RU2418256C1 - Cooling tower sprinkler - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: in cooling tower sprinkler in the form of module of layers of polymer cellular tubes, the tubes are cylindrical, arranged in all layers parallel to each other and welded along edges of module to each other at contact points, and cavities of each of the tubes and inter-tube space is filled with hollow polymer balls; at that, ball diametre is by 5÷10% bigger than maximum size of cell of tubes.

EFFECT: improvement of cooling capacity of sprinkler and reduction of material consumption.

1 dwg

Description

The invention relates to energy and is intended for carrying out heat and mass transfer processes between gas and liquid when they are in direct contact, in particular in fan and tower cooling towers, and allows to increase the cooling ability of the irrigator and reduce material consumption.

The closest in technical essence, the achieved effect and selected as a prototype is the cooling tower sprinkler to the patent of the Russian Federation No. 2141617, class. F28F 25/08, made in the form of a module from layers of polymer cellular pipes having a circular cross section.

The disadvantage of this sprinkler is the friability of its design, which leads to a large draft during operation due to flattening, which reduces the uniformity of heat and mass transfer over the volume of the sprinkler, and therefore reduces its cooling ability.

The technical result is an increase in the cooling ability of the sprinkler and a decrease, due to this, material consumption.

This is achieved due to the fact that in the sprinkler of the cooling tower in the form of a module from layers of polymer cellular pipes, the pipes are cylindrical, placed in all layers parallel to each other and welded along the ends of the module between them at the points of contact, and the cavities of each pipe and the annular space are filled with hollow polymer balls, and the diameter of the balls is 5 ÷ 10% more than the maximum pipe cell size.

The drawing shows the sprinkler of the cooling tower in a perspective view.

The cooling tower sprinkler is made in the form of a module from layers 1 of polymer cellular pipes 2. The pipes are oriented in all layers 1 parallel to each other and are welded along the ends of the module 3 between each other in places of 4 contact. The cavities of each of the pipes and the annulus are filled with hollow polymer balls 5, and the diameter of the balls is 5-10% larger than the maximum cell size of the pipes 2.

The implementation of the tower in this way allows you to give the ends of the module the properties of stiffness diaphragms. This makes it possible to avoid subsidence of the irrigating layers, i.e. to ensure during installation and to maintain during operation the optimal geometry of the curved cellular surfaces of the pipes to create a thin water film throughout the sprinkler without dripping. Thus, uniform heat and mass transfer is achieved and, therefore, the cooling ability of the irrigator increases and its material consumption decreases. Additional rigidity of the structure gives the filling of the pipes and the annular space with hollow polymer balls 5.

Moreover, to increase the rigidity of the pipe structure in adjacent layers can be staggered relative to each other.

Cellular polymer pipes 2 are obtained by extrusion, cut into sections, the length of which corresponds to the length of the side of the module, and laid in the conductor, observing the necessary laying direction, i.e. placing pipes 2 parallel to each other. After the accumulation in the conductor of the required number of pipes 2, heating elements are brought to their ends and welded to each other in places of contact 4. Due to this, stiffness diaphragms are formed at the ends of the 3 irrigator modules, allowing it to maintain the initial optimal geometry of its elements during operation. An additional rigidity of the structure is given by a denser stacking of pipes in a checkerboard pattern in adjacent layers.

The sprinkler of the cooling tower operates as follows.

Water sprayed by nozzles enters the sprinkler and flows off with a thin film without droplet formation along its elements. In this case, uniform heat and mass transfer occurs over the entire volume of the sprinkler, and therefore, the cooling ability of the sprinkler increases and the material consumption decreases.

Claims (1)

The cooling tower sprinkler in the form of a module made of layers of polymer honeycomb pipes, the pipes are cylindrical, placed in all layers parallel to each other and welded at the ends of the module between each other in places of contact, characterized in that the cavities of each of the pipes and the annulus are filled with hollow polymer balls, moreover the diameter of the balls is 5 ÷ 10% larger than the maximum pipe cell size.