RU2511978C1 - Water spray device - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: water spray device includes a tubular housing equipped with a connection device to a pressure water source, throughout the length of which centrifugal injectors are arranged; the tubular housing is arranged vertically in a scrubber cylindrical housing cavity along the edge of the rectangular outlet opening and preferably the one elongated in a vertical plane of a tangential supply channel of dusty air; with that, centrifugal injectors are used, the longitudinal axes of nozzles of which are oriented horizontally and belong to one plane; with that, injectors are distributed throughout the length of the tubular housing at similar distances from each other with possibility of mutual overlapping of upper and lower zones of water spray flames formed with them. The tubular housing with injectors is arranged in the cavity of a protective cylindrical casing, in the wall of which there are through openings coaxial to longitudinal axes of nozzles of centrifugal injectors; besides, the protective plate-fairing one vertical edge of which is attached to the casing, along its generatrix, and the other one is attached to inner surface of the scrubber along its generatrix, is attached to the casing.

EFFECT: high cleaning quality of flue gas and reduction of water consumption for spraying.

3 dwg

Description

The invention relates to dust suppression means and can be used to moisten gas-dust (and air-dust) flows during their cleaning with scrubbers.

A device for spraying water containing a vertical nozzle and spraying elements located along the height of the vertical nozzle (see RU No. 2253517 B05B 1 / 26,2004) is known.

The disadvantage of this technical solution is the significant cross-section, predetermined by the concept of the solution, since the invention is actually a cascade nozzle, the spraying of which is carried out by the successive interaction of water jets with spray washers oriented across the water flow. The large cross-sectional dimensions of the device preclude its effective use in scrubbers, since they will impair the aerodynamic parameters of the wall layer of gas moving in the scrubber cavity

A device for spraying water is also known, comprising a tubular body provided with means for connecting to a source of water under pressure along the length of which water-jet nozzles are placed (cm.ru No. 2228501, F28C 1/00, 2002).

The disadvantage of this technical solution is that its design does not provide efficient operation as part of a scrubber (irrigation of cleaned air flows), which requires the organization of cleaned spiral-descending layers of gas adjacent to its inner cylindrical surface, and the introduction of tangential layers that are given the shape of a vertically elongated rectangle, since its tubular body is oriented horizontally (while the nozzles are oriented at different angles to the longitudinal axis of the body), which does not allow to create water spray cloud is oriented in a predetermined manner with respect to the tangential outlet channels of dusty air inlet optimally from the standpoint of its effect on the aerodynamic characteristics and aerodynamic characteristics spiral downward flow of purified air (organized in the cavity of the vertical cylindrical body zolootdelitelya and adjacent to its walls). In addition, the known design due to poor streamlining will worsen the laminarity of the formed cleaned spiral-descending layers of gas and reduce the efficiency of ash collection, in addition, due to the high abrasiveness at high flow rates of the cleaned air, the service life of the scrubber cannot be high.

The technical problem to be solved is ensuring the effective operation of a device for spraying water as part of a scrubber.

The technical result obtained when solving the problem is expressed in ensuring a consistently high quality of flue gas cleaning at all possible operating conditions of the boiler plant, ensuring cleaning efficiency at the level of 99.0-99.5% at rated load in operation with a slight decrease when the load changes . Low water consumption for irrigation (injection) is about 1.6-2.0 times lower compared to known devices of similar purpose and equal productivity. In addition, the violation of the laminarity of the formed cleaned spiral-descending gas layers is eliminated. In addition, under conditions of high abrasiveness, at high flow rates of the cleaned air, the service life of the scrubber will be high.

To solve the problem, a device for spraying water containing a tubular body, equipped with a means of connecting to a source of water under pressure, along the length of which centrifugal nozzles are located, characterized in that the tubular body is placed vertically in the cavity of the cylindrical body of the scrubber, along the edge of a rectangular, preferably elongated vertically, the outlet of the tangential channel for supplying dusty air, using centrifugal nozzles, the longitudinal axis of the nozzles of which are oriented horizontally and belong to the same plane, while the nozzles are distributed along the length of the tubular body at equal distances from each other, with the possibility of overlapping the upper and lower zones of the water spray nozzles formed by them, and the tubular body with nozzles is placed in the cavity of the protective cylindrical casing, in the wall which has through holes, coaxial with the longitudinal axes of the nozzles of the centrifugal nozzles, in addition, a protective cowl-plate is fastened to the casing, one vertical edge of which mounted with a casing along its generatrix, and the other is bonded to the inner surface of the scrubber along its generatrix; in addition, the plane to which the longitudinal axis of the nozzles of the centrifugal nozzles belong is as close as possible to the plane of the outlet of the tangential channel for supplying dusty gas.

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The features of the characterizing part of the claims provide a solution to a set of functional tasks.

The signs "... the tubular body is placed vertically" ensure its placement along the vertical edge of the outlet of the tangential channel for supplying dusty gas (which is optimal for organizing an effective water curtain at the channel outlet and in the cross section of a spiral-downward flow of dust-free gas), taking into account the signs that reveal it spatial reference "... in the cavity of the cylindrical body of the scrubber, along the edge of the rectangular, preferably vertically elongated, outlet of the tangential channel la dusty gas supply. "

Signs indicating that "... centrifugal nozzles are used" provide the most efficient spray of water.

Signs indicating that the longitudinal axis of the nozzles of the centrifugal nozzles “are horizontally oriented and belong to the same plane” simplify the organization of a continuous water curtain on the path of dust-free gas flow both in the tangential channel and in the scrubber, with a relatively small flow rate, since the length and cross section of the generated spray torches water is relatively small, which allows you to create a compact volume curtain.

The signs "... nozzles are distributed along the length of the tubular body at equal distances from each other, with the possibility of mutual overlapping of the upper and lower zones of the water spray plumes formed by them", ensure uniformity of the parameters of the formed curtain throughout its volume and its continuity.

The signs "... a tubular body with nozzles is placed in the cavity of the protective cylindrical casing, in the wall of which there are through holes aligned with the longitudinal axes of the nozzles of the centrifugal nozzles, protect the nozzles from the abrasive effects of high-speed dust-free gas flows, while maintaining the functional ability of the nozzles - the output of spray torches into dust-free zones of the space of tangential channels and scrubber.

The signs "... with a casing the bonded cowl is bonded, one vertical edge of which is bonded to the casing along its generatrix, and the other is bonded to the inner surface of the scrubber along its generatrix" provide (due to the location of the tubular body) as an effective irrigation of dust and gas flow in its critical cross-section, and prevent the violation of the laminarity of the formed cleaned spiral-descending layers of gas, providing "smoothness" of the inner surface of the cavity of the scrubber.

The signs "... the plane to which the longitudinal axes of the nozzles of the water-jet nozzles belong are as close as possible to the plane of the outlet of the tangential channel for supplying dusty gas" ensure the effective spatial position of the water curtain in relation to the exit of the tangential channel for supplying dusty gas and with respect to the cross section downward flow of dust-free gas, it is clear that, ideally, it would be good for the named planes to coincide, and this should be sought, but in reality this situation is likely The exception to the rule.

Figure 1 schematically shows a longitudinal section of a tubular body; figure 2 is a transverse section of a fragment of a scrubber; figure 3 - node A.

The drawings show a tubular body 1, equipped with a means of connecting 2 to a water source, a water-jet nozzle 3, a cavity 4 of a cylindrical scrubber body, an edge 5 of an outlet 6 of a tangential channel 7 for supplying dusty gas, a plane 8 to which the longitudinal axes 9 of nozzles 10 of centrifugal nozzles 3 belong , torches 11 water spray, a protective cylindrical casing 12, its through holes 13, a protective plate fairing 14, its vertical edges 15, the inner surface 16 of the scrubber.

As a means of connecting 2 tubular casing 1 to a water source, a water shutter of known construction is used, the passage section of which and the operating characteristics correspond to the operating parameters of the scrubber, preferably remotely controlled. Moreover, a high-pressure (pressure up to 0.4 MPa) water line of known design is used as a water source. As centrifugal nozzles 3, well-known designs are used that provide the formation of torches 11 for spraying irrigation water (up to droplets with a maximum particle size of 0.4 mm), conical shape, length about 250-300 mm, diameter of the base of the cone about 250-280 mm.

In this case, the tubular body 1 (pipe with a diameter of 45 mm) is placed vertically in the cavity 4 of the cylindrical body of the scrubber, along the edge 5 of the rectangular outlet 6, the tangential channel 7 for supplying dusty air.

The longitudinal axis 9 of the nozzles 10 of the centrifugal nozzles 3 are oriented horizontally and belong to one plane (plane 8, which coincides with the plane of the outlet 6 of the tangential channel 7 for supplying dusty gas.

The nozzles 3 are distributed along the length of the tubular body 1 at equal distances from each other (in this case, of the order of 15 0 mm), which, with the aforementioned sizes of the irrigation water spray nozzles 11, ensures the formation of a continuous curtain (cloud) of sprayed water covering the outlet 6 (width passage section about 250 mm, height 3018 mm). Moreover, each adjacent spray torch mutually overlaps the upper zone of the underlying spray jet 11 and the lower zone of the upper spray jet 11. The tubular body 1 with nozzles 3 is placed in the cavity of the protective cylindrical casing 12 (pipe with a diameter of 70 mm), in the wall of which through holes 13 are made, coaxial with the longitudinal axes of 9 nozzles 10 of water-jet nozzles 3. In addition, a protective cowl plate 14 is fastened to the casing 12, one vertical edge 15 of which is fastened to the casing 12 (along its generatrix) and the other is fastened to the inside surface 16 of the scrubber (along its generatrix). In addition, the device includes means for controlling spray quality, for example, water flow sensors in nozzles (known designs are not shown in the drawings).

The tubular body 1 and the other parts mentioned are made of steel, preferably of grade St.5.

The claimed device operates as follows.

When supplying dust-free gas flows through the tangential channel 7, the tubular body 1 is connected to a water source by means of a connecting means 2, which provides irrigation water to the cavity of the tubular body 1. Next, the water passing through the nozzles of the centrifugal nozzles is sprayed with the formation of spray torches 11, mutually overlapping each other in height, which allows you to create a continuous water curtain (cloud of sprayed water) crossing a dust-free gas stream both at the outlet of the tangential channel and in the scrubber (in volume spiral descending layers of dust-free gas). At the same time, the water consumption is relatively small, since the length and cross section of the formed spray torches are relatively small, which allows the formation of a compact volume curtain.

A cylindrical casing, in the wall of which there are through holes, coaxial with the longitudinal axes of the nozzles of the centrifugal nozzles, protects the tubular body and nozzles from the abrasive effects of high-speed dust-free gas flows, while maintaining the ability of the nozzles to discharge spray nozzles 11 into dust-free zones of the space of the tangential channels and scrubber.

The protective plate-fairing 14 provides (due to the possibility of placing the tubular body in the scrubber cavity as close as possible to the edge of the outlet 6 of the tangential channel 7 for supplying dusty gas) efficient irrigation of the dust and gas stream in its critical section and prevents violation of the laminarity of the formed cleaned spiral-descending gas layers , providing "smoothness" of the inner surface of the scrubber cavity.

The ability to maintain the quality of the dust suppression by the nozzles 3 at a consistently high level is provided by controlling the flow rate and pressure of the water for injection using the mentioned means of their control (not shown in the drawings).

Claims (1)

A device for spraying water, comprising a tubular body provided with means for connecting to a source of water under pressure, along the length of which centrifugal nozzles are arranged, characterized in that the tubular body is placed vertically in the cavity of the cylindrical body of the scrubber, along the edge of the rectangular, preferably vertically elongated outlet openings of the tangential channel for supplying dusty air, using centrifugal nozzles, the longitudinal axis of the nozzles of which are oriented horizontally and lie on the same plane, while the nozzles are distributed along the length of the tubular body at equal distances from each other, with the possibility of overlapping the upper and lower zones of the water spray nozzles formed by them, and the tubular body with nozzles is placed in the cavity of the protective cylindrical casing, in the wall of which are made holes coaxial with the longitudinal axes of the nozzles of the centrifugal nozzles, in addition, a protective cowl-plate is fastened to the casing, one vertical edge of which is fastened to the casing along its forming, and the other is bonded to the inner surface of the scrubber along its generatrix, in addition, the plane to which the longitudinal axis of the nozzles of the centrifugal nozzles belong is as close as possible to the plane of the outlet of the tangential channel for supplying dusty gas.

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