RU2666947C1 - Working liquid input unit - Google Patents

Abstract

FIELD: manufacturing technology.SUBSTANCE: invention relates to the working fluids sewerage systems for, in particular to sewage, industrial and waste waters reception systems in their conservation, pumping and processing facilities, it can be used in the input units manufacturing, which are resistant to electrochemical corrosion and cavitation erosion, for example, in the ship's wastewater tanks. Disclosed is the working fluid input unit comprising the mounted on supporting structure smoothly curved outlet branch pipe with nozzle, the outlet branch pipe with a nozzle is vertically directed into the horizontally arranged baffle plate. Outlet branch pipe cavity, the nozzle and the baffle plate are covered with epoxy resin or polyurethane, or outlet branch pipe, the nozzle are made of polypropylene, and the baffle plate is covered with polypropylene.EFFECT: technical result consists in the working fluid colloidal sediments washout improvement, increase in the working fluid input unit resistance to electrochemical corrosion and cavitation erosion.4 cl, 2 dwg

Description

Fluid Injection Unit

The invention relates to sewage systems, in particular, to the input nodes of the working fluids, and, in particular, can be used in the manufacture of receiving systems for tanks of wastewater of the vessel, resistant to electrochemical corrosion, cavitation erosion and hydrogen sulfide environment.

A known method of reducing cavitation in hydraulic machines and a device for its implementation, in which to reduce cavitation included section of the pipeline of the hydraulic machine, made rectilinear and eccentrically narrowed, mounted on its walls along the flow part with an inclined flow profile elements of resistance in the form of fragments of a spiral of Archimedes . The section is equipped with a cylindrical rarefaction chamber located in front of the pump and a device supplying air to the rarefaction chamber to prevent the flow from colliding with the parts of hydraulic machines by forming controlled flow movement in areas adjacent to the parts of hydraulic machines and increasing its kinetic energy. Cavitational erosion of the convex wall of the curvilinear elbow of the suction pipe of a hydraulic turbine is reduced by reducing the pulsation of the water flows in the flowing part by supplying kinetic energy to the boundary layer of fluid adjacent to the convex wall and increasing the resistance to the pulsating velocity components directed upstream [1].

However, this method does not allow to the necessary extent to prevent erosion caused by cavitation of the pipe part.

It is known that an anti-cavitation device in a curved hydraulic tract. It consists of bypass channels in the wall of the tract for supplying fluid from the high pressure region to the low pressure region. The channel inlet openings are located in the area before the flow turn, and the output openings after the flow turn in the cavitation zone. An arc-shaped element made of plastic material is installed above the outlet openings of the channels. At least one hole can be made in it, into which a ring of constant diameter can be installed. Elements can be made of porous material [2].

Holes that equalize the pressure in the region of high and low values are of little use for colloidal solutions.

Closest to the proposed input node is a fire monitor containing an inlet pipe mounted on a support structure, an intermediate and an outlet pipe, and two rotary nodes (hinges) located to each other at an angle other than 90 °, and made for rotation, characterized in that it is made with the possibility of changing the angle of the axis of the outlet pipe with a nozzle vertically by simultaneously rotating two hinges, as well as a curved outlet pipe with a nozzle [3].

The disadvantages include: a double change of direction of the rotary nodes, which leads to increased cavitation erosion in places of bending, this is especially true for long-term continuous operation of the fire monitor; The necessary compactness of the fire monitor causes small bending radii of the intermediate and output pipes and leads to increased cavitation erosion in the bending places.

The technical result of the invention of the working fluid input unit is to protect the device from cavitation and electrochemical erosion by reducing the turbulence of the working fluid flow along the inner surface of the outlet pipe with the nozzle and the working surface of the baffle plate and smoothing the kinetic energy drop of the working fluid flow, as well as the use of chemically stable and elastic materials, damping shock effects during the collapse of gas bubbles, which ultimately increases the service life of the explosive assembly so the working fluid.

A fluid inlet assembly is proposed, including a smoothly curved outlet pipe with a nozzle, which is additionally mounted on a supporting structure, and for better washing off colloidal sediments of the working fluid, the outlet pipe with a nozzle is directed vertically downward into a horizontally located breaker sheet. To reduce cavitation destruction, the outlet pipe is made with a smooth bend, preventing the destruction process. At the same time, to dampen the impact of cavitation, the nozzles and the baffle plate are coated with epoxy resin or polyurethane, in addition, the nozzles can be made of polypropylene, and the baffle plate is coated with polypropylene.

The invention is aimed at increasing the resistance of the working fluid input unit in their sewage systems, in particular, in the systems for receiving sewer, industrial and waste water in the objects of their conservation, pumping and processing. It can be used in the manufacture of input units resistant to hydrogen sulfide environment, electrochemical corrosion and cavitation erosion, for example, in shipboard wastewater tanks.

In FIG. 1 shows the site of the input fluid, where 1 is the outlet pipe; 2 - nozzles; 3 - bump sheet; 4 - plot bending; 5 - bending radius; 6 is a diagram of the velocity of a moving working fluid to a bend site; 7 is a diagram of the speed of a moving working fluid in a bend; 8 is a diagram of the velocity of a moving working fluid after a bending section; 9 - sections of turbulence; 10 - area of increased cavitation erosion; 11 - supporting structure.

In FIG. 2 shows a baffle plate with a dedicated zone of increased cavitation erosion, where 3 is a bump sheet; 12, 10, 13 — spot of active contact of the sheet with the flow of the working fluid: 12 — area of reduced pressure from the spot of active contact of the sheet with the flow of the working fluid; 10 - zone of increased cavitation erosion; 13 - region of increased pressure of the working fluid from the spot of active contact of the sheet with the flow of the working fluid.

The increase in the radius of the bend of the outlet pipe allows you to get a smooth bend of the outlet pipe and reduce the local hydraulic resistance in the area of rotation. A decrease in the local hydraulic resistance in the bending region reduces cavitation erosion of the low pressure zones located behind it.

Covering the cavity of a smoothly curved outlet pipe, nozzle and baffle plate with epoxy resin or polyurethane, which have the property of elasticity, allows you to dampen micro-shocks in the working fluid. This makes it possible to increase the resistance of the baffle plate. In addition, the epoxy protective coating has enhanced chemical resistance to the hydrogen sulfide environment.

The manufacture of a smoothly curved outlet pipe and nozzle made of polypropylene, as well as covering it with a baffle plate, by analogy with the use of an epoxy resin coating, also makes it possible to increase the durability of these elements of the input unit. In addition, polypropylene, like epoxy resin, has increased chemical resistance to hydrogen sulfide environment.

It follows from the foregoing that, despite the fact that all newly introduced elements of the working fluid input unit are widely known, their introduction in this connection with each other suggests that the proposed working fluid input unit provides new, previously unknown possibilities for introducing the working fluid liquids, allowing to reduce cavitation erosion, electrochemical corrosion and increase resistance to a hydrogen sulfide environment as a smoothly curved outlet pipe with a nozzle, and a jack sheet. In turn, the reduction of electrochemical corrosion, cavitation erosion and resistance to the hydrogen sulfide environment of the outlet pipe with the nozzle and the baffle plate increases the service life of the working fluid inlet assembly.

The invention can be used in the manufacture of input nodes that are resistant to electrochemical corrosion and cavitation erosion, for example, in marine wastewater tanks.

Information sources

1. A method of reducing cavitation in hydraulic machines and a device for its implementation [Text]: US Pat. 2260716 Ros. Federation: IPC F04D 29/66, F03B 11/04 / Stepkin A.A. (RU), Stepkina Yu.A. (RU); applicant and patentee Stepkin A.A. (RU), Stepkina Yu.A. (RU). - No. 2003136952/06; declared 12/24/2003; publ. 09/20/2005, Bull. No. 26. - 8 p.: Ill.

2. Anti-cavitation device in a curved hydraulic tract [Text]: US Pat. 2449167 Ros. Federation: IPC F03B 11/04, F04D 29/68, F16L 55/04 / Kochenkov A.G. (RU), Tonkonog V.G. (RU), A. Tukmakov (RU), Sannikova E.Yu. (RU); applicant and patent holder Federal State Budgetary Educational Institution of Higher Professional Education "Kazan National Research University named after AN Tupolev - KAI" (BOOK - KAI) (RU). - No. 2010148949/06; declared 11/30/2010; publ. 04/27/2012, Bull. No. 12. - 9 p.: Ill.

3. Fire monitor with a tilt angle of the hinges other than 90 degrees [Text]: US Pat. 2483772 ROS. Federation: IPC А62С 31/00 / Denisov Yu.G. (RU), Sokolov A.D. (RU); applicant and patent holder Limited liability company Firm "STEC" (RU). - No. 2014105150/02; declared 06/07/2011; publ. 06/10/2013, Bull. Number 35. - 4 p.: Ill.

Claims (4)

1. The site of the input of the working fluid containing the outlet pipe with a nozzle, characterized in that it is mounted on a supporting structure, made with a smooth bend and directed into the baffle sheet. 2. The site of the input of the working fluid according to claim 1, characterized in that the cavity of the outlet pipe, the nozzle and the baffle plate are coated with epoxy resin. 3. The site of the input of the working fluid according to claim 1, characterized in that the cavity of the outlet pipe, the nozzle and the baffle plate are coated with polyurethane. 4. The fluid inlet assembly according to claim 1, characterized in that the outlet pipe and nozzles are made of polypropylene, and the baffle sheet is coated with polypropylene.

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