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System Summary Report <br />SEPCO <br />Solar Electric Power Company <br />1521 SE Palm Court <br />Stuart, Florida 34994 <br />Site Summary <br />Site Name: <br />Array <br />Lat: <br />38.5 deg N <br />Array Tilt: <br />45 deg S <br />Comments: <br />NREL 23232 <br />Load Summary <br />Design Load: <br />30.4 Ah/day @ <br />System Summary <br />PV Module <br />Type: SEPA550 <br />Voc: 3 4 .0 <br />Isc: 20.00 <br />Battery Cell <br />Model: <br />Cell Ah (@C/100) <br />Unit Volts: <br />Rated Power.• <br />Vtyp: <br />Ityp: <br />Array /Load Ratio Analysis <br />Month <br />Array <br />Avg <br />Contractor: <br />LENZI 50LAR <br />LENZI INCORPORATED <br />CSLB #1007527 <br />847 N. CLUFF AVE, SUITE B I <br />LODI, CA 95240 <br />(209) 224-5950 <br />www, lenzlcon5tructlonand5olar,com <br />Project: <br />SOLAR LIGHT POLE <br />3222 COLLIER RD, EAST <br />ACAMPO CA 95220 <br />7.0 <br />6.0 <br />5.0 <br />4.0 <br />3.0 <br />2.0 <br />1.0 <br />0.0 <br />Phone:772-220-6615 <br />Fax: 772-220-8616 <br />LOCatIOn: SACRAMENTO, CA, USA <br />Long: 121.5 deg W Elev: 8 m <br />Azm: 0 deg Tracking <br />24 VDC system voltage <br />PV Array <br />275 # of Modules: <br />2 <br />32.0 Rated Pwr: <br />20.00 Rated Volts: <br />Battery Bank <br /># of Cells: <br />Rated Ah: <br />Rated kW. <br />.00 <br />550 W (p) <br />24 <br /># in Series: <br /># in Parallel: <br /># in Series: <br /># in Parallel: <br />Rated Days: <br />CA, Acampo Magnolia Lane Entry <br />SEPCO- SEPA550-QM-VPR54IV5K-MPPT21 <br />The roadway lighting is specified with a 54 Watt SolarViper with strike optics that provides 5921 lumens <br />and Mounting Height of 30' with a type IV distribution for intersection lighting. The fixture operates at <br />12VDC to be solar ready with our solar power system. The Third Party IES test lab provided the files used <br />2 in the lighting plan. <br />1 We pulled up the closest recording station for sun power which calculates hours of sun in various <br />locations around the world. Acampo's closest recording sun is Stockton, CA with 2.68 avg December sun <br />hours and 13.58 longest night hours. NSOL <br />12 We then calculate the battery that will be needed to run this light all night with a min of 7 days of <br />2 autonomous storage. The 54 -Watt fixture draws 4.5 amps x 13.58 -night hours pulls a total of 61.11 amps <br />7.37 per night out of the battery x 7 days of autonomy would require 427 A.H. This allows us to fill up and <br />deplete the battery within its required depth of discharge without over discharging. <br />System <br />Array System Total Battery Array/ Avg LOLP <br />Output Losses Load Storage Load BSOC <br />(Ah/day) (%) (Ah/day) (days) Ratio (%) (%) <br />59.5 0 30.4 6.93 1.96 95.6 0.00 <br />86.0 0 28.9 7.90 2.98 97.2 0.00 <br />101.1 0 27.3 7.87 3.70 97.5 0.00 <br />117.8 0 25.8 8.42 9.56 96.9 0.00 <br />126.9 0 29.3 9.07 5.20 97.2 0.00 <br />130.0 0 22.8 9.77 5.71 97.9 0.00 <br />132.6 0 22.8 9.82 5.82 97.9 0.00 <br />130.8 0 24.3 9.20 5.38 97.2 0.00 <br />126.0 0 25.8 8.62 9.88 97.0 0.00 <br />106.5 0 27.3 8.09 3.89 97.8 0.00 <br />73.8 0 28.9 7.95 2.56 96.8 0.00 <br />59.7 0 30.4 6.93 1.80 95.0 0.00 <br />ALR and Load By Month ALR -Mmm= Ld/Dsgn -o- <br />Mar Apr May Jun Jul Aug Sep Oct Nov Dec <br />The solar modules we use are 275 -Watt modules that we put into multiples to be our SEPA550 Array, This <br />array produces 40 amps per hour of sun power. The system needs to be able to put 20% or more into the <br />battery for a stable design then it is taking out per night of 61.11 amps. The 40 -amp panel obtains that <br />amount of power in 2.67 Sun hours 40 x 2.67 = 106.8 in December this panel can put back into the battery <br />system 106.8 amps showing good system design. The next lower panel is our SEPA300 that produces <br />22.2 which would only put back into the designs 59.27 making the system take out more then it produces <br />per day, so this shows we should use the 550 for a good system design. <br />Contractor: <br />LENZI 50LAR <br />LENZI INCORPORATED <br />CSLB #1007527 <br />847 N. CLUFF AVE, SUITE B I <br />LODI, CA 95240 <br />(209) 224-5950 <br />www, lenzlcon5tructlonand5olar,com <br />Project: <br />SOLAR LIGHT POLE <br />3222 COLLIER RD, EAST <br />ACAMPO CA 95220 <br />Phone:772-220-6615 <br />Fax: 772-220-8616 <br />LOCatIOn: SACRAMENTO, CA, USA <br />Long: 121.5 deg W Elev: 8 m <br />Azm: 0 deg Tracking <br />24 VDC system voltage <br />PV Array <br />275 # of Modules: <br />2 <br />32.0 Rated Pwr: <br />20.00 Rated Volts: <br />Battery Bank <br /># of Cells: <br />Rated Ah: <br />Rated kW. <br />.00 <br />550 W (p) <br />24 <br /># in Series: <br /># in Parallel: <br /># in Series: <br /># in Parallel: <br />Rated Days: <br />CA, Acampo Magnolia Lane Entry <br />SEPCO- SEPA550-QM-VPR54IV5K-MPPT21 <br />The roadway lighting is specified with a 54 Watt SolarViper with strike optics that provides 5921 lumens <br />and Mounting Height of 30' with a type IV distribution for intersection lighting. The fixture operates at <br />12VDC to be solar ready with our solar power system. The Third Party IES test lab provided the files used <br />2 in the lighting plan. <br />1 We pulled up the closest recording station for sun power which calculates hours of sun in various <br />locations around the world. Acampo's closest recording sun is Stockton, CA with 2.68 avg December sun <br />hours and 13.58 longest night hours. NSOL <br />12 We then calculate the battery that will be needed to run this light all night with a min of 7 days of <br />2 autonomous storage. The 54 -Watt fixture draws 4.5 amps x 13.58 -night hours pulls a total of 61.11 amps <br />7.37 per night out of the battery x 7 days of autonomy would require 427 A.H. This allows us to fill up and <br />deplete the battery within its required depth of discharge without over discharging. <br />System <br />Array System Total Battery Array/ Avg LOLP <br />Output Losses Load Storage Load BSOC <br />(Ah/day) (%) (Ah/day) (days) Ratio (%) (%) <br />59.5 0 30.4 6.93 1.96 95.6 0.00 <br />86.0 0 28.9 7.90 2.98 97.2 0.00 <br />101.1 0 27.3 7.87 3.70 97.5 0.00 <br />117.8 0 25.8 8.42 9.56 96.9 0.00 <br />126.9 0 29.3 9.07 5.20 97.2 0.00 <br />130.0 0 22.8 9.77 5.71 97.9 0.00 <br />132.6 0 22.8 9.82 5.82 97.9 0.00 <br />130.8 0 24.3 9.20 5.38 97.2 0.00 <br />126.0 0 25.8 8.62 9.88 97.0 0.00 <br />106.5 0 27.3 8.09 3.89 97.8 0.00 <br />73.8 0 28.9 7.95 2.56 96.8 0.00 <br />59.7 0 30.4 6.93 1.80 95.0 0.00 <br />ALR and Load By Month ALR -Mmm= Ld/Dsgn -o- <br />Mar Apr May Jun Jul Aug Sep Oct Nov Dec <br />The solar modules we use are 275 -Watt modules that we put into multiples to be our SEPA550 Array, This <br />array produces 40 amps per hour of sun power. The system needs to be able to put 20% or more into the <br />battery for a stable design then it is taking out per night of 61.11 amps. The 40 -amp panel obtains that <br />amount of power in 2.67 Sun hours 40 x 2.67 = 106.8 in December this panel can put back into the battery <br />system 106.8 amps showing good system design. The next lower panel is our SEPA300 that produces <br />22.2 which would only put back into the designs 59.27 making the system take out more then it produces <br />per day, so this shows we should use the 550 for a good system design. <br />Contractor: <br />LENZI 50LAR <br />LENZI INCORPORATED <br />CSLB #1007527 <br />847 N. CLUFF AVE, SUITE B I <br />LODI, CA 95240 <br />(209) 224-5950 <br />www, lenzlcon5tructlonand5olar,com <br />Project: <br />SOLAR LIGHT POLE <br />3222 COLLIER RD, EAST <br />ACAMPO CA 95220 <br />Project DCta115: <br />PV ARRAY: 550 W <br />BATTERY BANK: 224 Ah, 5.4 kW <br />REVISIONS <br />DESCRIPTION <br />DATE <br />REV <br />PERMIT SET <br />12/31/2019 <br />A <br />Sheet T1tle: <br />SYSTEM SUMMARY <br />REPORT <br />Sheet Number: <br />D I .0 <br />Sheet Slze: <br />ANSI B- 17 x I I" <br />DESIGN DRAFTING BY: JJJ <br />AARON CARDWELLG�. <br />SepiSolar. <br />POWER DV DESIGN <br />Reviewed Approved by: <br />CM <br />