RU2493440C1 - Start-up method of water-steam jet device, and device for its performance - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: start-up method of a jet device offers in addition to steam injection through a steam nozzle, discharge of some part of water supplied to the device through a bypass pipe beyond the jet device to a receiving pipeline, which reduces water consumption through the jet device, and by leading to offset of steam condensation shock from a steam nozzle towards a mixing chamber, it creates conditions for start-up of the jet device at lower steam flow rate. The above method is implemented by means of a start-up device of a water-steam jet device including a non-return valve installed on a bypass pipe having flow cross-section diameter that is larger than minimum diameter of flow cross-section of the mixing chamber of the jet device, and a non-return valve installed on water supply pipeline.

EFFECT: reduction of steam flow rate.

3 cl, 1 dwg

Description

The invention relates to inkjet technology, namely to steam-water jet devices, and can be used for pumping water.

There is a known method of starting an inkjet apparatus, the mixing chamber of which is completely or partially filled with water from the circulation circuit, in which steam under pressure from an underwater pipeline is pumped through the steam nozzle into the mixing chamber and the chamber of the apparatus is purged, starting the latter (see V.E. Myasnikov. Steam-water injectors. Calculation, design, application, 100 design options. - SPb .: Elmore, 1997. - 416 p., Ill., P. 9).

The disadvantage of this method is that when it is used, the circulation loop opens, leading to the loss of the last part of the water into the atmosphere.

A known method of starting an inkjet apparatus, in which steam under pressure from an underwater pipeline is pumped through a steam nozzle into a mixing chamber, fully or partially filled with water from the circulation circuit (see G. A. Arone. Inkjet apparatus theory and calculation. - M .: State Energy Publishing House, 1948, p.10).

The disadvantage of this method is the need for a large flow of steam to start the inkjet apparatus.

A known method of starting an inkjet apparatus by changing the input parameters of the steam and liquid flows (reducing the vapor pressure at the inlet of the inkjet apparatus, reducing the inlet temperature of the liquid or increasing its pressure) (see V. G. Tsegelsky. Two-phase inkjet devices. - M.: Publishing House - at MSTU named after N.E.Bauman, 2003 .-- 408 p.: ill., s. 296-298).

As a disadvantage of this method, one can indicate the complexity of the device for its implementation associated with the installation of additional control elements (valves, heat exchangers and shutoff valves) in the steam supply system and the liquid circulation circuit to change their parameters, as well as the need to create a control system for this change.

Closest to the claimed method and adopted as a prototype is a method of starting an inkjet apparatus, in which from several holes located in different sections along the length of the mixing chamber, a part of the steam-water stream is diverted to the drainage manifold, opening valves that lock the corresponding holes (see B .G. Tsegelsky, Two-phase inkjet devices. - M.: Publishing House of MSTU named after N.E.Bauman, 2003. - 408 pp., Ill., S.296-298).

The disadvantages of this method are its technical complexity, as well as the need for access to an inkjet apparatus for manipulating shut-off valves, which is not always possible to provide.

The technical task of the present invention is to develop a method for starting a steam-water jet apparatus, allowing to start a jet apparatus with a lower consumption of steam and, on its basis, a device for starting a steam-water jet apparatus.

The technical result of the present invention is to reduce the consumption of steam, which must be supplied to the mixing chamber to start the apparatus.

The specified technical result is achieved due to the fact that the method of starting the jet apparatus, in which steam under pressure from the subsea pipeline is pumped through the steam nozzle into the mixing chamber, fully or partially filled with water from the circulation circuit, suggests that before the steam is injected, the water flow through the jet apparatus reduce due to the fact that the flow of water supplied from the circulation circuit to the apparatus is divided into at least two streams, one of which is directed to the jet apparatus, and the other is bypassed truynogo apparatus into the pressure line, with a jet device through a channel with non-return valve directed smaller flow than the other stream of water.

The method is implemented using a device for starting a steam-water jet apparatus having a steam nozzle with a steam supply pipe, a mixing chamber and supply water pipes and an output steam-water mixture, including a supply water bypass pipe with a larger flow cross section than the minimum flow cross section of the mixing chamber connected to the pipeline the output steam-water mixture through a non-return valve, while a non-return valve is also installed at the entrance to the jet apparatus of the supply water pipeline Seeping steam breakthrough into the pipeline.

The essence of the invention is illustrated by the drawing, which shows a diagram of a device for starting a steam-water jet apparatus.

A device for starting a steam-water jet apparatus 1 comprises a non-return valve 2 mounted on a bypass pipe 3 having a passage diameter greater than the minimum passage diameter of the mixing chamber 4 of the jet apparatus 1, and a non-return valve 5 mounted on the water supply pipe 6. The drawing also shows the steam nozzle 7, the underwater pipe 8 for steam, the pipeline output steam-water mixture 9 and the circulation circuit 10.

The method of starting a steam-water jet apparatus is implemented as follows. In the initial position, the inkjet apparatus 1 included in the water circuit 10 does not work. Through the water supply pipe 6, water flows with a flow rate of G _in . On the way to the ink jet apparatus 1, a water stream is divided and a portion thereof flows into the outlet pipe 9 through the steam-water mixture jet apparatus 1 at a flow rate G _c1 and the second part - by a bypass pipe 3 at a flow rate G _e2 equal to (G _a -G _c1 ) In this case, because the bypass tube 3 has a diameter of passage cross section greater than the minimum diameter of the mixing chamber 4 the cross section of the jet apparatus 1, the flow rate G _B2 substantially greater flow G _c1. To start the jet apparatus 1 using an underwater pipe 8 through a steam nozzle 7 begin to pump steam. Moreover, due to the fact that the main flow rate (flow rate G _B2 ) passes through the bypass pipe 3, and the flow rate G _B1 through the jet apparatus 1 is significantly lower, the apparatus will start up at a lower steam flow rate. After starting the ink jet apparatus 1, the latter will start to work as a pump, and after a certain period of time the water flow rate G _c1 therethrough substantially exceeds the flow rate G _e2 through the bypass tube 3, the latter will tend to zero. Non-return valves 2 and 5 are needed to exclude the possible reverse flow of water into the water supply pipe 6 and the bypass pipe 3 when starting the jet apparatus 1.

Thus, the proposed method of starting a steam-water jet apparatus and a device for its implementation allow to obtain the claimed technical result of the invention.

Claims (3)

1. A method of starting a steam-water jet apparatus, in which steam under pressure from a subsea pipeline is pumped through a steam nozzle into a mixing chamber completely or partially filled with water from the circulation circuit, characterized in that before steam injection, the water flow through the jet apparatus is reduced due to that the flow of water supplied from the circulation circuit to the apparatus is divided into at least two streams, one of which is directed to the jet apparatus, and the other is directed to bypass the jet apparatus into the pressure pipe and provide a reduction in steam consumption required to start the inkjet apparatus. 2. The method of starting a steam-water jet apparatus according to claim 1, characterized in that the smaller of the water flows supplied from the circulation circuit to the apparatus are sent to the jet apparatus through a channel with a non-return valve, and the larger is directed to bypass the apparatus. 3. A device for starting a steam-water jet apparatus having a steam nozzle with a steam supply pipe, a mixing chamber and supply water pipes and an output steam-water mixture, including a supply water bypass pipe with a larger cross-section than the minimum flow section of the mixing chamber connected to the steam-water output pipe mixture through a non-return valve, while a non-return valve is also installed at the inlet of the jet apparatus of the supply water pipe, eliminating the breakthrough of steam into the pipe water.