A potato cannon, also known as a potato gun or potato launcher, is a pipe-based cannon that uses air pressure (pneumatic), or combustion of a flammable gas (aerosol, propane, etc.), to fire projectiles, usually potatoes. A simple design consists of a pipe sealed on one end, with a reducer on the other end to lower the diameter of the pipe, which has the corresponding lower-diameter pipe attached to it, called the barrel. Generally, the operator loads the projectile into the barrel, then utilizes a fuel or air pressure (or sometimes both) to propel the projectile out of the cannon. The potato cannon can trace its origin to the World War II-era Holman Projector, which was a shipboard anti-aircraft weapon.

Operation methods

Combustion

Combustion powered potato cannons typically have the least complex designs; the four basic elements of which are: In order to fire, the operator loads a projectile into the barrel, adds fuel to the combustion chamber (for example aerosols or propane), and triggers the ignition source (often using a piezoelectric barbecue igniter). The fuel-air mixture then ignites, creating hot expanding gases which force the projectile out of the barrel. The range of the cannon depends on many variables, including the type of fuel used, the efficiency of the fuel/air ratio, the combustion chamber/barrel ratio, and the flight characteristics of the projectile. Common distances vary from 100 - 200 meters, and there is a reported case of a cannon exceeding 500 meter of range.

Pneumatic

The range of pneumatic cannons is more variable than the range of combustion potato cannons due to the increased variation possible in the components. Typical ranges are slightly higher because of the greater power, but the maximum range of some high power pneumatic cannons has been said to be over 1000 m.

[A large pneumatic design:

The projectile is loaded in the muzzle (not pictured), which is then attached to the cannon (at 2). The air reservoir (3) is filled to 120 psi using the Schrader valve (4). Upon opening the solenoid valve (1), the air from the reservoir is transferred to the projectile, which is fired out of the muzzle. | upload.wikimedia.org/wikipedia/commons/1/1f/Pneumaticspudgun989.jpg]

Hybrid

In order to fire, the operator first readies the pressure-triggered valve then injects several times the normal amount of fuel and appropriately more air. When the ignition source is triggered, the pressure from the combustion causes the main valve to open and propels the projectile out of the barrel with the released combustion gases. The hybrid is capable of higher velocities than a combustion or pneumatic potato cannon because the pressure generated is higher than that in a combustion gun (for most fuels), and the shock wave moves faster than it can in a pneumatic (for most gases), due to the higher temperature. Projectiles fired by a hybrid have broken the sound barrier.

Dry ice

The oldest examples simply involve dropping pieces of dry ice into a tube closed at one end and sealing the other end by jamming the projectile in. When the pressure of the carbon dioxide from the subliming dry ice builds high enough, the projectile will be blown out of the tube.

Vacuum

Primary materials

Plastics

Metals

Valve types

Pneumatic

Alternate designs have also been used which use a sharp projectile to puncture the burst disk, like a mortar or using a manual puncturing device to trigger failure of the disk.

Connections

Welding, soldering and gluing

The sound barrier

It is rare for a potato cannon to be powerful enough to break the sound barrier, although there are some cases of this happening using specialized designs. The potato cannons used are typically hybrids; but some pneumatic cannons have achieved the feat, either by using a special low-density gas, such as helium, or high pressures combined with a fast valve. There is also one reported case of a combustion design achieving super-sonic velocities. The highest projectile speed recorded from a potato cannon is 933.3 m/s (approximately 2.7 times the speed of sound) with a 16.6 g 20 mm plastic slug from a hybrid using a 20 MPa pre-ignition mixture of air and propane. Supersonic velocities have been obtained using the related vacuum bazooka with a de Laval nozzle. This also relies on significantly lowering the density of the gas.

Practical uses

Although potato cannons are created and used for the purpose of recreation there are other devices which work on identical principles in many other fields with more serious uses.

Entertainment

Industry

Safety

Potato cannons by nature are hazardous and can present safety issues if poorly constructed or used. Projectiles or failing guns can be dangerous and result in life-threatening injuries, including cranial fractures, enucleation, and blindness if a person is hit.