View of a compressed air piping system.
The basic purpose of compressed air systems is to deliver the compressed air to the places where it is going to be used. The compressed air has to be delivered with the right amount of volume, pressure and quality so that the components that use the air can be powered in the correct manner. A compressed air system that is not designed properly will increase the costs of energy, lower production efficiency and also lead to equipment failure. Most compressed air systems consist of a demand and supply side. The supply side is made up of the compressors and air treatment, while the demand side is made up of the storage and distribution equipments.
1. Install the compressor discharge piping, noting that the pipe needs to be able to withstand very high temperatures.
2. Install a thermometer, liquid-filled pressure gauge and a thermowell in the discharge air line before the aftercooler.
3. Install drip legs at all the low points in the entire system. Install an automatic drain tap at the end of the drip leg. This step deals with condensation control. A drip leg is a pipe extension from below the airline that will be used for collecting condensation in the pipe.
4. Install a low point drain in the discharge pipe before the aftercooler to get rid of oil or cooling water.
5. Slope the main header pipe downward in the direction of the flow of compressed air. An efficient loop design of a compressed air system will allow the airflow to take place in two directions. This will lower the pipe length to almost half and will reduce the occurrence of pressure drop. Many experts also recommend the installation of a balance line to provide an additional source of air.