China 210L Liquid Oxygen/Nitrogen/Argon/CO2 Storage Tank Dewar & Cryogenic Gas Cylinder, Find details about China Intelligent Dewar Cylinders, Cryogenic Cylinder from 210L Liquid Oxygen/Nitrogen/Argon/CO2 Storage Tank Dewar & Cryogenic Gas Cylinder
model | unit | Initial set value | Adjusting Range |
DPL series | British unit | 125 psig | 75-175 psig |
engineering unit | 8.6 bar | 5-12 bar | |
metric unit | 862 kPa | 517-1207 kPa | |
DPL-H series | British unit | 300 psig | 200-350 psig |
engineering unit | 20.7 bar | 13.8-24.1 bar | |
metric unit | 2068 kPa | 1379-2413 kPa | |
DPL-U series | British unit | 400 psig | 300-600 psig |
engineering unit | 28 bar | 20.7-41 bar | |
metric unit | 2758 kPa | 2068-4137 kPa |
The Fault | Probable Cause | Solution |
Too high pressure or too fast boost rate | less gas used | If the daily gas use is below 2.8 cubic meters or so, the pressure will increase.Low pressure relief valve and regulator should be provided if cryogenic bottle is used for liquid supply.Normal boost should not exceed 50Psi(0.35MPa) per day. |
Excessive filling | If the filling is excessive, the pressure in the bottle may increase rapidly after the filling is completed. It is forbidden to overfill | |
The booster regulator is improperly set or malfunctioned | After supercharging, the working pressure exceeds and remains above the required pressure, and the supercharger is readjusted to the required pressure | |
After supercharging, the working pressure keeps rising to the starting pressure of the safety valve. At the same time, if there is frost on the supercharging coil located at the bottom of the bottle body, the regulator should be replaced | ||
Vacuum loss | Bottle surface appears sweat or even frost phenomenon, return to the factory for maintenance | |
Pressure is too low | More gas used | Please refer to the instruction manual and follow the recommended maximum gas consumption and pressurization capacity |
Booster valve closing | Open booster valve | |
The booster regulator was not fully opened | Test the pressurized regulator to see if it works properly at set pressure | |
The booster regulator set too low | Adjust the setting value of the booster regulator to the required pressure | |
For leaks | Check the top of the bottle for frost phenomenon or air leakage, and conduct air tightness test | |
Liquid temperature is too low | Opening the pressurized valve may require prolonged pressurization or external pressure | |
Safety valve takes off at low pressure | The starting pressure setting of safety valve is not suitable, replace the appropriate safety valve | |
Pressure gauge bad | To renew the pressure gauge | |
Container full but no pressure display | Pressure gauge bad | To renew the pressure gauge |
Damage to inner rupture disc | Replace the inner rupture disc | |
Valve close loosely | Repair or replace valve | |
The CO2 liquid is in a condensed state | The gas CO2 is pressurized to re-liquefy | |
Frost phenomenon under the bottle | Pressurizing using the pressurized circuit | If the pressure in the bottle is lower than the set value of the booster regulator, this phenomenon is normal |
Last charge or previous use of gas | Normal phenomenon, Ice rings, or elliptic blocks of ice, often cling to bottles for days after they have been inflated or filled | |
The bottom of the bottle has spiral frost phenomenon | The vaporization circuit is being used to vaporize liquid into gas | Normal phenomenon, should disappear within two hours after stopping to use gas |
There is frost on the top of the bottle | Last charge or previous use of gas | Normal phenomenon |
Leakage of liquid level indicator | Check the connection of level indicator for leakage, replace the sealing gasket, reinstall, and air tightness test | |
Regulator line leakage | Tighten joint, air tightness test | |
Bottle body has even frost phenomenon | Excessive gas consumption | Normal phenomena, refer to the maximum gas use |
The booster/economizer failed | Observe the frosting pattern on the pressurized coil, close the pressurized valve, and replace or reset the regulator | |
Vacuum loss | At the same time found high speed of pressure rise and frequent safety valve jump, please contact our company, send back to the factory for repair | |
Some parts of the bottle have frost phenomenon | Internal damage is possible | Please contact our company and send it back to the factory for repair |
Copper tube gap is too small | Normal phenomenon | |
Relief valve frequently opened | Vacuum loss | Please contact our company and send it back to the factory for repair |
The safety valve is set at a low value | Reset relief valve opening pressure | |
The air supply temperature is too low | Used gas too much | Refer to the maximum gas usage |
The liquid supply is mixed with a large amount of gas | The pressure in the bottle is higher than the suitable liquid supply pressure | Adjust according to instruction manual, supply liquid at low pressure |
The container is full without liquid level indication | The aluminum rod is detached from the level indicator | Remove the level indicator, reconnect the aluminum rod, reinstall, and conduct air tightness test |
The level indicator buoy is broken | Replace the buoy | |
The container is filled with CO2 liquid but cannot supply gas | The CO2 liquid condenses and clogs the pipeline | The gas CO2 is pressurized to re-liquefy |
6. Emergency measures
6.1 Dress Code For Emergency Personnel
Contact with the cryogenic fluid through the eyes or skin can cause a cold burn similar to a burn. Be careful not to splash or spill.To the eyes, skin and other parts easy to contact with cryogenic liquid protection, wear protective glasses or face cover; Wear protective gloves and long sleeves that are easy to take off to protect your arms;Wear strapless pants with the legs over your shoes to keep out any spilled cryogenic liquid. Emergency personnel should wear cotton clothing, preferably without pockets or rolled-up parts.Do not wear chemical fiber clothes that may cause static electricity. Shoes without iron nails should be worn on the feet.
6.2 In The Fire Environment
At this point, should be timely closed all and gas, liquid phase of the same valve.When the valve cannot be closed or the leakage cannot be blocked, do not spray the liquid leakage directly with water. Dry powder (preferably potassium carbonate) fire extinguisher is recommended.
6.3 In Case Of Over-Pressure Relief
At this point, the discharge valve should be opened in time to release the overpressure gas in the bottle to the safety valve as soon as possible.When releasing oxygen or natural gas into the air, make sure that there is no fire, combustible or pedestrian passing nearby.If the reducing effect of emission gas is poor, the cylinder can be moved to the open place, connected with the conveying hose, and the inlet and outlet liquid valve (DPL cylinder)/outlet valve (DPW cylinder) can be opened when the discharge valve is emptied.
Note: emptying liquid is not allowed into the underground drain.
6.4 Accidental Leakage Of Cylinder Liner
At this time, due to internal liquid leakage, the tank is under the state of excess pressure, which will lead to and cause an accident. The liquid in the bottle should be discharged or discharged to other intact similar bottles as soon as possible. If conditions permit, the damaged bottle should be transferred to a place where there is no open fire, combustible or pedestrian passage for emergency treatment as soon as possible.
6.5 When Valve Is Frozen
If the valve is frozen, use clean oil-free warm water or hot nitrogen to defrost before operation.Do not use hammer or other objects to open forcibly.