CN208058804U - Steam generation facility - Google Patents

Abstract

The utility model is related to a kind of steam generation facility, including heat storage unit and vapor generation part, heat storage unit includes first shell, the heat-storing material that is set to the first heat-conducting medium pipeline of the inside of first shell and is filled in the inside of first shell；Vapor generation part includes second shell, be set to the second heat-conducting medium pipeline of the inside of second shell, the highly pressurised liquid nozzle for the inside for stretching to second shell and the liquid transmission pipeline being connect with highly pressurised liquid nozzle, first heat-conducting medium pipeline and the second heat-conducting medium pipeline, which are interconnected, forms heat conduction circuit, in the heating element that is internally provided with of first shell, steam (vapor) outlet is offered on the second housing.Steam generation facility provided by the utility model can carry out accumulation of heat in paddy electricity by heat storage unit, so that the fast liquid evaporation of vapor generation part is formed steam by heat-storing material release heat when electricity at peak, institute's electricity demand is generated to save steam.

Description

Steam generation facility

Technical field

The utility model is related to a kind of steam generation facilities.

Background technology

Existing steam generation facility heats the liquid such as water dependent on the electric power that power plant provides, and there is heating The problem of expending a large amount of electric power in the process, in addition, power plant night uses paddy electricity, a large amount of paddy electricity electric power, which is wasted, cannot get It utilizes.

Utility model content

The utility model is to propose in view of the above problems, can be its purpose is to provide a kind of steam generation facility Accumulation of heat is carried out by heat storage unit when paddy electricity, makes the fast liquid evaporation of vapor generation part when electricity by heat-storing material release heat at peak Steam is formed, institute's electricity demand is generated to save steam.

To realize that the purpose of this utility model adopts the following technical scheme that.

The utility model of technical solution 1 is a kind of steam generation facility, including heat storage unit and vapor generation part.

The heat storage unit includes first shell, be set to the first shell inside the first heat-conducting medium pipeline, with And it is filled in the heat-storing material of the inside of the first shell.

The vapor generation part includes second shell, be set to the second shell inside the second heat-conducting medium pipe Road, stretch to the second shell inside highly pressurised liquid nozzle and the liquid that is connect with the highly pressurised liquid nozzle it is defeated Send pipeline.

The first heat-conducting medium pipeline is interconnected with the second heat-conducting medium pipeline and forms heat conduction circuit, and in institute The inside for stating heat conduction circuit is filled with heat-conducting medium.

The first shell be internally provided with can by connect with external power supply to the heat-conducting medium into The heating element of row heating.

Steam (vapor) outlet is offered in the second shell.

In addition, the steam generation facility of technical solution 2, in the steam generation facility of technical solution 1, the heat-storing material For phase change heat storage material.

In addition, the steam generation facility of technical solution 3, in the steam generation facility of technical solution 1, the heat-conducting medium For conduction oil.

In addition, the steam generation facility of technical solution 4, in the steam generation facility of technical solution 1, the heating element Resistance wire including the hollow pipe sleeve being made from a material that be thermally conductive and the inside for being set to the hollow pipe sleeve, the resistance wire can It is connected with the external power supply.

In addition, the steam generation facility of technical solution 5, in the steam generation facility of technical solution 4, in the resistance wire On be coated with insulating protective sleeve.

In addition, the steam generation facility of technical solution 6, in the steam generation facility of technical solution 1, the heating element It is set in the heat-storing material, and the heating element is located at the outside in the heat conduction circuit.

In addition, the steam generation facility of technical solution 7, in the steam generation facility of technical solution 1, the heating element Stretch to the inside in the heat conduction circuit.

In addition, the steam generation facility of technical solution 8, in the steam generation facility of technical solution 1, first heat conduction Medium pipeline, which spirals, is set to the inside of the first shell.

In addition, the steam generation facility of technical solution 9, in the steam generation facility of technical solution 1, second heat conduction Medium pipeline, which spirals, is set to the inside of the second shell.

In addition, the steam generation facility of technical solution 10, in the steam generation facility of technical solution 1, by described In the case that two shells are arranged in such a way that length direction vertically extends, the highly pressurised liquid nozzle is from the second shell The inside of the second shell is stretched into the bottom end of body, and the steam (vapor) outlet is set to the top of the second shell.

Compared with prior art, the utility model has the advantages that.

Existing steam generation facility heats the liquid such as water dependent on the electric power that power plant provides, and there is heating The problem of expending a large amount of electric power in the process, in addition, power plant night uses paddy electricity, a large amount of paddy electricity electric power, which is wasted, cannot get It utilizes.

In contrast, the utility model provides a kind of steam generation facility comprising heat storage unit and vapor generation part.It stores Hot portion includes first shell, is set to the first heat-conducting medium pipeline of the inside of first shell and is filled in first shell Internal heat-storing material.Vapor generation part includes second shell, be set to the second heat-conducting medium pipeline of the inside of second shell, The liquid transmission pipeline for stretching to the highly pressurised liquid nozzle of the inside of second shell and being connect with highly pressurised liquid nozzle.First Heat-conducting medium pipeline and the second heat-conducting medium pipeline, which are interconnected, forms heat conduction circuit, and is filled with and leads in the inside in heat conduction circuit Thermal medium.First shell be internally provided with can by connect with external power supply to heat-conducting medium heated plus Thermal part.Steam (vapor) outlet is offered on the second housing.

The utility model can carry out accumulation of heat in paddy electricity by heat storage unit, make steaming by heat-storing material release heat when electricity at peak The fast liquid evaporation of vapour generating unit forms steam, generates institute's electricity demand to save steam, reduces steam production cost.

In addition, the use of highly pressurised liquid nozzle, can be such that the liquid entered in second shell is evaporated as early as possible, shorten preheating Time improves gas producing efficiency.

Description of the drawings

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, other drawings may also be obtained based on these drawings.

Fig. 1 is the overall structure diagram for the specific embodiment for indicating steam generation facility provided by the utility model.

Reference numeral：1- first shells；2- second shells；21- steam (vapor) outlets；3- highly pressurised liquid nozzles；4- heat conduction circuit； 5- heating elements.

Specific implementation mode

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for description purposes only, and are not understood to indicate or imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, can also be electrical connection；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition The concrete meaning of language in the present invention.

The overall structure of steam generation facility provided by the utility model below illustrates its specific embodiment.

Fig. 1 is the overall structure diagram for the specific embodiment for indicating steam generation facility provided by the utility model.

As shown in Figure 1, the steam generation facility includes heat storage unit and vapor generation part.

Wherein, heat storage unit include first shell 1, the first heat-conducting medium pipeline of the inside for being set to first shell 1 of spiraling, And it is filled in the heat-storing material of the inside of first shell 1.

Vapor generation part includes second shell 2, the second heat-conducting medium pipeline of the inside for being set to second shell 2 of spiraling, The liquid transmission pipeline for stretching to the highly pressurised liquid nozzle 3 of the inside of second shell 2 and being connect with highly pressurised liquid nozzle 3.

First heat-conducting medium pipeline and the second heat-conducting medium pipeline, which are interconnected, forms heat conduction circuit 4, and in heat conduction circuit 4 Inside filled with conduction oil as heat-conducting medium.

Being internally provided with for first shell 1 can be by connecting with external power supply to heat heat-conducting medium Heating element 5.

Steam (vapor) outlet 21 is offered in second shell 2.

Further, above-mentioned heat-storing material is phase change heat storage material.

In addition, above-mentioned heating element 5 includes the hollow pipe sleeve (not shown) being made from a material that be thermally conductive and is set to hollow pipe The resistance wire of the inside of set, resistance wire can be connected with external power supply.

Further, insulating protective sleeve is coated on resistance wire.

In addition, above-mentioned heating element 5 is set in heat-storing material, and heating element 5 is located at the outside in heat conduction circuit 4, or Person, above-mentioned heating element 5 stretch to the inside in heat conduction circuit 4.

In addition, in the case where second shell 2 to be arranged in such a way that length direction vertically extends, highly pressurised liquid Nozzle 3 stretches into the inside of second shell 2 from the bottom end of second shell 2, and steam (vapor) outlet 21 is set to the top of second shell 2.

The overall structure of steam generation facility provided by the utility model is illustrated above, illustrates its work original below Reason.

In use, external power supply can be the electric power that battery or power plant provide.

When external power supply is the electric power that power plant provides, in night service connection external power supply, heating part is connected using paddy electricity Part 5 transmits heat by heat-storing material to carry out accumulation of heat to the heat-storing material of heat storage unit using paddy electricity to heat-conducting medium；Profit With liquid transmission pipeline and highly pressurised liquid nozzle 3 to the internal spray liquid spray of second shell 2, to utilize heat-conducting medium pair The liquid spray being passed through to the inside of second shell 2 is heated, and the liquid spray rapid evaporation shape of the inside of second shell 2 is made At steam.

Furthermore it is also possible to be equipped with pressure detecting controller at steam (vapor) outlet 21, it is provided on liquid delivery tube road Solenoid valve, pressure detecting controller are electrically connected with the solenoid valve, in use, can work as pressure to pressure detecting controller preset pressure threshold When 21 pressure of steam (vapor) outlet that power detection controller is shown is more than the maximum value of the pressure threshold, pressure detecting controller sends superpressure Signal is turned down to solenoid valve, electromagnetism valve opening, to reduce the air pressure inside of second shell 2；When pressure detecting controller is shown 21 pressure of steam (vapor) outlet when being less than the minimum value of the pressure threshold, pressure detecting controller sends low-voltage signal to solenoid valve, electricity Magnet valve aperture tunes up, to increase the air pressure inside of second shell 2, hereby it is achieved that the pressure balance of the inside of second shell 2.

Furthermore it is also possible to be uniformly distributed on the inner wall of second shell 2 multiple from the inside of second shell 2 to second shell The pit of 2 outside direction recess is sprayed by these pits to store highly pressurised liquid of the part from highly pressurised liquid nozzle 3, Thus 2 inner wall of second shell moistening is kept, ensures evaporation safety.

The evaporation process of steam generation facility provided by the utility model relies primarily on the heat of heat-storing material storage, uses The electricity of the external power supply arrived seldom or without the use of external power supply provides electric power, has the effect of saving electric power resource, reduce Steam production cost.

In addition, the use of highly pressurised liquid nozzle, can be such that the liquid entered in second shell is evaporated as early as possible, shorten preheating Time improves gas producing efficiency.

In addition, in above-mentioned specific implementation mode, accumulation of heat, tool are carried out using phase change heat storage material as heat-storing material There is higher thermal storage density, it is general up to 200kJ/kg or more, amount of heat can be released at a constant temperature by phase transformation.In addition, Although the latent heat of phase change value transformation more solid than liquid one that one liquid of gas gentle one changes admittedly in sensible heat heat-storing material is consolidated when changing Latent heat is big, but because its in phase transition process there are the great variety of volume, make it that can exist in practical implementation very big tired It is difficult.And in contrast, it using phase change heat storage material, stores, exothermic process approximation isothermal, has many advantages, such as to be easy to control.

Common phase change heat storage material mainly has high temperature melting salt, mixing salt, metal and alloy etc., the utility model In high temperature melting salt dissolving can be used.

In addition, in above-mentioned specific implementation mode, using conduction oil as heat-conducting medium, boiling point is higher than water, in phase With under pressure, by heating, conduction oil can reach the temperature higher than water, in contrast, select conduction oil as heat-conducting medium, Higher temperature can be obtained under smaller pressure, use is safer.

In addition, in above-mentioned specific implementation mode, setting heating element includes the hollow pipe sleeve being made from a material that be thermally conductive With the resistance wire for the inside for being set to hollow pipe sleeve, resistance wire can be connected with external power supply, thus, it can be by resistance wire to leading Thermal medium is quickly heated, and the function of quickly generating steam is reached, meanwhile, by further, being coated on resistance wire Insulating protective sleeve ensures the safety of the heating process.

In addition, in above-mentioned specific implementation mode, the first heat-conducting medium pipeline, which spirals, is set to the inside of first shell, To, it is ensured that there is larger contact area between the first heat-conducting medium pipeline and first shell, be conducive to the first heat conduction Jie Heat exchange between matter pipeline and heat-storing material.

In addition, in above-mentioned specific implementation mode, the second heat-conducting medium pipeline, which spirals, is set to the inside of second shell, To, it is ensured that there is larger contact area between the second heat-conducting medium pipeline and second shell, be conducive to the second heat conduction Jie Heat exchange between the atomized liquid of the inside of matter pipeline and second shell ensures the efficient progress of heating process.

In addition, in above-mentioned specific implementation mode, in the side for vertically extending second shell with length direction In the case that formula is arranged, highly pressurised liquid nozzle stretches into the inside of second shell from the bottom end of second shell, and steam (vapor) outlet is set to The top of second shell, to which the liquid for being conducive to be atomized through highly pressurised liquid nozzle high-voltage is abundant in the inside of second shell Evaporation is discharged after forming steam, meanwhile, ensure that atomized liquid is covered with the inside of entire second shell, avoids the bottom of second shell There is " dry combustion method " phenomenon, the safety for being conducive to evaporation process carries out.

In addition, in above-mentioned specific implementation mode, the concrete structure of the utility model is illustrated, but it is unlimited In this.

For example, in above-mentioned specific implementation mode, accumulation of heat is carried out using phase change heat storage material as heat-storing material, still Without being limited thereto, above-mentioned heat-storing material can also be the sensible heat heat-storing material such as water, the phase that one liquid of gas gentle one changes admittedly The transformation more solid than liquid one of change potential heat value, the latent heat consolidated when changing are big, and still, sensible heat heat-storing material exists in phase transition process The great variety of volume, in contrast, according to the description in specific implementation mode, using phase change heat storage material as heat-storing material Accumulation of heat is carried out, is stored, exothermic process is safer, is easier to be controlled.

In addition, in above-mentioned specific implementation mode, using conduction oil as heat-conducting medium, but not limited to this, above-mentioned Heat-conducting medium can also be water etc., be equally reached heat conduction function, still, according to the structure in specific implementation mode, use Conduction oil is higher than water as heat-conducting medium, boiling point, and at the same pressure, by heating, conduction oil can reach higher than water Temperature selects conduction oil as heat-conducting medium, can obtain higher temperature under smaller pressure, using more pacifying in contrast Entirely.

In addition, in above-mentioned specific implementation mode, setting heating element includes the hollow pipe sleeve being made from a material that be thermally conductive With the resistance wire for the inside for being set to hollow pipe sleeve, resistance wire can be connected with external power supply, and but not limited to this, and above-mentioned adds Thermal part can also be the potsherd calandria etc. including insulating heat-conductive housing He the inside for being set to insulating heat-conductive housing, as long as It can realize above-mentioned heating function.

In addition, in above-mentioned specific implementation mode, heating element be formed as include be made from a material that be thermally conductive it is hollow In the case of pipe sleeve and the resistance wire for the inside for being set to hollow pipe sleeve, further, insulation protection is coated on resistance wire Set, but not limited to this, and above-mentioned insulating protective sleeve can not also be arranged, but by carrying out anti-watertight comprehensively to hollow pipe set It seals to realize function of safety protection, still, according to the structure in specific implementation mode, insulating protective sleeve is coated on resistance wire, Protection can be wound to resistance wire by insulating protective sleeve as a result, fully promote the security performance of the heating element as a result,.

In addition, in above-mentioned specific implementation mode, the first heat-conducting medium pipeline, which spirals, is set to the inside of first shell, But not limited to this, above-mentioned first heat-conducting medium pipeline can irregular alignment in the inside of first shell, alternatively, being set with through type It is placed in the inside of first shell, is equally reached the function of being heated to heat-storing material by the first heat-conducting medium pipeline, But be configured according to structure pair the first heat-conducting medium pipeline in specific implementation mode, to, it is ensured that the first heat conduction is situated between There is larger contact area between matter pipeline and first shell, be conducive between the first heat-conducting medium pipeline and heat-storing material Heat exchange.

In addition, in above-mentioned specific implementation mode, the second heat-conducting medium pipeline, which spirals, is set to the inside of second shell, But not limited to this, above-mentioned second heat-conducting medium pipeline can irregular alignment in the inside of second shell, alternatively, being set with through type It is placed in the inside of second shell, is equally reached the function being evaporated to atomized liquid by the second heat-conducting medium pipeline, But be configured according to structure pair the second heat-conducting medium pipeline in specific implementation mode, to, it is ensured that the second heat conduction is situated between There is larger contact area between matter pipeline and second shell, be conducive to the inside of the second heat-conducting medium pipeline and second shell Atomized liquid between heat exchange, ensure the efficient progress of heating process.

In addition, in above-mentioned specific implementation mode, in the side for vertically extending second shell with length direction In the case that formula is arranged, highly pressurised liquid nozzle stretches into the inside of second shell from the bottom end of second shell, and steam (vapor) outlet is set to The top of second shell, to which the liquid for being conducive to be atomized through highly pressurised liquid nozzle high-voltage is abundant in the inside of second shell Evaporation is discharged after forming steam.But not limited to this, and above-mentioned highly pressurised liquid nozzle can also be to be stretched into from the side wall of second shell The inside of second shell is equally reached above-mentioned vaporization function, still, according to the structure in specific implementation mode to high pressure Stretching into for fluid jetting head is a little configured, and can be ensured that atomized liquid is covered with the inside of entire second shell, be avoided second shell There is " dry combustion method " phenomenon in the bottom of body, and the safety for being conducive to evaporation process carries out.

In addition, steam generation facility provided by the utility model, can be composed of the various structures of the above embodiment, Above-mentioned effect can equally be played.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of steam generation facility, which is characterized in that including heat storage unit and vapor generation part,

The heat storage unit includes first shell, be set to the first shell inside the first heat-conducting medium pipeline and fill out It fills in the heat-storing material of the inside of the first shell；

The vapor generation part includes second shell, be set to the second shell inside the second heat-conducting medium pipeline, stretch Enter to the highly pressurised liquid nozzle of the inside of the second shell and the liquid delivery tube being connect with the highly pressurised liquid nozzle Road,

The first heat-conducting medium pipeline is interconnected with the second heat-conducting medium pipeline and forms heat conduction circuit, and is led described The inside of hot loop is filled with heat-conducting medium,

Being internally provided with for the first shell can be by being connect with external power supply to adding to the heat-conducting medium The heating element of heat,

Steam (vapor) outlet is offered in the second shell.

2. according to the steam generation facility described in claim 1, which is characterized in that the heat-storing material is phase-transition heat-storage material Material.

3. according to the steam generation facility described in claim 1, which is characterized in that the heat-conducting medium is conduction oil.

4. according to the steam generation facility described in claim 1, which is characterized in that the heating element includes by Heat Conduction Material The resistance wire of manufactured hollow pipe sleeve and the inside for being set to the hollow pipe sleeve, the resistance wire can be with the external power supply It connects.

5. according to the steam generation facility described in claim 4, which is characterized in that be coated with insulation on the resistance wire and protect Sheath.

6. according to the steam generation facility described in claim 1, which is characterized in that the heating element is set to the accumulation of heat In material, and the heating element is located at the outside in the heat conduction circuit.

7. according to the steam generation facility described in claim 1, which is characterized in that the heating element stretches to the heat conduction The inside in circuit.

8. according to the steam generation facility described in claim 1, which is characterized in that the first heat-conducting medium pipeline, which spirals, to be set It is placed in the inside of the first shell.

9. according to the steam generation facility described in claim 1, which is characterized in that the second heat-conducting medium pipeline, which spirals, to be set It is placed in the inside of the second shell.

10. according to the steam generation facility described in claim 1, which is characterized in that by the second shell with length side In the case of being arranged to the mode vertically extended, the highly pressurised liquid nozzle stretches into institute from the bottom end of the second shell The inside of second shell is stated, the steam (vapor) outlet is set to the top of the second shell.