Steam Basics

When water is heated at atmospheric pressure, its temperature rises until it reaches 212F (100C), the highest temperature at which water can exist at this pressure. Additional heat does not raise the temperature, but converts the water to steam.

At higher pressures more heat must be added to water (sensible heat) before it can turn to steam. Conversely, in a pressurized system, if sufficiently hot condensate is released to a lower pressure, some of that condensate will have the heat necessary to become steam. This is called flash steam.

Steam Loop

 

Most industrial steam systems are closed systems. When water vaporizes to become steam in the boiler, the expansion pressurizes the system. Steam is forced out of the boiler by its own pressure and is carried by piping to whatever devices are to be employed for heating or processing. The pressure changes within the system provide transportation for the steam and also affect its physical properties.

It is convenient and helpful to think of the typical steam system as a loop with four distinct sections. The first is Generation. During this stage - in the boiler - heat is applied to water to raise its temperature. After the water has vaporized, the resulting steam moves into the second stage of the steam loop: Distribution. This is simply the movement of the steam within a closed system to its point of use. The use, whatever that happens to be, is called Heat Transfer. This is the third stage.  In the heat transfer portion of the steam loop, the heat of the steam is, well, transferred. In other words, it is put to work doing countless jobs.

As the steam gives up its heat through heat transfer or use, it condenses or changes its state - this time from a gas back into a liquid. This is called condensate. It is very important to drain condensate from a steam system as quickly as possible. This is the job of a simple device called a steam trap.

The fourth and final section of the steam loop is Condensate Return. For many years, condensate was simply dumped on the ground or into a drain. In recent times, cost pressures and environmental concerns have forced energy managers to rethink how they handle condensate.

Since condensate has already been through the steam system, it will take far less heat (and fuel) to turn it back into steam than it would to make steam of an equal quantity of cold water. That is why a growing number of steam users return the condensate back to the boiler where the whole process starts over. Hence, the concept of the steam "loop."

 

For more information, link to Armstrong International's web site and enroll in the Steam University.

Steam Tables

To view a complete steam table with directions on how to use it and term definitions, select: Steam Table PDF File   

 

 

 

 

 

 

Sources:  Armstrong International, web site 9/01