Why Does Compressed Air Require A Dryer

All air compressor systems will generate condensation. Πρώτα, the atmosphere contains many water vapor. During compression, moisture enters the system together. As the pressure rises and cools, they turn into liquid water. These water droplets mix with air. Τελικά, they become moist air.

Εξάλλου, the water vapor content will increase sharply with the increase in pressure. Για παράδειγμα, compress the room air to 8 μπαρ. The moisture content will increase approximately 8 times. A 37KW air compressor will produce about 90L of water daily (relative humidity is 50%). Επομένως, we must discharge the water in the air storage tank daily. Σε διαφορετική περίπτωση, all kinds of problems will arise.

Moisture is troublesome in the manufacturing process. This could be better for users who use compressed air.

1. Πρώτα, moisture tends to corrode pipes. So it will shorten the service life of the pipeline. Επιπλέον, water will mix with oil and dust. This can easily clog the pipes. εκτός, water will also cause corrosion of pneumatic components, και τα λοιπά.;
2. κατα δευτερον, it isn’t good for some special production processes. Για παράδειγμα, water will affect power plant ash spraying, cement transportation, και τα λοιπά.;
3. Τρίτον, it may also seriously impact product quality. For instance, it will damage electronic products, medicines, τροφή, και τα λοιπά.;
4. Επίσης, liquid water forms a water hammer at a certain speed. This will damage air-use equipment such as cylinders, και τα λοιπά.
5. The most terrible thing is that water will breed bacteria. This is very harmful to human health.

So we must dry the compressed air with dryers.

Air dryness is also known as moisture content. It generally refers to a certain amount of water vapor content in the air. We can define it in relative humidity, ppm of water content, or dew point. The dew point is a more useful term than relative humidity.

The dew point is defined as follows: Water vapor in the air cools under a certain pressure. At a certain time, condensation begins to form. We will call the temperature corresponding to this time the dew point. When the compressed air temperature and dew point are equal, η σχετική υγρασία είναι 100%. There are usually two types of dew points. Αυτό είναι, “atmospheric dew point” and “pressure dew point”.

Assume that the relative humidity of the air is 100%. Then the atmospheric dew point refers to the temperature value at standard atmospheric pressure.

Likewise, assume that the relative humidity of the air is 100%. The pressure dew point refers to the temperature value under a certain pressure. We generally use the PDP to explain the drying performance of air dryers.

The pressure dew point must be greater than the normal pressure dew point. Για παράδειγμα, the dew point value of 7 bar pressure is 3°C. Αυτή τη στιγμή, the normal pressure dew point value is -20.8°C.

Different dew points, different water content. Για παράδειγμα, assume that the pressure is 0.7MPa. When the pressure dew point is 10°C, the air moisture content is 1.2610g/m³. At a pressure dew point of 0°C, the water content of air is 0.7074g/m³. When the PDP is -20℃, the air-water content is only 0.1438g/m³.

The standard for measuring the moisture content of compressed air is ISO 8573-1:2010. It classifies the pressure dew point (PDP). Αυτό είναι, from -70°C to 10°C. The lower the PDP number, the higher the air quality need.

Different occasions, different pressure dew point requirements. Για παράδειγμα, ordinary conveying lines, instrumentation air sources, and pneumatic tools need lower. The pressure dew point can be above 0℃. Precision spraying and food and beverage production requirements are high. The pressure dew point needed is below 0℃.

We made a comparison chart. This will better visualize the saturated water content of Class4~1 compressed air. Assume that there is 3600m3 compressed air. And the pressure is 7 μπαρ. At 3℃ PDP, the water content is 20 liters. At -20℃, είναι 4.5 liters. And if PDP is -40℃, water content is less than 500 ml. Τελικά, είναι 10 ml at -70℃ pressure dew point.

Look at the chart again. For classes 4 προς την 6, usually use the refrigerated air dryer. And for class 3 and below, we use a desiccant air dryer. εκτός, for class 3, it can also use the membrane dryer.

Φυσικά, we must choose the dryer according to the air demand. Do not blindly pursue compressed air high quality.

The dryer utilizes the refrigeration principle to reduce compressed air temperature. Την ίδια στιγμή, reduce the PDP pressure dew point to 3~10℃. Let the low-temperature refrigerant flow in the evaporator. Then it will exchange heat with the high-temperature air. Water vapor is supersaturated at low temperatures and condenses into liquid. Μετά, separate the condensate from the compressed air. Τελικά, the water is get out of the dryer system. Refrigerant dryers can also remove some impurities and oil.

The working principle of an adsorption dryer is PSA. The desiccant in the working tower will adsorb the water vapor. Ετσι, it achieves the purpose of compressed air drying. Desiccant air dryer working is divided into two processes.

One is the adsorption process. Compressed air through the working tower. Due to the role of physical adsorption power, water vapor penetrates the adsorbent. Aluminum oxide/molecular sieve reduces the water vapor content. The dew point of the desiccant dryer is up to -20/-40/-70℃. It can remove about 98.95%/99.86%/99.99% of water vapor, αντίστοιχα.

Another process is regeneration. Αυτό είναι, make the adsorbent above regain the adsorption capacity. So it can be prepared for the cycle work.