TH63295B - Methods for adiabatic crystallization of organic compounds And the machine for such method - Google Patents

Abstract

DC60 (26/06/49) This invention provides a method for adiabatic cooling of the Organic compounds And the machine for such method Where can reduce operating costs And the cost of the machine can be down The method and the machine consist of a number of process steps. In which each action It is provided with a combination of 20A, 20B crystallizer with evaporation action and Adiabatic cooling of the coolers for aqueous mixtures of organic compounds. Targets with coolers And absorbent condenser 10A, 10B corresponding to the crystallizer 20A, 20B. Crystalline slurry produced in each crystallizer 20A, 20B; Increasing the vapor pressure of evaporation in the crystallizer 20A, 20B, each up to The pressure is higher than the working pressure in the crystallizer 20A, 20B each by the compressor 30, and then imported into the corresponding absorbent condenser 10A, 10B in the corresponding section respectively; Initial condensation effect liquid is introduced into the corresponding crystallizer 20A at first; Initial acquisition of crystalline slurry was initially taken from the 20A crystallizer by the solid-liquid separation path 40, as well as the introduction of the separated parent liquid into the 10B absorbent condenser at the time. Subsequent; And the condensed liquid in the next episode to fall Corresponding crystals 20B in the subsequent chapters for crystallization operations. And bringing the slurry The crystals taken from the 20B crystallizer in the next episode enter the previous chapter 20A. This invention provides a method for adiabatic cooling of the Organic compounds And the machine for such method Where can reduce operating costs And the cost of the machine can be down The method and the machine consist of a number of process steps. In which each action It is provided with a combination of 20A, 20B crystallizer with evaporation action and Adiabatic cooling of the coolers for aqueous mixtures of organic compounds. Targets with coolers And absorbent condenser 10A, 10B corresponding to the crystallizer 20A, 20B. Crystalline slurry produced in each crystallizer 20A, 20B; Increasing the vapor pressure of evaporation in the crystallizer 20A, 20B, each up to The pressure is higher than the working pressure in the crystallizer 20A, 20B each by the compressor 30, and then imported into the corresponding absorbent condenser 10A, 10B in the corresponding section respectively; Initial condensation effect liquid is introduced into the corresponding crystallizer 20A at first; Initial acquisition of crystalline slurry was initially taken from the 20A crystallizer by the solid-liquid separation path 40, as well as the introduction of the separated parent liquid into the 10B absorbent condenser at the time. Subsequent; And the condensed liquid in the next episode to fall Corresponding crystals 20B in the subsequent chapters for crystallization operations. And bringing the slurry The crystals taken from the 20B crystallizer in the next episode enter the previous chapter 20A.

Claims (4)

1. Method for adiabatic cooling of organic compounds with It consists of a number of action episodes. Each action episode has been organized into an aggregate set. Of the crystallizer that performs the adiabatic evaporation and cooling operations of the agitator Cool for a mixture of target organic compounds with coolers. And condenser The absorption model corresponding to the crystallizer. By the way, for precipitated crystallization The adiabatic of organic compounds is also included: the removal of the crystalline slurry produced in each crystallizer; Increasing the pressure of evaporation vapor in each crystallizer to a higher pressure. The working pressure in each crystallizer by the compressor, and then imported into the corresponding absorbent condenser in respective sequence; Cooling for condensation, mixtures of organic compounds and vapor. From evaporation through increased pressure While allowing those substances to come into contact with each other in a condenser Assimilate each machine; Initial condensation liquid is introduced into the corresponding crystallizer at first; Obtaining crystals from the crystal slurry that was initially taken from the crystallizer by Solid-liquid separation As well as bringing the separated mother liquid to the absorbent condenser in The episode that follows; And the subsequent condensation of the resulting liquid into the corresponding crystallizer in the Subsequently for crystallization operations And taking the crystal slurry that was taken out of the crystallizer in The next episode followed to the crystallizer in the previous episode. 2. Method for adiabatic crystallization of organic compounds based on Claim 1, where a solution of a mixture of organic compounds is a paraxylene-containing xylene mixture. Where paraxylene crystals were obtained from the solution of this mixture 3. Methods for adiabatic crystallization of organic compounds based on Clause 1, where a mixture of organic compounds is a hexane mixture with cyclo-hexane, where cyclohexane crystals are obtained from the mixture solution. 4. Machine for adiabatic cooling of organic compounds that It consists of a number of action episodes. Each action episode has been organized into an aggregate set. Of the crystallizer that performs the adiabatic evaporation and cooling operations of the agitator Cool for a mixture of target organic compounds with coolers. And condenser The absorption model corresponding to the crystallizer. By the way, for precipitated crystallization The adiabatic compound of organic compounds is also included: a path for the removal of the crystalline slurry produced in each crystallizer; A method for increasing the pressure of evaporation vapor in each crystallizer to a high pressure. Than the working pressure in each crystallizer by the compressor and the import into the condenser. The corresponding absorption forms in the respective episodes; A method for the emptying of a mixture of organic compounds and vapors through Increasing pressure to cool down While allowing those substances to come into contact for condensation in the condenser Each machine; Pathways for introducing the initially condensed liquid into the corresponding first crystallizer; A method for obtaining crystals from the crystal slurries that were initially extracted from the crystallizer. By means of solid-liquid separation Including bringing the separated mother liquid into the condenser Assimilate in the subsequent episodes; And the way for the subsequent condensation liquid to be introduced into the corresponding crystallizer. Together in the subsequent episodes for the crystallization operation. And taking out the crystal slurry that was taken from The crystallizer in the subsequent part enters the crystallizer in the previous episode.