GSA's compressed air treating equipment turning Top air quality

GSA’s compressed air dryer is highly reliable and efficient in use

HYDM-N2-Ref-Air-Dryer-Series

Refrigerated air dryer, Energy Saver

HYDM-N2 series cycling high inlet temp. air dryer

Generation-II-Energy-saving-Refrigerated-Air-Dryer

GSA’s HYDM-N2 series refrigerated air dryer is a cycling system designed to save energy in a simple and efficient fashion. It is relatively simple, compact and highly reliable compared to products which use variable-speed drive (VSD) designed to control the RPM of the refrigerant compressor and a brushless DC (BLDC) motor or those with phase change materials (PCM) or thermal mass.

The aluminum heat exchanger of the generation-II, energy-saving refrigerated air dryer plays a role of thermal mass which has great heat transfer performances. Since the product is made with a single material, it has no thermal resistance. Therefore, cooling energy stored in the heat exchanger can be utilized efficiently. It generates the greatest efficiency at the lowest costs when load is low or the compressed air use pattern is intermittent with a long length of time by maximizing the use of cooling
energy accumulated in the heat exchanger.

Classification

  • Standard models
  • Operated all the time regardless of load
  •  Energy-saving models
  • Operated or stopped depending on load
  • Standard products commonly used
  • “N” : Air-cooled, “WN” : Water-cooled
  • Suitable for high inlet temperature, it does not have precooler and air filter inside the unit.
  • “HT” : Air-cooled, “HTW” : Water-cooled
  • This model is designed to save energy. The unit is operated and stopped by a cooling energy and temperature control.
  • Thismodelisdesignedbyadding2to3pcs internalairfilters intocycling HYD-N2 series unit, which can treat high inlettemp. compressed air.
  • This model is designed to save energy by controlling cooling temperature and energy, using the latent heat of phase change materials (PCMs) stored in a specially designed heat exchanger.

Components

  • HYDM-5N2 ~ HYDM-20N2
    5μm particulate Filter + Refrigerated Dryer + 1ppm & 0.1ppm oil Removal Filte
  • HYDM-30N2 ~ HYDM-100N2
    5μm particulate Filter + Refrigerated Dryer + 1ppm Oil Removal Filte

Features

  • Built-in filters can save installation space
  • Easy installation without piping works for air filters.
  • Energy saving design. The unit is operated and stopped through dewpoint control.

10 year operating cost

Initial investment
Non cycling high inlet temp. unit
Cycling high inlet temp. unit
Operating cost
Non cycling high inlet temp. unit
Cycling high inlet temp. unit
Management cost
Non cycling high inlet temp. unit
Cycling high inlet temp. unit
Installation cost
Non cycling high inlet temp. unit
Cycling high inlet temp. unit
Grand total
Non cycling high inlet temp. unit
Cycling high inlet temp. unit

Suitable for high inlet temp. Air

Diverse Innovative Technologies

High-efficiency-and-high-heat-storage

High-efficiency and high heat storage ratio Aluminum Heat Exchange

With a high-efficiency aluminum heat exchanger, GSA refrigerated air dryer offers stable dew points with a larger heat-transfer area and greater efficiency than other types of heat exchangers such as shell & tube and plate ones. Made with the same material, the GSA air dryer has no thermalresistance and is free from heat exchangerfreeze-up or corrosion. Energy can be saved through dew point control using the heat storage function of the heat exchanger.

Highly-reliable-drain

Highly reliable drain without compressed air loss

With a demister and a large separator inside the heat exchanger, it offers great condensate isolation efficiency. The isolated condensate is discharged through a magnetic float ensuring greater efficiency and operating performances, Compared to a gravitational drain trap, it reduces performance drop or failure in the drain caused by oil or various contaminants.

MEPOL-Inner-Pipe

MEPOL Inner Pipe

The high-inlet temperature cycling dryer is durable and anti-corrosion because of MEPOL internal pipe. It can prevent pipe corrosion and microbial/bacterial formation. With great mechanical strength and pressure resistance, it reduces a risk of rupture caused by shock or fluid. With anti-scale properties, furthermore, it keeps the flow constant and reduces a possibility of differential pressure. Its easy machinability makes the compact design possible.

Simple-and-smart-controller

Simple and smart controller

The simple and functional controller helps users know the exact dew points, the operation condition of the unit and energy saving through ECO lamp. A 4.3” TFT color touch panel controller (option) enables simple and easy management. Easy and convenient unit management is possible by anyone anywhere through the functions of smart control and communication (option).

User convenience

A high-inlet-temperature cycling refrigerated air dryers have 2 to 3 air filters inside the unit. So piping works is not necessary for air filters. The compact design ensures easy and convenient installation especially in a small space. With an particulate filter and an oil filter, the unit provides high-quality compressed air.

Minimizing-the-loss-of-compressed-air

Minimizing the loss of compressed air with low differential pressure

Our heat exchanger minimizes differential pressure with a large heat-transfer area and sufficient cross section for the passage of compressed air. We enhanced heat-exchange efficiency and reduced differential pressure by minimizing resistance, making it possible to operate the compressed air system more efficiently at lower costs.

Efficiency-Maximization

Efficiency Maximization with High-efficiency Condenser

For stable performances even under unfavorable circumstances like a tropical area, the grooved cooper tube and corrugated split fin were applied. The condenser is expanded in a complete and uniform. Its fin adhesion is high. It has a high coefficient of heat transfer. Therefore, it guarantees stable operations under diverse environments including tropical area.

Technical Specification

Design Conditions

  • Inlet Pressure : 7 barg
  • Inlet Temperature : : 40 ℃ (Max. 60 ℃)
  • Pressure Dew Point : 2 ~ 10 ℃
  • Ambient Temperature : 32 ℃
  • Design Pressure : 9.7 barg
  • Design Temperature : 60 ℃

Notes

  • R-134a and R-22 refrigerant are used for our standard models. The other refrigerant is also available.
  • The capacity in the table is based on 60Hz.
  • The other power supply is available.
  • Units over 9.8 barg is available.
  • Models bigger than HYD-1200HT are available.
  • The specification can be changed for product improvement without notice.
HYD N3 series ​
Model Connection Flow Rate Built-in Filters Power Con-
sumption
Power
Supply
Dimension (mm) Weight
A N㎥/min μm/ppm/ppm Size kW V / Ph / Hz A B C kg
H
Y
D
M
5N2 PT 15A 0.5 5/1/0.1 15A 0.15 220 / 1 / 60 415 603 938 41
7N2 PT 15A 0.8 5/1/0.1 15A 0.15 415 603 938 41
10N2 PT 20A 1 5/1/0.1 20A 0.16 415 603 938 41
15N2 PT 25A 1.5 5/1/0.1 25A 0.24 427 830 992 50
20N2 PT 25A 2.6 5/1/0.1 25A 0.28 427 830 992 50
30N2 PT 25A 3.9 5/1 25A 0.45 455 875 1038 76
50N2 PT 40A 6.7 5/1 40A 0.70 532 1029 1144 99
75N2 PT 50A 10.5 5/1 40A 1.05 532 1200 1247 135
100N2 PT 50A 14.2 5/1 50A 0.15 380 / 3 / 60 580 1300 1393 141

Correction Factors

Correction factor by Inlet air temperature
Inlet Air Temperature (℃) 38 40 43 48 52 56 60 N/A N/A N/A N/A N/A
Correction Factor 1.10 1.00 0.88 0.76 0.65 0.57 0.51 N/A N/A N/A N/A N/A
Correction factor by inlet air pressure
Inlet air pressure (barg) 5 6 7 8 9 10 N/A N/A N/A N/A N/A N/A
Correction Factor 0.89 0.94 1.00 1.04 1.06 1.09 N/A N/A N/A N/A N/A N/A
Correction factor by ambient temperature
Ambient Temperature (℃) 27 32 37 40 45 50 N/A N/A N/A N/A N/A N/A
Correction Factor 1.05 1.00 0.92 0.82 0.76 0.69 N/A N/A N/A N/A N/A
Certification mark