Electrostatic spraying is the application of static charge to liquids in order to make them float, slide or move more easily. This method uses different types of electrostatic carriers to create fluid flow. The primary objective of electrostatic spraying is to decrease friction between moving objects and fluid and to reduce the effects of heat on fluids.
The different types of electrostatic carriers used in electrostatic spraying are water, oil, salt, ammonia, electricity, vacuum, carbon dioxide, ice and nitrogen gas. These materials can be applied in a wide range of applications to provide a wide range of benefits to industries and manufacturing processes.
Various electrostatic spraying of liquids chapters provide thorough coverage of all the basic and practical aspects of liquid spraying. In the first part, chapters dealing with manipulation and development of the electrostatic paths of droplets are introduced. In the second part, chapters on electrostatic spraying of solids and liquids in industrial processes are introduced.
Liquids and solids electrostatic spraying chapters provide detailed information regarding the fluid mechanics involved in electrostatic spraying. Various methods of selecting the appropriate carrier and controlling its motion are discussed. Chapter dealing with application of electrostatic carriers to liquids in the industrial setting are also included. Different fluid mechanics are discussed. Chapter on electrostatic spraying of solids provides an in-depth discussion of various solids and liquids and their related electrostatic properties and characteristics.
Electrostatic spraying of chemicals chapters provide an insight into the basic chemical reactions that cause the electrostatic charge to be generated. This helps in the determination of electrostatic conditions under which certain chemicals react to produce a particular result.
Electrostatic spray application chapters give details about electrostatic carriers for use in the chemical industry. The chapters discuss the application of these carriers to organic solids and liquids and their respective electrostatic properties.
Liquid spraying chapters contain detailed information on the application of the electrostatic spraying of liquids in various applications, including water spraying. The chapters discuss the application of these carriers to liquid, oil and salt droplets and describe their electrostatic behavior and characteristics. The chapters also discuss the application of these carriers to the solids in the industrial setting. The chapters contain the required specifications and data, together with a description of the electrostatic spraying techniques that are required for the application.
Electrostatic spraying of liquids is a highly useful technique for industries. This technique has numerous advantages.
The liquid spraying techniques are simple to implement and require minimum equipment, making them cost effective and easy to maintain. The liquid spraying technique can be used to spray numerous liquids at one time and they do not require any specific temperature or pressure to achieve their effect.
Liquid spraying techniques are efficient and reliable. It uses very low levels of electricity and does not damage the equipment used in any way. In addition to being economical, liquid spraying techniques are safe and environment friendly.
The use of electrostatic spraying of liquids provides effective protection to the industrial and commercial environment by reducing the impact of the discharge of liquids on surfaces such as floor, workstations, walls, equipment and machinery. In addition to this, the electrostatic spraying technique is capable of delivering aerosols into the air to create protective zones in the working environment and thereby improving the safety standards.
Electrostatic spraying of liquids is suitable for the industries of different sizes and requirements. It is a cost-effective technique that offers quick results and is non-toxic and environmentally friendly. With the use of the right techniques and the appropriate carriers it is possible to spray a large volume of liquid. It is extremely easy to implement this technique and has many applications in industrial settings.
Spray equipment required for the purpose of electrostatic spraying of liquids is available in various types and capacities. Most sprayers can be fitted with a variety of spraying options such as brushes, nozzles, sprayers, nozzles, nozzle-holders etc.