CruisingElvinRay":37egympl said:
knotflying":37egympl said:
Whenever I use a high current consumption device with the inverter I have the engine running.
Why?
Sent from my iPhone using Tapatalk
There's an ACR between the engine and house battery bank. The ACR, when it senses a charging voltage will close putting the engine and house bank in parallel. This allows the engine to charge the house bank. When voltage drops below 12.8, which will happen when you turn on the inverter and hot water heater, the ACR will open, thus isolating the house bank to protect the engine battery.
The hot water heater pulls about 60 amps and it can pull it for awhile (upwards of 90 minutes). With other things running on the boat, this could easily be around 75 amps total being pulled. The best way to get hot water with an outboard is to parallel the engine and house batteries using the emergency parallel switch. This bypasses the ACR entirely and allows the engine alternator to pour those electrons into the house battery and provide for the house loads. At idle, the engine will put in 20amps to help with the 60 amp load. If you're out cruising, up on plane... doing 4500RPM... you'll see the max output of the alternator (I'd guess this to be about 35 amps for an R23, and around 45 or 50amps for the R25 and R27). Having the extra 20-45amps or so from the engine being fed directly to the house bank helps a lot in getting hot water.
Before we did our battery upgrade, we would always leave the dock with a hot water tank full of hot water (using shore power to heat it up). Then as we'd depart, we'd parallel the engine/house, turn on the inverter and power on the hot water tank. We'd cruise like this to our destination which keeps the hot water hot. Once we set anchor and powered off the engine, we'd isolate the house and engine batteries (turn the emergency parallel switch back). The hot water tank would usually last about a day.
It takes about 1600 watts to heat 6 gallons of water from 45 degrees to 170 degrees. The house battery bank with two AGM 110Ah batteries will provide about 1200 watts total.
Also note, because of the voltage drop that's normal when running a heavy load such as the microwave or the hot water heater or the coffee maker, if the batteries were say, only at 70% state of charge, the voltage drop could be such that the inverter beeps at you (low voltage alert) and may shut itself off. Idling the engine with the engine/house in parallel helps with this as well.
This is why running the engine when the hot water heater is on is helpful.
In addition to the 115volt AC loads... I also learned this lesson the hard way with the windlass which is a 12 volt DC load. It pulls a ton of current also. Woke up in the morning after a night on the hook, idled the engine but forgot to parallel the engine/house batteries. As I was pulling the anchor, my wife yells out the window that the chart plotter was rebooting and the VHF radio was turning off/on... low voltage alarms. Batteries were already low on charge from the night at anchor. Then using the windlass caused the voltage to drop below 11.5volts... Paralleling the engine/house batteries allowed the engine to provide the electrical needed and helps.
