Steam Pipe – Used in Steam Venting

Steam is the resulting vapors given off by water when it is boiled at an elevated temperature and it is a very important component in many different kinds of industries. This vapor can have very high temperatures that make it hard to handle. Many industries make use of the steam pipe in order to handle the steam that is necessary for their equipment to function. Steam venting is a way to control and direct the flow of steam away from one area and into another. In today’s modern industrial world, steam is used for heating, propulsion, sanitation, and humidification. You can find hot air ductwork carrying steam in each of these applications.

A key requirement for a steam pipe is that it must be able to handle high temperatures. Steam related applications can involve temperatures ranging from 212° F to over 1400° F. As a result, a hot air pipe needs to be made of materials that are capable of handling higher than normal temperatures. Industries tend to favor steam venting hoses that are made from materials such as thermoplastics, silicones, and metals like aluminum and stainless steel because they can all survive direct contact with extremely hot air.

These days, steam is primarily used in heating applications as a source for both direct and indirect heat. Examples of some applications include food processing factories, refineries, chemical plants, boilers, and reactors. The steam pipe is responsible for transferring the hot air within the area of the application. A heat exchanger is a common industrial apparatus that uses steam. Steam is used in these applications to raise the temperature of a particular material or product. After the steam heats the product, it needs to be released. How does all the steam get into the area and out again? The answer is simple: through the use of a steam pipe.

Steam is used in these applications to raise the temperature of a particular material or product. After the steam heats the product, it needs to be released. How does all the steam get into the area and out again? The answer is simple: through the use of a steam pipe.

Steam venting is also present in sanitation use. This is true for both industrial level sanitation as well as domestic sanitation. A steam pipe can be used in a larger apparatus to allow people to harness steam. The steam can then be employed to clean different kinds of surfaces. Industries that use oil and coal as a source of fuel require soot blowers to clean furnace walls. These blowers have a hot air ductwork within them that release steam. The elevated temperature of steam is useful for breaking down and removing unwanted deposits in a particular area.

While sanitation is a more flexible and mobile use of a steam pipe, some applications require the steam venting to be fixed in one position for repeated and constant transfer of steam. Propulsion is another example of industrial steam use. Turbine-driven compressors and pumps make use of steam pipe products to transfer steam into specific areas. Hot air pipe products are usually fixed into a specific place so that the designated area can benefit from a steady and constant exposure to steam. Turbines require a stable source of energy in order to move and hot air ductwork that is stationary and non-flexible is useful for normal operations.

A steam pipe can also be employed in more commercial level applications like that in a steam room. Although the type of steam is of a lower temperature than what you may find in an industrial setting, it still requires the use of a hot air pipe that can handle elevated temperatures. If you ever happen to find yourself in a steam room or sauna at a fitness center, there is a high probability that these hot air ductwork being used to channel steam into the room.

Steam has proven itself to be a valuable resource for centuries, but only in recent history has it been employed in more sophisticated industrial applications. The development and expansion of steam pipe products is a testament to how important this high temperature water vapor is to our daily lives.