PL63756Y1 - Water conditioning station /pt. waste water treatment plant/ - Google Patents

Description

2 PL 63 756 Υ1

Pattern description

The subject of the utility model is a water treatment plant, intended for field water treatment for food, surface and ground waters, containing natural pollutants, contamination as a result of accidents or natural disasters, and intentional contamination introduced during an armed conflict.

Water treatment plants are known so far, which consist of a container with five pre-treatment columns inside, a second-stage purification column, a third-stage purification column, a flow control board, a pump unit, a power generator, a rack with auxiliary equipment, dispensers, collector manifold, injector, tees, shut-off valves and connections. All elements and assemblies are connected appropriately with each other with armored flexible pipes.

The essence of the utility model consists in the fact that in the hydraulic system, between the filter column of the third stage of purification and the second connection, a column for purification of radioactive contaminants was placed, a coagulation column was placed between the dispensers and the flow control board, and the hydraulic system was equipped with three-way valves mounted on the control panel flow, the input of each of them is connected to the outlet of the primary purification column, while one outlet is connected to the water connection, and the other to the inlet of the second stage of purification. The container is equipped with two shelves for auxiliary equipment and a sealed recess with access to it from the outside.

The advantage of the solution, according to the utility model, is the extension of the contact time of the raw water with the reactants, which has a direct impact on improving the quality of treated water by introducing a coagulation column. The use of three-way valves in the hydraulic system enables the process of rinsing the pre-treatment columns without interrupting the station's operation. Equipping the container with a sealed recess, with access to it from the outside of the container, allows you to protect, during storage and transport, the equipment and fittings inside the container against the adverse effects of chemicals used in the water treatment process. A tax advantage of the design solution is that the station can be operated and serviced without having to remove it from the means of transport.

The object of the utility model is shown in the drawing, in which Fig. 1 shows the water treatment plant in a top view after "clipping"; from the ceiling, Fig. 2 is the arrangement of the hydraulic components in a view from the floor, and Fig. 3 is the hydraulic system of the flow control panel.

The water treatment plant consists of a container 1, inside which there are five pre-treatment columns 2, a second-stage purification column 3, a third-stage purification column 4, a radioactive contamination purification column 5, a coagulation column 6, a flow control board 7, an aggregate pump 8, power generator 9 and racks with auxiliary equipment 10, 11. The first connection 12 installed in the front wall 13 of the container 1 is connected with the rigid pipes of the basic system 14, through dispensers 15 with the inlet socket of the coagulation column 6, the outlet of which is connected to the input 16 of the flow control board 7. The outputs 17 of the flow control board 7 are connected by flexible conduits 18 with the inlet ports of the pre-treatment columns 2, the outlet ports of which are connected with the inlets of tees 19, the first outputs of which through the rigid pipes of the basic system 14 are connected to three-way valves twenty of the flow control panel 7. The second outputs of tees 19 are connected by the rigid pipes of the auxiliary system 21 through the first shut-off valves 22 with the water discharge 23 mounted on the right wall 24 of the container 1. Three-way valves 20 are connected to the inlet port of the second purification stage 3 through the collective manifold 3 The outlet of the second purification stage 3 column is connected to the second tee 26, the first outlet of which is connected with the rigid pipes of the auxiliary system 21 with the water discharge 23, while its second outlet is connected with the rigid pipes of the basic system 14 through the valve system with the second connection 27 mounted on the left wall 28 of the container 1, and with the inlet of the third-stage purification column 4. The outlet of the third-stage purification column 4 is connected to the third tee 29, the first outlet of which is connected with the rigid pipes of the auxiliary system 21 with the water discharge 23, while the second o the outlet is connected with the rigid pipes of the basic system 14 through the valve system with the second port 27 and with the inlet port of the pollution treatment column

Claims (1)

3 PL 63 756 Υ1 of radioactive cleaning systems 5. The output connector of the radioactive cleaning column 5 is connected by the rigid pipes of the basic system 14 to the second connector 27. On the left wall 28 of the container 1 there is also a third connector 30, which is connected to the second through the rigid pipes of the auxiliary system 21 through the input 31 of the flow control board 7. On the right wall 24 of the container 1, there is a spout 32, which is connected through a shut-off valve with the rigid pipes of the auxiliary system 21 to the first connection 12. In the left wall 28 of the container 1 there is a recess 33 with access to it from the outside of the container 1. Protective caveat Water treatment station which consists of a container which inside contains five pre-treatment columns, properly connected to each other by pipes, a second-stage purification column, a third-stage purification column, a flow control board, an aggregate pump, power generator s, dosers, collective manifold, injector, tees, cut-off valves, and a connection where the connection is connected by pipes through dispensers with the input of the flow control board, the outputs of which are connected by wires, through the pre-treatment columns, with the inputs of the tees, the first outputs of which are connected with the flow control board, and the second through the shut-off valves with the water discharge, while the outputs of the switchboard, through the collective collector, are connected to the inlet of the second stage purification column, the outlet of which is connected to the inlet of the second tee, the first outlet of which is connected to the water outlet, and the second through a system of valves with the inlet connection of the third stage purification column, the outlet of which is connected to the third tee, the first outlet of which is connected to the water discharge, the second to the second connection, and the third connection is connected to the second inlet of the flow control board, characterized by this, f in the hydraulic system, between the filter column of the third stage of purification (4) and the second connection (27) there is a column for purifying radioactive contaminants (5), between the feeders (15) and the flow control board (7) there is a coagulation column (6), and the hydraulic system is equipped with three-way valves (20), mounted on the flow control board (7), the inlet of each of them is connected to the outlet of the pre-treatment column (2), while one outlet is connected to the water connection (30), and the other to two racks for auxiliary equipment (10, 11) and a sealed cavity (33) with access to it from the outside of the container (1) were installed in the container (1).