There are many forms of snowmaking guns; however, they all share the basic principle of combining air and water to form snow. For most guns the type or "quality" of snow can be changed by regulating the amount of water in the mixture. For others, the water and air are simply on or off and the snow quality is determined by the air temperature and humidity. In general there are three types of snowmaking guns: internal mixing, external mixing and fan guns. These come in two main styles of makers: air water guns and fan guns. An air water gun can be mounted on a tower or on a stand on the ground. It uses higher pressure water and air, while a fan gun uses a powerful axial fan to propel the water jet to a great distance. A modern snow fan usually consists of one or more rings of
nozzles which inject water into the fan air stream. A separate nozzle or small group of nozzles is fed with a mix of water and
compressed air and produces the nucleation points for the snow crystals. The small droplets of water and the tiny ice crystals are then mixed and propelled out by a powerful
fan, after which they further cool through evaporation in the surrounding air as they fall to the ground. The crystals of ice act as
seeds to make the water droplets freeze at 0 °
C (32 °
F). Without these crystals the water would
supercool instead of
freezing. This method can produce snow when the
wet-bulb temperature of the air is as high as . The lower the air temperature is, the more and the better snow a cannon can make. This is one of the main reasons snow cannons are usually operated in the night. The quality of the mixing of the water and air streams and their relative pressures is crucial to the amount of snow made and its quality. Modern snow cannons are fully computerized and can operate autonomously or be remotely-controlled from a central location. Operational parameters are: starting and stopping time, quality of snow, maximum wet-bulb temperature in which to operate, maximum windspeed, horizontal and vertical orientation, and sweep angle (to cover a wider or narrower area). Sweep angle and area may follow wind direction. • Internal mixing guns have a chamber where the water and air are mixed together and forced through jets or through holes and fall to the ground as snow. These guns are typically low to the ground on a frame or tripod and require a lot of air to compensate for the short hang time (time the water is airborne). Some newer guns are built in a tower form and use much less air because of the increased hang time. The amount of water flow determines the type of snow that is to be made and is controlled by an adjustable water valve. • External mixing guns have a nozzle spraying water as a stream and air nozzles shooting air through this water stream to break it up into much smaller water particles. These guns are sometimes equipped with a set of internal mixing nozzles that are known as nucleators. These help create a nucleus for the water droplets to bond to as they freeze. External mixing guns are typically tower guns and rely on a longer hang time to freeze the snow. This allows them to use much less air. External mixing guns are usually reliant on high water pressure to operate correctly so the water supply is opened completely, though in some the flow can be regulated by valves on the gun. • Fan guns are very different from all other guns because they require electricity to power a fan as well as an on-board reciprocating piston air compressor; modern fan guns do not require compressed air from an external source. Compressed air and water are shot out of the gun through a variety of nozzles (there are many different designs) and then the wind from the large fan blows this into a mist in the air to achieve a long hang time. Fan guns have anywhere from 12 to 360 water nozzles on a ring on the front of the gun through which the fan blows air. These banks can be controlled by valves. The valves are either manual, manual electric, or automatic electric (controlled by logic controller or computer). • Snow lances are up to 12 meter long vertically inclined aluminum tubes at the head of which are placed water and/or air nucleators. Air is blown into the atomized water at the outlet from the water nozzle. The previously compressed air expands and cools, creating ice nuclei on which crystallization of the atomized water takes place. The height and the slow rate of descent allow sufficient time for this process. This process uses less energy than a fan gun, but has a smaller range and lower snow quality; it also has greater sensitivity to wind. Advantages over fan gun are: lower investment (only cable system with air and water, central compressor station), much quieter, half the energy consumption for the same amount of snow, simpler maintenance due to lower wear and fewer moving parts, and regulation of snowmaking is possible in principle. The working pressure of snow lances is 20-60 bar. There are also small mobile systems for the home user that are operated by the garden connection (Home Snow).
Home snowmaking Smaller versions of the snow machines found at ski resorts exist, scaled down to run off household size air and water supplies. Home snowmakers receive their water supply either from a garden hose or from a
pressure washer, which makes more snow per hour. Plans also exist for do-it-yourself snowmaking machines made out of plumbing fittings and special nozzles, or pressure washer nozzles. Pressurized air is typically supplied from standard air compressors. Volumes of snow output by home snowmakers depend on the air/water mixture, temperature, wind variations, pumping capacity, water supply, air supply, and other factors. Using a household spray bottle will not work unless temperatures are well below the freezing point of water. == Extent of use ==