System design

I think I can be of some help to you, having had to deal with trying to build an off-grid PV system in the desert of Northern Mexico. I have tried Lead acid batteries and frankly found them to be too sensitive and problematic for hot climates. As the temperatures go above 28 C the lead acid batteries lose 30 to 40% of their capacity, especially difficult at 35 to 40 C. That same problem of high temperatures affects the output of the solar panels, reducing their wattage by the same or similar amount. The alternative I chose was to use Nickel-Iron (NiFe) or Edison batteries. These batteries are available from China and India and shipped directly to your country. A check through Alibaba.com will give you a number of manufacturers. I chose Ciyi.com in Zhuhai, not far from Hong Kong. The Nife batteries I chose are 1.2 v/battery at 1200AH capacity. Thus a bank of 10 1.2 v batteries produces 14,400 watts at average 12v. The batteries are very safe, use distilled water to replenish the alkaline electrolyte, will last more than 50 years before replacing the electrolyte, and are very efficient at high temperatures. They are also large, very heavy, and very tolerant of inexperienced users. It is very hard to damage them. They cost about $528/battery. My shipping cost for 10 was $280 US to Mexico. The 10 batteries I bought have been in service for 1 year, 8 months, and have been flawless. They charge to about 16.1 volts and can be discharged to 0.0v and will come back time after time perfectly. Managing the NiFe batteries is different from Lead Acid or LI-iOn: They require adjustments in the Inverter to tolerate a higher voltage than from Lead acid or Li-ion batteries.

But going off-grid is much much more than just choosing the right equipment, Off-grid is a life-style change that necessitates thinking what it is that is important to you. Running two mini-splits, a refrigerator and a chest freezer is going to require about 10kwh/day of real power, and lighting and electronics, pumps, and power tools another 2 kwh/day. Switching to 12v lighting, eg. LED bulbs, upgrading to newer more efficient appliances, etc. Learning to manage power consumption, day and night is all a part of off-grid living.

I think I can be of some help to you, having had to deal with trying to build an off-grid PV system in the desert of Northern Mexico. I have tried Lead acid batteries and frankly found them to be too sensitive and problematic for hot climates. As the temperatures go above 28 C the lead acid batteries lose 30 to 40% of their capacity, especially difficult at 35 to 40 C. That same problem of high temperatures affects the output of the solar panels, reducing their wattage by the same or similar amount. The alternative I chose was to use Nickel-Iron (NiFe) or Edison batteries. These batteries are available from China and India and shipped directly to your country. A check through Alibaba.com will give you a number of manufacturers. I chose Ciyi.com in Zhuhai, not far from Hong Kong. The Nife batteries I chose are 1.2 v/battery at 1200AH capacity. Thus a bank of 10 1.2 v batteries produces 14,400 watts at average 12v. The batteries are very safe, use distilled water to replenish the alkaline electrolyte, will last more than 50 years before replacing the electrolyte, and are very efficient at high temperatures. They are also large, very heavy, and very tolerant of inexperienced users. It is very hard to damage them. They cost about $528/battery. My shipping cost for 10 was $280 US to Mexico. The 10 batteries I bought have been in service for 1 year, 8 months, and have been flawless. They charge to about 16.1 volts and can be discharged to 0.0v and will come back time after time perfectly. Managing the NiFe batteries is different from Lead Acid or LI-iOn: They require adjustments in the Inverter to tolerate a higher voltage than from Lead acid or Li-ion batteries.

But going off-grid is much much more than just choosing the right equipment, Off-grid is a life-style change that necessitates thinking what it is that is important to you. Running two mini-splits, a refrigerator and a chest freezer is going to require about 10kwh/day of real power, and lighting and electronics, pumps, and power tools another 2 kwh/day. Switching to 12v lighting, eg. LED bulbs, upgrading to newer more efficient appliances, etc. Learning to manage power consumption, day and night is all a part of off-grid living.

You ,max2k, didn't provide any rebuttal to Mike's response to your comment when he found some of your statements to be completely false. .

I think you got the wrong guy. max2k 's posts are fine (and welcome), r00t is who posted the problematic information.

He will also be 'really disgusted' if some information posted on an internet forum he paid nothing to access is not completely accurate. He is seeking expert advices on this internet forum.

you used wrong font

@Diallodjeri: if you were still waiting for response it would've helped if you accurately reviewed post #11 in this very thread instead of trying to attack anyone personally however wrong they might be. I'm not sure there will be a lot of takers after such outburst as the experts on this forum are not getting paid for answering questions so you might want to adjust your attitude accordingly and let mods monitor the content.

Hey Max: lighten up.
1.) It was mistaken identity.
2.) Mods got it covered.
3.) Besides, r00t looks like a crank.

@Max2k: ​​​​​​I do apologize for the names mixed-up, otherwise my attitude is just fine. Like I said, we're here to seek an expert's advice not the advice from sales man.

Thanks.