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Wednesday, February 19, 2014

Gecko Rock Solar Electric PV Installation in September 2010

Gecko Rock 8 minute installation and learning video
(as at 19th February 2014, over 2,000 people have watched this video)
(I removed the video in June 2016, and put it back in December 2016)



Gecko Rock (Jonathan Deal) Interview 1 year later
(I removed the video in June 2016, and put it back in December 2016)



Videos filmed and edited by Antony Stone at Big Bang Stunts and Effects
The Team:

Designers: David Lipschitz and Peter Burden
Main Installer: Peter Burden
Metalwork: Designed and installed by Steven Mulder
Videos: Antony Stone

The Client:

Jonathan Deal at Gecko Rock

Specifications:
Overview
  • 1.6 kilowatt photovoltaic array with 24 Volt 675 Amp Hour battery bank and 1,200 watt inverter charger with generator backup
  • 8 kwh of battery backup
  • 8 kwh of average daily solar production from the photovoltaic array
  • Location: Gecko Rock, 25 km South South East of Touwsriver, Western Cape, South Africa
  • Solar Resource: approximately 5 average peak sun-hours
  • Photovoltaic Array Size: 1.62 kW (1,620 watts)
  • Nominal Voltage Batteries: 24 Volts
  • Nominal Voltage Array: 72 Volts
  • Array Voltage at Max Power: 108.6 Volts
  • Array DC Current at Max Power: 15 Amps
  • Battery Amp Hours: 675 Ah (amp hours) at 20-hour discharge rate. Multiplied by 24 Volts and allowing for a 50% maximum depth of discharge = 8.1 kWh in the batteries for overnight and overcast periods
  • Record Low Temperature: unknown; we have allowed for Minus 15 degrees Celsius (during day light (operating) hours)
  • Average Low Temperature: 2.2 degrees Celsius in July
  • Average High Temperature: 28.6 degrees Celsius in February
  • Average Daily Production: 8.1 kWh
  • Average Electricity Available after taking account of efficiencies (or inefficiencies): Allow 7% for inverter loss; 20% loss for battery charge/discharge from photovoltaic array; and 2% voltage drop on the cabling: 8.1 kwh * 0.93 & 0.8 * 0.98 = 5.9 kwh per day of usable electricity (daily average over the entire year)
PV System Components:
  • 9 Tenesol TE1700 at 24 Volt nominal: 180 Wp STC, 36.2 Vmp, 5 Imp, 44.4 Voc, 5.4 Isc (133.2 Volts open circuit for the array (at zero amps, i.e. first thing in the morning) and 16.2 Amps Short Circuit current for the array)
  • Array: 1 “string” of 3 “panels” with 3 “modules” in each panel. Total 9 Modules, 1,620 Watts total
  • Array installation: Dual-axis (manual) trackers designed by SolarSells, and enhanced, built and installed by Intricate Steel
  • Inverters: 1 x 24 Volt Victron 1200 Watt multi-plus Inverter/Charger allowing 24 Volt DC to 220 Volt AC conversion of electricity and allowing automatic synchronisation of a generator input into the system to supplement the batteries in the case of long cloudy periods
  • Solar Charge Controllers: 1 x 80 Amp Outback FM80 MPPT (maximum power point tracking) controller. The FM80 allows array sizes up to 2,000 Watts when charging at 24 Volts. The FM80 allows one to use a higher output voltage PV array with a lower voltage battery, such as charging a 24 VDC battery with a 72 VDC array. This reduces wire size (and cost) and power loss from the PV array to the battery/inverter location and maximises the performance of the PV system
  • Batteries: Deep Cycle: 12 x 6 Volt Trojan T105′s in 24 Volt nominal configuration, i.e. 3 banks (in parallel) of 4 batteries (in series) making 24 Volts nominal and 675 Amp Hours capacity. Each 6 volt battery weighs 28 kg making a total battery bank weight of 336 kg. We expect the batteries to last about 8 years with an average discharge of 20% and a maximum discharge of 50%. The batteries have a 2 year free replacement guarantee assuming they are looked after and “watered”, i.e. the battery de-ionised water is checked and filled as required. We can tell how the batteries have been used by looking at the information on the Victron Battery Status Monitor. The Trojan batteries are designed in the USA and assembled in Cape Town
  • Generator: 5 kw Honda
  • System performance metering: Victron Battery Status Monitor BM 600 for DC performance and battery monitoring; Efergy e2 Electricity Monitor for AC performance and historical AC kwh tracking
  • 2 Earth spikes and open earthing cabling allowing all metal work to be earthed. System and Equipment negative grounding. We have used USA NEC Article 690 rules as far as possible as there aren’t standards for PV systems in South Africa yet.
Update:
Subsequent to this original installation, Jonathan upgraded to 3 x 1.6 KW Victron Inverters giving 4.8 KW. He also upgraded his battery bank to 1125 AH at 24 Volts. Interestingly he discovered that he doesn't need to cook with gas anymore and that he can power his cooking with his microwave / convection oven. This provided an unexpected saving with the system.

3 comments:

  1. This comment has been removed by the author.

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  2. Very informative and worthy post. Thanks for the sharing such a precious updates with us.installers

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  3. Thanks for practical matters such as you talk about..sharing this information. I found it very informative as I have been researching a lot lately on
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