I've done the experiment.
The bar oil is conventional bar oil with an extra shot of tackifier put in for me by my oil supplier.
I measured the flow (in g/min) at different pressures (head or height) of the oil column.
I used a length of PVC pipe with an end cap and small irrigation fitting tap glued into the middle.
The flow rate is low, about 1/2 to 1/3rd of a normal aux oiler flow rate but I did that deliberately to really see if an effect was present.
If the oil was newtonian and the flow rate at the start was 6.8g/min the flow rate should follow the red line i.e. drop in direct proportion to the head but instead it follows the blue triangles.
This means this bar oil is newtonian.
Its a bit counter intuitive because it seems like oil flow is not falling as fast as it should, but what it really means is that the flow rates at higher head or pressures are less than they would be because the viscosity has been affected by the higher pressure.
What does it mean - it means the aux oil flow rate does change with head or height but not in direct proportion but about 30% less than it would if it was a newtonian fluid.
So thats a good thing.
When I get time I'll do the test again with another oil.
The bar oil is conventional bar oil with an extra shot of tackifier put in for me by my oil supplier.
I measured the flow (in g/min) at different pressures (head or height) of the oil column.
I used a length of PVC pipe with an end cap and small irrigation fitting tap glued into the middle.
The flow rate is low, about 1/2 to 1/3rd of a normal aux oiler flow rate but I did that deliberately to really see if an effect was present.
If the oil was newtonian and the flow rate at the start was 6.8g/min the flow rate should follow the red line i.e. drop in direct proportion to the head but instead it follows the blue triangles.
This means this bar oil is newtonian.
Its a bit counter intuitive because it seems like oil flow is not falling as fast as it should, but what it really means is that the flow rates at higher head or pressures are less than they would be because the viscosity has been affected by the higher pressure.
What does it mean - it means the aux oil flow rate does change with head or height but not in direct proportion but about 30% less than it would if it was a newtonian fluid.
So thats a good thing.
When I get time I'll do the test again with another oil.
That would explain why I did notice much change in flow with my 6ish inch (15cm) of drop. It looks like it changes roughly 2 g/min over that distance.
