I been living offgrid (third time in my life) for the last year and a half in Australia- this is a 'temporary' setup to supply power to my shed and caravan- only 3kw of panels (1.5kw north, 1.5kw west) feeding 10kwh of LYP batteries (half my future house bank) and a 8kw 12v inverter (stayed with 12v for this as I already had the inverter and also the caravans lights, fans, tv and waterpumps for the sink and shower are 12v)
Once the house is built, then the rest of the panels (18kw in total, 72 secondhand ex gridtie panels- 6kw facing east, 6kw facing north and 6kw facing west on the roof) feeding a 20kwh (16x 400ahr LYP lithium battery bank ie 48v) and a 12kw LF inverter
Even my current 3kw is (just) adequate, even in winter- I run 2 laptops (1 24/7), bigscreen TV plus the little 22cm in the vans bedroom, fridge, cook on electric stove and microwave, griller and air-frier, a string of battery chargers for the tools for the house- I try and do all my cooking before sunset- I can easily run smaller stuff like the microwave and the airfrier etc off the batteries, but prefer not to do so (can even use the LPG stove in the van at a pinch, but I am still on the same 9kg bottle I bought a year and a half ago)
The thing is to go for high voltage series strings with quality MPPT inverters- mine will actually start charging (very small amounts, but still charging) BEFORE the sun is even up- by that I mean I am getting pulses about once a second of 1/4A into the bank when no part of the sun is even visible above the horizon yet, just the 'dayglow' of the sky lightening to blue...
This shows the effectiveness of a decent high voltage array coupled with high voltage input MPPT controllers....
In any case, unless it is for a shortterm project- forget about any of the Lead/Acid type batteries- long term, LYP lithium cells are better value for money, and to all and intents, basically maintenance free- fully sealed and all I do is once every few months, clean the dust off them... In terms of performance and value for money, L/A might be cheaper initially, but the lithium ones I selected will last me over 20 years, and allow me to use 3/4 of their rated capacity while doing so
This is something that causes a LOT of offgrid failures- with L/A- only half the rated ahr written on them is actually available unless you want a VERY short lifespan ie few months, and to get up to the 1500-1800 cycles, you can only use 10-15% of their rated capacity- ie you need to buy ten times more than you 'calculate' your needs to be to get that 1500 cycles... Mine are rated at more than 7000(!!!) cycles at 70% DOD ie I overrate the calculated capacity by 30% to achieve those 7000 cycles/20 years...
Suddenly those L/A don't look so cheap.... lots more of them and replaced far more often...
Home sweet home- temporarily...
