CS215567B1 - A device for winter reducing the flow rate of air flowing through a wet cooling tower with natural draft - Google Patents

Abstract

The device for winter reduction of the air flow rate flowing through a wet cooling tower with natural draft /PV 514-80/ solves the winter operational problems of especially large atmospheric coolers of thermal power plants, both conventional and nuclear. Harsh climatic winter conditions reduce the operational reliability of the mentioned energy sources, in particular by damaging the membrane, i.e. plate, construction of the wet cooling tower, thereby reducing its service life and causing the need for expensive repairs associated with the shutdown or reduction of the output of the corresponding power units. The device in question for screening the air inlet openings is light in weight, adjustable, has a relatively long service life and does not require its removal after the winter period, because practically the entire cooling effect is exerted by spontaneous or/and artificially created icing on this device, which consists of a system of hanging grilles or nets and their anchors placed on the inclined pillars of the tower. The description of the invention also includes backup technical means for artificially creating and eliminating effective ice. The main advantages of the invention are the elimination of the previous very strenuous and dangerous work and/or the improvement of the operational technical and economic indicators of thermal power plants.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for reducing winter airflow through a wet cooling tower with natural draft air during abnormal operation, i.e., during a freezing weather. The invention will be attractive to large thermal power stations, both classical and nuclear, particularly heat and power plants with heat demand, in which the thermal power introduced into the condensers and passed on to the cooling towers through which the corresponding low-potenoic heat is transferred to the ambient atmosphere .

To date, various technical means for reducing the amount and / or for preheating and moistening the air entering the cooling tower have been used in the so-called winter measures on cooling towers. In addition to the dispersion of the warmed water in the cold air stream, the so-called aperture of the openings for the outside air inlet to the atmospheric cooler, i.e. the tower tower, is applied by air or mechanical elephants of various designs. The curtains are made of suspension shields which reduce the clear cross-section of the inlets by 50 + 70% in our climatic conditions, by 80 + 85% in countries with harsh climates, or even more. These curtains are hung on the lower edge of the tower envelope of the tower, i.e. above the air inlet openings.

In large wet cooling towers with natural draft air, the height of the inlet openings is now 7 to 10 m and therefore olons are usually made up of two or three storeys of shields. The disadvantages of the prior art method and the corresponding screening technique are, in particular, that the manual suspension and removal of predominantly wooden screens is a very lengthy, laborious and dangerous work. The individual shields are bulky and too massive and therefore still pose a risk of injury on slippery or icy surfaces. With more frequent changes of frost and thaw, it is absolutely impossible to adapt the cooling tower screen to the current weather. Various meohanioká devices have been designed, such as folding and other blinds, swivel wings or shutters, etc., which, however, did not prove to be in operation due to high failure rate. The current situation in terms of readiness or speed of creation and removal of winter olons as well as in terms of the efficiency of spraying equipment is so far very unsatisfactory.

The aforementioned disadvantages of the prior art device for winter screening of tower towers are substantially reduced in the winter air volume reducing device according to the invention, which consists in that it consists of grilles or nets which are angled to the lower part of the shell and / or inclined props and They are uohyoeny on oblique props and allow adjustment or change of the position of the grilles or nets, while the actual barrier or the effective winter olona is created by icing, created spontaneously and / or artificially on the grille or nets.

In particular, the main advantages of the new screening device are characteristic of technical progress: firstly, it is merely a trivial use of the inherent phenomenon of intensive icing on various objects in the field of frosty air interaction and the vapor and / or liquid phase of water occurs in the vicinity of water mass with a zero temperature. In layman's terms, it is a partial glazing of the inlet holes with a relatively thin reinforced or reinforced layer of ice. Secondly, a desirable leveling of the temperature profile in the flowing air in the horizontal plane just below the membrane installation is desirable, thereby eliminating the risk of entering the isotexm of the sub-zero isotex into the membrane installation and hence the risk of frost damage to wet boards, especially asbestos-cement. Thirdly, the grid itself or the sew itself will cause only a slight increase in air resistance and therefore, although light, does not have to be removed after the winter. The supporting grid of the Si mesh is not only light and therefore easy to operate, but it is also sufficiently strong, which enables to realize differently designed respective variants of the device and differently to design their basic parts and details. Fourth, the airflow control is more or less automatic, since the frost on the grid or grid will start to form itself when the ambient air temperature drops below freezing and vice versa, the ice will equally reliably disappear when the ambient temperature rises above 0 ° C. Fifth, the rate of spontaneous formation and disappearance of ice and the corresponding changes in air flow caused by appropriate changes in ambient air temperatures are likely to be sufficient from the standpoint of frost threatening the plate installation, ie the tower membrane cooling system. Sixth, natural time

The response or rate of self-regulation of the air flow can be shortened or accelerated by relatively easy manual and / or mechanized operation by the operator, either. spraying cooled water onto a frozen grid or net, or rinsing the grid or net with warmed water. Seventh, the formation of ice around the cooling tower, which occurs mainly on the downward side of the tower under strong ground wind, is reduced. Eighth, the lower part of the grid or net can permanently perform the function of a local security fencing, which in addition will capture coarse airborne impurities such as papers, dry grasses and above all dry leaves, which fall just before the winter. Ninth, the work associated with the occasional cleaning of the lower fencing, which, however, can be easily mechanized, will reduce the work involved in cleaning both the screen and sieves in the water circuit and cleaning the tower tank, respectively extending the intervals of these laborious and unpleasant maintenance operations. A secondary related advantage is also the fact that the average amount of organic impurities decaying at the bottom of the cooling tower tank, which is a breeding ground for the growth of microorganisms, whose effect on the condition of the entire cooling circuit is very unfavorable, is reduced. Tenth, it can be assumed that in the off-season, the lower part of the grid or net can be used as a supporting structure for curtains of textile and / or rubber or platinum foils, which would be suspended only in strong winds, thereby eliminating elimino. its disturbing effect on the air flow through the towers. Eleven, significant advantage is the fact that the operation of the cooling towers eliminates the very heavy and dangerous work associated with hitherto hanging and removing the massive wooden gables, which, as convincing practice shows, is absolutely unsecure in our conditions. For the twelfth time, the protected device for winter screening is also suitable for additional application in already running exhaust coolers or in future semi-dry cooling towers. Thirteenth, by creating a homogeneous? ice curtains on the grid or net will obtain a screen that is also tight enough. Fourteenth, when selecting suitable and common constructional and protective materials, it is possible to realize supporting grids or nets whose lifetime will be considerably longer than the life of wooden shields. Fifteen, by not installing today's water sprayers in a cold air stream narrowed by ice curtains, the efficiency of these sprayers will increase. Sixteenth, the grid or grid system is undoubtedly highly adaptable to site-specific conditions and to various cooling tower design solutions. Very advantageous seems to use only the upper grids or networks of cooling towers 56 5 & &Lerné elektrárne according to MS. No. 203721, for which a shower subsystem for cooling so-called technical water is designed near the air inlet openings. Here, the lower grille or net becomes smaller and / or distant from the tower or eventually falls off completely. In the seventeenth time, the application of a protected screening system will improve the winter operation of cooling towers and the low low-potential water circuit, which will also have a positive impact on the economic indicators of the energy center.

The drawing shows a simplified vertical axial section of the entrance part of the ITTERSON wet cooling tower for illustrative interpretation of the protected screening device.

As can be seen from the figure, the base 1 and the wall 2, which are at the same time a circumferential beam for the inclined uprights 10, on which the shell 11 forms the chimney part of the cooling tower, sit on the underlying concrete. To the internal installation belong feet 5 with interposed columns 2 'which are interconnected by beams 8. On this arranged support system there is mounted a membrane cooling system, which is made of plates χ, above which the hydraulic distribution system represented here by pipes 2 ^and Weak 6. an innovative device is a dotted drawn grid or mesh. The auxiliary fastening and adjusting element is an anchor 12 «which is locked into a bracket (not shown) on the inclined upright 10. During the occurrence and existence of freezing weather, it will form and adhere to the grille. A continuous solid phase of water, i.e., icing 14, is shown in the mesh 12 by means of serohotted lines along the inclined props 10. Further possible positions of the grids 12 are shown. It is sufficient to note that the cold air flow through the tapered cross-section between the upper and lower orifice formed from icing 14 is shown by thin dashed curved arrows.

The above-mentioned screening device was applied to the preliminary but specific design of the ITTERSON cooling tower for Czechoslovakia. a nuclear power plant with two reactor units with an electrical output of 2 x 440 MW. The towers are 120 m high and their lower part is drawn in a scale of 1: 100 in the figure above. The height of the air inlet, marked H, is 10 m. When installing the upper and lower supporting grilles or nets. given the geometry, screening around 70%, which in our conditions can be considered superfluous. The back-up teohnl for the rapid or rapid frost treatment on the carrier grille or net is, on the one hand, a snow cannon for icing and, on the other hand, a suitable thermal aggregate for blowing frost through hot air or flue gas to reduce or icy. In addition, it is possible and expedient to remove the icing by a highly advanced electro-pulse method using the EIPOS device developed in the USSR according to important owls. inventions, protected in the USSR. It is evident that these theories are associated with corresponding energy consumption. It should also be noted that the functional principle of the defended device is based on the winter operating experience described in the literature. Specifically, in the operation of one very obscured and low-hydraulic (2 nP / m ² h / i thermally / t = 1.7 + 7.2 ° C) loaded tower, an ice wall reaching up to the water level in tank. This resulted in an enormous reduction in air flow, causing a sudden increase in the cooling water temperatures in the circuit. In order to obtain and maintain an undersized operating mode, the operators of the cooling towers had to constantly remove ice formed in the partially open shields. It remains to be emphasized that the efficiency or value of the present invention will depend on the degree of success of the geometric transformation so far in the freezing towers of the frost blocks of massive ice blocks to a relatively uniform and tight kidney wall reinforced with a grid or net begins to disappear.

It can be assumed that after the operational verification of the suitability or unsuitability of various types of mesh, as well as the testing of various designs of load-bearing grids or nets and in particular after obtaining the necessary routine in the maintenance of ice curtain walls. Ensuring the reliable function of cooling towers and thus ensuring the continuous production of electricity in winter is and will continue to be a topical issue not only in Czechoslovakia but also abroad, especially in those countries where winter climate conditions are tougher than in our country.

Claims (1)

SUBJECT OF THE INVENTION A device for reducing the flow of air flowing through a natural cooling draft wet cooling tower in winter, limiting the air flow in abnormal tower operating mode, i.e., in the freezing weather, characterized by consisting of grilles or nets (12) attached to the bottom of the casing. 11 / or / and inclined props (10) and anchors (13), which are mounted on inclined props (10) to allow adjustment or change of the grille or net (12), whereby own barrier or effective winter screen creates frost (14) , created spontaneously or / and artificially on bars or nets (12).