RU2680774C2 - Vakhov electric steam generator (options) - Google Patents

Abstract

FIELD: electricity.SUBSTANCE: invention relates to devices for generating steam. Electric steam generator contains a vertically oriented housing with connections for supplying and discharging feed water and discharging superheated steam, a superheater or two superheaters, inside the heat exchange element of each superheater, which is connected in the lower part with an air source, and in the upper part with a nozzle for discharging superheated steam, at least one tubular electric heater is located, supported by an insulator-stand, the heating and evaporation chamber is formed by a cavity between the outer side surface of the heat exchange element of each superheater and the inner surface of the steam generator housing, on the inner side surface of the heat exchanger element of the superheater there are one or two through channels with holes in the upper part of the channels.EFFECT: invention is aimed at improving the efficiency of generating saturated and superheated steam with reliable and safe operation.3 cl, 5 dwg

Description

The invention relates to devices for generating steam in steam generators using electric energy, designed to generate low pressure steam, in particular, can be used to produce saturated and superheated steam in baths, saunas for individual and collective use, climatic chambers for sports and health and medical profile. An electric steam generator is a device that converts water to a gaseous state, i.e. steam using a heat source - an electric heater. Superheater - a device designed to overheat water vapor, that is, increase its temperature above the saturation point.

Saturated steam is water vapor that is in thermodynamic equilibrium with a liquid. Superheated steam - steam heated to a temperature exceeding the boiling point of water at a given pressure.

Known electric steam generator containing a cylindrical body, which houses electric heaters, a water supply system and a superheater. Electric heaters are made with basalt fiber and are installed inside the case along two circles in metal pipes open from above and welded to the top and bottom of the case. The water supply system consists of two pipe rings placed inside the casing from below or from above with vertical pipes welded to them, equipped with spray nozzles dispersed at several levels and directed to pipes with electric heaters. The superheater is equipped with pipes arranged horizontally in the steam path with electric heaters installed in them. (RF patent №2129233, 07/02/1996)

The disadvantages of the steam generator are large dimensions, high energy consumption and material consumption.

A known electric steam generator containing a housing provided with nozzles for supplying liquid and steam, the inner cavity of which is divided by a cylindrical shell into superheating and evaporation chambers interconnected, contains an outer shell located with a gap relative to the latter, with the formation of a heating chamber communicated with the evaporation chamber by means of a pipeline on which the specified electrically controlled valve is installed, and the fluid supply pipe is connected to the lower part of the shell, and the electric heater Atel is set in the shell. (Application for a patent of the Russian Federation No. 95114624 08/10/1997) The disadvantage of this device is its complex design, the presence of an electrically controlled valve.

A known electric steam generator containing a body equipped with nozzles for supplying liquid and venting steam with a heating chamber located inside it, inside which an electric heater is placed, an overheating chamber and an evaporation chamber combined into one common chamber. (RF Patent No. 13412, 12/08/1999) The disadvantage of this device is the low efficiency of generating superheated steam with a high temperature

Known electric steam generator containing an open top housing having sealed walls and a bottom, a resistive electric heating element made in the form of heating elements and located in the lower part of the housing above the bottom, and heat-accumulating material divided into discrete layers, the first of which fills the area of the electric heating element, and each of the remaining layers, starting from the bottom from the second, is placed on its horizontal lattice. In the upper part of the body above the heat-accumulating material there is a tube with nozzle holes for injecting liquid. (RF patent No. 23659, December 13, 2001). The disadvantage of this device is the low efficiency of vaporization.

The closest technical solution is an electric steam generator containing a cylindrical body equipped with a water supply system, a metal shell with a water supply hole in the lower part and a steam outlet in the upper part, a water heating chamber in the annular gap between the shell and the body, an evaporation chamber are coaxially installed and overheating, separated by turns of nichrome spirals of an electric heater and filled with heat-resistant granular material.

The production of saturated steam occurs upon contact of a liquid with a heated heat-resistant granular material and its further overheating when passing through a layer of incandescent granular material (RF Patent No. 2324859, 05.20.2008)

Common features of the known and proposed devices are: a vertically oriented housing with nozzles for supplying feed water and for removing superheated steam, a superheater, an electric heating element.

The disadvantages of the known device:

- low steam capacity of the steam generator while providing superheated steam with a high temperature at the outlet.

- the complex design of the steam generator through the use of expensive heat-resistant vapor-permeable granular material, the presence of sensors to control the temperature of individual elements, the use of a non-standard electric heater;

- low reliability of the steam generator, since in the absence of water in the evaporation chamber, overheating and destruction of the electric heater will occur;

- low safety of using the steam generator, since the steam generator works with the excess pressure required to open the needle valve and push the steam through the granulated material;

- low electrical safety of the electric heater, since an open electric heating element of nichrome wire without insulation is used. The objective of the invention is to increase the efficiency of vaporization, simplifying the design of the steam generator, increasing the operational characteristics of the electric steam generator.

The achievement of the task is solved by two options for the design of the steam generator. Depending on the design, the proposed electric steam generator has two options for supplying heat for indirect heating and converting a certain amount of water into saturated steam in the heating and evaporation chamber: the first option - from one superheater and the second option - from two or more superheaters.

The technical result of the invention in the first embodiment, consists in increasing the efficiency of producing superheated steam with a high temperature, reducing the material consumption of the design of the steam generator, increasing the reliability and safety of use.

The specified technical result is achieved by the fact that inside the vertically oriented case of the electric steam generator with nozzles for supplying and discharging feed water and removing superheated steam, a superheater is installed containing a heat exchange element communicating in the lower part with the air source and in the upper part with a pipe for discharging superheated steam.

At least one tubular electric heater is located inside the heat exchange element, resting on a support insulator and cooled by air and steam. The heating and evaporation chamber is formed by a cavity between the outer side surface of the heat exchange element of the superheater and the inner surface of the body of the steam generator. At least two through channels with openings in the upper part for moving saturated steam from the heating and evaporation chamber to the superheater are made on the inner side surface of the heat exchange element of the superheater.

The technical result of the invention in the second embodiment consists in increasing the steam capacity of the steam generator while providing superheated steam with a high temperature at the outlet, increasing the reliability and safety of using an electric steam generator.

The specified technical result is achieved by the fact that at least two superheaters are installed inside a vertically oriented case of an electric steam generator with nozzles for supplying and discharging feed water and removing superheated steam, while inside the heat exchange element of each superheater communicating at the bottom with an air source, and in the upper part with a pipe for the removal of superheated steam, at least one tubular electric heater is located, supported by an insulator-stand and cooled by air and steam. The heating and evaporation chamber is formed by a cavity between the outer side surface of the heat exchange element of each superheater and the inner surface of the steam generator housing, and at least one through channel with openings in the upper part of the channel is made on the inner side surface of the heat exchange element of each superheater to move saturated steam from the heating and evaporation chamber to the superheater. For each private embodiment of an electric steam generator, the case of the steam generator can be made with a heat-insulating coating enclosed in a protective metal casing.

The invention is illustrated by drawings, which shows a transverse and longitudinal section of an electric steam generator according to option one. (Fig. 1, 2). and option two (Fig. 3). The steam generator according to embodiment 2, illustrated by the drawing (FIG. 3), has the same designations as in FIG. 1, but three superheaters are installed in the body of the steam generator. On a photo 1. and a photo 2 the general view of an electric steam generator according to a variant one and a variant two respectively is presented. According to FIG. 1 and FIG. 2, the electric steam generator is made in the form of a vertically oriented cylindrical body 1 made of stainless steel with nozzles for supplying 2 and for removing 3 feed water and for removing superheated steam 4. The body of the steam generator is equipped with a heat-insulating coating enclosed in a protective casing 5 of stainless steel. Inside the housing 1, a superheater 6 is installed, containing a rectangular box-shaped heat exchange element 7, communicating in the lower part with an air source, the flow rate of which is regulated by a gate 9, and in the upper part with a pipe for removing superheated steam 4. A tubular box-shaped heat exchange element 7 is located an electric heater 8, based on an insulator-stand 10, mounted below the bottom of the housing 1. The chamber 11 for heating and evaporation of water is formed by a cavity between the outer surface of the wall the exchange element 7 of the superheater 6 and the inner surface of the housing 1 of the steam generator. To remove saturated steam from the chamber 11 for heating and evaporating water into the superheater 6, vertical through channels 12 with openings 13 in the upper part of the channels are made on the inner side surface of the wall of the heat exchange element 7. The upper part of the housing 1 of the steam generator is made with a pipe 14 for removing saturated steam from the heating chamber and evaporation 11 for further use. With periodic use of the steam generator, the nozzle 14 can be used to fill the feed water manually.

The operation of the proposed electric steam generator is based on indirect heating of water and the conversion of a certain volume of water into saturated steam in the heating and evaporation chamber 11 from the heat exchange element 7 of the superheater 6 and direct heating of saturated steam to a temperature of 300-350 degrees in the working area of the superheater 6 from the heat source - tubular electric heater 8 and the walls of the heat exchange element 7 of the superheater 6.

The operation of the electric steam generator is as follows. Using means for automatically supplying a measured volume of water (not shown in FIG. 1), a heating and evaporation chamber 11 is filled with water through a pipe 2 from the water supply network. After applying voltage to the current leads of the tubular electric heater 8, the metal shell of the heater 8 and the walls of the rectangular box-shaped heat exchanger element 7 of the superheater 6 are heated. Due to the heat exchange through the common wall of the heat exchange element 7 of the superheater 6 and the heating and evaporation chamber 11, the water is heated to boiling point. Before saturated steam enters the working zone of the superheater 6, the hot tubular electric heater 8 is cooled by the air entering the lower part of the heat exchanger element of the superheater 6 through an open gate 9 mounted in the lower part of the steam generator body 1 and hot air is taken off through the outlet pipe 4 of the overheated steam to the steam room sauna room to create a comfortable temperature. The saturated vapor generated through the openings 13 in the through channels 12 is moved from the heating and evaporation chamber 11 to the working area of the superheater 6 and is heated in it due to heat exchange with the heated walls of the rectangular box-shaped heat exchange element 7 and the surface of the tubular electric heater 8, cooling it and creating it favorable mode of operation. Superheated steam i.e. saturated steam, heated to a temperature of 300-350 degrees, is discharged through pipe 4 into the steam room to create a comfortable humidity regime. To create a “Russian bath” climate in a steam room of a sauna (humidity 60-80 degrees Celsius), saturated steam is discharged through a pipe 14 with a mounted ball valve (not shown in FIG. 1) to the steam room, while the superheater 6 operates with the lowest capacity . According to the second embodiment of the invention, the voltage is supplied directly to the current leads of the tubular electric heater 8 of each of the three superheaters, the metal shell of the heaters 8 and the walls of the rectangular box-shaped heat exchanger element 7 of the three superheaters 6 are heated. Due to the heat exchange through the common wall of the heat exchanger element 7 of the three superheaters 6 and the heating chamber and evaporation 11 is the heating of water to a boiling point. The saturated vapor generated through the holes 13 in the through channels 12 is moved from the heating and evaporation chamber 11 to the working area of the three superheaters 6. Superheated steam, i.e. saturated steam heated to a temperature of 300-350 degrees is discharged through nozzles 4 into the steam room to create a comfortable humidity regime. According to the second option, the time of heating and generating saturated steam is reduced and, accordingly, the steam productivity of the steam generator is increased while providing a uniform temperature field at the output of the generated superheated steam with a high temperature, while providing a more comfortable temperature-humidity climate in the steam room.

Thus, the claimed invention provides an increase in the efficiency of generating saturated and superheated steam with reliable and safe operation of an electric steam generator for conducting a full-fledged physiotherapeutic procedure in the steam room of baths, saunas, climatic chambers for sports and health and medical profile.

Currently, the Inzhkomtsentr VVD LLC, according to the claimed technical solution, has developed working documentation: according to the first option - an electric superheated steam generator with a steam capacity of 1.7-4.5 liters / hour and an electric power of 2-6 kW. Steam for baths, saunas for individual use; according to the second option - an electric superheated steam generator with a steam capacity of 8-16 liters / hour and an electric power of 9-18 kW. For baths, saunas of collective use, for climatic chambers of a sports and health and medical profile.

When creating a steam generator, modern technologies and widely used natural and technical structural materials were used.

Claims (3)

1. An electric steam generator comprising a vertically oriented housing with nozzles for supplying and discharging feed water and for discharging superheated steam, a superheater, characterized in that the inside of the heat exchange element of the superheater communicates in the lower part with an air source and in the upper part with a pipe for discharging superheated steam, at least one tubular electric heater is located, resting on an insulator stand and cooled by air and steam, and the heating and evaporation chamber is formed by a cavity Between the outer side surface of the heat exchange element of the superheater and the inner surface of the body of the steam generator, at least two through channels with openings in the upper part of the channels for moving saturated steam from the heating and evaporation chamber to the superheater are made on the inner side surface of the heat exchange element of the superheater. 2. An electric steam generator, characterized in that it contains a vertically oriented housing with nozzles for supplying feed water and removing superheated steam, characterized in that at least two superheaters are installed inside the housing, while inside the heat exchange element of each superheater communicating in the lower part with at least one tubular electric heater, supported by an insulator stand, is located in the upper part, with a pipe for removing superheated steam and cooled by air and steam, and the heating and evaporation chamber is formed by a cavity between the outer side surface of the heat exchange element of each superheater and the inner surface of the steam generator housing, at least one through channel with openings in the upper part is made on the inner side surface of the heat exchange element of each superheater channel for moving saturated steam from the heating and evaporation chamber to the superheater. 3. The electric steam generator according to claim 1 or 2, characterized in that the steam generator housing is made with a heat-insulating coating enclosed in a protective metal casing.

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