SU836497A1 - Evaporation cooling unit for pit furnaces - Google Patents

Description

(54) INSTALLING THE EVAPORATIVE COOLING OF THE HEATING PANELS (location) causes a thermal imbalance to occur in the unit with the appearance of a pulsating circulation mode and periodic discharge of water from the unit to the drum separator. The aim of the invention is to provide a stable circulation of the refrigerant in the steam generators. The goal is achieved by the fact that in the installation of evaporative cooling of heating wells, the surface of each subsequent group of steam generators is 15-25% larger than the surface of each previous group and is in the ratio I: (l, l5-l, 25) :( l, 25-l , 45), and the surface of the superheater is 0.25-0.45 of the total surface area of the steam generators. The drawing shows the described installation. It contains heating wells I, a smoke exhaust tract 2, in which steam generators 3,4 and 5 and a superheater 6 are located, lift individual collectors 7,8 and 9 discharge the steam-water mixture from the surfaces of steam generators 3,4 and 5, the obdium is diverting. The collector U, inlet manifold II, in which water enters the steam generators 3, 4 and 5, steam separator separator 12, for each group of wells I, the drum separator 13 common to all groups of wells, the steam pipe 14 in which the wet steam supplies to the superheater 6,. and the steam line 15 through which trans The superheated steam is supplied to the consumers. The separator 12 and the drum separator are connected by steam and water through pipes 16 and 17, the steam generating unit is the support ring 18 located in the upper part of the heating wells, which is connected to the diverter U and inlet with collectors 19 and 20. II collectors. The device works as follows. In the upper part of the heating wells I, a support ring 1 is installed, which is a steam generator and protects the upper part of the well from the destruction of the shaft. Steam is also generated in steam generators 3, 4, and 5. Chemically purified water is supplied to steam generators 3, 4 and 5 via supply pipe 11 from separator 12, and the steam-water mixture that forms in them is fed to individual common collectors 8 and 9. for this group of tanks, the outlet collector lt. The outlet and supply manifolds 974 are connected to the steam separator 12, which is connected to the drum-separator 13 in water and steam volumes by means of pipelines 16 and 17 that are separated for all groups of wells in the separator but wet steam from the separator drum served on the drying and heating in the steam superheater 6, placed in the smoke hog 2 before the steam generators 3,4 and 5. The superheater must take so much heat on the steam overheating to provide a pulsation-free operation of the steam generators, Par. from the steam generating support rings 18, they are diverted to the oipy collector 19, and feedwater is supplied to it via the supplying collector 20. Mostly, based on the dimensions of the flue pipe of the heating wells, three groups of steam generators are provided. Studies carried out at a pilot plant showed that the surface of each subsequent group of steam generators should be 15-25% more than the previous one and is in the following ratios I: (l ,, 25) :( 1.25-1.45), where for the first accepted area of the steam generating surface 3. To eliminate the possible thermal imbalance taking into account the relatively small height of the workshop and, consequently, the small height of the lifting collector, in which the useful head is generated, these surfaces must be connected to the oocyte lifting collector in the following order: the first in the direction of the cooling medium surface 5, then the surface 4 and 3, the last ring 18. The area of the superheater 6, located in front of the steam generators, should relate to the sum of these surfaces within O, 25-O, 45, where I accepted the whole surface of the steam generator. Such a ratio of steam superheating and steam generating surfaces in the latter ensures a sufficient circulation ratio and the absence of a pulsating mode, in which not only large water emissions into the drum and an eparator are observed, but also burns out of the steam generating surfaces. formula of the invention. Installation of evaporative cooling of heating wells, containing

groups of steam generators and steam heaters, drum separators, steam separators, support ring, common exhaust manifold, smoke exhaust duct and connecting communics, while the steam generators most distant from the start of the exhaust pipe are connected to the oyc collector p | his path, and the latter - the first along the movement of flue gases, about the fact that, for the purpose of the stable circulation of the refrigerant, the surface

each subsequent rpynni i steam generator is larger than the surface of each pressing group and is in ratio 1 :( 1.15-1.25) :( 1.25-1.45), and the surface area of the superheater is O, 25-O, 45 of the total surface of the vapor generator atorov.

Sources of information taken into account in the examination I. USSR author's certificate NO 578353, cl. From 21D 9 / o. 1977.

2. USSR author's certificate number 576344, cl. C 213 9 / GS, 1978

836497

Claims (1)

Claim An evaporative cooling unit for heating wells, containing groups of steam generators and a superheater, drum separators, steam separators, a support ring, a common exhaust manifold, a smoke exhaust duct and connecting communications, while the most remote steam generators are connected to the common exhaust manifold in the direction of the steam-water mixture, the most distant from the beginning of the chimney, and last - the first along the path of the flue gas, about a l a h a join a erhnost each subsequent group parogenerato moat larger surface of each preceding group and is in a ratio of 1: (1.15-1.25) :( 1.25-1.45), and the surface area of the superheater ₅ is 0.25-0.45 from the total surface of the steam generators.