Oxygen Cylinders Tank Bottle Cheap Price
& Introduction
Oxygen Cylinders is a high pressure vessel used for storing and transporting oxygen. It is generally made of alloy structure steel by hot punching and pressing. It is cylindrical and always used in hospitals, first aid stations and sanitariums.
The cylinder shoulder is marked with working pressure, test pressure, volume, weight, etc. The surface is painted blue, and the word "oxygen" is written in black.
& Precautions for Use
1. Oxygen Cylinders cylinders are blue in liquid and solid state, so they are painted by blue. However, the oxygen in cylinders exists in the form of high-pressure gas, not liquid.
2. The distance between the Oxygen Cylinders and the fire should not be less than 10 meters, not close to the heat source, not exposed to the sun.
3. During the transportation, loading and unloading the Oxygen Cylinders, the cylinder valve should be closed, the cap should be tightened, and the cylinder should be removed and lay gently. No collision, sliding, rolling, throwing and falling.
4. It is strictly prohibited to remove the spare parts of Oxygen Cylinders valve, switch, pressure gauge and other valves without permission.
5. The filling pressure of Oxygen Cylinders shall not exceed the specified pressure, and overloading is strictly prohibited. The gas cylinder shall be inspected once each 3 years, and can be used again after qualified. The inspection shall be carried out in the inflatable company.
6. In the process of moving, parking and using, please pay attention to the protection of the cylinder body and valve, preventing the cylinder from tipping, so as not to cause damage to the accessories.
7. It should be stored in a dry and cool place, and the gas cylinder should not be hit. No grease on the nozzle of oxygen cylinder, inhaler, pressure gauge and connection thread.
& Specifications for Cylinder
There are usually several specifications as follows:
10L
15L
40L
50L
Hospitals usually use 40L Oxygen Cylinders.
& Acronym for Gas Name
Acronym |
English Name |
Ar |
Argon |
AsH3 |
Arsine |
BCl3 |
Boron Trichloride |
BF3 |
Boron Trifluoride2 |
B2H6 |
Diborane |
CF4 |
Halocarbon-14 |
CHF3 |
Halocarbon-23 |
CH3F |
Methyl Fluoride |
CH4 |
Methane |
ClF3 |
Trifuorochloride |
Cl2 |
Chlorine |
CO |
Carbon Monoxide |
CO2 |
Carbon Dioxide |
C2H2Cl2 |
Trans Dichloro Ethylene |
C2F6 |
Hexafluoroethane4 |
C3F8 |
Perfluropropane |
C4F8 |
Halocarbon |
C5F8 |
Octafluorocyclopentene |
F2 |
Fluorine |
HBr |
Hydrogen Bromide0 |
HCl |
Hydrogen Chloride |
HF |
Hydrogen Fluoride1 |
H2 |
Hydrogen |
H2S |
Hydrogen Sulfide2 |
H2Se |
Hydrogen Selenide |
He |
Helium HSiCl3 |
Kr |
Krypton |
Ne |
Neon |
NF3 |
Nitrogen Trifluoride |
NH3 |
Ammonia |
NO |
Nitric Oxide |
N2 |
Nitrogen Trifluoride |
N2O |
Nitrous |
O2 |
Oxygen |
PF3 |
Phosphorus Prifluoride |
PF5 |
Phosphorous Pentafluoride |
PH3 |
Phosphine POCl3 Phosphorus |
SF6 |
Sulfur Hexaflouride |
SiCl4 |
Silicon Tetrachloride |
SiF4 |
Silicon Tetrfluoride |
SiHCl3 |
Trichlorosilane |
SiH2Cl2 |
Dichlorosilane |
SiH4 |
Silane2 |
Si2H6 |
Disilane |
SO2 |
Sulfur Dioxide2 |
WF6 |
Tungsten Hexafluoride |