Air dryers

Structure and FeatureDew points of the atmospheric pressure when the dew points under the pressure are changed 1, What is the atmospheric dew point when the pressure is 7kg/cm² and the dew point is 10°C under the pressure?           Find the dew point of 10°C on the right side of the table and you can find the intersecting point of the horizontal line A from the dew point of 10°C and the pressure line 7kand then you can obtain the atmospheric point of-17°C if you descend from the interesting point of the vertical line A 2, What is the atmospheric point when the pressure is 7kg/cm² and the dew point under the pressure is 4°C?           If you follow the B-B line  according to the above method, you can find the dew point of -22°C on the table 3, What is the atmospheric point when the pressure is 7kg/cm² and the dew point under the pressure is 4°C?           If you follow the C-C line according to the above method, you can find the dew point of -57°C on the table. Change of the dew point under the pressure in case of decompressinWhen the dried air in the pressure of 7kg/cm² and dew point of 4°C If decompressed down to the pressure of 3kg/cm², what is the change of the dewpoint under the pressure?           Find 4°C on the right side and the intersecting point of the Hori-zonal line B from and the pressure line of 7k and then descend from the intersecting point following the horizontal line of B and you calabtain above intersecting point with the pressure line 3k and then move to the right side to get the dew point of -5°C. Saturated vapor table(Relative humidity 100%)

Structure and FeatureDew points of the atmospheric pressure when the dew points under the pressure are changed 1, What is the atmospheric dew point when the pressure is 7kg/cm² and the dew point is 10°C under the pressure           Find the dew point of 10°C on the right side of the table and you can find the intersecting point of the horizontal line A from the dew point of 10°C and the pressure line 7kand then you can obtain the atmospheric point of-17°C if you descend from the interesting point of the vertical line A 2, What is the atmospheric point when the pressure is 7kg/cm² and the dew point under the pressure is 4°C?           If you follow the B-B line  according to the above method, you can find the dew point of -22°C on the table 3, What is the atmospheric point when the pressure is 7kg/cm² and the dew point under the pressure is 4°C?           If you follow the C-C line according to the above method, you can find the dew point of -57°C on the table. Change of the dew point under the pressure in case of decompressinWhen the dried air in the pressure of 7kg/cm² and dew point of 4°C If decompressed down to the pressure of 3kg/cm², what is the change of the dewpoint under the pressure?           Find 4°C on the right side and the intersecting point of the Hori-zonal line B from and the pressure line of 7k and then descend from the intersecting point following the horizontal line of B and you calabtain above intersecting point with the pressure line 3k and then move to the right side to get the dew point of -5°C. Saturated vapor table(Relative humidity 100%)

Air dryer GHP - series is the most efficient drying form to dry medium or large size capacity of compressed air. Regenerated air through electric heater during regenerating regenerates absorbent completely and provides table and compressed air of drier low we point if expects epoch-making energy reduction by applying various options

General specification+ Inlet Air Pressure: 7kg/cm²(Std)+ Outlet Dew Point: -40°C at atm (Std)+ Inlet Air Temperature:Under 40°C (Std)+ Reldrive humidly:100%+ Operating time: Bhours Cycle (Std)+ Adsorption time: 4hr+ Heating time: 2.5hours+ Cooling time: 1.5hours+ Regeneration Air: Ouside Air & Dried Air+ Regeneration: Elictric Heater (Std)Steam Heater (Option)+ Blower: Roots Blower (Std)

Air dryer GSD - series is the most suitable for the small capacity of a compressed air dryer and uses a part of dried air as regenerating source without using a heat source during regenerating. Very simple structure, small space for installation, and no separate electric control make it easy to maintain and control

Heatless adsorption dryers are the most reliable type of adsorption dryer available and have long been the dryer of choice for many industries and applications. They are simple, reliable and cost-effective for a wide range of compressed air purification systems and are often safe and viable. GHS heatless compressed air dryers provide clean, oil-free and dry compressed air in accordance with all editions of ISO8573-1, the international standard for compressed air quality. They are energy efficient and use a modular construction making them less than half the size of conventional dryers.

The heated regeneration modular adsorption dryer is based on the principle of pressure swing adsorption and regeneration cycle, adopts external electric heating regeneration method to adsorb and dry compressed air, and use external electric heating to reduce the loss of regeneration gas. Compared with the heat-less regenerative adsorption dryer, the heated regeneration adsorption dryer obviously reduces the loss of the product gas, but at the same time has the disadvantage of large power consumption. After the gas consumption and the power loss are converted, the energy saving effect is not outstanding, and the cost is also significantly higher than the heated regenerative adsorption dryer

Working condition: Inlet air temperature: 45 ° C Ambient temperature: 38 ° C  Technical indicators: Pressure dew point: -40 °C Regeneration gas consumption: 5-7% Pressure loss: ≤0.065 Mpa   The scope of work: Inlet air temperature: ≤60 °C Ambient temperature: 2-45 °C Working pressure: 0.6-1.0 Mpa

Operation condition:+ Air flow capacity: 130 Nm3/min+ Working pressure: 0.6~1.0 Mpa+ Pressure drop: ≤ 0.03 Mpa+ Inlet air temp: ≤ 60°C+ Ambient temp: ≤ 38°C+ PDP: 2~10°C