SOLAR STREET LIGHTING 20W (100Wp / 12VDC / 33Ah)

SOLAR STREET LIGHTING 20W (100Wp / 12VDC / 33Ah)

DESCRIPTION

SOLAR LIGHT 20W (2100LM) 100 Wp / 12V / 33AH (C20) / 20W

The Street Light 20W (2100Lm) includes the following materials:

QUANTITY DESCRIPTION
2 pcs.   DAQO DQ50P (Poly-Si) Photovoltaic Panel 50Wp (Polycrystalline)

1 pc.      EPSOLAR TRACER 1210RN MPPT 10A 12V / 24V photovoltaic charge regulator, Maximum Input voltage: 100V.

1 pc.      UNIBAT GENERAL USE AGM 12V 33AH (VRLA) General purpose closed AGM battery
The UNIBAT General Use AGM series of batteries is manufactured with the latest technology in AGRL VRLA batteries.
(600 cycles at 50% Discharge Depth – 1000 cycles at 30% Discharge Depth)

1 pc.      RECYCLING COST

1 Pairs. MC4 CONNECTORS (MALE – FEMALE)

2 m.      SOLAR CABLE 4 MM²

2 pcs.   CORRESPONDER KOS 4 MMD Φ6

2 pcs.   LED projector with LED SMD 10W 12VDC & 24VDC 4000k 1050Lm ALUMINUM WATERPROOF IP65

1 pc.    WATERPROOF BOX 30 X 40

1 pc.    HAGER 1P 10Χ38 32A CYLINDRICAL CASE

2 pcs. CARTRIDGE 10 × 38, 600VDC -12 A

1 SET  MICROLIKA

1 Set   BASE SUPPORT OF AUTONOMOUS LIGHTING HEIGHT 3M.

OBSERVATIONS

The system has been calculated not to be shaded by natural or artificial obstacles. In the event of shading, there will be a significant reduction in system performance and will need to be re-dimensioned according to the new data.
The materials have a guarantee only with their documents.
IS NOT INCLUDED*

Shipping costs
The cost of installing street lighting.
Additional Electrical Material (Fuses, Cables, DC – AC Panel, Rail Material, MC4 etc)

CONSUMPTION PROFILE

This system is able to cover for all months of the year and for 7 days a week the following loads:

QUANTITY CONSUMPTION HOURS HOURS / DAY DAYS / WEEKS TOTAL. VALID DAILY CONSUMPTION M.O.
2 pcs. Lighting 10 W 7.00 Hours 7.0 Days 20 W 140.0 Wh 140.0 Wh

The total energy needs of the lighting are estimated at 140 Wh / day.

** On sunny summer days during the day and if our batteries are fully charged, we can make additional use of the above to utilize the excess energy produced.

Autonomy efficiency with average daily consumption (140 Wh)

PERFORMANCE OF AUTONOMOUS HYBRID SYSTEM

This system is capable of meeting, estimated, average energy needs up to 160 Wh per day, ie continuous lighting from 7 hours (winter) to 12 hours (summer)

The average autonomy of the system is estimated at 2.8 days with an average annual load loss rate <4%. Specifically, the inability to meet energy demand is focused on the months of November to February, when there may be days when the system will not be able to meet the above needs, due to low sunshine and prolonged cloudy skies.

NOTES

ATTENTION: The PV panels must “look” to the South, any other orientation will have a reduction in the efficiency of the system.