#3,033 in Health & Personal Care
Use arrows to jump to the previous/next product
Reddit mentions of Mighty Max Battery 12V 100AH Battery for Solar Wind DEEP Cycle VRLA 12V 24V 48V Brand Product
Sentiment score: 2
Reddit mentions: 3
We found 3 Reddit mentions of Mighty Max Battery 12V 100AH Battery for Solar Wind DEEP Cycle VRLA 12V 24V 48V Brand Product. Here are the top ones.
or
- ML100-12 SLA is a 12V 100AH group 30H Sealed Lead Acid (SLA) rechargeable maintenance free battery - UL Certified
- Dimensions: 12.09 inches x 6.65 inches x 8.48 inches. Listing is for the Battery and Screws only. No wire harness or mounting accessories included.
- SLA / AGM spill proof battery has a characteristic of high discharge rate, wide operating temperatures, long service life and deep discharge recover.
- Rechargeable battery that can be mounted in any position, resists shocks and vibration. Long lasting high performance in high and low temperatures.
- Backed by a 30 day refund policy and full 1 year warranty.
Features:
Specs:
| Size | 1 Count (Pack of 1) |
| Weight | 63.93 Pounds |
For solar:
currently running a rough equivalent of this and this
total comes in just over 1k and has nearly everything you need
Deep cycle batteries are available in the 90-100AH size (these look like car batteries but are maybe a bit bigger).
You probably need 4 of them (360-400AH). which would be around $200/battery. So not 3500 for batteries but more like 800?
(I used this battery as an example)
First, You need to add up all the energy youre going to use in an average day. This is critical and no one else can really do it for you.
Theres a couple of ways to do this. You can buy a kill-a-watt meter and plug a power strip into it and then run everything you would want to run in a day off of it. This is it on amazon It will tell you how many watts everything has used.
Or you can go to a solar calculator on the web.....type in all the things you will use and what their rated wattages are. If you dont know them you can find them ..usually...on a label on the back near the power supply of each appliance. Or just google and use the larger number of their examples. Type in their wattage and how long you will use them. This too will tell you how many watts youre likely to use during a day.
Second, you need to size your solar array and your battery bank.
Lets say in your calculations you find that you use 2000w a day (2kw) that would be about 60kw a month if you want to compare it with your electric bill (which is pretty low but not unrealistic since you arent using a/c or any large appliances). For solar panels the math is pretty simple. If you get 4 hours of direct sunshine you would need 500w of solar panels to get your 2000w for the day under ideal conditions and assuming no loss. (never plan for ideal conditions and never assume zero loss but you get the idea) If you think youre going to get 8 (youre not) then you just need 250w....and so on.
You will probably never achieve this, I would shoot for 60% more solar on the bus than you think need on paper. For this example I would do my best to get 750 to 800 watts of panels. It is fair complicated and very build specific to try and calculate how much loss you will incur in your wiring and in panel placement. Since you can only have two panels the simplest and most elegant solution is to just buy panels that cover as much of the space as you have left as possible.
Panels also are never as efficient as they are the first year. If you size perfectly this year in a year or two you will be undersized.
For batteries you have to consider amp hours. Watts are amps * volts. Batteries are usually 12 v. Lets continue our example that you use 2000w a day and want to have enough reserve power to cover a full day. 2000w at 12v is 167 amps. An amp hour is one amp or one hour. We can take our 167 amps and know that you need 167 amp hours because youre using it over time. Im oversimplifying but thats the smallest amp/hour rating that will suffice. A good rule of thumb is to never drain lead acid batteries below 50% so now you need a 330 amp hours battery bank at the minimum. As an example that means you would need between 3 and 4 of these For lithium ion I think its 80% so thats 210 amp hours of lithium ion.
Your battery will never be as good as it is the first week so in a year's time neither of these banks will provide enough reserve energy if you just do the minimum required right off the bat. You will have to overbuild to account for this or add later.
If you want to work backwards then its a little less elegant. Lets say your coffee maker is 5 amps but its rated at 110 V thats 550 watts. Lets assume you use it for 15 minutes so thats ~138 watt hours. Your inverter will need to draw (138 watts divided by 12 V) about 11.5 amp hours out of your battery. If you have a 100 ah battery bank, that gives you 50 ah effective use...that 15 minutes of coffee making just used over 20 percent of your battery.
Charging your house batteries off the alternator can be very simple. This is what I used Put a switch in the cab and run a wire to the small terminal. When the small pole is energized it will connect the two larger poles. Wire one pole to one battery bank and the other pole to the other battery bank, use thick wire for the large poles 2/0. When the small pole is not energized the two poles will not be connected. When you want one bank to charge the other bank turn your switch on. When you want one bank to not drain the other bank, turn your switch off.
Im partial to this brand but you may find a cheaper one.
There are dozens of gauges that will tell you your battery voltages. Here is one example if you have everything wired correctly when you flip your switch to connect your two battery banks you should see their voltages come together.