CN203837311U - Sea-wave-comprehensive-utilization heating, electricity generation and sea water desalination system - Google Patents

Abstract

The utility model discloses a sea-wave-comprehensive-utilization heating, electricity generation and sea water desalination system which comprises a thermoelectricity part and compression parts. The thermoelectricity part comprises a pressure heat container, a heat exchanging device and a heat electricity generating unit, wherein the heat exchanging device is arranged inside the pressure heat container and connected with the heat electricity generating unit through a heat delivery pipe. Each compression part comprises a pressure air cylinder, a sliding rod and a sea-wave following unit, wherein the outlet ends of the pressure air cylinders are communicated with the pressure heat container through pressure pipes, the upper ends of the sliding rods are connected with piston rods of the pressure air cylinders, the lower ends of the sliding rods are connected with the sea-wave following units, the sea-wave following units are pushed by sea waves to perform horizontal and/or vertical movement, compression work doing is carried out on damp air in the pressure air cylinders, the compressed air is delivered into the pressure heat container to be decompressed and release heat, moisture contained in the air is condensed, and fresh water is formed in the pressure heat container. By means of the sea-wave-comprehensive-utilization heating, electricity generation and sea water desalination system, conversion of heat energy and solar energy photo-thermal supplementary electricity generation are achieved through low-cost renewable energy sources, and meanwhile the valuable fresh water is obtained for use.

Description

A kind of heat supply generating and seawater desalination system of wave comprehensive utilization

Technical field

The utility model relates to solar energy, morning and evening tides utilizes field, especially a kind of heat supply generating and seawater desalination system of wave comprehensive utilization.

Background technology

The main mode of utilizing of tide energy is tidal power generation.Tidal power generation and common water conservancy electricity generating principle are similar, at the incoming tide seawater are being stored in reservoir, with the form of potential energy, preserve, and when ebb tide, emit seawater, utilize the drop between high and low tidal level, promote hydraulic turbine rotation, drive generator generating.Difference is that seawater is different from river, and the seawater drop of accumulating is little, but flow is larger, and is intermittent, thereby the hydraulic turbine structure of tidal power generation will be applicable to the feature of low water head, large flow.Tidal power generation is hydroelectric a kind of, in bay with good conditionsi or tidal mouthful building dykes and dams, gate and factory building, surrounds reservoir, forms certain tidal range (being working head), thereby can drive hydraulic generator unit to generate electricity between reservoir level and off-lying sea tidal level.

The power generation mode that catchments of dam is imitated in tidal power generation, without any other functions, and exists and builds the shortcomings such as the cost of seawater dykes and dams, storage vault is higher; This series of factor has limited the promotion and application of this technology to a certain extent.

Utility model content

The problem existing for prior art, the purpose of this utility model is to provide a kind of heat supply generating and seawater desalination system of wave comprehensive utilization, this system is sea wave as well as tide comprehensive utilization, and integrates heat supply, generating, desalinization, and can utilize the integration unit of solar energy.

For achieving the above object, heat supply generating and the seawater desalination system of a kind of wave comprehensive utilization of the utility model, comprise thermoelectricity portion and compression unit, wherein, thermoelectricity portion comprises pressure heat container, heat-exchange device, thermal electric generator group, heat-exchange device is arranged at the inside of pressure heat container, between heat-exchange device and thermal electric generator group, by defeated heat pipe, is connected; Compression unit comprises that pressure cylinder, slide bar, wave are with moving cell, the port of export of pressure cylinder is connected with pressure heat container by pressure pipeline, the piston rod of slide bar upper end Bonding pressure cylinder, the lower end of slide bar is connected with moving cell with wave, wave promotes wave to carry out level and/or moves both vertically with moving cell, wave moves humid air in pressure cylinder is carried out to compressed action with moving cell drive slide bar, Compressed Gas transfers to decompress(ion) heat release in pressure heat container, and condense the moisture content that it contains, in pressure heat container, form fresh water.

Further, described compression unit also comprises drawing and pushes away device, and this draws, and to push away device be linear slide, and it comprises slide rail, described slide bar and support thereof.

Further, described wave comprises the slurry that pushes away that obtains wave horizontal thrust with moving cell, and this pushes away slurry and is arranged on inshore region.

Further, described in push away slurry and be set to the shape and structure of quant, its angle of heading sea can regulate.

Further, described in draw and push away device along continuous straight runs and be obliquely installed, its orientation, end that connects described piston rod is high, the orientation, end that pushes away slurry described in connection is low.

Further, described wave comprises the floating block waterborne that obtains wave normal thrust with moving cell, and this floating block waterborne is arranged on coastal region far away.

Further, described in, draw and push away device and vertically arrange to connect described floating block waterborne and described pressure cylinder.

Further, described compression unit and described thermoelectricity portion arrange or many-one setting one to one.

Further, on described pressure heat container, be provided with to the intake valve of inputting fresh air in it.

Further, on described pressure pipeline, be provided with check valve.

The utility model is to utilize morning and evening tides and wave as the comprehensive integrated device of power, utilizes cheap regenerative resource to realize hot transformation of energy and solar energy optical-thermal complemental power-generation, and obtains valuable fresh water simultaneously and be used.

Accompanying drawing explanation

Fig. 1 is thermoelectricity of the present utility model portion structural representation;

Fig. 2 is one of compression unit structure of the present utility model schematic diagram;

Fig. 3 is two schematic diagrames of compression unit structure of the present utility model.

The specific embodiment

Below, with reference to accompanying drawing, the utility model is more fully illustrated, shown in the drawings of exemplary embodiment of the present utility model.Yet the utility model can be presented as multiple multi-form, and should not be construed as the exemplary embodiment that is confined to narrate here.But, these embodiment are provided, thereby make the utility model comprehensively with complete, and scope of the present utility model is fully conveyed to those of ordinary skill in the art.

For ease of explanation, here can use such as " on ", the space relative terms such as D score " left side " " right side ", the relation for element shown in key diagram or feature with respect to another element or feature.It should be understood that except the orientation shown in figure, spatial terminology is intended to comprise the different azimuth of device in using or operating.For example, if the device in figure is squeezed, be stated as the element that is positioned at other elements or feature D score will be positioned at other elements or feature " on ".Therefore, exemplary term D score can comprise upper and lower orientation both.Device can otherwise be located (90-degree rotation or be positioned at other orientation), and the relative explanation in space used here can correspondingly be explained.

As shown in Figure 1, Figure 2, Figure 3 shows, heat supply generating and the seawater desalination system of a kind of wave comprehensive utilization of the utility model, comprise thermoelectricity portion and compression unit, is connected between the two with pressure pipeline 4, and compression unit and thermoelectricity portion can be and arrange one to one or many-one setting.

Wherein, thermoelectricity portion comprises pressure heat container 12, heat-exchange device 14, thermal electric generator group 17, heat-exchange device 14 is arranged at the inside of pressure heat container 12, between heat-exchange device 14 and thermal electric generator group 17, by the defeated heat pipe 16 of the first defeated heat pipe 15, second, interconnects.

Compression unit comprises pressure cylinder 1, draw and push away device, wave with moving cell, draws to push away device and be set to a linear slide, comprises slide rail 10, slide bar 7 and support 8 thereof, and 1 outlet of pressure cylinder is provided with check valve 3.The setting of the whole simulation inflator structure of pressure cylinder 1, the port of export of pressure cylinder 1 is connected with pressure heat container 12 by pressure pipeline 4, the piston rod of slide bar 7 upper end Bonding pressure cylinders 1, the lower end of slide bar 7 is connected with moving cell with wave, wave promotes wave to carry out level and/or moves both vertically with moving cell, wave drives slide bar 7 motions to carry out compressed action to the interior humid air of pressure cylinder 1 with moving cell, Compressed Gas transfers to the interior decompress(ion) heat release of pressure heat container 12, and condense the moisture content that it contains, at the interior formation fresh water of pressure heat container 12.

Compression unit comprises various structures form, is provided with the compression unit of two kinds of versions in the present embodiment.One of compression unit structure as shown in Figure 1, what structure was mainly utilized is the horizontal thrust of wave or morning and evening tides, wherein, wave is set to push away slurry 9 with moving cell, push away slurry 9 for obtaining wave horizontal thrust, push away slurry 9 operated by rotary motion in inshore region, push away the shape and structure that slurry 9 is set to similar quant, its angle of heading sea can be controlled to adjust by controller (not shown).Push away slurry 9 and connect and to draw the slide bar 7 that pushes away device, the piston rod of slide bar one end Bonding pressure cylinder 1, the other end is starched 9 and is connected with pushing away.In this structure, draw and push away device along continuous straight runs and be obliquely installed, its orientation, end that connects piston rod is high, connects that to push away the orientation, end of slurry 9 low.By controlling the support gradient of support 8 capable of regulating slide rails 10, slide bar 7 can be along rectilinear direction (hollow arrow 6) motion of slide rail 10.

Two of compression unit structure: as shown in Figure 1 and Figure 2, what this structure was mainly utilized is the normal thrust of wave or morning and evening tides, according to the concrete frequency of wave, unrestrained high factor, push away slurry 9 and also can change other forms into, to utilize the normal thrust of wave, can change floating block 2 waterborne into by pushing away slurry 9, floating block 2 waterborne is for obtaining wave normal thrust, and floating block 2 operated by rotary motion waterborne are at coastal region far away.Floating block 2 waterborne connects slide bar 7, utilizes the surge thrust of sea dipping and heaving, and slide bar 7 can, along slide rail 10 rectilinear directions (hollow arrow 26) motion, promote the piston of pressure cylinder 1 repeatedly.

The course of work: as Fig. 1, Fig. 2, shown in Fig. 3, during work, several blades 9 are controlled the angle of adjusting wave horizontal direction (hollow arrow 6) by controller (not shown), horizontal movement by wave promotes blade 9, and with the air in the piston compressing cylinder of dynamic pressure cylinder 1, high pressure imports the pressure heat container 12 of thermoelectricity portion into through check valve 3 and pressure pipeline 4, and the humid air in it is compressed, by devaporation, produce water thereupon, reside in pressure heat container 12 bottoms, and discharge a large amount of heats of vaporization simultaneously, when institute's release heat is absorbed by the heat-exchange device 14 in pressure heat container 12, and by the first defeated heat pipe 15, the second defeated heat pipe 16 is transported to thermal electric generator group 17, then intake valve 19 gathers fresh air, wait for the air compressing repetitive process of next round, a unit circulation of whole repetitive cycling finishes.

Or, several floating blocks 2 waterborne utilize the surge thrust of sea dipping and heaving, band moving slide-bar 7 promotes the piston acting of pressure cylinder 1 repeatedly along slide rail 10 rectilinear directions (hollow arrow 26) motion, air in compression cylinder, high pressure imports the pressure heat container 12 of thermoelectricity portion into through check valve 3 and pressure pipeline 4, and the humid air in it is compressed, by devaporation, produce water thereupon, reside in pressure heat container 12 bottoms, and discharge a large amount of heats of vaporization simultaneously, when institute's release heat is absorbed by the heat-exchange device 14 in pressure heat container 12, and by the first defeated heat pipe 15, the second defeated heat pipe 16 is transported to thermal electric generator group 17, then intake valve 19 gathers fresh air, wait for the air compressing repetitive process of next round, a unit circulation of whole repetitive cycling finishes.

The utility model is to utilize morning and evening tides and wave as the comprehensive integrated device of power, in same process, by different structure and methods, complete the integrated of several functions, can make full use of horizontal wave and vertical wave, tide energy can be converted into heat energy for heating and heat generating, meanwhile airborne moisture and moisture be converted into fresh water.In practical application, many cover compression units and thermoelectricity portion can be set simultaneously, the wave of two kinds of versions is set simultaneously with moving cell, different in order to adapt to, such as: seashore and the sea bed gradient and current speed etc., sea situation factor, thus can make full use of the tidal energy of greater coasting area and open sea regions.Morning and evening tides generally appears at the sooner or later time, and the sunshine-duration of itself and solar light-heat power-generation staggers mutually, and therefore, system can be utilized the time complemental power-generation of avoiding the peak hour with solar light-heat power-generation, has utilized fully cheap regenerative resource.And by native system, can also obtain valuable freshwater resources, it provides support for marine development of resources.

Claims (10)

1. heat supply generating and the seawater desalination system of wave comprehensive utilization, it is characterized in that, comprise thermoelectricity portion and compression unit, wherein, thermoelectricity portion comprises pressure heat container, heat-exchange device, thermal electric generator group, heat-exchange device is arranged at the inside of pressure heat container, between heat-exchange device and thermal electric generator group, by defeated heat pipe, is connected; Compression unit comprises that pressure cylinder, slide bar, wave are with moving cell, the port of export of pressure cylinder is connected with pressure heat container by pressure pipeline, the piston rod of slide bar upper end Bonding pressure cylinder, the lower end of slide bar is connected with moving cell with wave, wave promotes wave to carry out level and/or moves both vertically with moving cell, wave moves humid air in pressure cylinder is carried out to compressed action with moving cell drive slide bar, Compressed Gas transfers to decompress(ion) heat release in pressure heat container, and condense the moisture content that it contains, in pressure heat container, form fresh water.

2. heat supply generating and the seawater desalination system of wave as claimed in claim 1 comprehensive utilization, is characterized in that, described compression unit also comprises drawing and push away device, and this draws, and to push away device be linear slide, and it comprises slide rail, described slide bar and support thereof.

3. heat supply generating and the seawater desalination system of wave comprehensive utilization as claimed in claim 2, is characterized in that, described wave comprises the slurry that pushes away that obtains wave horizontal thrust with moving cell, and this pushes away slurry and is arranged on inshore region.

4. heat supply generating and the seawater desalination system of wave as claimed in claim 3 comprehensive utilization, is characterized in that, described in push away the shape and structure that slurry is set to quant, its angle of heading sea can regulate.

5. heat supply generating and the seawater desalination system of wave as claimed in claim 3 comprehensive utilization, is characterized in that, described in draw and push away device along continuous straight runs and be obliquely installed, its orientation, end that connects described piston rod is high, the orientation, end that pushes away slurry described in connection is low.

6. heat supply generating and the seawater desalination system of wave comprehensive utilization as claimed in claim 2, is characterized in that, described wave comprises the floating block waterborne that obtains wave normal thrust with moving cell, and this floating block 2 waterborne is arranged on coastal region far away.

7. heat supply generating and the seawater desalination system of wave as claimed in claim 6 comprehensive utilization, is characterized in that, described in draw and push away device and vertically arrange to connect described floating block waterborne and described pressure cylinder.

8. heat supply generating and the seawater desalination system of wave as claimed in claim 1 comprehensive utilization, is characterized in that, described compression unit is setting or many-one setting one to one with described thermoelectricity portion.

9. heat supply generating and the seawater desalination system of wave as claimed in claim 1 comprehensive utilization, is characterized in that, is provided with to the intake valve of inputting fresh air in it on described pressure heat container.

10. heat supply generating and the seawater desalination system of wave comprehensive utilization as claimed in claim 1, is characterized in that, on described pressure pipeline, is provided with check valve.