24-04-2020, 09:35 AM
Ivor posted a reply in another thread and I thought it merited a much wider discussion area on the basis of several insightful exchanges with Robert Leigh, Ian Williams and Greig Smith which started me thinking about thermodynamics.
Ivor mentioned "I ran a Super Sportsman for a number of years, which had an HC motor and twin 1 inch SUs, a cross flow radiator, which was very small and an aluminium header tank mounted just ahead of the bulkhead and had no issues with overheating despite not having a water pump...I would say go for it and watch the temperature..."
When one loses the tall radiator, the basis for flow of rising warm water from the engine is lost, but I can that with the above, there was still a higher point - the header - so was there still rising flow that was adequate enough for sustainable use, as long as the water is passing from head and back to the upper point? The header won't be an efficient shedder of heat but it is still less hot that the engine. What controls the strength of the thermosiphon effect - temperature difference presumably?
Ivor mentioned "I ran a Super Sportsman for a number of years, which had an HC motor and twin 1 inch SUs, a cross flow radiator, which was very small and an aluminium header tank mounted just ahead of the bulkhead and had no issues with overheating despite not having a water pump...I would say go for it and watch the temperature..."
When one loses the tall radiator, the basis for flow of rising warm water from the engine is lost, but I can that with the above, there was still a higher point - the header - so was there still rising flow that was adequate enough for sustainable use, as long as the water is passing from head and back to the upper point? The header won't be an efficient shedder of heat but it is still less hot that the engine. What controls the strength of the thermosiphon effect - temperature difference presumably?
