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Australian Solar Radiation Figures - Solar Power & Batteries

Australian Solar Radiation FiguresAustralian Solar Radiation FiguresBest Average PerformanceSeasonally AdjustedSun TrackingTiltPeak Sun Hrs / DayTiltPeak Sun Hrs / DayPeak Sun Hrs / DayLocationLongitudeLatitudeAngleBest MonthW orst MonthAngleBest MonthW orst MonthBest MonthW orst MonthDarwin NT12 25'S130 52'E20 Aug= 50 Aug= Qld16 54'S145 48'E20 Oct= 50 Oct= Creek WA18 14'S127 40'E25 Sep= 50 Jul= Qld19 18'S146 48'E25 Sep= 50 Sep= Creek NT19 36'S134 06'E25 Sep= 50 Sep= Hedland WA20 23'S118 37'E25 Oct= 50 Nov= Qld23 23'S150 29'E30 Oct= 50 Nov= Qld23 26'S144 16'E30 Sep= 50 Nov= Springs NT23 49'S133 54'E30 Mar= 50 Jan= Qld27 25'S153 05'E30 Jan= 50 Jan= NT27 34'S135 25'E30 Mar= 60 Dec= WA28 48'S114 47'E30 Dec= 60 Dec= WA30 47'S121 30'E30 Dec= 60 Dec= WA30 50'S128 07'E30 Jan= 60 Dec= WA31 56'S115 58'E30 Jan=

Australian Solar Radiation Figures Australian Solar Radiation Figures Best Average Performance Seasonally Adjusted Sun Tracking Tilt Peak Sun Hrs / Day Tilt Peak Sun Hrs / Day Peak Sun Hrs / Day Location Longitude Latitude Angle Best Month Worst Month Angle Best Month Worst Month Best Month Worst Month Darwin NT 12°25'S 130°52'E 20° Aug=7.22 …

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Transcription of Australian Solar Radiation Figures - Solar Power & Batteries

1 Australian Solar Radiation FiguresAustralian Solar Radiation FiguresBest Average PerformanceSeasonally AdjustedSun TrackingTiltPeak Sun Hrs / DayTiltPeak Sun Hrs / DayPeak Sun Hrs / DayLocationLongitudeLatitudeAngleBest MonthW orst MonthAngleBest MonthW orst MonthBest MonthW orst MonthDarwin NT12 25'S130 52'E20 Aug= 50 Aug= Qld16 54'S145 48'E20 Oct= 50 Oct= Creek WA18 14'S127 40'E25 Sep= 50 Jul= Qld19 18'S146 48'E25 Sep= 50 Sep= Creek NT19 36'S134 06'E25 Sep= 50 Sep= Hedland WA20 23'S118 37'E25 Oct= 50 Nov= Qld23 23'S150 29'E30 Oct= 50 Nov= Qld23 26'S144 16'E30 Sep= 50 Nov= Springs NT23 49'S133 54'E30 Mar= 50 Jan= Qld27 25'S153 05'E30 Jan= 50 Jan= NT27 34'S135 25'E30 Mar= 60 Dec= WA28 48'S114 47'E30 Dec= 60 Dec= WA30 47'S121 30'E30 Dec= 60 Dec= WA30 50'S128 07'E30 Jan= 60 Dec= WA31 56'S115 58'E30 Jan= 60 Dec= NSW32 48'S151 50'E35 Jan= 60 Dec= NSW33 56'S151 10'E35 Dec= 60 Dec= Vic34 15'S142 05'E35 Dec= 60 Dec= WA34 57'S117 48'E35 Jan= 60 Dec= SA34 58'S138 32'E35 Jan= 60 Jan= Wagga NSW35 15'S147 28'E35 Dec= 60 Dec= ACT35 19'S149 12'E35 Jan= 60 Jan= Gambier

2 SA37 45'S140 47'E35 Jan= 60 Jan= Vic37 50'S144 58'E35 Jan= 60 Jan= Vic37 53'S144 45'E35 Jan= 60 Jan= Sale Vic38 06'S147 06'E35 Jan= 60 Jan= Tas41 36'S147 12'E40 Feb= 65 Jan= Tas42 50'S147 30'E40 Jan= 70 Jan= from theAustralianSolarRadiation Handbook,April 1995 (Energy Research andDevelopmentCorporation).The above Solar radiationfigures(PeakSunHoursperday) do not take intoaccountsystemlossessuchastransmissio ncable, , trees etc or fromdustordirtaccumulatedonthe Solar Solar panelsarerequired for a 12V Power systemusing the above Solar Radiation Figures :NumberofSolarPanels = DailyAmpHours(ofloads) Peak Rating of Solar Panel (Watts) Peak SunHours per day (from above Table).

3 Battery Size = Daily AmpHours x 13 Theabovecalculationstakeintoaccountavera gecable,battery and inverter


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