High Purity Nitrogen Equipment Psa Nitrogen Gas Generator Price for Food Package

Min.Order: 1

Product origin: Xuzhou, Jiangsu, China

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US$ 8000 ~ 50000

Description

Our company specialize in making various kinds of compressors, such as:Diaphragm ,compressor,Piston compressor, Air compressors,Nitrogen generator,Oxygen generator ,Gas cylinder,etc. All products can be customized according to your parameters and other requirements.

Our compressors can compress ammonia, propylene, nitrogen, oxygen, helium, hydrogen, hydrogen chloride, argon, hydrogen chloride, hydrogen sulfide, hydrogen bromide, ethylene, acetylene, etc.(Nitrogen diaphragm compressor,bottle filling compressor,oxygen diaphragm compressor)

PSA Nitrogen Generator
Nitrogen generators with cylinder filling produce gaseous Nitrogen from compressed air on-site and offer a cost-effective,
reliable and safe alternative to traditional Nitrogen gas supplies such as cylinders or cryogenic liquid. Nitrogen generators with cylinder filling are available in standard models with capacity ranging from 0.27m3/hr to 60m3/hr at 99.9999% purity with cylinder filling pressures up to 200 Bars. The design is made for round the clock 24/7 operation. Each generator is equipped with automatic start & stop function, enabling the generator to start and stop automatically according to the Cylinder consumption. Remark: More models and specifications please contact us.

PSA (Pressure Swing Adsorption) is an advanced gas separation technology, which has an irreplaceable position in the field of current on-site gas supply. PSA nitrogen generator with cylinder filling use compressed air as raw materials and carbon molecular sieves(CMS) as adsorbent to get high purity nitrogen based on the principle, which is pressure swing adsorption under normal temperature. In general, use two parallel adsorption towers, which are automatically running with pneumatic valves controlled by PLC, altermnatively adsorb under pressure and regenerate without pressure, to separate nitrogen and oxygen, and get final required high purity nitrogen gas continuously.

Nitrogen generator parameter table
Model	Nitrogen Purity (%)	Nitrogen production (m³/h)	Air consumption (m³/min)	Dimensions L×W×H(mm)	Model	Nitrogen purity (%)	Nitrogen production(m³/h)	Air consumption (m³/min)	Dimensions L×W×H(mm)
HYN-10	99	10	0.5	1300×1150×1600	HYN-80	99	80	3.7	2100×1500×2000
	99.5		0.59	1350×1170×1600		99.5		4.0	2100×1500×2150
	99.9		0.75	1400×1180×1670		99.9		5.5	2500×1700×2550
	99.99		1.0	1480×1220×1800		99.99		7.5	2700×1800×2600
	99.999		1.3	2000×1450×1900		99.999		12.0	3200×2200×2800
HYN-20	99	20	0.9	1400×1180×1670	HYN-100	99	100	4.6	2100×1500×2150
	99.5		1.0	1450×1200×1700		99.5		5.0	2200×1500×2350
	99.9		1.4	1480×1220×1800		99.9		7.0	2650×1800×2700
	99.99		2.0	2050×1450×1850		99.99		9.3	2750×1850×2750
	99.999		3.0	2100×1500×2150		99.999		15.0	3350×2500×2800
HYN-30	99	30	1.4	1400×1180×1670	HYN-150	99	150	7.0	2150×1470×2400
	99.5		1.5	1480×1220×1800		99.5		7.5	2550×1800×2600
	99.9		2.1	2050×1450×1850		99.9		10.5	2750×1850×2750
	99.99		2.8	2100×1500×2150		99.99		14.0	3300×2500×2750
	99.999		4.0	2500×1700×2450		99.999		22.5	3500×3000×2900
HYN-40	99	40	1.8	1900×1400×1800	HYN-200	99	200	9.3	2600×1800×2550
	99.5		2.0	2000×1450×1900		99.5		10.0	2700×1800×2600
	99.9		2.8	2100×1500×2050		99.9		14.0	3300×2500×2800
	99.99		3.7	2200×1500×2350		99.99		18.7	3500×2700×2900
	99.999		6.0	2600×1800×2550		99.999		30.0	3600×2900×2900
HYN-50	99	50	2.1	2000×1500×1900	HYN-300	99	300	14.0	2700×1850×2700
	99.5		2.5	2050×1450×1850		99.5		15.0	3150×2150×2750
	99.9		3.3	2100×1500×2250		99.9		21.0	3500×2700×2900
	99.99		4.7	2500×1700×2500	HYN-500	99	500	23.3	3350×2500×2800
	99.999		7.5	2700×1800×2600		99.5		25.0	3500×2700×2900
HYN-60	99	60	2.8	2050×1450×1850		99.9		35.0	3800×3000×3000
	99.5		3.0	2050×1500×2100	HYN-1000	99	1000	47.0	3600×2900×2900
	99.9		4.2	2200×1500×2250		99.5		50.0	4000×3000×2900
	99.99		5.5	2550×1800×2600		99.9		70.0	4200×3550×3000
	99.999		9.0	2750×1850×2700	HYN-3000	99	3000	140.0	4500×3800×2950
					HYN-3000	99.5	3000	150.0	4800×3600×3000

Working principle
After being compressed by an air compressor, the raw air enters the air storage tank after dust removal, oil removal and drying,and then enters the A adsorption tower through the A intake valve. At this time, the tower pressure rises, the nitrogen molecules in the compressed air are adsorbed by the zeolite molecular sieve, and the unadsorbed oxygen passes through the adsorption bed and enters the oxygen buffer tank through the outlet valve. This process is called adsorption. After the adsorption process is over, the adsorption tower A and the adsorption tower B are connected through a pressure equalizing valve to balance the pressure of the two towers. This process is called equalizing pressure. After the pressure equalization is over, the compressed air passes through the B intake valve and enters the B adsorption tower, and the above adsorption process is repeated. At the same time, the oxygen adsorbed by the molecular sieve in the adsorption tower A is decompressed and released into the atmosphere through the exhaust valve A. This process is called desorption, and the saturated molecular sieve is adsorbed and regenerated. Similarly, the right tower is also desorbed when tower A is adsorbing. After the adsorption of Tower B is completed, it will also enter the pressure equalization process, and then switch to the adsorption of Tower A, so that the cycle alternates and continuously produces oxygen.
The above-mentioned basic process steps are all automatically controlled by PLC and automatic switching valve.

Flow Chart

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