TH5409B - Methods and mechanics for the determination of the solids fraction of the cryogenic refrigeration system for storage. - Google Patents

Abstract

In this method of fabrication, the unknown mass fraction (F) of the refrigerated solids in the cryogenic refrigeration system for storage is considered. This method includes steps of the addition of mass (T) of tracer solubility in liquid phase refrigerant of the collection system. The total mass (M) of refrigerant in the collection system was calculated at the time of filling of the collection system. The initial mass concentration (CI) of the tracer was calculated by dividing (T) by (M). extracted from the collection system The sample is analyzed to determine the new mass concentration (CN) of the tracer in the sample. The new mass concentration (CN) of the sample depends on the amount of frigid solid that is produced within the system. After that, the mass fraction (F) of the refrigerated solid in the system is determined by solving the equation F=1-(CI/CN).

Claims (4)

1. Method for determining the mass fraction (F) of refrigerated solids in a refrigerated storage system for the accumulation of mass (S) of the refrigerated substance.The solid phase consists of the addition of mass (T) of the trace substance, which can Dissolves in a cold substance Liquid phase of the collection system Determination of the total mass (M) of the refrigerated substance in the collection system was determined.The initial mass concentration (CI) of the trace substance in the collection system was divided by (T) by (M). Extract the liquid phase chilled sample out of the collection system. The heating of such liquid phase chilled samples gives There is a sufficiently high temperature for the sample to evaporate. The new mass concentration (CN) of the trace substance in the example is This will depend on the mass of the frozen solid that is present in the system. Collect it Divide the initial mass concentration (CI) by the new mass concentration (CN) to obtain the quotient. Subtract the quotient from 1 to calculate the mass fraction (F) of the chilled solid in the storage system. 2. Methods for determining the mass fraction (F) of frozen solids. In the refrigeration system in the refrigeration system in the cold state for Collect as stated in the claim where the refrigerant is Accumulated Carbon Dioxide in the Three Commonly -70 ° F (-56.7 ° C and 75 PSI (500 kPa) Pressure) 3. Method for Mass Proportion (F) Of a frozen solid In the refrigeration system in the cold state for storage as specified In claim 2, where the trace substance is a hydrocarbon, 4. Method for determining the mass fraction (F) of refrigerated solids. In the refrigeration system in the cold state for storage as specified In claim 3, where hydrocarbons are propane, propylene, butane, isobutane, butylene, pentane, isopane Nontane, pentane, cyclopentane or nomal hexane 5. Methods for determining the mass fraction (F) of frozen solids. In the refrigeration system in the cold state for storage as specified In claim 1, where the initial mass concentration (CI) of the trace substance ranges from 10 to 1000 parts per million by weight, 6. The device for determining the mass fraction (F) of Cold solid Freezing in the refrigeration system in the freezing state for storage will Included Equipment for the collection of refrigerated solids, solid phases and refrigerants. Freeze the liquid phase in an insulated storage tank container. A device for extracting a sample of a liquid phase chilled substance. From container to storage tank Equipment for evaporating liquid-phase samples, equipment for analyzing evaporated chilled samples. To generate a signal indicating the mass concentration (CN) of the trace substance in a sample of the cooled vapor. And the signal processing equipment to calculate the mass fraction (F) of the chilled solids in the collection system by solving the equation (chemical formula) where F = mass fraction of the chilled solids in the collection system. CI = Initial mass concentration of the trace substance in the liquid phase chilled sample prior to the production of the solid phase chilled substance. CN = mass concentration of the trace substance in the liquid phase chilled sample after the production of the solid phase chilled substance 7. A mechanical device for determining the mass fraction of the frozen solid in Cold storage refrigeration system as specified in Clause 6 in which the refrigerated substance is carbon dioxide The accumulated three-point state at -70 degrees Fahrenheit (-56.7 degrees Celsius and 75 psi (500 kPa) pressure). Cold storage refrigeration system as specified in Claim No. 7, where the trace substance is hydrocarbon 9. A device for determining the mass fraction of refrigerated solids in Cold storage refrigeration system as specified in Claim No. 8, in which hydrocarbons are propane, propylene, butane, isobutane, butylene, benzene, isopentane. Neopenten, Cyclopentane or Nomalhexane 1 0. A device for determining the mass fraction of frozen solids in Cold storage refrigeration system as specified in Claim 8, where the sample analyzer will be used Flame ionization detector 1 1. A device for determining the mass fraction of frozen solids in Cold storage refrigeration system as specified in Claim 8, where the sample analyzer will be used Optical ionization receptor 1 2. A device for determining the mass fraction of frozen solids in Cold storage refrigeration system as specified in Clause 6, where the initial mass concentration (CI) of the trace substance ranges from 10 to 1000 1. 3. A device for determining the mass fraction of frozen solids in Cold storage refrigeration system as specified in Claim 6, where the device for extracting samples of The liquid phase refrigerant is installed at the bottom of the storage tank container 1. 4. A device for determining the mass fraction of frozen solids in Cold storage refrigeration system as specified in Claim 13, where the device for sampling Of the refrigerated substance.The liquid phase out of the bottom of the container, the storage tank This includes the use of a liquid sampling tube where the line passes The inner center and length were selected to limit the sag of Pressure between the inlet of the sample tube and the Enter the device for Making the liquid sample with the entrance to the device for making Let the liquid sample evaporate to a value less than the The liquid phase of the refrigerated liquid in the storage tank container.