Everything about Thermal Airship totally explained
A
thermal airship is an
airship that generates its
lift via a temperature differential between the gas inside its envelope and the ambient air. (This is in contrast to the more common use of
helium to provide lift.) Currently all thermal airships use hot air, as used in a
hot air balloon, as their lifting gas. However, an airship that uses
steam would also qualify as a thermal airship.
Advantages/Disadvantages
Thermal airships have the advantage of being less expensive than
helium-based airships. They are also routinely deflated after each flight and can be readily packed for storage and/or transport.
Hot air craft produce much less uplift per unit volume than helium- or
hydrogen-filled craft (about 30% depending on air conditions). This necessitates lighter construction, with fewer controls and hence more difficulty in manoeuvring. This leads to:
- lower airspeeds
- difficulty in handling on the ground if the ground wind is above 5 knots
- difficulty to steer, particularly at low airspeeds
- lack of elevator (pitch) control causing them to pitch upward/downward with changes in the throttle (a motion called 'porpoising').
In recent years, the steering of these ships has improved somewhat. The most successful approach has been to use higher pressure in the tail fin structures than in the rest of the envelope or to use an internal structure (see below).
History
The first public flight of a hot air airship was made by Don Cameron (UK) of Cameron Balloons at the public at the Icicle Meet in January 1973. The aircraft reportedly took 3 years to develop.
Envelope structures
Most thermal airships are non-rigid. Some are pressurized. In some cases, the pressurized air is taken from a duct located behind the propeller. In other cases, the pressurized air comes from a separate fan.
In 2006, a new type of envelope employing a
tensile membrane structure was developed by
Skyacht Aircraft. This design uses an unpressurized envelope and an internal structure that uses ribs made of
aluminium to keep the envelope in shape. When not in use, the structure folds up in a manner similar to an umbrella. The structure also permits the mounting of a steerable engine/propeller on the tail of the aircraft. The tail-mounted propeller provides for
vectored thrust steering, allowing tight turns.
Operation
Like hot air balloons, thermal airships are first inflated partially with cold (ambient temperature) air. Once the envelopes are sufficiently full, a
propane burner is ignited and the inflation is completed using heated air.
Further Information
Get more info on 'Thermal Airship'.
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