CS259994B1 - Involvement in the Benzol Cyclohexane Mixture or Benzol Piping System in their Regeneration in a Deactivation Column - Google Patents

Abstract

Connection of the piping system of a benzoylcyclohexane mixture or benzene during their regeneration in a deatilization column of chemical operations of metallurgical and mining coke ovens, in which benzene or a benzolcyclohexane mixture is freed from tar. Two pipe branches are connected in parallel to the supply of the benzolcyclohexane mixture or benzene, separated by a valve, which do not open into the dephlegmator's cooling circuit, while the pipe branch is provided with a pipe branch with a valve before entering the dephlegmator, not opening into a pipe connector, while the inlet pipe and the outlet pipe of cooling water to the dephlegmator are provided with isolating valves or are disconnected from the dephlegmator.

Description

The invention solves connection of piping system of benzolcyclohexane mixture or benzol during their regeneration in distillation column of chemical plants of metallurgical and mining coking plants, in which the benzol or benzolcyclohexane mixture is de-tared.

When coking occur phenols množetví 1.1 to 1.8 kg per tonne of dry coal, of which ^the ammonia water gets into 10-15% · For their toxicity fenolčpavkové water must dispose of these phenols that do not constitute in wastewater Eco danger. One of the most commonly used methods is to wash phenol-ammonia water with benzol or a benzolcyclohexane mixture. However, the phenol scrubbing itself is preceded by an extraction separation in which the tar fractions from phenol-ammonia water are transferred to a benzol or benzolcyclohexane mixture. The benzol or benzolcyclohexane mixture with dissolved tar is pumped from the tank through a steam heater and enters the distillation column at a temperature of about 140 ° C. Here, direct vapor deposition of benzene or benzolcyclohexane vapors is promoted, which is partially cooled in a deflgmator and cooled in a water cooler. In this method, the condensate from the deflgmator acts as reflux to the head temperature of the distillation column, which is maintained within the range of 80 to 95 ° C. The process equipment adequate to this process consists of a distillation column with a deflector, a condenser and a steam heater of benzol or benzolcyclohexane mixture. The deflegmator is a heat exchanger for indirect water cooling of vapors and from there condensate vapors are discharged via a conduit into a condenser, where it is indirectly cooled by water and thus liquefies. According to the present technology, therefore, from a power point of view, a cold benzol or a benzolcyclohexane mixture saturated with tar is disadvantageously heated in the steam heater and, on the other hand, the steam must be cooled with water in the deflegmator without using its heat.

This disadvantage is eliminated by the connection in the piping system for conveying the benzol or benzolcyclohexane mixture for distillation in a distillation column and the essence of the present invention is that in parallel to the feed, benzol or benzolcyclohexane mixture separated by a valve two piping branches are connected in parallel. The inlet duct is provided with a valve tap to the column head or to a duct connecting the deflegmator head to the condenser prior to entering the deflegmator, and both the inlet and outlet water cooling lines of the deflegmator are provided with isolation valves.

An advantage of the piping system conveying the benzolcyclohexah mixture or benzol according to the invention is that, instead of immediately entering the steam heater, the mixture or benzol is first blown into the deflegmator instead of the cooling water, where it is preheated while cooling the head of the distillation column. Previously about 40 ° C warm, now preheated to about 80 ° C, is fed to the steam heater, thereby greatly improving the energy balance of the distillation process.

A schematic diagram of an exemplary embodiment illustrates the wiring of a piping system for conveying a benzolcyclohexane mixture in the accompanying drawing, in which the technological devices are shown in solid outline, the existing piping system is shown in full outline, and the piping system according to the invention is shown in broken lines.

The crude benzol recovery plant consists of a distillation column 1, a condenser deflector 2 and a steam heater 4 with a feed of χ of the benzolcyclohexane mixture, which is preheated and subsequently fed into the distillation column 1. The deflegmator 2 comprises a water cooling circuit 14 with a supply line 8 and cooling water outlet pipe χ. From the head of the deflgmator 2 is led a pipe jumper 8 conveying non-condensed vapors to the condensers χ.

According to the invention, a pipeline ⁸ is connected to the inlet of the benzolcyclohexane mixture by a valve 10, connected to the cooling circuit 14 by a deflector and in parallel with a pipeline 11 with a valve 12 separated from each other by a valve 13. a valve 16, connected to a pipe jumper 8 or a head of ko259994

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With the piping described above, the distillation regeneration of the benzolcyclohexane mixture operates as follows: the isolation valves 12 ' of the water cooling system 10 and the valve 13 in the feed of the benzolcyclohexane mixture to the steam preheater are closed. Benzolcyclohexane mixture. With a temperature of about 40 ° C, the branch pipe 6 exits into the cooling circuit 8 of the deflector, where it functions as a lion and is simultaneously preheated and, if necessary, simultaneously exits via a branch pipe 15 into the line 6 from where it flows as an additional reflux to column 1.

Warmed to a temperature of about 80 ° C, the benzolcyclohexane deer is returned via line 11 to the steam preheater, where it is injected into a distillation column χ after heating to about 140 ° C. Possible insufficient cooling capacity of the deflector mixture £ for cooling the head of the distillation column is controlled by adjusting the flow in the branch pipe 15 through the valve 16 and opening it to cool the head of the distillation column relativně with a relatively cold benzolocyclohexane mixture. Similarly, in the case of excessive cooling effect of the benzolcyclohexane mixture, opening the valve 13 results in a reduction in the flow rate of the mixture through deflegmatization, thereby reducing reflux and increasing the temperature in the top of the distillation column.

The wiring in the piping system of the invention advantageously complements the existing system so that both the original and the new piping system can coexist, while the original water-cooling and unheated benzolcyclohexane mixtures can be kept as a reserve system.

Claims (1)

SUBJECT OF THE INVENTION Connection in a piping system of a benzoloyclohexane mixture 'or benzol when regenerated in a distillation column to which the mixture or benzol is fed via a deflector and a steam preheater, characterized in that they are separated by a valve <13 to the inlet (5) of the benzolcyclohexane mixture or ), two piping branches (9 »11) connected in parallel to the cooling circuit (14) of the deflegmator (2), the piping branch (9) being equipped with a pipe branch (15) with a valve (15) before entering the deflegmator (2). 16) ,. the inlet duct (6) and the cooling water outlet duct (7) to the deflegmator (2) are equipped with isolation valves (17, 18) or are disconnected from the deflegmator (2).