RU2062315C1 - Method for protecting litter catching grade from icing - Google Patents

Abstract

FIELD: protection from icing. SUBSTANCE: end part of hollow rod is supplied with liquid working medium at pressure and velocity that provide ejection effect to reject and remove slush ice from grid bars. EFFECT: grid bar heating is not needed.

Description

 The invention relates to the field of hydraulic engineering and relates, in particular, to methods of dealing with ice difficulties at water intakes.

 There is a method of protecting sulfur-containing grids from clogging with internal water ice using electric heating, in particular, the most commonly used method is frontal heating (see A. Pekhovich, “Heating of trash grids of hydroelectric power stations and water intake structures”, L: Gosenergoizdat, 1959, 18 pp.).

 However, as a means of preventing the crystallization of supercooled water on the gratings, as well as the adhesion of sludge floating in the flow to them, nevertheless, it cannot prevent the grate from clogging it mechanically with pieces of surface ice, and also stop the freezing process that has already begun, even if the heating is switched on in advance (before the water has cooled down).

 The heating method is laborious in connection with the choice of the exact heating mode, effective power, taking into account the efficiency, the complexity of the installation of heaters. The optimal efficiency in practice was not achieved.

 The prototype is the closest in physical sense method of protecting sulfur-containing lattices of hydroelectric power plants, including supplying a working medium inside the lattice rods under pressure and releasing it in the frontal part of the rods (A.S. N 81604, IPC EO28 5/08, 1948), which is the closest analogue to the proposed method.

 In the prototype, a distinctive feature of the proposed lattice is the implementation of its tubular rods from a porous material or by perforation of the fillings of the inner cavity of the rods with brine (working medium), which seeps onto the outer surface of the lattice tubes, moistens them and this prevents the sludge from sticking to the lattice.

 The known method does not solve the problem of pressure drop in the zones at the tail (end) parts of the rods and, therefore, the occurrence of primary crystallization nuclei at a temperature different from the usual crystallization.

 The prototype method does not lead to the stability of the lattice rods, creating a thin layer of brine on the surface lowers the crystallization temperature, and does not prevent it (crystallization) completely. In addition, it is possible to clog pores with brine deposits, corrosion of elements of sulfur retention lattices, which together reduces the strength and stability of the rods.

 The purpose of the invention is the prevention of the primary crystallization phase in the rarefaction zone in the hydrodynamic shadow of the lattice rod.

 To achieve the goal, water inside (in the end part) of the hollow rod is supplied under pressure, and its release is carried out by the frontal part of the rod in the rarefaction zone of the flow, with a speed that allows to remove the vacuum and to carry out the electrifying effect for the demolition of the already formed sludge.

 The method is as follows.

 8 hollow rod (water jets are "blown" into the rarefaction zone to change the hydraulics of the flow of water around the lattice rods. The rod has slotted holes in the end and frontal parts. Water supply to the rarefaction zone changes the pressure behind the rod, has an electrifying effect and allows you to remove crystallization of the sludge The rate of flow around the flow behind the end surfaces of the rods of the gratings is maintained equal to the speed of the main flow entering the inter-rod space of the gratings.

 Studies have shown that by choosing the cross-sections of the slots, injection speed, pressure and flow rate of the water, the operating mode of the pump system, in winter conditions it is possible to remove the crystallization of the sludge and transport it from the grates.

Claims (1)

 A method of protecting the debris holding grate from icing, comprising applying a liquid working medium under pressure to the inside of the grate rods and discharging it in the front of the rods, characterized in that the working medium is additionally discharged from the back of the rods, and water is used as the working medium, while water is discharged of the rods is carried out at a speed that ensures the removal of the sludge from the lattice due to ejection.