Thanks for the replies
Sorry for my late reply though, I've had a bad few days sleep.
I'm not an engineer, although I did start a 3 1/2 year course before I got sick when the loss of my dad really set in, although that was for electronic engineering. I have however a natural sense of noticing and logically analyzing what I see and vehicles have always interested me greatly.
I sadly have no info on how heavy the things would be however I know there's an electric motor weighing 67 kg that can give 500Nm of torque so I thought that might work, plus the gasturbine would be a small one that's also capable of using multiple types of fuel to make it easy to fuel although it had to be ultra-clean burning for low emissions and high effiency but that was part of the reason for the whole hybrid setup since any combustion engine has a set rpm where it's the most effective at burning fuel.
The forward wing-sweep was in case I needed to move the wing-lift point further forward in relation to the cog without having the wing underneath the cockpit ruining the downward visibility, to make sure it wouldn't tip nose-up when stalling, I read that in a book somewhere that the cog and wing-lift position decides this, of course people, fuel and luggage will move the cog I know. However the gasturbine would be behind the cabin and the engines and fans further aft so maybe the forward wingsweep isn't needed to correctly place the lift point vs the cog. But thanks for pointing out the stall characteristic of forward-swept wings, I appreciate it
To clarify the propulsion system I'll try again. There is a small gasturbine engine in the fuselage that only drives a electricity generator. That generator keeps a smaller set of batteries topped off. Those batteries drive two electric motors that each drive 1 or two counter-rotating ducted fans that provide the actual propulsion. The idea about having two engines is to be able to use smaller fans and to have counter-rotating fans and electronic control of the motors should cancel any torque on the plane, plus the fans should be directly on the centerline further making the plane easier to fly. using ducted fans was also to further increase the effciency of the system both to help performance and fuel-use.
The electronics would just be for the powerplant itself, monitoring and controlling the gasturbine to keep the batteries topped-up, to make sure that no more power was applied that could be used for acceleration for the electric motors when giving full throttle and to make sure the two engines run at exactly the same speed to cancel torque so rudder-correction wouldn't be needed for that. The aerodynamic controls however would be fully manual like a normal GA plane, I don't see any need for fly-by-wire for a plane that size since others don't and with the wing-position (height wise) and torque-canceling centerline-placed propulsion then such a system shouldn't be needed anyway.
Btw, it's not totally grabbed out from thin air though. One thing about hybrid propulsion systems is the need for batteries that are capable of charging and discharging at a high rate and NEC recently announced a new cheap battery-type that could do just that, although they planned on making back-up power-systems for PC with it first. The batteries were also claimed to be very small and light and made by rather simple materials.
I hope this answers all questions there were I could anwer, if not then ask again.
Frank
