1、吸附器设计独特:无可拆法兰,不填充棕垫等惰性材料,不需气缸和弹簧压紧,可使分子筛永不粉碎,永不补充。

2、配置精良:高可靠性的气动阀门,性能优异,保证300~500万次无故障连续运行。

3、过滤器:集油水分离、粗过滤、精密过漶于一体,可保持分子筛长期使用活性。长期使用中,不需要更换过滤元件。

4、空气缓沖罐:结构合理的设计,使系统的工作压力更稳定。

5、氮气缓沖罐:优化设计,使成品氨气的纯度、流量稳定输出。

6、消声器:独特设计,排气时噪音低,对环境无噪音污染。

7、空气压缩机:为制氮设备提供高效的压缩空气,可保障生产的平稳、可靠。

8、冷冻式干燥机:将压缩空气进行冷冻干燥,以达到制氮设备对原料空气的露点要求。


1. Adsorption unique design: it can be dismantled flange and other inert materials Zon dian filled without clamping cylinder and spring can never crush zeolite, and never added.

2. Configuration well: high reliability of the pneumatic valve performance, guarantee 800-500 million trouble-free con-tinuous operation.

3. Filters: set-oil-water separator, coarse filtration, filtratio precision integrated, lowg-term use can be maintained zeolite activity. Long-term use, does not require the replacement of filter elements.

4.Air buffer tank: a rational structure design, the system is more stable work pessure.

5. Nitrogen buffer tank: Design Optimization, and the purity of the product trogen flow stable output.

6.Muffler unique design, exhaust, low noise, no noise pollution to the envronment.

7. Air compressor: providing efficient compressed air for nitrogen generating plant, can protect the stable and reliable production.

8. Refrigeration dryer: lyophilize the compressed air, so that meet t e dew-point requirements of nitrogen plant on raw materials and air.


制氮工作原理

变压吸附制氮采用碳分子筛为吸附剂(图一),利用其对氧氮的选择性吸附(图二),在变压吸附的作用下,直接用空气制取氮气的设备。

在一定工作压力下,碳分子筛对空气中氧的吸附远远大于氮(图二),形成两者吸附量的差异,使氮气在气相中得到富集。因此通过可编程序控制器控制阀门的启闭,减压后,氧等杂质组份被脱附出来,碳分子筛便获得再生。

A、B两吸附器交替循环工作:加压吸附、减压解吸,完成氧氮分离,便制备所需纯度的氮气。连续供给原料空气,连续获得氮气。

PSA nitrogen use carbon molecular sieve adsorbent of (Figure 1), use of oxygen and nitrogen on the selective adsorption(Figure 2) , in the role of PSA, the direct use of nitrogen from the air system equipment.Working under a certain pressure,the carbon molecular sieve oxygen in the air is far greater than the adsorption ofnitrogen(Figure 2), formed two adsorption of the difference in the nitrogen gas to be enriched. So through PLC control valvesopen and close, after decompression, oxygen and other impurities in the group was desorption out carbon molecular sieve toobtain renewable.

A, B two adsorbers can be incrementally cycle work: pressurized adsorption, desorption decompression, and completeseparation of oxygen and nitrogen, it required purity of the nitrogen. The supply of raw materials for air, nitrogen consecutive.