Negotiable
The date of payment from buyers deliver within days
Beijing
Long-term effective
2021-09-21 16:40
318
Company Profile
Suzhou Belitt Purification Equipment Co., LtdBy certification [File Integrity]
Contact:belitt(Mr.)
Email:
Telephone:
Phone:
Area:Beijing
Address:Beijing
Website:http://www.szbltjh.com/ http://belitt.xingqiuqipai.com/
Product Features:
1. The raw air is taken from nature, and nitrogen can be produced only by providing compressed air
and power supply. The equipment has low energy consumption and low operation cost.
2. The purity of nitrogen can be adjusted easily. The purity of nitrogen is only affected by the amount
of nitrogen exhaust. The purity of common nitrogen can be adjusted between 95% and 99.99%; The
high purity nitrogen generator can be adjusted between 99% and 9.999%9.
3. The equipment has high degree of automation, fast gas production and can be unattended. Start,
shut down just press the button, start within 10-15 minutes can produce nitrogen.
4. The equipment has the advantages of simple process, compact structure, small floor area and
strong adaptability.
5. The molecular sieve was loaded by Blizzard method to avoid the pulverization of molecular sieve
caused by high-pressure air impact, and the molecular sieve was used for a long time.
6. Digital flowmeter with pressure compensation, high precision industrial process monitoring sec-
ondary instrument, with instantaneous flow and cumulative calculation function.
Attr-name |
Text-ellipsis |
Key Selling Points: |
Long Service Life |
Applicable Industries: |
Hotels, Manufacturing Plant, Machinery Repair Shops, Food & Beverage Factory, Home Use, Food Shop, Printing Shops, Construction works?, Energy & Mining |
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Local Service Location: |
None |
Machinery Test Report: |
Provided |
Showroom Location: |
None |
Video outgoing-inspection: |
Not Available |
Condition: |
New |
Warranty of core components: |
5 years |
Place of Origin: |
Jiangsu, China |
Core Components: |
PLC, Pressure vessel |
Brand Name: |
BELITT |
Oxygen production: |
1 ~ 240Nm 3/ h |
Usage: |
Oxygen |
Oxygen purity: |
25% ~ 95% |
Production Rate: |
100% |
Oxygen pressure: |
0.3-0.4mpa (pressurization required above) |
Voltage: |
220V-450V |
Oxygen dew point: |
≤-70.C (atmospheric pressure) |
Weight: |
4000 KG |
Oxygen: |
15-20Mpa |
Dimension(L*W*H): |
Actual Size |
Type: |
Effectively increase oxygen production rate |
Certification: |
CE/ISO9001 |
Oxygengenerator is large: |
Whichcan intercept larger partides and reduce the inner space |
Warranty: |
1 Year |
Tower Bworks in tum: |
Greatlyincreasing efciency of oxygen production |
After-sales Service Provided: |
Video technical support |
PlLCintelligent control system: |
According to the requirements of automatic startstop |
Process tank: |
Flowmeter, rea-time control of otltpressre, |
Marketing Type: |
New Product 2020 |
Principle and process of oxygen cutting
Oxygen cutting of steel uses a gas flame (called preheating flame) to heat the surface layer of steel to the ignition point and form an activated state, and then feeds high-purity, high-flow rate cutting oxygen so that the iron in the steel burns in the oxygen atmosphere to generate iron oxide slag while releasing a large amount of heat, with the help of these combustion heat and slag constantly heating the lower layer of steel and the leading edge of the kerf so that it also reaches the ignition point, up to the bottom of the workpiece. At the same time, the momentum of the cutting oxygen flow blows the slag away, thus forming a kerf to cut through the steel. Thus, in macro terms, oxygen cutting is a combination of the chemical process of burning iron (broadly speaking, metal) in high purity oxygen in steel and the physical process of removing slag by the flow of cutting oxygen.
The entire oxygen cutting process can be divided into four interrelated stages.
1. The metal surface at the starting point is heated to its ignition point with a preheating flame, and the combustion reaction in the cutting oxygen then begins.
2. The combustion reaction propagates to the lower layers of the metal.
3. Exclude the slag generated by the combustion reaction and cut the metal along the thickness direction.
4. Use the slag and the heat of the preheating flame to heat the upper layer of the metal at the front edge of the cut to the ignition point, so that it continues to produce combustion reactions with oxygen.
The above process is repeated continuously, and the metal cutting is carried out continuously.
http://www.szbltjh.com/