constant Volt Line to Neutral Copper in Acetal Raceway Three Phase L = 25 Isc, = 28,879 Phase 25,150 Neutral C = 10,751 Phase Conductor F-0711 E L - L = 480 Volt f = 0.242 C = 10,755 Neutral Conductor 2/0 E L - N = 277 Volt f = 0.422 M = 1 Line to Line M = 0.805 1 + f Line to Neutral M = 0.703 Iso. x M = fault current at terminals of the panel L- L = amperes Iso. x M = fault current at terminals of the panel L- N = amperes Calculation does not include motor contribution %FMR C%-1 TO PANEL LL EdgePmma Fault Current 48: 23248 Primary Voltage: 4811 V Transformer kVA: 1125 Secandary Voltage: 208 Transformer Impedance: 5 1 e.c: 5594AMPS Bolted Fau tCumenC 5594 A @ 20gV Length fn a.): 10 Cable per Phase: 2 Cable size: sm Cable Material: Copper Cable type: a single conductors Conduit Type: sleet la.c: 5474AMPS Bol@d Fauh CumenC 5444 A @ 20gV (]1 PER NEC 24007(B)(5) THE PREPPED INSTANTANEOUS DELPHI OF 2.2 EOUATEB i0 A TRIP IN THE INSTANTANEOUS REGION SIGNIRCANTLLY BELOW ARCING FAULT CURRENTS OF BOTH MAXIMUM FAULT AND 1/2 MAXIMUM FAULT OONOPIONS. W kicatRZge APPROVED Rwm �7uwv .. Examm:r E.1. �vuaryu� ewwugmawq 30.00' WATER EASEMENT _ — STORMLINE (TYP.) ✓� 1 I!IIIiiiIIIIIIlAm SANITARY TWO-WAY i CLEANOUT ORE' PLUMBING FOR % CONTINUATION FIRE HYDRANT FIRE HYDRANT pONER EETER SANITARY SERVICE PROPOSED CUP FFE=5456.00 PROP, FIRELINE & 1 DOME5% SERVICE �I II RE: PLUMBING FOR £Xa&/77ST CASA 5' UTIL. £5MT. CONTINUATATION Irl r PER PLAT Il REC.. J2019067637 PROPOSED HOSPITAL PROP. FIRELINE & FFE=5456.00 OMESTIC SERVICE EXIST STORM RE PLUMBING FOR CONTINI ATATION Il l 1111 rllEl HYDRANT `SANITARY TWO—WAY CLEANOUT~ FIRE HYDRANT 4 JILDING SITE PLAN 35 mu� 1 ENV" I 1 � _ J1 all �IIINEE �l�nE� ■imnn ung O OJ SANITARY SERVICE LINE _ ....� SANITARY TWO—WAY PROP. STORM LINE (TYP.) I CLEANOUT = rt I RE: PLUMBING FOR �lLl `JJJyIIIIII —I v CONTINUATION '. STORM PROP. SANITARY FIRE HYDRANT TOLE(TYP.) S SEWER LINE I LJ u_v I I I I I I I I I I I I I U soe PROP, WATER IMAN M 111 111 WATER � LNler -5 - - SST EX/ST. STORM SEW£l PO'NER GERIER — ' — T— — )O' UTLL. ESMT L I TO' &TIL. E5MT. SITE PLAN �� ImBNR n a.. a.. w... POKER & TELLING 00 130 130 MANUELI 100 1 100 100 12034 1200 4 3500 FAR AL 425D AL 3. MORA BUG 3 FOR 403 PUG 2 �/0 p3 ON 1103 4234 400 2 3250 KCM AL XI A 223A 225 1 2 AL 233 202 1 32 0 OF R4 Du 2. EGA, 2DD 1 3-250 K 173 iso 1 s -pyo c u cU 1-1/a 100 1 tS 3 A 100 1 93 90 133-pz cu pa cu 1-1/4- 03 00 1 3-#6 CU #10 CBd' 63A 50 1 3-A2 a Rs ON 3/d' 535 45 1 3 #6 CU J10 CU SO CORD '• 804 ADD 3 4-300 FOG CU #1/0 ED 7. OAL 3_3 2. PAPA ADD 2 4-250 KCM AL OF 1 I!IIIiiiIIIIIIlAm SANITARY TWO-WAY i CLEANOUT ORE' PLUMBING FOR % CONTINUATION FIRE HYDRANT FIRE HYDRANT pONER EETER SANITARY SERVICE PROPOSED CUP FFE=5456.00 PROP, FIRELINE & 1 DOME5% SERVICE �I II RE: PLUMBING FOR £Xa&/77ST CASA 5' UTIL. £5MT. CONTINUATATION Irl r PER PLAT Il REC.. J2019067637 PROPOSED HOSPITAL PROP. FIRELINE & FFE=5456.00 OMESTIC SERVICE EXIST STORM RE PLUMBING FOR CONTINI ATATION Il l 1111 rllEl HYDRANT `SANITARY TWO—WAY CLEANOUT~ FIRE HYDRANT 4 JILDING SITE PLAN 35 mu� 1 ENV" I 1 � _ J1 all �IIINEE �l�nE� ■imnn ung O OJ SANITARY SERVICE LINE _ ....� SANITARY TWO—WAY PROP. STORM LINE (TYP.) I CLEANOUT = rt I RE: PLUMBING FOR �lLl `JJJyIIIIII —I v CONTINUATION '. STORM PROP. SANITARY FIRE HYDRANT TOLE(TYP.) S SEWER LINE I LJ u_v I I I I I I I I I I I I I U soe PROP, WATER IMAN M 111 111 WATER � LNler -5 - - SST EX/ST. STORM SEW£l PO'NER GERIER — ' — T— — )O' UTLL. ESMT L I TO' &TIL. E5MT. SITE PLAN �� ImBNR n a.. a.. w... POKER & TELLING 00 130 130 MANUELI 100 1 100 100 1 450 1 450 450 LL FIE I 111141 S HanIn 1 327 1 — 1103 FBI PIKE— r- - ----" -- --_ ---_ -- --_ - -I- - _ - - - - - , II II II ----------------- L.- - 7V 4w _L._ — — — — — — — — — — -- — — — — — — — ----- -------JII ImBNR n a.. a.. w... POKER & TELLING 00 130 130 e 741 741 741 A�rr!� LL FIE I TOTAL MRS ERW) 871 871 — — — — — — — '• -• - -• j L FBI PIKE— r- - ----" -- --_ ---_ -- --_ - -I- - _ - - - - - , II II II ----------------- L.- - 7V 4w _L._ — — — — — — — — — — -- — — — — — — — ----- -------JII ImBNR n a.. a.. w... POKER & TELLING 00 130 130 e 741 741 741 A�rr!� LL FIE I TOTAL MRS ERW) 871 871 — — — — — — — '• -• - -• FBI PIKE— r- - ----" -- --_ ---_ -- --_ - -I- - _ - - - - - , II II II ----------------- L.- - 7V 4w _L._ — — — — — — — — — — -- — — — — — — — ----- -------JII ILET a JIB FRII e TRAILER DETAIL SITE POWER �� Y� b6Y Y 0 6Y W by 66Y Y Y Y I — —--------------------- ------ LEJ ImBNR n a.. a.. w... POKER & TELLING 00 130 130 e 741 741 741 A�rr!� TOTAL MRS ERW) 871 871 UIAL EVA /24 ILET a JIB FRII e TRAILER DETAIL SITE POWER �� Y� b6Y Y 0 6Y W by 66Y Y Y Y I — —--------------------- ------ LEJ FOR mm 11 E 111 BI GIfiLIRE EMO Panlunom ENIEr Ml EFD 1111 e e- A�rr!� FOR mm 11 E 111 BI GIfiLIRE EMO Panlunom ENIEr Ml EFD 1111 3 4 3 1 j 3 UTILITY NOTES: BENCHMARK SUBJECT TO CHANGE / / /y / • .1 1 .{ - 1. THE CONTRACTOR SHALL VERIFY ELEVATIONS OF EXER14G UTILITIES PRIOR TO CONSTRUCTION. NOTIFY BASIS OF ELEVATION BASED ON NGS CONTROL POINT 'F 412'ENCI EER OF ANY CONFLICTS., A STAINLESS STEL 2, ALL DIIXNG AND PROPOSED MPNNOLES, VAULTS, VALVE BOXES, WWD-XOLFS, ETC., SMALL BE ADJUSTED TO ROD AT THE IMERSECPON OF HIPUNG STREET AND WEST 32ND AVENUE WITH A PENDING JURISDICTIONAL APPROVAL NAVDSB ELEVATION OF 5,562.74 FEET. 'r 412' IS A FIRST ORDER, SECOND GLAss • / / \ 't PIR BED GRADES. CONTROL PoINT.Q THE CONTRACTOR TO COORDINATE IRILIIlES AT GUIDING WITH PLUMBING PLANS NOTIFY ENGINEER OF ANY DISCREPANCIES. BASIS OF BEARINGS EXlsnn PROPOSED 4. ERIMLEVATIONS. MINAS. THE SHOWN ON THESE PLANS ME APPROXIMATE ONLY AND ARE NOT TO RI TAKEN AS FINAL ELEVATIONS. THE PIPFIINE CONTRACTOR SWJE USE PRECAST CONCRETE ADJUSTMENT RINGS TO MUST THE BEARINGS ARE BASED ON THE CITY OF "NEAT RIDGE BEARING OF N0191'48'W _--_ PROPERTY UNE ---- / MANHOLE FRAME AND COVER TO THE REQUIRED FINAL GRADE THE PIPELINE CONTRACTOR MAY NEED TO ALONG THE EASTERLY LINE OF THE NORTHWEST QUARTER OF SECTION 30, GQ /L REMOVE AND REPLACE THE PRECAST CONE SECTION SUCH THAT THERE E NO MORE THAN EIGHTEEN (18) TOWNSHIP 3 SOUTH. RANGE 69 WEST OF THE SIXTH PRINCIPAL MERIDIAN AND PoONT-0F-WAY TINE 'q, / } �"{ INCHES FROM FINISHED GRADE TO THE TOP OF THE MANHOLE CONE SECTION. BEING MONUMENTED BY A FOUND 3-1/4" BRASS DISH IN RANGE BOX PLS /13212 5. STORM SEWER SHALL BE INSTALLED PER CITY OF WHEATRIDGE STANDAPDS @ SPECIFICATIONS. AT THE EAST QUARTER CORNER NAD A FOUND 3-/14- BRASS CAP PLS x13212 A SECTION LINE 6. STATIONING AND COORDINATES ARE BASED ON CENTER OF MANHOLES. CLEANOUT AND AREA INLET. STATIONING 200 FOOT WITNESS CORNER SOUTH OF THE NORTHEAST CORNER. - - - - _- A, AND COORDINATES FOR CURB INLETS ME BASED ON CENTER OF CURB INLET AT FLOWUNE THEREFORE, EASEMENT / ♦ `// DISTANCES SHOWN ON PLANS ME APPROXIMATE AND COULD VARY DUE TO VERTICAL ALIGNMENT AND STRUCTURE WIDTHS. RETNNNG WALL \ �- 7. ALL STORM INLETS SHALL BE TYPE 16 COMBINATION INLETS UNLESS OTHERWISE NOTED. ALL RCP STORM SEWER PIPES TO BE CLASS III WITH WATERTIGHT GASKETED JOINTS PER ASTM CM3. CURB 8 CUTTER 9. STORM SEWER 12' OR SMALLER SHALL BE SDR -35 PVC WTH WATERTIGHT GASKETED JOINTS. 10. MANHOLE CONES SHALL BE ALIGNED TO PROVIDE A MINIMUM OF THREE FEET 3' CLEARANCE BLTWEEN THE B UTILITY CROSSING MANHOLE RING AND THE LIP OF GUTTER WHERE POSSIBLE MANHOLE COVERS SHAT BE PLACED ABOVE ' \MANHOLE STEPS. STORM SEWER �ST- .i 11. NO TREES SWILL BE PLANTED WITHIN TEN 10' FELT OF ANY NEW STORM SEWER PIPES. 0 5 �y PROPERTY LINE 12. ALL MANHOLES TO BE CONCENTRIC CONES UNLESS OTHERWISE NOTED. pp - -- STORM MANHOLE 13. REFER TO GRADING PLANS FOR MANHOLE INLETS @ VALVE ADJUSTMENTS. OUy p1 1 2 -BUSINESS DAYS M ADVANCE ROOF DRAIN 110 74. T0C' ELEVATIONS FOR INLET' REPRESENT TOP OF CURB ELEVATIONS AT CENTER OF BOY 15. ALL AREA INLETS TO BE 24' NYLOPLAST UNLESS NOTED OTHERWISE. BEFORE YOU OIG. GRADE OR EXCAVATE FOR STORM INLET S ✓-" 16. POR ALL CROSSING LESS THAN 18' REFER TO UTILITY PROVIDER/LOCAL JURISDICTION FOR PROPER NAHIONG OF uMIDFRGROUND MEMBER UlllllES 11� ENCASEMENT PROCEDURES. MARTIN/ ASSUMES NO RESPONSIBILITY FOR UTILITY FLARED END SECTION 1� 17. THE PIPELINE CONTACTOR SHALL USE PRECAST CONCRETE ADJUSMENT RINGS TO ADJUST THE ARMHOLE LOCATIONS. THE UTILTIES SHOWN ON THIS DRAWING HAVE BEEN p FRAME AND COVER TO REQUIRED FINAL GRADE THE PIPELINE CONTRACTOR MAY NEED TO REMOVED AND PLOTTED FROM (PROVIDED) ASCE (38) VIILDY QUALITY LEVEL D SANITARY SEMEN a4 REPLACE THE PRECAST MANHOLE CONE SECTION SUCH THAT THERE IS NO MORE THAN EIGHTEEN (18) INCHES (qr) AVNIABLE INFORMATION. T S, HOWEVER, THE CONTRACTORS ® SWTMY MANHOLE 0 - FROM FINISHED GRADE TO THE TOP OF THE MANHOLE CONE SECTION. RESPONSIBILITY TO FIELD VERIFY THE SIZE, MATERIA, HORRONTA 1 E , 18. THE CONTRACTOR SMALL FOLLOW THE RECOMMENDATIONS OF THE GEOTECHNICAL REPORT BY KUMAR AND AND VERTICAL LOCATION OF A- UTILITIES (DEPICTED OR NOT CLEAN OUT 1 .T_ II ASSOCATFS, DATED 12/28/2020. DEPICTED) PRIOR TO THE COMMENCEMENT OF ANY CONSTRUCTION. TSA -7 Plez f 19 SEE SANITARY PLANS FOR SANTMY SEWER DESIGN. SEE WATER PLANS FOR WATER LINE DESIGN.WATER LINE a l - 9' , I 8200.. SEE COVER SHEETS FOR ADDITIONAL NOTES AND LEGEND. Encore b plax I Y I I i = 4 12.SOLF IB' \ ® WATER YATE O Framer -3x2 plex ` _ RLP O 0.507. }} L� - F FIRE NYDRNIF }. I 1enL-CeaevNrk Double IL-=-' LOEK GffLN T ' .2.48'00.5 or '--)-». - \\ y JR - Single SX4D * - �` , - I Oxmr. E7/fRGREEN C[EAR _ TY� YdRCURB DOUBLE` PROPERTY LINE IL WRIER METER Conlmis- Single? -- • I __ _ ._ s . -_ c CRETA' CROS MG APAR1AYEM5 _ - FI.S5451.77 W iWIOD? _ - _IR_ _ _ _ RISCARON UNE -IR- DRAWTub i SubconWacler (sldMateAas) yl,< moa, rThne Con 3yl IL I.. Conferen �(AuguM _ TimeWmne) - I _I E _I Temp)(od E TTansfbmer(sel 611) I 1 II BM -H 7ylex OIIce I I I s-7 (August J BMAHCL ISA --------- _ _ 7XA55/iE .-.. IRVG7HMV _INV OUTS. .14 j ) I a _ IRRIGATION CONTROL (] 1 _ _ _ CHE_ _ _ _ EIECTPoC 706472.09 100072.70 �. - t' INLETTVPE AR-CUTHB Od11BLE - - �" -: � - _=• '� - \. �N� - f FL=545265 -. ` ELECTRIC LINE .S { INV.IN(S)=5448 15 I f0STRM _ EL 5452.•9 L - UGM POLE I� t < '. INV.OUT(N)=544815 Y AI - �I I• N: 0642319 is' )�INVJN(S)=5"798 - _ 30.00 PRUP ��'1 E:10007331% - INVJN(N)-5448.08 -� '( POWER PDE / DRAINAGE ESMT. - "r MY.OUT =5"7b8 ELECTRIC METER 44:7 1.31 i F4xemen ROOF DRAIN E100073.33 ROOF DRNNCANOPY DRAIN �. .?`j TELEPHONE LINE T (June 1)38x8U ; i.� J. Ln f: ROOF DRAIN .\ :., 1 2',` TELEPHONE PEDESTAL Q I CABUETV -ry- + mereDor ROOF DRAIN _ G _ _ _ __ GAS LME .. emp 1 '!i CANOPY GRAIN .�W _ _ _ SIGN i 30.00' PROP. DRNNACE ESEIT MONITOR WELL Survey 8x20 \� l la beiler(June 1) o - a GRN£ DESCRIPTIONS DAVE Taleb ss 1 ROP 2Xr g) ESMT • - CANOPY DRAIN'- CONNEXAREA Tdela for �. I TSA -6X 8x40 FoundaOonsl I II_� �Encwe-3z 6x40 Framer -2x 8x40 FNure Werk I I ROOF OPAIN'-`1. 60 30 0 60 120 iii I JII � � SCALE: 1'^60 441 OMEN d4EN5NN5 ARE IN U5. SURVEY iFET DWh ROOF DRAIN, O I PROPERTY LINE A y m W m 00 6 4 4 T PROP STORM s � �SEN£R STUB y -I { . FUTURE MOB 4 q f !' FFE=5454.50 PROPOSED i PARKING GARAGE .. FFE=5453.00 20110 PRa !TRPIFNCE F_SNI._ 70.00' EX/Si. DRAINAGE ESMT, ' I ROOF DRAIN F)2 E HDR Amhl hn 1670 Bmedley Sul 3400 D D-, 00 80202 J�A MARTINIMARTIN arr,aD MwnxnamlE NrnN •mlaAaso SCL Health Lutheran Medical Center Replacement Hospital 12881 W. 40th Ave Wheat Ridge, Colorado 80401 11 SCL Health P Hoe P -1 -De ,e HIM 9 PROPOSED HOSPITAL .W--R� 11 FFE=5456.00 PROPOSED CUP"{ `1 `' Cit Of MARK DATE CANOPY DRAIN OElDRpTpx FFE=5456.00 1 W heat Ride - COMMUNrTY DEVELOPMENT ROOF DRAIN-,--��' APPROVED q ROOF DRAIN / '° Reviewed for Code Compliance \ ROOF DRAM _. f � �� , 7Z/ ZoZ/ .. -{ Prtlr NOGr ulWrlm4 Af _� Plans Examiner Date J I 1 + t Vaud of . The issuance of o permit or gpproa! vof pians specipcowns 15.00' PROP. 4 ; , I ORAI .,E�Eswrr_ _ �Lr and CVmputabvns shale not be o permit for, or an applovat of, only Wolobon OD any of the provisions of the btjiWk)g code or of a(V My ordinmces. Permits presuming to gw outhortty to Woloft or cancel the prw awns of the suftg codes or other ordtnorimof the City sholi not be vaNd 1AIN11 OMN4'Nll !�� e � -.F{� ' � _-<. _. -•�, Dor xem STORM OVERALL PLAN 1 2 2 a,rN.IW., C501 PsI.- IOOX Ded9n Daelapmea 1Me°kw"� 4 7 aha I I I UJ NAGE. - I IT I I I i t • I T Required ED-TOMOB constru. I - PROPERTY LINE A y m W m 00 6 4 4 T PROP STORM s � �SEN£R STUB y -I { . FUTURE MOB 4 q f !' FFE=5454.50 PROPOSED i PARKING GARAGE .. FFE=5453.00 20110 PRa !TRPIFNCE F_SNI._ 70.00' EX/Si. DRAINAGE ESMT, ' I ROOF DRAIN F)2 E HDR Amhl hn 1670 Bmedley Sul 3400 D D-, 00 80202 J�A MARTINIMARTIN arr,aD MwnxnamlE NrnN •mlaAaso SCL Health Lutheran Medical Center Replacement Hospital 12881 W. 40th Ave Wheat Ridge, Colorado 80401 11 SCL Health P Hoe P -1 -De ,e HIM 9 PROPOSED HOSPITAL .W--R� 11 FFE=5456.00 PROPOSED CUP"{ `1 `' Cit Of MARK DATE CANOPY DRAIN OElDRpTpx FFE=5456.00 1 W heat Ride - COMMUNrTY DEVELOPMENT ROOF DRAIN-,--��' APPROVED q ROOF DRAIN / '° Reviewed for Code Compliance \ ROOF DRAM _. f � �� , 7Z/ ZoZ/ .. -{ Prtlr NOGr ulWrlm4 Af _� Plans Examiner Date J I 1 + t Vaud of . The issuance of o permit or gpproa! vof pians specipcowns 15.00' PROP. 4 ; , I ORAI .,E�Eswrr_ _ �Lr and CVmputabvns shale not be o permit for, or an applovat of, only Wolobon OD any of the provisions of the btjiWk)g code or of a(V My ordinmces. Permits presuming to gw outhortty to Woloft or cancel the prw awns of the suftg codes or other ordtnorimof the City sholi not be vaNd 1AIN11 OMN4'Nll !�� e � -.F{� ' � _-<. _. -•�, Dor xem STORM OVERALL PLAN 1 2 2 a,rN.IW., C501 PsI.- IOOX Ded9n Daelapmea