Jump to content

Recommended Posts

Posted

The Besler Steam Plane was the most successful of all of the attempts to use steam to power an aircraft. It was installed in a Travel Air 2000 Biplane in 1933 and was a double expansion V twin producing 150 HP but weighed in at 500 lbs (230 Kg). It's most notable feature was being able to almost instantly reverse run and gave the aircraft STOL capability.

 

  • Like 1
  • Informative 2
  • Replies 129
  • Created
  • Last Reply

Top Posters In This Topic

Posted

You'd think they could've done a little better than exhausting the steam at a level that was near the pilots head, wouldn't you? :scratching head:

 

One wonders what the potential would be, to build a similar unit now, using todays technology and materials, that would likely result in a sizeable weight saving.

 

There's a good "write-up" about the engine and aircraft in the link below. The ability to reverse the engine immediately upon landing, gave an amazing braking ability, that eliminated any potential for nose-over.

 

https://www.456fis.org/BESLER_STEAM_AIRPLANE.htm

  • Like 2
Posted

He would be wiping his goggles frequently, and that steam exhaust would be oily. An example of what can be done today with steam is in:

  • Like 5
Posted

Electric should be able to do a prop reversal, but I don't think they do. I wonder why not? Maybe its because reversal might be a step too far and frighten off the certifiers? But they shouldn't be such stupid people surely... the certifiers I mean.

Posted

That air bike should have a Double acting plston.

Twice the power for same outlay and weight.

spacesailor

Posted

Reversing the engine is OK for ships Trains and cars but a plane ? Too slow. The prop's already in fine so just reverse it a bit.. Nev

Posted

Reverse pitch in a small light A/C wouldn't be worth it, cost, weight complexicity and operator error all means no real benifit.

Posted

Wow ! love the steam bike. have always had a passing interest in steam - in my dreams, would love to have a steam launch.

  • Like 2
Posted

Electric should be able to do a prop reversal, but I don't think they do. I wonder why not? Maybe its because reversal might be a step too far and frighten off the certifiers? But they shouldn't be such stupid people surely... the certifiers I mean.

I expect that the current would double when the prop would go in reverse. Possible large current carrying cables and extra weight

Posted

A variable pitch prop is too heavy and expensive, but you can easily reverse an electric motor. With a 3 phase motor, you only need to swap 2 of the 3 feed wires. And you could easily limit the current to be less than the take-off power. What you would be left with is the capacity to do reverse thrust on a small plane. That sure would help to shorten the landing roll.

You could also do some interesting aerobatics I reckon.

Posted

I just looked it up for models. They have vids of electric reverse thrust being used in the air and yes it does make for interesting aerobatics.

A spin is much "better" if you use all the reverse thrust you have.

I don't think I would be brave enough to use reverse thrust in the air, but I would like it for landing on a real short strip.

Posted

Actually there is no need to reverse polarity! If you load up the propeller and electronically change the frequency to be smaller than the frequency of the motor you will generate power in a multiphase motor. But I expect that there will be an increase in the weight of the electronic control.

Posted

if you run a 3-phase motor faster than it's maximum frequency i.e. 3000rpm or 1500rpm depending on the number of Poles you will generate electricity back into the mains. All you have to do in this case is have a variable speed controller for the power going to the motor and you can recharge a battery and use it as a brake

Posted

Reverse thrust on a prop after landing doesn't help your rudder to work at it's best. You've got a 45 Knt stall speed so lets be real. It's academic having reverse thrust. Nice to ponder these things but some of the most enjoyed planes I've flown had no brakes.. You don't use then for quick trips though. Nev

  • Like 3
Posted

He would be wiping his goggles frequently, and that steam exhaust would be oily. An example of what can be done today with steam is in:

 

I found that fascinating. Thanks for posting that PMC

Posted

Another thing to remember there maybe some issues where some light A/C engines aren't designed for neg thrust on the crankshaft.

  • Like 1
  • Agree 1
Posted

I was privileged some years ago to see the csiro' lightweight engine that was used for the solar race cars. It is essentially very strong magnets that were in a case that rotated around a field of wires in a pattern, these wires were fixed to the frame. Rotating around these wires that were stationery the casing was attached to the load this case be the propeller, the casing spun.

Posted
It is essentially very strong magnets that were in a case that rotated around a field of wires in a pattern, these wires were fixed to the frame. Rotating around these wires that were stationery the casing was attached to the load this case be the propeller, the casing spun.

 

Does that remind you of an early IC engine?

1588903816248.png.856548eadec7715660734104627c76c6.png

80 hp Le Rhône Model 9C

Posted

He would be wiping his goggles frequently, and that steam exhaust would be oily. An example of what can be done today with steam is in:

Superheated steam at 300 degrees right between your legs. What could possibly go wrong?

  • Like 2
  • Agree 1
Posted

Good fun topic. Today I was asked why you wouldn't do an electric plane as a 2 or 4 or more engines.

With an engine or more on each wing you could have lots of control, look at the quadcopters. And with a lot of engines along the front of the wing, you can have airflow to lift without forward speed. The mind boggles at the aerobatic possibilities.

Well I couldn't answer the question.

  • Like 1
Posted

Good fun topic. Today I was asked why you wouldn't do an electric plane as a 2 or 4 or more engines.

With an engine or more on each wing you could have lots of control, look at the quadcopters. And with a lot of engines along the front of the wing, you can have airflow to lift without forward speed. The mind boggles at the aerobatic possibilities.

Well I couldn't answer the question.

You would. There's absolutely no reason why you couldn't have multiple engines along the LE, and in fact I've seen a few concepts (at least 1 actually flying) that have that.

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now

×
×
  • Create New...