SU1666849A1 - Steam boiler with intermediate heat-transfer agent - Google Patents

Abstract

This invention relates to a power system and can be used in boiler building. The purpose of the invention is to reduce scale formation when using an intermediate heat carrier (T) in the form of a hydrophobic liquid lighter than water (B). The T is heated in the heating surfaces and fed successively to the economizer 10 and the evaporator 8. The nutrient B is fed from above to the economizer 10 above the T layer. The dispersed particles B are lowered in the T layer and heated. When heated, dissolved gases and scale-forming components in the form of sludge (III) are released from B. Gases are removed through the pipe 11, and B together with III enters the sludge separator 16, where III is separated. Purified B is fed to the evaporator 8, where it is dispersed under the T layer, and its particles are immersed in the T layer. At the same time, B evaporates the steam coming out of the evaporator 8, is superheated in the superheaters 19 and 20. 1 Il.

Description

The invention relates to a power system, can be used in boiler building and is an improvement of the invention according to the author. No. 1590830.

The purpose of the invention is to reduce scale formation when using coolant in the form of a hydrophobic liquid lighter than water.

The drawing shows a diagram of the boiler. The steam boiler contains the circulation circuit of the intermediate coolant, in which the heating surfaces of the latter are consistently included, consisting of preheater 1, inlet and outlet stages 2 and 3 of the lower radiation part, separator 4, middle radiation part 5 and upper radiation part 6, line 7, as well as a contact-type evaporator 8 with a feedwater line 9 connected to it, equipped with an economizer 10, made of a contact type with a waste gas outlet 11 and included in the coolant circuit sparitelyu 8, provided with steam outlet line 12. The evaporator 8 and the economizer 10 are equipped with water distribution grids 13 and 14 installed in their upper part. The boiler is equipped with two sludge separators 15 and 16, the first one being included in the circulation circuit after the evaporator 8 and economizer 10, and the second in line 9 before the evaporator 8. A pump 17 is installed to supply water to the economizer 10, and for circulation in the circuit pump 18. Line 12 is connected to the separator 4 and further to the screen superheater 19 and the convective superheater 20. In line 9 a feed pump 21 is installed.

Steam boiler works as follows.

The required levels of contact economizer 10 and contact evaporator 8, heater 1, input stage 2, output stage 3 of the lower radiation part, separator 4, middle radiation part 5 and upper radiation part 6 are filled with an intermediate hydrophobic heat carrier of specific weight less than feed water that is not miscible and chemical reaction with feed water, gases dissolved in it and released sludge.

The pump 18 creates a circulation of the intermediate hydrophobic coolant: heater 1 - input stage 2 lower radiation part - separator 4 output stage 3 lower radiation part - middle and upper radiation parts 5 and 6 - evaporator 8 - economizer 10 - sludge separator 15 - pump 18 - heater one.

The feedwater pump 17 supplies the source water to the distribution grid 14 of the economizer 10. Source water through the distribution grid 14

0 is sprayed over a layer of hydrophobic coolant heated above the saturation temperature. The dispersed particles of the source water are immersed in a hydrophobic coolant, heated by contact heat-exchange to the temperature of sludge deposition and release of gases dissolved in the source water. The released gases are discharged through the pipe 11, and the feed water along with the sludge enters the sludge separator 16, where the sludge is separated and removed and removed through the branch pipe.

Purified from gases and sludge heated feed water is supplied with feed water to distribution grid 13 of contact evaporator 8. Through distribution grid 13 feed water is sprayed over a layer of heated hydrophobic heat carrier saturation temperature. The heated dispersed feedwater particles are converted into steam by contact heat exchange with a hydrophobic coolant. From the vapor space of the evaporator 8 (drum) steam enters

5 separator 4, then into a screen steam superheater 19 and a convective superheater 20, and then along a branch line to the consumer.

The steam boiler is prevented from being reformed on intensively heated intermediate heating surfaces.

hydrophobic coolant. Evaporator

8 and economizer 10 are prevented from scaling as it is nutritious

5, water is heated and evaporated in a hydrophobic coolant medium without contact with the walls of these devices.

Claims (1)

Claim 0 Steam boiler with intermediate heat carrier according to auth.St. No. 1590830, characterized in that, in order to reduce scale formation when using coolant in the form of a hydrophobic liquid lighter than water, the economizer is connected to the evaporator in the coolant circuit.