>How long will a pair of deep cell batteries last running an
>airconditioner like that?
Kinda depends on the total amp hours of the deep cycle batteries.
If it's a 525 watt air conditioner, which is a 120-volt unit, probably not very long, regardless of the amp hours of the batteries. 525 watts divided by 120 volts is 4.375 amps AC. Going from AC to 12-volts DC you have to multiply by 10, so the 4.375 amps becomes 43.75 amps DC. Then give it 10% for the loss in the inversion process and you're at 48.125 amps.
If you've got a couple of 100 amp hour batteries, 200 amp hours total, then you could run that AC for 4.155 hours, except that the Peukert Effect turns the 200 amp hours into 124.93 amp hours, and it'll be run down to dead in about 2.6 hours (and then it'll take about 4 hours to fully recharge them using an alternator). Except that when discharged down that low, below 50%, it'll never be able to be fully recharged to 200 amp hours again, and the next time it's fully recharged (at least to the amount of amps that the battery will now hold), assuming that it actually
is fully recharged before using it again, you'll be lucky to get 180 amp hours available. So the [/i]next[/i] time you run it dead, it'll be run down in 2.27 hours instead of 2.6, and the next time after that it'll be dead in about 2.0 hours, and so on and so on until pretty soon you'll be mad and wondering the batteries don't work anymore.
>Wouldn't it be be better to get a small generator?
>t.
That, or several high end deep cycle batteries and a very efficient DC air conditioner.
Every battery expert and renewable energy expert will tell you, unless you are using 12 volt or 24 volt DC appliances (air conditioners, refrigerators, etc.) that long-term high draw, resistive heat applications like air conditioners and electric heaters from battery power is easily the least cost effective method versus a generator or DC powered appliances. You're lucky if even 50% of the energy created by the vehicle's engine and alternator is transferred into the storage batteries, and you'll lose 10% of the stored power right off the top in the inverter process, so you're essentially getting perhaps 40% of the power that was generated, wasting at least 60%. Wasted in heat energy in the engine, wear and tear, and fuel and oil costs. Unless you are using high end batteries specifically designed for high load amp draws, you're wasting even more potential energy, and add to that the Peukert Efffect and it's even more dismal.
If you want to run a 525 watt appliance for 8 hours, and do it efficiently, you'll need at minimum of 930 amp hours worth of batteries (roughly 500 pounds of lead), which will bump the Perkert Effect up to give you enough amp hours to keep from running the batteries down more than 50% after 8 hours. And after 8 hours you need to figure a way to get 450 amps back into the batteries, which will take around 8 hours with a 150 amp alternator.
Slow and steady, even in expediting, wins the race - Aesop