Causes of aluminum oxide film formation

[China Aluminum Network] When oxidizing from a sulfuric acid solution, it can be seen that in the solution area near the anode, the content of aluminum ions is added, oxygen is separated out, and there is an oxide film, while hydrogen is separated from the cathode, and the oxide film is formed. Reflect the two processes together. That is, the electrochemical film formation process and the chemical dissolution process of the oxide film. Of course, only the film formation rate is greater than the film dissolution rate, then the thickening of the oxide film can be achieved because the resistance of the aluminum oxide film is great when it's When the thickness reaches a certain limit, resistance will hinder the continued reaction of the anode, and the current will not pass. At this time, the film formation rate is equal to zero and the dissolution process is not suspended. Therefore, the thickness of the oxide film that has been formed tends to decrease.

The nature of the anodic oxidation process is the discharge of H+ and OH- and the subsequent oxidation of aluminum by the new eco-oxygen to form AlzO3. At the beginning of the oxidation, a thin, fine oxide film (ie, a non-porous inner layer that is close to the metal surface) is quickly formed on the anode. The resistance is also large, and the voltage rises sharply in the first few seconds. The increase in voltage causes local thinning of the oxide film to "break down." The breakdown of the breakdown of the local film accelerates, presents holes, and then extends, providing the conditions for further thickening of the film, and forming a hexagonal outer layer of the oxide film with the holes as the middle.

The

Product introduction
HHCMS-240 type Carbon Molecular Sieve
HHCMS-240 is a new kind of non-polar adsorbent. It is designed to extract nitrogen-rich gas from the air. It is suitable for separating nitrogen from the air.
The most notable features of the carbon molecular sieve are high gas-producing efficiency and low waste, especially nitrogen with a purity higher than 99.9%.

It is widely used in large air separation and sheet making equipment, and the application field covers the high-end aspects such as the storage and transportation of crude oil in yibi ships.


Project parameters

The diameter of:1.0-1.3   1.3-1.5
Packing density:≥680-700kg/m³
The intensity of particle:≥95
Compressive strength abrasion:≤1%
The moisture content:≤0.5%
Standard packing:20Kg/barrel. 40Kg/barrel. 130Kg/barrel



The adsorption time of test condition was 58s with an average pressure of 1-2s


Adsorption pressure

Nitrogen purity (%)

  Yield (Nm3/ h.t.)

Nitrogen recovery rate

 

 

 

0.8MPa

99.99

95

24

99.9

160

29

99.5

240

35

99

320

42

98

400

43

97

490

48

96

560

51

95

620

55

 

 

0.6MPa

99.99

75

27

99.9

130

30

99.5

190

37

99

260

42

98

320

44

97

390

50

96

445

52

95

500

56


Pay attention to
1. The nitrogen production equipment can reduce the adsorption temperature to better show its excellent nitrogen production performance under conditions;
2. Pay attention to low temperature drying and seal preservation during storage;

Black Strip Molecular Sieve Hhcms-240

Black Strip Molecular Sieve Cms-240,Molecular Sieve Continuous Strip Desiccant,Black Strip Molecular Sieves Adsorbents,Black Strip Zeolite Molecular Sieve

Zhejiang Changxing Haihua Chemical Co.,Ltd. , https://www.zjcxhhcms.com

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