On Turbines.. A friend used a Hard Drive fr the discs for his Tesla design model. Works well - but fast. But watching on the internet, I have only ever found one video that showed a Tesla Turbine reaching true speed. It worked OK up to around 70,000rpm, then suddenly took off up to over 120,000rpm as the true friction drag of the steam on the surface of the discs really started to work. Apparently the efficiency of his turbine was based on the ratio of diameters from the outer (entry point of steam) to exhaust diameter, as the steam is travelling at near disc surface speed, which in turn depends on the radius at any particular speed. And when you get the high speed efficiency, there isn't much "wasted" steam. Unlike some....
https://uk.video.search.yahoo.com/y...=4f951d7b3ec2a09c168a16542ee65624&action=view
So for Tesla, from a 10" diameter (perimeter) down to a 1 1/2" diameter exhaust gave nearly 85% efficiency.... whereas the Parsons type of turbine can only achieve 50%theoretical efficiency per stage. But Parsons - being a simply sort of chap - just looked at the triple and quadruple expansion engines of the time and said he should build a multi-stage turbine.... thus gaining a bit more efficiency at each additional stage. Hence all the major power stations and aircraft follow his principles, not Tesla's, The reaction turbine shown by Jens is very nice, but you can buy a small version of this from China for about £50~£70. Although that is not the point, but making your own that works is the reason we all enjoy this thread. Nice one Jens! I'll try and find a design I can send you as I have more than a few squirrelled away... There is one design, similar to yours, but with cross-flow steam where the exhaust from one phase passes down a passage to a second, then third then fourth stage, making the single rotor a multi-stage turbine. Each steam jet is angled at 45 degrees to the axis, and the reflected" steam passes down a collector zone and around a reversing passage to come back at 45 degrees to the rotor on the opposite side. (Model Steam Turbines: H.H. Harrison: fig.68).
https://www.amazon.co.uk/H.-H.-Harrison/e/B001KII30K/ref=ntt_dp_epwbk_0Clever, and suitable for model boats I believe? Practically, I understand "Boat people" commonly use flash boilers when powering turbines, as they are "power-motivated" people. How about you Jens? We haven't seen your boiler and boat yet. "An engine is but an ornament unless it is allowed to live and do some work. (or was the quotation "Man" instead of "engine"?).
A post-script on that clever chap Parsons. A university study analysed the efficiency of his drive and a hull shape, and decided that his long, narrow, planing, hull had more to do with his top speed than the power input. - Makes him a clever boat designer as well as salesman!
Look-up "Consuta" to see another fast boat - but this time driven by a reciprocating engine.
http://www.consuta.org.uk/workshop/Home.htmlUnique as it is the first real composite hull. - Pre-polyester resins and fibreglass! But a fast craft for its period.
And "Thanks Richard" for an inspired first message to start this thread!
