Distillation: processes – separatory – With measuring – testing or inspecting – Of temperature or pressure
Reexamination Certificate
1999-05-04
2002-06-04
Manoharan, Virginia (Department: 1764)
Distillation: processes, separatory
With measuring, testing or inspecting
Of temperature or pressure
C203S094000, C203S098000, C203S100000, C203SDIG001, C203SDIG002, C208S357000, C208S358000, C208S366000
Reexamination Certificate
active
06398918
ABSTRACT:
BACKGROUND
The present invention pertains to the field of distilling various multi-component mixtures, mainly to rectifying oil derivatives.
A method for distilling multi-component mixtures is known, which includes feeding a stock product into a rectification column, bleeding a gas-vapor phase from the top of the column and tapping a distillation residual from the bottom of the column. Under the method, the gas-vapor phase is evacuated from the column by a liquid-gas ejector (see, SU, certificate of authorship, 724149, cl. C 10 G 7/06, 1980).
A system realizing this method is also described in the mentioned certificate of authorship. The system contains a rectification column, a liquid-gas ejector and a pump. The inlet of the ejector nozzle is connected to the discharge side of the pump, the gas inlet of the ejector is connected to the pipeline for bleeding the gas-vapor phase from the column, and the column is also furnished with a pipeline for tapping the distillation residual.
In such method for distilling a multi-component mixture and the system for realizing the same, it is possible to effect a vacuum fractionation of multi-component mixtures. A vacuum required for the fractionation is created by the liquid-gas ejector. However, performance of the ejector in this system depends on a mode of reflux supply for the rectification column. Such is why in a number of cases the system is unable to provide the required vacuum in the rectification column or unable to ensure operation of the ejector in an optimal regime which results in increased energy consumption for maintaining the required vacuum.
The closest analogue of the method introduced by the present invention is a method for distilling a multi-component mixture including feeding a stock product into a rectification column, withdrawal of a distillation residual, ensuring circulation of a part of the residual with heating of this part of the residual in a heat-exchanger/heater, evacuation of a gas-vapor phase from the rectification column by a liquid-gas ejector, whose nozzle is fed with a liquid motive medium (see, SU, certificate of authorship, 910725, cl. C 10 G 7/06, 1982).
The indicated USSR certificate of authorship No. 910725 describes also a system for distilling a multi-component mixture, which is the closest analogue of the system introduced by the present invention. It contains a rectification column, a liquid-gas ejector, a pump and a heat-exchanger/heater. The inlet of the ejector nozzle is connected to the discharge side of the pump, the gas inlet of the ejector is connected to the pipeline for bleeding the gas-vapor phase from the column, the column is furnished with a pipeline for circulation of the distillation residual and the heat-exchanger/heater is installed on this pipeline.
According to the USSR certificate of authorship No. 910725, the vacuum in the rectification column is created by the liquid-gas ejector, which uses the reflux fraction as a motive liquid. The motive liquid is cooled during operation in a special cooler, while a part of the circulating residual is heated up in a boiler. Thus, the process requires significant power inputs for simultaneous heating and cooling of various mediums, and the off-heat and off-<cold> are not utilized.
SUMMARY OF THE INVENTION
The present invention is aimed at increasing efficiency and profitability of a method and related system for distilling multi-component mixtures, which can be achieved by optimizing temperatures of various mediums involved in the process in relation to each other as well as by a more rational utilization of thermal flows, namely by the use of a surplus heat accumulated by a motive liquid for heating of a circulating part of the distillation residual.
With regard to the method as the subject-matter of the invention the above mentioned resolution is provided by a method for distilling a multi-component mixture, which includes feeding of a stock product into a rectification column, withdrawal of a distillation residual, ensuring circulation of a part of the residual with heating of the circulating residual in a heat-exchanger/heater and evacuation of a gas-vapor phase from the rectification column by a liquid-gas ejector, whose nozzle is fed with a motive liquid, wherein the motive liquid is delivered into the ejector from a separator by a pump, a liquid-gas mixture from the ejector is fed into the separator, the motive liquid is cooled and simultaneously the circulating part of the residual is heated up due to heat transfer from the motive liquid being pumped through the heat-exchanger/heater by the pump, a part of the motive liquid from the separator is delivered into the rectification column as a circulating reflux, and the following temperature conditions are maintained: T
C
>T
H
>T
b
>T
d
, where
T
C
is the temperature of the mediums in the separator;
T
H
is the temperature of the motive liquid at the inlet of the ejector nozzle;
T
b
is the temperature of the distillation residual at the point of exit from the column;
T
d
is the temperature of the gas-vapor phase at the ejector gas inlet.
It is possible to arrange ebullition of the motive liquid during discharge of the liquid from the ejector nozzle (for example, as known by one of ordinary skill in the art, by maintaining a temperature of the motive liquid which is higher than the boiling point of this liquid under the decreased pressure being maintained in the ejector receiving chamber).
With regard to the apparatus as the subject-matter of the invention, the mentioned technical problem is solved as follows: a system for distilling a multi-component mixture, which has a rectification column, a liquid-gas ejector, a pump and a heat-exchanger/heater and where the inlet of the ejector nozzle is connected to the discharge side of the pump, the gas inlet of the ejector is connected to the pipeline for bleeding a gas-vapor phase from the column and the heat-exchanger/heater is installed on a pipeline for circulation of a distillation residual connected to the column, is furnished further with a separator, where an outlet of the ejector and the suction side of the pump are connected to the separator, the pump is connected to the ejector nozzle through the heat-exchanger/heater.
Experimental research has shown, that correlation of the following temperatures produces a significant effect on the performance of the system for distilling a multi-component mixture: the temperature of the gas-vapor phase, the temperature of the distillation residual, the temperature of the motive liquid at the inlet of the ejector nozzle and the temperature of the motive liquid in the separator.
It was determined, that optimum conditions for operation of the liquid-gas ejector as an element of the introduced system are attained when the system includes a separator, where an outlet of the ejector and the suction side of the pump are connected to the separator, and when the temperature of a motive liquid at the inlet of the ejector nozzle is higher than the temperature of a gas-vapor phase at the ejector gas inlet, and the temperature of mediums in the separator is higher than the temperature of the motive liquid at the inlet of the ejector nozzle. It was found, that under the above specified conditions compression of the gas-vapor phase in the ejector constitutes a quasi-isothermal process, i.e. the process during which temperature rises only by 2-5° C. At the same time, more intensive dissolution of the evacuated gas-vapor medium in the motive liquid takes place if the temperature of the supplied liquid is higher than temperature of the gas-vapor phase. This is especially preferable when a condensate of the gas-vapor phase obtained in the separator during evacuation of the gas-vapor phase from the rectification column is used as the motive liquid, or in a case when a distillate from the rectification column is used at first as the motive liquid, but then is replaced gradually by the condensate of the gas-vapor phase as it is accumulated during operation of the system. Because a part of the ga
Manoharan Virginia
Oathout Mark A.
Petroukhine Evgueni D.
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