I had read Service Vic’s reply and will continue to use anti-freeze since that is recommended.
I asked one of the heat transfer people at work about the use of water anti-freeze and having a thermostat involved and here is the explanation:
The engine generates heat and the cooling system must reject as much heat as the engine produces or the coolant temperature will continually increase. Most cooling systems are built larger than required to allow for fouling inside and outside the heat exchanger (radiator).
Assume that the engine generates 1 unit of heat, the cooling system is designed for water only with 10% extra cooling capacity. The system has a thermostat to hold the temperature at 180F. Start the engine and the water inside the block will increase to 180F and the thermostat will open and cool water will flow through the system. When it reaches the thermostat it will close the thermostat and the engine will heat the water in the block, the heat exchanger will cool the expelled water. Since the cooling system is more than capable it will cool the fluid below 180F so this cycle will continue over and over.
Now switch the water to 50/50 anti-freeze and the cooling system has become undersize since the fluid is not as capable of moving heat (only 80% as good as water). The engine will still generate 1 unit of heat but the cooling system will only be capable of removing .88 units of heat (1.1*.8=.88). The thermostat will open and close until the entire system is above the 180F set point. Then it will stay wide open and allow as much cooling as possible. This system will overheat since the heat source generates more heat than the cooling system can remove.
Now switch the design thoughts and design the system for 50/50 anti-freeze. The engine will still generate 1 unit of heat. The cooling system will be designed to have 10% excess capacity over the heat source. Taking the fact that the coolant is 80% as effective as water, the cooling system will become larger than the cooling system based on water. The anti-freeze cooling system will be sized around 1.3 compared to the 1.1 water system. The same cycle will occur with the system, engine will generate heat, fluid reaches thermostat set point, thermostat opens, water moves, thermostat closes…heat balance is maintained.
Now switch the system designed for anti-freeze to pure water and you have an over sized coolant system, it would be about 1.6 times the required capacity (1.3/.8=1.6). It will still operate at 180F since the thermostat will hold the water in the engine until it reaches it set point. This system would require the thermostat to hold the water in the engine because the cooling system would always be capable of cooling the fluid well below the set point in every cycle.
In conclusion, one system will operate at 180F with water but overheat if operated with anti-freeze. One system will work with anti-freeze or water and operate at 180F.
