A spray nozzle is a device that facilitates the formation of spray. When a liquid is dispersed as a stream of droplets (atomization), it is called a spray. Spray nozzles are used to achieve two primary functions: increase liquid surface area to enhance evaporation, or distribute a liquid over an area.
Applications of sprays
There are hundreds of applications where there is a need of spray systems to apply or use the liquid efficiently. Stated below are the few industrial applications of the spray:
Fuel Sprays
Sprays of hydrocarbon liquids (fossil fuels) are one of the most economically significant applications of spray nozzles. Examples include fuel injectors for gasoline and Diesel engines, atomizers for jet engines (gas turbines), injectors in rocket engines. This group of application has a large impact of the efficiency of these systems and reducing emissions of pollutants (soot, NOx, CO).
Industrial Sprays
Line & cement industry: Spraying liquid for gas cooling and conditioning or spraying fluidized fuel in the kilns for burning.
Agricultural Sprays
Spray nozzles are used to distribute and disperse insecticides and pesticides including water efficiently in fields. See aerial application, pesticide application, sprayer.
Consumer Products
Atomizers are used with pump operated sprays of household cleaning products. The function of these nozzles is to distribute the product over an area. see Aerosol spray and spray can
Types of spray nozzles
Spray nozzles can be categorized into several types based on the energy input used:
Hydraulic spray
The hydraulic spray nozzle utilizes the liquid kinetic energy as the energy source to break the liquid into droplets. This type of spray is less energy consuming than a gas atomized or twin-fluid spray nozzle. As the fluid pressure increases the flow increases and the drop size decreases. But this leads to problems in selecting a droplet size and to achieve a certain flow rate at a given pressure. To overcome this situation a special hydraulic nozzle (Lechler Spillback Nozzle) has been developed. This nozzle can vary the liquid flow rate at a particular droplet size and pressure. This nozzle creates a better and optimum control on the liquid spray and in certain applications can eliminate the need of expensive compressed air.
Gas (air) atomized spray
Air, steam or other gases can break up a liquid to form a spray, with the gas providing a source of energy.
Internal mixing
Internal mixing nozzles mix fluids inside the nozzle.
The gas atomized spray utilizes a gaseous source to break the liquid to the droplets. The internal mixed twin fluid spray can utilize two different ways for spraying liquid:
In the first type, the liquid impinges upon a surface for impact to break the liquid stream and then the air is mixed to atomize it. The advantage of this process is to reduce the amount of air required to generate the droplets but the downside is that the over time the impact surface becomes eroded and effects the spray droplet size pattern. The nozzle life can be very short if the liquid has impurities in it.
In the second type, the liquid is broken into droplets by using only gas. The advantage of this type is that the nozzle lasts longer but the downside is that this type of spray needs more gas to generate the same size of droplets.
External mixing
External mixing nozzles mix fluids outside the nozzle.
This type of spray nozzle may require more air, but the mixing and atomization of liquid takes places outside the nozzle. If a liquid is atomized using any gas which may react with the liquid, it is possible that the reaction may damage the inside of the nozzle. This type of nozzle is most beneficial for a liquid which may evaporate inside the mixing chamber of an internal mix nozzle or using steam to atomize the liquid. Also this nozzle is suitable of spraying viscous fluid.
Rotary (spinning disc)
Rotary atomizers use a high speed rotating disk, cup or wheel to disperse the liquid into a hollow cone spray. The rotational speed controls the drop size. Spray drying and spray painting are the most common uses of this technology.
See: Nozzles for ULV and CDA
Ultrasonic
Ultrasonic atomizers This type of spray nozzle utilizes high (20 kHz to 50 kHz) frequency vibration to produce nearly narrow drop size distribution and low velocity spray from a liquid. The vibration of a piezoelectric crystal causes capillary waves on the nozzle surface liquid film.
Control
Each nozzle has a performance curve and will produce a drop size determined by the liquid and the gas flow rates. If a process is sensitive to the droplet size, then controlling the flows becomes a critical issue. Without a good control over the liquid and gas flow rates, the nozzle may not generate the drop size that is required. This can lead to catastrophic equipment failure or may have an important adverse effect on the process.
Material of construction
The material of construction is selected based on the fluid properties of the liquid which is to be sprayed and the environment. Spray nozzles are most commonly fabricated from metals, but plastics and ceramics are also used. For spraying slurry in a Fluidized Gas De-sulfurizer (FGD) the most preferable material is Silicon alloys such as Stellite which are hard but are not as abrasion resistant as Silicon Carbide. For corrosion resistance material such as Hastelloy are used. The material wear in the nozzle has adverse effect on the sprays. They can generate streaks of bigger droplets’ size exiting out of the nozzle which can have an undesirable effect on the process. For example: In a gas conditioning tower in a Cement Plant, the objective of liquid spray is to humidify and cool the gas before it enters the particulate matter abatement equipment. This application requires a particular droplet size for it to work. If the droplet size increases beyond a certain threshold they will not completely evaporate and will not cool the gas to the desired temperature. The un-evaporated droplet will then hit the bottom of the tower. As the dust laden gases hit the tower the dust will stick to the wet surface and will create major problems with increased maintenance. If not maintained they can even clog the gas outlet duct and can disrupt the plant operation.
See also
- Nozzle
- nebulizer
- Pesticide application
- ilass Institute for Liquid Atomization and Spray Systems
References
- Nasr, Yule and Bending, "Industrial Sprays and Atomization", Springer, 2002, ISBN :1-85233-611-0
- Lefebvre, Arthur, Atomization and Sprays , Hemisphere, 1989, ISBN 0-89116-603-3
- (ILASS) Institute for Liquid Atomization and Spray Systems
- Spray Nozzles -Waterbase &
Spray nozzle - Wikipedia, the free encyclopedia
A spray nozzle is a device that facilitates the formation of spray. When a liquid is dispersed as a stream of droplets (atomization), it is called a spray.
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