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one) Regeneration gas: a mixture of hydrogen and inert gasoline (hydrogen accounts for five% -ten%) 2) Quantity: 40L gasoline cylinder 10Mpa three) Regenerative fuel pressure: .05Mpa (the gas intake for every fifty percent hour in the point out of .05Mpa is that the cylinder strain drops by 1.5Mpa. If it exceeds one.5Mpa, the pressure of the stress regulator’s timetable will be reduced, if it is much less than 1.5Mpa Improve the force of the pressure regulator schedule) 4) Process: 3 hours heating-three hours heating and ventilation-three several hours vacuuming-one hour pumping-ten hrs cooling 5) Measures: ① Link the regeneration gasoline (examine the pipeline for leaks following relationship: right after connecting, open up the primary valve of the strain decreasing valve to the maximum, open up the auxiliary meter to .1Mpa, switch off the principal valve, hold out 15 minutes, if the pressure of the auxiliary meter remains at .one Mpa remains unchanged, indicating no air leakage) ②Set the stress of the auxiliary gauge of the pressure decreasing valve to .1Mpa (the stress throughout air flow is about .06-.08MPa) ③ Shut the cycle and analyzer ④Turn on the vacuum pump ⑤ Begin regeneration ⑥ The new system ends at 20h (clear before cleansing, water and oxygen index <200ppm). 6) Note: Do not cut off the power and gas during the regeneration process (especially the first 6 hours)! Some pressure reducing valves are not allowed, and the pressure needs to be adjusted appropriately to ensure continuous ventilation for 3 hours!

https://ourdoings.com/davidsengood52dnebge/ ) Observation: whether the regeneration gas flowmeter shows about 20L / min, otherwise adjust the pressure of the pressure reducing valve.

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by Dr. Radut.