@dlochner Looking over your schematic, I have a several questions.
Are you heating your boat by transporting hot water to heat exchangers that then heat the boat how, by hot water radiators? By forced hot air?
What are the two heaters, the 6200B and the 6000B? You have the hot water coming out of the hot water tank going into these two, and the summer valve which appears to bypass those two heaters for "summer" use. Are these just heat exchangers using the hot water to heat the cabin? Are they located in different locations of the boat for heat distribution? This is probably related to my first question above.
What is the HX? Is this a separate tank? It looks like I would then take the hot water from the engine and use it to heat the water in the system feeding the hot water tank. Essentially, that is my current hot water tank.
I don't see any connection to the SureWire panel.
I'm digesting your diagram...
dj
I'm guessing you did not include the fresh water system connection for domestic use on this diagram.
What's the function of the U4840 pump?
A little wasabi sauce goes well with the diagram.
The 2 Fan units are small radiators with a computer fan. The fans moves air across the radiator and warms it. The fans are controlled by a thermostat at the fan, when the water heats to 125° F the fans come on. The smaller fan is in the V-berth and larger fan is in the main salon.
The U480 pump is the circulation pump, it moves the heating fluid through the system. It's a vane pump and is not self-priming so it needs some head. This is why it is at the end of the system. The expansion tank is higher than the pumps it provides head.
The pump pushes heating fluid (proprolyne glycol) through the heater, then on to the heat exchanger, through the HW tank and on to the 2 fan units before entering the expansion tank and then back to the pump. This happens regardless of the heat source.
The heat source is controlled by an on-off-on switch. One on position is heater, the other is for engine heat.
If the switch is set to use the heater, the heater comes on and heats the water before it flows through the system. This will occur even when the motor is running, unless the switch is set to off or engine heat.
If the switch is set to engine heat, the pump circulates the heating fluid and the heater does not run. The heating fluid is heated by going through the heat exchanger. Engine coolant always circulates through the heat exchanger regardless of the heating system's mode.
The heat exchanger heats the heating fluid from the engine. They are 2 separate systems. The engine coolant and the heating fluid never mix, they are separate systems. See the attached photo, the engine coolant enters the bottom of the heat exchanger while the heating fluid goes through horizontally. As a result it gets warm regardless of whether the heating system is calling for heat or not. In my case, this is both a benefit and a deficit. After motoring for a long while (a not so popular pastime on the ICW) the hot water lines get warm, this reduces the amount of water that must be drained to get hot water. On the other hand, all this and the batteries are in the same compartment, the LFPs aren't all that happen in the summer with the extra heat.
The parts and pieces, clockwise from the upper left: large fan unit, Webasto heater, expansion tank, ciruclation pump, exhaust drain fuel pump, expansion tank, overflow tank, muffler, heat exchanger, fan and heater switches, small fan unit, thermostat, and in the center is the SureWire panel where all the electrical connections are made.
A whole mess of stuff here. The black tube is the HX, the orange PEX on the left is the heater feed, the reddish hoses on the right go to the HW tank and then on to the rest of the system. The black hoses are from the engine.