PL211355B1 - Pimpurities disposal method from water sealing systems - Google Patents

Description

(12) PATENT DESCRIPTION (19) PL (11) 211355 (13) B1 (21) Application number: 379883 ^{(51) Int.Cl.}

B01D 45/12 (2006.01) C02F 1/38 (2006.01) C10B 39/00 (2006.01) (22) Date of notification: 07.06.2006 (54) Method of removing contaminants from water seal installations

(43) Application was announced: 10.12.2007 BUP 25/07 (73) The right holder of the patent: ARCELORMITTAL POLAND COMPANY AKCYJNA, Dąbrowa Górnicza, PL COKOPROJEKT PROJECT OFFICE LIMITED COMPANY RESPONSIBILITY, Zabrze, PL (45) The grant of the patent was announced: May 31, 2012 WUP 05/12 (72) Inventor (s): JAN STRYCHAREK, Zdzieszowice, PL TADEUSZ MAJ, Zabrze, PL WIKTOR HUMMER, Zabrze, PL

PL 211 355 B1

Description of the invention

The subject of the invention is a method of separating solid contaminants from industrial water used for water seals, in particular transfer pipes and coke oven exhaust pipes.

The heads of the suction pipes and the stub pipes have a water seal on the covers. Sealing is achieved through a properly selected height of the water column in the cover seat. The water seal of the covers is supplied from an industrial water system in a closed circuit. The standard installation consists of a circulating water tank with a pump unit, a supply pipeline and branches connected to the heads of the extraction pipe seals and transfer pipe stubs, troughs with outlets from the closures, and a drainage conduit to the circulation tank. The water from the seals flows into the troughs located on the machine and coke side of the coke oven battery, and then returns to the circulation tank through a conduit. Due to the operating conditions, a large amount of solid contaminants, such as fine coal, coke breeze, graphite, and tar deposits, gets into the installation of water closures in the process of handling the battery, both during the operation of filling coal into the chamber and pushing out the coke. Contaminants that settle in the water closures are then carried away by the water flowing through the closures to the drainage troughs and then to the pumping station supply tank.

The applied solution is ineffective due to the fact that a significant amount of solid sludge circulates in the installation, including mainly coke breeze, which is characterized by high abrasive properties. This is the reason for, among other things, damage to pipelines and rapid wear of the pumps. It is known from industrial application that a settling tank is used in the installation and instead of one trough located along the coke oven battery, cascades of troughs in which solid sediments slowly precipitate. Sieves and filters are also used to solve this problem.

These solutions are ineffective and burdensome in operation, require constant maintenance and the removal of pollutants is usually done manually.

The object of the invention is a method of eliminating solid particles from the circulating water coming from water seals, in particular transfer pipes and coke oven exhaust pipes.

This goal was achieved through the installation of a dirt separator in the existing system of water seals on the return of water from water closures.

The method of separating solid contaminants from industrial water used for water seals, especially transfer pipes and coke oven battery extraction pipes, is based on the fact that the water from the sealing heads of the exhaust pipes and transfer pipe stubs is overflowing through outlets to the troughs located on the coke and machine side of the battery. and then it is directed to the separator through a collective discharge conduit. Water with impurities flows to the separator's supply stub and is directed to the bottom of the separator through the swirling unit. The assembly consists of two channels formed by two worm segments rotated in relation to each other preferably by 180 [deg.]. The water flowing down one of them is swirled, which causes that the solid contaminants contained in it are thrown against the walls of the tank by centrifugal force and flow down to the lower part of the separator. After passing the channel, the water is returned through a deflector plate causing a rapid change of direction to the second channel, where the situation repeats itself, and then flows through the second port into the circulation tank.

The pollutants constantly collect at the bottom of the separator and are cyclically discharged outside the installation. The water purified in this way is then directed by means of a pump unit back to the supply of water closures. Circulation tanks are periodically replenished with industrial water through float valves.

Such a solution significantly improves the efficiency of the installation by removing solid contaminants, significantly extends the service life of the installation, and eliminates abrasions to pipelines and pumps.

The method according to the invention is explained in more detail on the basis of an exemplary embodiment, with reference to the drawing, where Fig. 1 shows a diagram of the installation of water seals on the covers of the extraction pipes and transfer pipes, and Fig. 2 shows the diagram of the dirt separator.

Industrial water contaminated with solid impurities from the sealing heads of the extraction pipes and transfer pipes' stub pipes is poured with outlets into the troughs located on the coke and machine side of the battery, and then through a collective drainage conduit to the separator 1. Water with impurities flows to the separator 2 , and is directed down the separator by the swirl unit. The swirl unit is composed of two channels formed by two worm segments 3 preferably rotated by 180 [deg.] Relative to each other. The water flowing down one of them is swirled, which causes that the solid contaminants contained in it are thrown by centrifugal force against the walls of the tank and flow down to the lower part of the separator. After passing the channel, the water is returned through the deflector plate 4 causing a rapid change of direction to the second channel, where the situation repeats, and then flows out through the connector 5 to one of the circulation tanks 6. Contaminants constantly accumulate at the bottom of the separator and are cyclically discharged through the drain connector 7 on outdoor installation. The water purified in this way is then directed by means of a pump unit back to the supply of water closures. Circulation tanks 6 are periodically replenished with industrial water through float valves 8.

Such a solution significantly improves the working conditions of the technological service of the coke oven battery and the efficiency of the installation by removing solid contaminants from the water seal installation.

Claims (2)

Patent claims 1. The method of separating solid contaminants from industrial water used for water seals, especially transfer pipes and coke oven exhaust pipes, where the water from the sealing heads of the exhaust pipes and transfer pipes nozzles is overflowed with outlets to the troughs located on the coke and machine side of the battery and then, through a collective drainage pipe, it is directed to a circulation tank from which it supplies water closures in a closed circuit, characterized in that the water with impurities is directed to the separator (1), where the separation of solid impurities is carried out by changing the direction of the water stream flow, whereby solid impurities are periodically removed from the separator through the discharge stub (7). 2. The method according to p. A method according to claim 1, characterized in that the water with impurities flows to the separator (2) feed nozzle, where it is swirled through the worm segments (3) and the solid impurities contained in it are thrown onto the tank walls by centrifugal force and flow down to the lower part of the separator, then the water is returned by the baffle plate (4) causing a rapid change in the direction of water flow and then it flows out through the stub pipe (5) to the circulation tank (6).