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Desiccant Air Dryer / ZEHB series

ZEHB series is used in various fields such as food & beverage, pharmaceuticals, petrochemicals, electronics & semiconductor and medicine.

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Place of Origin: South Korea

Brand name: GSA

Payment Terms: Others

Production method: Available

Shipping / Lead Time: Negotiable / Negotiable

Keyword: air cooler, air dryer, gsa, air compressor

Category: Other Machinery & Industry Equipment

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GSA CO.,LTD

Membership: VIP

Country / Year Established: South Korea / 1998

Business type: Manufacturer

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PRODUCT DESCRIPTION COMPANY INFORMATION Related Products

Product name	Desiccant Air Dryer / ZEHB series	Certification	CE
Category	Other Machinery & Industry Equipment	Material	-
Keyword	air cooler , air dryer , gsa , air compressor	Unit Size	-
Brand name	GSA	Unit Weigh	-
origin	South Korea	Stock	99
Supply type	Available	HS code	8479899099

Product Information

Why Desiccant Air Dryer?

A refrigerated air dryer chills and dehumidifies compressed air, using a refrigerant. To prevent condensate generated while cooling compressed air from being frozen or a heat exchanger from being frozen-burst, dew points are usually kept at 0℃ or higher. For moisture-sensitive processes, therefore, a desiccant air dryer is essential.

In general, a desiccant air dryer offers -40℃ or lower temperature of dew points. It is used in various fields such as food & beverage, pharmaceuticals, petrochemicals, electronics & semiconductor and medicine. In these industries, even a small amount of water might result in process discontinuance or product defect. Therefore, a highly reliable desiccant air dryer is a must-have system.

GSA’s desiccant air dryer is able to provide even super-dry compressed air (-100℃ or below) according to user needs. We have enhanced customer satisfaction through the design of diverse desiccant air dryer systems.

Classification

A commonly used model with a short process cycle (nearly 10 minutes)
Simple structure and low power consumption
About 14% purge consumption

A model with a long process cycle (8 hours orlonger)
A heater needed to heat regeneration air mounted
About 8% purge consumption

A model with a long process cycle (8 hours orlonger)
Regenerates a desiccant, using air around the blower and heaterfurnace
About 3% purge consumption

A model with a long process cycle (8 hours orlonger)
Regenerates a desiccant, using air around the blower and heaterfurnace
Zero purge consumption

Operating Mechanism

Compressed air with high moisture flows into the drying tower. While it moves from the bottom to the top of the tower, moisture is adsorbed by the charged desiccant, producing dry compressed air. While the air is being dried in the drying tower, other towers engage in regeneration process to remove adsorbed moisture. The regeneration process is divided into heating and cooling processes. During the former process, the air sucked in from the outside by a blower is heated up to the set temperature through an electrical heater. After moisture is removed, the heated regeneration air is discharged to the outside through a muffler at the bottom of the regeneration tower. Once the heating process is complete, the cooling process needed to cool down the heated desiccant in the regeneration tower begins. The cooling process is divided into ZEHB Type which cools down the desiccant, using the am bient air sucked by a bower and ZEHC Type that cools off the desiccant with coolant by circulating regeneration air.

Once the cooling process is done, the desiccant regeneration process is also finished. Then, dynamic pressure process pressurizing regeneration tower starts. Once the dynamic pressure process is done, two towers are transferred. In the drying tower, then, the regeneration process is executed. In the towers where such regeneration process is completed, drying process is executed. A series of above processes are automatically repeated, providing dry compressed air.

In a zero-purge desiccant air dryer, the air compressor’s load factor is low without any purge which is consumed during desiccant regeneration. Depending on the adsorption tower’s regeneration temperature, diverse heating process control features are added, reducing power consumption (energy-saving model).

Desiccant Air Dryer for Stable Dew Points

Desiccant Air Dryer with Diverse Features

① PAN/DUAL Check Valve
High-performance PAN/dual check valves with a little chance of breakdown used
② Minimization of Purge Air Loss
Minimizes compressed air loss through accurately calculated orifice caliber and precision processing
③ SAFETY VALVE
Ensures safety with KOSHA-certified safety valves
④ CONTROL AIR FILTER
A control-purpose compressed air filter installed to prevent valves and pneumatic solenoid valves from malfunctioning
⑤ High-quality Desiccant
Stable dew points with high-quality active alumina including FRANCE AXENS
⑥ High-quality Pressure & Temperature Gauges
High performances and low faults with highly reliable pressure and temperature gauges
⑦ PLC and Touchpanel
A touchpanel designed for PLC and user convenience applied; able to operate and get diverse information easily
⑧ High-quality Ring Blower
Low noise and law faults despite long operation with a high-quality ring blower
⑨ Electric Heater
An immersion heater with very low heat loss and great heating performances used
⑩ PARKER Pneumatic Solenoid Valve
Able to check operating conditions easily, using PARKER’s LED pneumatic solenoid valve
⑪ Power Regulator (Specifications Applied)
Able to control a heater efficiently through this power regulator and reduce power consumption
⑫ High-quality Muffler
Minimizes noise from the purge with an Allied Witan’s or specially designed (large model) muffler
⑬ Highly Reliable Auto Valve
Proven angle sheet and butterfly valves used
⑭ Efficient Compressed Air Distribution System
A bottom distributor installed to prevent the bias flow of compressed air in a large adsorption tower and provide stable dew points

Technical Specification

Design Conditions

Inlet Pressure : 7 barg
Inlet Temperature : 38 ℃
Dew Points : -40 ℃ @ ATM
Design Temperature : 250 ℃
Design Pressure : 9.7 barg
Differential Pressure : 0.2 bar

References

Those with - 40℃ or below dew points are also customizable.
ASME specifications in addition to KS are also customizable.
A unit with 9.8barg or higher operating pressure is custom-made.
Special-purpose models in addition to the proposed specifications are also customizable.
Large models bigger than those stated in the specifications above are also customizable.
The specifications are subject to changes without notice for product improvement.

*Note 1: Desiccant Amount of 2 Towers / *Note 2: Total Weight
Model		Connection	Flow Rate	Air Compressor	Heater	Blower	Power Supply	Dimensions (mm)			Desiccant Amount N Note 1	Weight *Note 2
Model		A	N㎥/hr	HP	kW	kW	V / Ph / Hz	A	B	C	kg/2Tower	kg
Z E H B	430	FLG. 40A	680	75	8.5	1.5	220V/380V 440V 3Ph 50/60Hz	1900	900	2030	324	1440
	560	FLG. 50A	890	100	11.0	1.75		2100	1000	2230	406	1700
	720	FLG. 50A	1140	130	14.0	2.55		2100	1000	2230	474	2060
	900	FLG. 65A	1430	150	17.5	2.55		2600	1250	2400	592	2200
	1100	FLG. 65A	1740	175	21.5	4.5		2600	1250	2400	755	2470
	1350	FLG. 80A	2140	200	26.5	4.5		2600	1670	2330	943	2690
	1550	FLG. 80A	2450	250	30.0	4.5		2600	1710	2330	1,022	3100
	2100	FLG. 100A	3320	300	41.0	8.6		3100	1650	2445	1,384	4090
	2600	FLG. 100A	4120	400	50.5	8.6		3400	1970	2290	1,848	4700
	3000	FLG. 125A	4750	500	58.5	12.6		3550	1970	2290	1,980	5860
	3400	FLG. 125A	5380	600	66.0	12.6		3650	2140	2530	2,272	7400
	4100	FLG. 125A	6490	700	80.0	15.3		3650	2180	2530	2,707	8200
	4500	FLG. 150A	7120	800	87.5	22.7		5700	2100	2960	3,055	9600
	5400	FLG. 150A	8550	900	105.0	22.7		5700	2100	2960	3,566	11400
	6000	FLG. 150A	9500	1000	117.0	22.7		6000	2150	3000	4,052	12300
	7000	FLG. 200A	11080	1200	136.0	25.2		7000	2200	3500	4,621	13500
	8000	FLG. 200A	12660	1300	155.5	30.6		7000	2500	3700	5,279	14700
	9000	FLG. 200A	14520	1600	1750.0	37.0		7000	2500	3700	5,942	15600

Correction Factors

Correction Factor by Inlet Air Temperature
Inlet Air Temperature (℃)	27	32	38	43	49
Correction Factor	1.14	1.12	1.00	0.75	0.65
Correction Factor by Inlet Air Pressure
Inlet Air Pressure (barg)	4	5	6	7	8	9	N/A	N/A	N/A	N/A	N/A	N/A
Correction Factor	0.6	0.75	0.87	1.00	1.16	1.24	N/A	N/A	N/A	N/A	N/A	N/A

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Price (FOB)	Negotiable	transportation	Negotiation Other
MOQ	Negotiable	Leadtime	Negotiable
Payment Options	Others	Shipping time	Negotiable

GSA CO.,LTD

Minisite Heart

Country / Year Established: South Korea / 1998

Membership: VIP

Business type: Manufacturer

DUNS

President: PARK HOUNG SEAK

Address: 679-2 Sinwol-ri, Chowol-eup, Gwangju-si, Gyeonggi-do, 464-864 KOREA

Product Category: Other Machinery & Industry Equipment,Refrigeration & Heat Exchange Machinery

Year Established: 1998

No. of Total Employees: 1-50

Company introduction: GSA Co., Ltd. (www.gsadryer.com) is the Korean leading company in the design and manufacturing of products for the treatment of compressed air and gas. We produce refrigerated compressed air dryers, desiccant air dryers, membrane dryers, after coolers, chillers, oil-water separators, particulate & air filters, automatic condensate drains, PSA nitrogen generator, PSA oxygen generator, PSA hydrogen purifier, PSA argon recovery and purification plant, PSA CO, CO2 recovery and purification plant, PSA methane recovery and purification plant, PSA other gases separation and purification plant.