What could you reasonably run with 2 6v batts tied together and 370watts of panels?
I feel like I could run more if I put in an inverter.
- I have an AC mini fridge that draws Power: 85 W/1.3 A. If I add an inverter... could I reasonably run this 24/7?
- What about the 5000 BTU ac? 500 to 650 watts I saw a guy run one off 250 watts solar panel I guess also connected to a batt? That doesn't seem right.
- How big an inverter would I need to run the AC and the Fridge? Or just one or the other? I came up with 300w for the fridge.
- How long could I run the AC off the batts? or is this totally nuts.
- Would the batts get hot and explode?
- Why do people use temp sensors on batts? Do I need one?
Thanks so much!
Comments
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just to give you example a 5000 btu air conditioner runs around 500 watts, if you use a 12 volt inverter that close to 40 amps and hour to run it. if your 2 battery's are like mine they are rated at 235 amp hours minus 50% so you dont kill your battery's you can use about 115 amp hours, so you can run the air conditioner for only 2 hours600 watts of solar panels,Epever 30 mppt , 2 PWHR12500W4FR battery's in 24 volt setup
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The panels need to be large enough to power the air conditioner and charge the battery all the way up during the day.
So no, a 370w of solar will likely not be nearly enough. Ideally the battery only charges during the day and the panels can handle all the loads and charge the battery all the way up.
How big is the battery?
That panel is likely just big enough to power the fridge by its self, assuming you have enough battery power.
To power an air conditioner you need more like 1.5 to 2kw of panels minimum and a lot of batteries.
Solar hybrid gasoline generator, 7kw gas, 180 watts of solar, Morningstar 15 amp MPPT, group 31 AGM, 900 watt kisae inverter.
Solar roof top GMC suburban, a normal 3/4 ton suburban with 180 watts of panels on the roof and 10 amp genasun MPPT, 2000w samlex pure sine wave inverter, 12v gast and ARB air compressors.
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Two 6 volt batteries mean nothing and can not be used by itself to determine how much capacity such batteries have to run anything.
What is the amp hour rating on them? Are they deepcycle or marine or starter batteries?
What is your other power consumption in watts hours besides the intended AC and/or fridge.
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Thanks folks! Yea, AC sounds crazy as I suspected. I have not bought the batteries yet. I was going to go with Costco Golf carts. Somewhere I wrote down 225AH... it's been awhile.
So, yea, forget the AC.
Is there any hope for the fridge? Power: 85 W/1.3 A.
Let me put it another way. If I wanted to run that fridge 24/7 what would you suggest? I'll add the extras later....
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That 200+ amp hour batteries and a big panel should be able to power a fridge all the time and have some additional power.
Solar hybrid gasoline generator, 7kw gas, 180 watts of solar, Morningstar 15 amp MPPT, group 31 AGM, 900 watt kisae inverter.
Solar roof top GMC suburban, a normal 3/4 ton suburban with 180 watts of panels on the roof and 10 amp genasun MPPT, 2000w samlex pure sine wave inverter, 12v gast and ARB air compressors.
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Bass-O-Matic said:Is there any hope for the fridge? Power: 85 W/1.3 A.
A pair of golfcart batteries stores 225 ah X 12 volts = 2700 watthours. The less of that you use each day, the longer the battery will last.
You can probably run the fridge on those batteries for a day without ruining them... but it depends on the duty cycle which depends on ambient temp and how often you open and close the door and how much warm food you put in it.
--vtMaps
4 X 235watt Samsung, Midnite ePanel, Outback VFX3524 FM60 & mate, 4 Interstate L16, trimetric, Honda eu2000i -
Thanks again! I think I'll put in inverter on the fridge with the understanding that I'll only use batteries for a few hours at a time... when the ice block runs out... only in an emergency.... if food is actually going to rot... I'll even drink warm beer...
how big an inverter? I heard 3x the watts. so 300? Then I heard more from some other source. -
oh, and do I need pure sine for a fridge? I would think not but what do I know.
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You need to get a watt meter and do a power assement . Do it right the first time. It will save you money .Off grid since 1984. 430w of panel, 300w suresine , 4 gc batteries 12v system, Rogue mpt3024 charge controller , air breeze windmill, Mikita 2400w generator . Added 2@ 100w panel with a midnight brat
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You need to get a watt meter and do a power assement . Do it right the first time. It willOff grid since 1984. 430w of panel, 300w suresine , 4 gc batteries 12v system, Rogue mpt3024 charge controller , air breeze windmill, Mikita 2400w generator . Added 2@ 100w panel with a midnight brat
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Fridges run smoother, cooler and more efficiently with pure sine. As for the size of the inverter... maybe 1000 watts... no guarantees.
Don't forget that a large inverter has tare (self consumption) losses. My inverter uses 20 watts just being turned on (not bad for a 3500 watt inverter). Over a day's time that's 480 watthours... just a bit less than my fridge uses in the summer.
In your system, a conventional fridge becomes a defining load. That one load forces a number of design decisions that you wouldn't otherwise make. One possibility is to get a variable speed compressor fridge. They come in AC and DC models... the DC ones need no inverter. The AC ones do not have high startup surges and will work with a small inverter.
Variable speed compressor fridges are more efficient... it's better to run a compressor at 1/3 speed all the time, than to run it at full speed for 1/3 of the time.
--vtMaps
4 X 235watt Samsung, Midnite ePanel, Outback VFX3524 FM60 & mate, 4 Interstate L16, trimetric, Honda eu2000i -
I'll get a watt meter. Great suggestions. We can check them out from the library here! I would consider a more energy efficient fridge except I am going for some design considerations. the one I have has a glass door with stainless steel. It's really a beverage cooler but I'm modding it to be colder. I'm sure it will NOT be efficient. Putting it on solar is just an emergency use measure to impress my wife.
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2 things you may want to look into dc fridges and the other is looking into making your system at least 24 volts. it will help running them bigger appliances600 watts of solar panels,Epever 30 mppt , 2 PWHR12500W4FR battery's in 24 volt setup
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A kill-a-watt meter from a hardware store will tell you howm much power stuff uses.
Get a pure sine wave inverter. Those cheap modified sine inverters are garbage.
Normally we size battery systems to power the load for 2 to 4 days.
Solar hybrid gasoline generator, 7kw gas, 180 watts of solar, Morningstar 15 amp MPPT, group 31 AGM, 900 watt kisae inverter.
Solar roof top GMC suburban, a normal 3/4 ton suburban with 180 watts of panels on the roof and 10 amp genasun MPPT, 2000w samlex pure sine wave inverter, 12v gast and ARB air compressors.
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Saw a guy last year in AL, claimed to run his 13.5kbtu A/C for about 3 hours. Don't know about his battery bank but the solar was two 6 X 8 feet arrays. Say 8 panels per array and he could tilt them.
With the new camper we just bought my two 100 watt panels take about 6 hours of sun to keep up with the fans, two led lights, and the water pump. Battery bank is unknown beyond it's 2 - grp 27's labeled D27DC - 160. Best guess is they may be 95 Ah each.
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Hey! Me again! I finally built the trailer. I got a killawat and the only thing I care about running is a 2.6 CU inch Magic chef Mini fridge rated at 65 watts. Killawat says it's drawing only 300 watts at startup and 50 watts when running. Can that be right? If so, I ended up with a measly 170 watts of solar... mounted flat and two 6volt Costco golf cart batts wired to make 12v. So,,, can I get a 300min 600max watt pure sinewave inverter and run the fridge? if so, any recomendations? I don't trust amazon. Thanks!
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I didn't think Kill-A-Watt measure startup, is this the new version? If it does only draw 300 watts on start up you should be able to run it on 600 watts pure sine inverter. BUT understand that with 170 watts of panels you will only produce about 75% during the summer with sun directly over head and less during the winter when sun is low on the horizon.
Figure you are producing 120 watts and you have average 4 hours (that is going to be generous this time of year with flat mounted panels unless you are on the equator. You can produce 4 hour x 120 watts for 500 watt hours and your fridge uses 50 watts per hour while running. Add your inverter using 10-12 watts an hour and if you are running off battery you will lose 20% storing the energy. You aren't left with much to run the fridge.Home system 4000 watt (Evergreen) array standing, with 2 Midnite Classic Lites, Midnite E-panel, Magnum MS4024, Prosine 1800(now backup) and Exeltech 1100(former backup...lol), 660 ah 24v Forklift battery(now 10 years old). Off grid for 20 years (if I include 8 months on a bicycle).
- Assorted other systems, pieces and to many panels in the closet to not do more projects. -
Oh. That doesn't sound too good. Well, For a weekend campout what do you think would happen if I put a small block of dry ice in the freezer tray of that Fridge? Crazy? I wonder if it would be TOO cold for the metal/plastic? I wonder if it would raise the CO2 levels in the camper to you know... bad?
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Hmmm... well, with many caveats. http://www.dryicecorp.com/uncategorized/how-to-use-dry-ice-during-a-power-outage/
Well, if I had a 600 watt pure sine wave ( I assume you mean minimum with a max of 1200 or so ) I could at least run the fridge for a few hours while we traveled to our next AC Plug eh? -
Well, sort of. You will get a maximum of 2.0 hours run time, before you start seriously damaging your batteries. After about 3 hours, you've done major damage to them. Note, as long as you do your driving between 11am and 1pm during the summer/late spring/early fall*, you will use almost zero of your battery power, so you would be able to go for 4.0 hours, without harming your batteries. Honestly though, it would make a ton more sense to just remove the food from the fridge, and put it into one of these, carried inside your air conditioned vehicle:
https://www.amazon.com/Wagan-EL6224-12V-Cooler-Warmer/dp/B00NHBYOA6/ref=sr_1_2?ie=UTF8&qid=1510206647&sr=8-2&keywords=12V+cooler+for+car
* And only on completely cloud-free days, of course.
DoD= depth of discharge= amount removed from that battery SoC= state of charge= amount remaining in that batterySo, 0% DoD= 100% SoC, 25% DoD= 75% SoC, 50% DoD= 50% SoC, 75% DoD= 25% SoC, 100% DoD= 0% SoCA/C= air conditioning AC= alternating current (what comes from the outlets in your home) DC= direct current (what batteries & solar panels use) -
Kill-a-Watt meters do not usually do a good job catching the startup surge. If your fridge only draws ~50 Watts while running, that is much less than the ~100-120 Watts typical--So the 300 Watt surge is a possibility (typically around 5x running current for surge).
How much energy the fridge uses in a day (Watt*Hours or kWatt*Hours) is still in question... A warm room with already cool food--typically run around 50% duty cycle. Or:- 50 Watts * 24 hours per day * 0.50 duty cycle = 600 Watt*Hours per day = 0.6 kWH per day
If this is the correct refrigerator:
https://www.energystar.gov/productfinder/product/certified-residential-refrigerators/details/2213650- Annual Energy Use (kWh/yr): 215
- 215,000 WH per year / 365 days per year = 589 WH per day
- 589 WH per day / 24 hours per day = 25 Watt average load
2x 6 volt @ 200 AH "golf cart" batteries will reasonably supply:- 12 volts * 200 AH * 0.50 max discharge * 0.85 inverter eff = 1,020 WH max
Say you mount your solar panels flat to the roof, 170 Watts, in the Austin Tx area:
http://www.solarelectricityhandbook.com/solar-irradiance.htmlAustin
Measured in kWh/m2/day onto a horizontal surface:
Average Solar Insolation figures
If you assume at least 4.0 hours of sun per day:Jan Feb Mar Apr May Jun 2.83
3.41
4.40
5.25
5.62
6.36
Jul Aug Sep Oct Nov Dec 6.56
5.94
4.97
4.05
3.07
2.63
- 170 Watts * 0.52 off grid AC system eff * 4.0 hours of sun per day = 354 WH per average "October day"
- 589 WH per day * 1/0.52 off grid system eff * 170 Watt panels = 6.7 hours per day "break even" with 170 Watt panel
- 589 WH per day * 1/0.75 "fudge factor" * 1/0.52 off grid AC system eff * 1/3.41 hours of sun = 443 Watt "recommended" solar array
-Bill
Near San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Wow. Thanks to both for the very extensive responses.
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