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Hi,
I am interested in building a remote telescope observatory somewhere outside of Phoenix, AZ. This observatory would need to be powered by solar since it's the only way to get electricity up in the mountains. The observatory structure would not be heated, so I am a little worried about the batteries in the winter. It's possible for the temperature to drop to 10F or lower in the winters, and I have seen that lead-acid batteries typically only have 60% of their rated capacity at that temperature. On top of that, batteries should not be discharged more than 60%, as that's where they will usually dip below their rated voltage and it can damage the batteries.
Given this, my question is how many amp-hours should I be looking for in a 12V battery bank? I estimate that my observatory structure will use 150W during the day on average and 250W during the nights on average. I think it's pretty safe to assume that means 200W on average throughout an entire day (4800 watt-hours, or 400Ah at 12V). Fortunately, all of my equipment can be powered with 12VDC so I don't need to run an inverter that would waste some power.
My planned circuit is: solar panels -> charge controller -> batteries -> comparator/mosfet cut-off switch -> 12VDC voltage regulator -> my equipment
I was told that I should decide on batteries before I decide on solar panels because the batteries are more important when it comes to actually powering my equipment. They're especially important because I won't have any sunlight when I'll be using the most power (at night). What do you all recommend I get for batteries given the extreme temperatures? I don't want to have to heat the batteries because that would probably use more power than its worth and at night I'll have the observatory roof open which will allow all the hot air to escape anyway. I'm looking to not spend too much money, but I understand that I'll probably be spending several thousand on the entire solar setup with batteries, panels, and a charge controller. Ideally, the batteries would require little to no maintenance because it may take several hours to drive to the observatory site and do anything.
Please ask any clarifying questions if I wasn't clear about something.
Thanks!
I am interested in building a remote telescope observatory somewhere outside of Phoenix, AZ. This observatory would need to be powered by solar since it's the only way to get electricity up in the mountains. The observatory structure would not be heated, so I am a little worried about the batteries in the winter. It's possible for the temperature to drop to 10F or lower in the winters, and I have seen that lead-acid batteries typically only have 60% of their rated capacity at that temperature. On top of that, batteries should not be discharged more than 60%, as that's where they will usually dip below their rated voltage and it can damage the batteries.
Given this, my question is how many amp-hours should I be looking for in a 12V battery bank? I estimate that my observatory structure will use 150W during the day on average and 250W during the nights on average. I think it's pretty safe to assume that means 200W on average throughout an entire day (4800 watt-hours, or 400Ah at 12V). Fortunately, all of my equipment can be powered with 12VDC so I don't need to run an inverter that would waste some power.
My planned circuit is: solar panels -> charge controller -> batteries -> comparator/mosfet cut-off switch -> 12VDC voltage regulator -> my equipment
I was told that I should decide on batteries before I decide on solar panels because the batteries are more important when it comes to actually powering my equipment. They're especially important because I won't have any sunlight when I'll be using the most power (at night). What do you all recommend I get for batteries given the extreme temperatures? I don't want to have to heat the batteries because that would probably use more power than its worth and at night I'll have the observatory roof open which will allow all the hot air to escape anyway. I'm looking to not spend too much money, but I understand that I'll probably be spending several thousand on the entire solar setup with batteries, panels, and a charge controller. Ideally, the batteries would require little to no maintenance because it may take several hours to drive to the observatory site and do anything.
Please ask any clarifying questions if I wasn't clear about something.
Thanks!
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