offroader-rama wrote:I'd say you were wrong, sorry, but they have a poor little radiator that needs the coolant to hang around in there a while to cool down so it can cool the motor down.
now we all now that heat rises and there for the hot coolant is pushed in the top of the radiator and buy the time it gets to the bottom its cooled down enough to get sucked by the water pump back into the engine were the heat transfer from the engine back into the coolant where its pushed back into the radiator over and over. Ok nothing new
Water flows through the whole radiator because of the pressure from the water pump, not because heat rises.
I don't know whether a barina would overheat with no thermostat, because I am not sure how they are put together. But it might, because in a lot of cars the thermostat works two ways; it doesn't just restrict flow through the radiator, it also diverts flow directly back to the pump (ie it doesn't just dead-end the coolant when the motor's cold, it allows it to "free-wheel" back to the pump without going into the radiator at all, just circulating in the engine). So with no thermostat at all, in some cars you might get a lot of coolant diverting straight to the pump without going through the radiator at all.
But if it did overheat in that case, it wouldn't be because there is more flow through the radiator, it would be because with no thermostat the flow to the radiator is reduced anyway.
Seriously. By your logic, as the coolant flow gets slower and slower, it cools the engine more and more. So in that universe, stopping the flow altogether should make the car super cool, which is obviously wrong.
Try and think of it this way. The engine makes heat at a certain rate. The radiator can dissipate heat at a certain rate. The thermostat is just like an automatic volume knob on the radiator controlling how much heat it can dissipate, designed to match the engine's heat-making rate.
You pull the knob off and the max volume is still the same; it just isn't being controlled properly any more.
but now if we picture the radiator has a line which it would have where the hot coolant meets the cooled coolant, maybe a 100mm wide or so but its there, now the faster that coolant where pushed / pulled by the water pump the lower down the radiator that line would be untill that line where the bottom tank and well then its history.
I think it's more of a continuum where it goes in hotter and comes out cooler, with the temperature reducing gradually as it flows through the radiator and no sharp line between hot and cold.
I'm sorry if I sound like a grumpy old man, but you know, radiators didn't fall from the sky leaving us with the hard job of working out exactly how they work. They were designed to work a certain way, so we KNOW how they work:
wikipedia wrote:In automobiles with an internal combustion engine, a radiator is connected to channels running through the engine and cylinder head, through which is pumped a liquid. This liquid is typically a mixture of water with ethylene glycol (a.k.a. antifreeze).
The fluid moves in a closed system from the radiator to the engine, where it conducts heat away from the engine parts and carries the heat primarily to the radiator. The radiator is typically mounted behind the vehicle's grille, with outside air driven through the radiator by the vehicle's forward motion, often supplemented by a fan. The radiator transfers the heat from the fluid inside to the air, thereby cooling the engine. A system of valves and/or baffles is usually incorporated to simultaneously operate a small radiator inside the car; this small radiator is called the heater core and serves to warm the interior cabin. (Noting that heating the interior of the car also helps to cool the engine, this is the reason for the mechanic's instruction to turn on the heating system if the car is overheating.)
The engine temperature is controlled by the thermostat, a wax-pellet type temperature operated valve.
When the engine is cold, the thermostat is completely closed and allows heat to build up in the engine, by allowing water to circulate only through the engine (and the heater core). When the coolant reaches the thermostat's activation temperature, it begins to open, allowing water into the radiator. The thermostat will open as far as needed to maintain the design temperature, by metering the amount of water going to the radiator. How far the thermostat opens depends on many factors, such as engine power (=heat) produced, the air flow through the radiator, outside air temperature. The basic process is entirely mechanical, the only electrically controlled part is the electric cooling fan,unless on a older car that uses a clutch fan which is on when the engine is on.
Note that the size of the radiator is usually chosen such that it can keep the engine at the design temperature under the most extreme conditions a car is likely to encounter (such as climbing a mountain, while fully loaded, on a hot day)
The invention of the automobile water radiator is attributed to Karl Benz. Some engines have an additional oil cooler; a separate small radiator to cool the motor oil. Cars with an automatic transmission often have extra connections to the radiator, allowing the transmission fluid to transfer its heat to the coolant in the radiator.
Turbo charged or supercharged engines may have an intercooler, which is an air-to-air radiator.
http://en.wikipedia.org/wiki/Radiator
For more detail and cute animated diagrams:
http://auto.howstuffworks.com/cooling-system.htmThis is not legal advice.
, i just put a set of extactors and a new head gasket on my GQ patrol tb42 
, I replaced the temp sender and i had head machined, now temp gage says that the temp is just over half, for the last three years its said less than a quarter, i also put brand new v8 radiator in ( 
planning ahead 
jokes