CN108413621A - A kind of monophasic fluid toroidal helical rising heat dump - Google Patents
A kind of monophasic fluid toroidal helical rising heat dump Download PDFInfo
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- CN108413621A CN108413621A CN201810177295.8A CN201810177295A CN108413621A CN 108413621 A CN108413621 A CN 108413621A CN 201810177295 A CN201810177295 A CN 201810177295A CN 108413621 A CN108413621 A CN 108413621A
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- header
- annular
- entrance
- outlet
- heat dump
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
Abstract
A kind of monophasic fluid toroidal helical rising heat dump, is made of multiple annular tubesheets arranged up and down.Entrance header (2) is mounted on the minimum point of heat dump, and side is connect with entrance main line (1), and the other side is connect with the entrance of first annular tube sheet (3);The outlet of first annular tube sheet (3) is connect with the side for converging header (4), the other side for converging header (4) is connected to connecting line (5), the outlet of connecting line (5) is connected to distribution header (6), and the outlet of distribution header (6) is connected to the entrance of the second annular tubesheet (3 ');Outlet header (8) is mounted on the peak of heat dump, the outlet of entrance side and the second annular tubesheet (3 '), and outlet side is connected to outlet main line (9).Annular tubesheet is composed in parallel by more endothermic tubes.More endothermic tubes are in heat dump spiral in a ring.It is directly connected between adjacent annular tube sheet, or is connected to connecting line by header.
Description
Technical field
The present invention relates to a kind of high temperature heat absorber of solar energy thermal-power-generating station, more particularly to a kind of high temperature monophasic fluid ring
Shape spiral heat dump.
Background technology
Heat dump is the important equipment that photothermal conversion is undertaken in tower type solar energy thermal power generation station.Heat-transfer fluid passes through heat dump
Absorb energy improve the temperature of itself, currently, fuse salt as most widely used heat-transfer fluid by large-scale application in tower
In power station.The one-way fluid of similar fuse salt is not undergone phase transition in endothermic process, therefore system can be run with normal pressure.It is tower too
The monophasic fluid typical temperature used in positive energy thermal power station is higher, and the steam of power station output more high parameter is contributed to be sent out
Electricity.
The heat-absorbent surface of the tower fused salt heat dump of tradition is made of several tube sheets, and tube sheet is closely arranged by vertical circular pipe
It arranges, fuse salt does snakelike flowing heat absorption in different tube sheets perpendicular to ground.Solar power tower is in daily start
It needs first to empty the air in heat dump and fills full fuse salt, therefore each tube sheet is fitted at least one valve.These
The quantity of valve is more, improves the cost of investment in power station, and needs to melt near electric tracing holding when heat dump works normally
Melt salt not solidify, needs to consume certain electric energy.When valve breaks down, the liquid form of heat dump can change, and cause
Exchange capability of heat declines, it is possible to heat dump be caused to burn.Chinese patent 200810102397.X proposes a kind of passive type melting
Salt heat sink heats fuse salt using the density contrast of fuse salt using natural circulation mode.The patent can cancel heat absorption
Device tube sheet needs numerous valves to be mounted, but since the exchange capability of heat of Natural Circulation is limited, tower power station is absorbed heat with fuse salt
If device can cause endotherm area larger using the patent, cause larger heat loss, while the construction cost of heat dump also can
It is passively improved since area increases.Therefore, it under the premise of keeping current heat dump exchange capability of heat, not yet finds to propose at present
The report of numerous valves on traditional heat sink device is cancelled in effective corrective measure.
Invention content
The purpose of the present invention is overcoming the following disadvantage of the prior art, propose that a kind of monophasic fluid toroidal helical rises heat absorption
Device.
1. each tube sheet of traditional heat sink device needs to install at least one valve, the cost of investment of heat dump is improved;
2. these valves need to install electric tracing holding temperature additional, certain electric energy can be expended;
3. valve, which goes wrong to open, may lead to heat dump frozen block;
4. valve, which goes wrong, cannot close and heat dump may be caused to be burned out.
The scheme that the present invention solves the above problems is as follows:
Monophasic fluid toroidal helical of the present invention rises the top that heat dump is mounted on tower type solar energy thermal power generation station heat absorption tower.
Heat dump of the present invention is made of multiple annular tubesheets arranged up and down, similar cylinder.Entrance header is installed in the lowest point of heat dump,
The side of entrance header is connected to entrance main line, the other side of entrance header and first annular tubesheet positioned at lowest point
Entrance is connected to.Monophasic fluid enters entrance header by entrance main line first, is then separated into multichannel and enters ring from entrance header
Shape tube sheet absorbs heat.The peak of heat dump is equipped with outlet header, and the side of outlet header is connected to outlet main line, goes out
The outlet of the other side and the last annular tubesheet positioned at highest point of mouth header.Monophasic fluid is completed to inhale from heat dump
It initially enters outlet header after heat to be uniformly mixed, then again from outlet header into inlet/outlet main line.
The annular tubesheet is composed in parallel by more endothermic tubes, and shape is round or polygon.In mounted on top
In annular tubesheet, more endothermic tubes spiral form in a ring converts the solar radiation of focusing to thermal energy.
It can directly be connected to, can also distribute header by converging header and connecting line connects between adjacent annular tube sheet
It connects, or passes through the indirect unicom of intermediate header.
In the adjacent annular tube sheet of indirect communication, the outlet of annular tubesheet, which is equipped with, converges header, the entrance of annular tubesheet
Distribution header is installed, converges header and distribution header is connected to by welding with the endothermic tube of annular tubesheet.Connecting line is installed
Converging between header and distribution header, header and distribution header unicom will converged by welding, to connect adjacent annular
Tube sheet.
Adjacent annular tubesheet can also be connected by intermediate header.Intermediate header is welded on adjacent two annulars up and down
Between tube sheet, the outlet of the entrance of annular tubesheet and lower annular tubesheet in connection.
In conclusion monophasic fluid toroidal helical of the present invention rises heat dump, there are two types of structure types:The list of header connection
Phase fluid toroidal helical rises heat dump and the monophasic fluid toroidal helical being directly connected to rises heat dump.
The monophasic fluid toroidal helical of the header connection rises heat dump, and there are two types of structures:
It includes being made of endothermic tube that the monophasic fluid toroidal helical of the header connection of the first structure type, which rises heat dump,
Annular tubesheet, entrance header, outlet header converges header, distributes header, and entrance main line exports main line and connecting tube
Road.The entrance header is mounted on the minimum point of heat dump, and entrance header side connect with entrance main line, the other side and the
The entrance of one annular tubesheet connects.Converge header, connecting line and distribution header and is mounted on first annular tube sheet and the second annular
Between tube sheet.The outlet of first annular tube sheet connect with the side for converging header, converges the other side and the connecting line of header
Entrance is connected to, and the outlet of connecting line is connected to distribution header, and the outlet for distributing header is connected to the entrance of the second annular tubesheet.
Outlet header is mounted on the peak of heat dump, the outlet of the entrance side of outlet header and the second annular tubesheet, outlet collection
The outlet side of case is connected to outlet main line.Monophasic fluid enters entrance header from entrance main line first, subsequently into enter
First annular tubesheet of mouth header connection.Monophasic fluid spiral along the endothermic tube of annular tubesheet, subsequently into first
A header of converging is uniformly mixed.Uniformly mixed monophasic fluid enters first distribution header by connecting line, subsequently into
Second annular tubesheet being connect with the distribution header continues the spiral along the endothermic tube of the annular tubesheet, and repeats
Flow path is stated, final monophasic fluid enters outlet header and is uniformly mixed, and enters back into outlet main line.
It includes by endothermic tube that the monophasic fluid toroidal helical of the header connection of second of structure type, which rises absorber types,
The annular tubesheet of composition, entrance header, outlet header, intermediate header, entrance main line and outlet main line.The entrance collection
Case is mounted on the minimum point of heat dump.The side of entrance header is connect with entrance main line, the other side with positioned at heat dump it is minimum
The entrance connection of the first annular tube sheet at place.Intermediate header is mounted on first annular tube sheet and above first annular tube sheet
Between second annular tubesheet, the entrance side of the outlet of first annular tube sheet and intermediate header connects, the outlet side of intermediate header with
The entrance of second annular tubesheet is connected to;Outlet header is mounted on the peak of heat dump, the entrance side of outlet header and the second ring
The outlet of shape tube sheet, outlet side are connected to outlet main line.Monophasic fluid enters entrance header from entrance main line first,
Subsequently into first annular tubesheet being connect with entrance header.Monophasic fluid spiral along the endothermic tube of annular tubesheet,
It is uniformly mixed subsequently into first intermediate header.Uniformly mixed monophasic fluid, which is entered back into, to be connected with first intermediate header
Second annular tubesheet continues the spiral along the endothermic tube of the annular tubesheet, and repeats above-mentioned flow path, final single-phase
Fluid enters outlet header and is uniformly mixed, and enters back into outlet main line.
It includes the annular tubesheet being made of endothermic tube, entrance collection that the monophasic fluid toroidal helical being directly connected to, which rises heat dump,
Case, outlet header, entrance main line export main line and connecting line.The entrance header is mounted on the minimum of heat dump
Point, entrance header side are connect with entrance main line, and the other side is connect with the entrance of first annular tube sheet;It is minimum positioned at heat dump
The outlet of the first annular tube sheet at place is directly connected to the entrance of the second annular tubesheet above first annular tube sheet;Outlet
Header be mounted on heat dump peak, the outlet of the entrance side of outlet header and the second annular tubesheet, outlet header
Outlet side is connected to outlet main line.Monophasic fluid enters entrance header from entrance main line first, subsequently into entrance collection
First annular tubesheet of case connection.Monophasic fluid spiral along the endothermic tube of annular tubesheet, then immediately proceeds to second
A annular tubesheet continues the spiral along the endothermic tube of second annular tubesheet, and repeats above-mentioned flow path, final single-phase
Fluid enters outlet header and is uniformly mixed, and enters back into outlet main line.
The invention has the characteristics that:
1. entrance header is located at heat dump lowest point, several annular tubesheets use and rearrange heat dump from top to bottom,
Carry out photothermal conversion.It can be directly connected to by welding manner between annular tubesheet, header can also be distributed by converging header
With connecting line or intermediate header indirect communication, outlet header is located at the highest point of heat dump.
2. annular tubesheet is composed in parallel by several endothermic tubes, spiral, monophasic fluid can be full of endothermic tube in a ring
All endothermic tubes of annular tubesheet avoid and are detained aeration heat exchange in pipeline, meanwhile, compared to vertical pipeline, in spiral
The endothermic tube risen has certain enhanced heat exchange effect;
3. monophasic fluid flows always from bottom to top inside entire heat dump, passes through entrance successively from low to high and be responsible for
Road, entrance header, annular tubesheet, outlet header and outlet main line, if not being directly to be connected between annular tubesheet, fluid is same
Sample is from low to high successively by converging header, distribution header and connecting line or intermediate header.And conventional melt salt heat dump
It is dynamic that middle heat exchanging fluid is that vertical folding backflows, and needs to install many valves for filling and emptying heat dump.Present invention saves this
A little valves avoid heat dump frozen block or damage caused by failsafe valve;
Description of the drawings
Fig. 1 is that the monophasic fluid toroidal helical of header connection rises the stereoscopic schematic diagram of absorber types 1;
Fig. 2 is that the monophasic fluid toroidal helical of header connection rises the front schematic view of absorber types 1;
Fig. 3 is that the monophasic fluid toroidal helical of header connection rises the front schematic view of absorber types 2;
Fig. 4 is the structural schematic diagram of single annular tubesheet;
Fig. 5 is that the monophasic fluid toroidal helical being directly connected to rises the stereoscopic schematic diagram of heat dump;
Fig. 6 is that the monophasic fluid toroidal helical being directly connected to rises the front schematic view of heat dump;
In figure:1 entrance main line, 2 entrance headers, 3 first annular tube sheets, 3 ' second annular tubesheets, 4 converge header, and 5 connect
Take over road, 6 distribution headers, 7 endothermic tubes, 8 outlet headers, 9 outlet main lines, 10 intermediate headers.
Specific implementation mode
It is further illustrated the present invention below in conjunction with attached drawing and specific implementation mode.
Monophasic fluid toroidal helical of the present invention rises the top that heat dump is mounted on tower type solar energy thermal power generation station heat absorption tower.
Heat dump of the present invention is made of multiple annular tubesheets arranged up and down, similar cylinder.The lowest point of heat dump is installed by entrance collection
The side of case 2, entrance header 2 is connected to entrance main line 1, the other side of entrance header 2 and first ring for being located at lowest point
The entrance of shape tube sheet 3 is connected to.Monophasic fluid enters entrance header 2 by entrance main line 1 first, is then separated into multichannel from entrance
Header 2 enters annular tubesheet and absorbs heat.The peak of heat dump is equipped with outlet header 8, the side and outlet of outlet header 8
Main line 9 is connected to, the outlet of the other side of outlet header 8 and the last annular tubesheet positioned at highest point.Single-phase flow
Body initially enters outlet header 8 after completing heat absorption from heat dump and is uniformly mixed, then again from outlet header 8 into inlet/outlet main line
9。
The annular tubesheet is composed in parallel by more endothermic tubes 7, and shape is round or polygon.In mounted on top
In annular tubesheet, more endothermic tubes 7 spiral form in a ring converts the solar radiation of focusing to thermal energy.
It can be directly connected between adjacent annular tube sheet, header 6 and connecting line 5 can also be distributed by converging header 4
Connection, or pass through 10 indirect unicom of intermediate header.
In the adjacent annular tube sheet of indirect communication, the outlet of annular tubesheet, which is equipped with, converges header 4, the entrance of annular tubesheet
Distribution header 6 is installed, converges header 4 and distribution header 6 is connected to by welding with the endothermic tube of annular tubesheet.Connecting line 5
Mounted on converging between header 4 and distribution header 6, header 4 and distribution 6 unicom of header will be converged by welding, to connect phase
Adjacent annular tubesheet.
Adjacent annular tubesheet can also be connected by intermediate header 10.Intermediate header 10 is welded on adjacent two up and down
Between annular tubesheet, the outlet of the entrance of annular tubesheet and lower annular tubesheet in connection.
In conclusion monophasic fluid toroidal helical of the present invention rises heat dump, there are two types of structure types:The list of header connection
Phase fluid toroidal helical rises heat dump and the monophasic fluid toroidal helical being directly connected to rises heat dump.
Fig. 1 show the monophasic fluid toroidal helical rising heat dump that the header of the first structure type connects with Fig. 2.Such as
Shown in Fig. 1 and Fig. 2:The entrance header 2 is mounted on the minimum point of heat dump, and 2 side of entrance header connects with entrance main line 1
It connects, the other side is connect with the entrance of first annular tube sheet 3.Converge header 4, connecting line 5 and distribution header 6 and is mounted on the first ring
Between shape tube sheet 3 and the second annular tubesheet 3 ', the outlet of first annular tube sheet 3 is connect with the side for converging header 4, converges header
4 other side is connected to the entrance of connecting line 5, and the outlet of connecting line 5 is connected to distribution header 6, distributes the outlet of header 6
It is connected to the entrance of the second annular tubesheet 3 '.Outlet header 8 be mounted on heat dump peak, the entrance side of outlet header 8 with
The outlet side of the outlet of second annular tubesheet 3 ', outlet header 8 is connected to outlet main line 9.Monophasic fluid is first from entering
Mouth main line 1 enters entrance header 2, subsequently into the first annular tube sheet 3 being connect with entrance header 2.Monophasic fluid is along first
Spiral in the endothermic tube 7 of annular tubesheet 3 is uniformly mixed subsequently into header 4 is converged.Uniformly mixed monophasic fluid passes through
Connecting line 5 enters distribution header 6, subsequently into the second annular tubesheet 3 ' being connect with distribution header 6, continues along the second annular
Spiral in the endothermic tube 7 of tube sheet 3 ', final monophasic fluid enter outlet header 8 and are uniformly mixed, and enter back into outlet main line 9
Flow out heat dump.
The front that Fig. 3 show the monophasic fluid toroidal helical rising heat dump of the header connection of second of structure type shows
It is intended to.As shown in figure 3, the entrance header 2 is mounted on the minimum point of heat dump, 2 side of entrance header and entrance main line 1
Connection, the other side is connect with the entrance of first annular tube sheet 3.Intermediate header 10 is mounted on first annular tube sheet 3 and the second annular
Between tube sheet 3 ', the outlet of first annular tube sheet 3 is connect with the entrance side of intermediate header 10, the outlet side of intermediate header 10 and
The entrance of second ring tube sheet 3 ' is connected to;Outlet header 8 is mounted on the peak of heat dump, the entrance side of outlet header 8 and second
The outlet side of the outlet of annular tubesheet 3 ', outlet header 8 is connected to outlet main line 9.Monophasic fluid is first from entrance master
Pipeline 1 enters entrance header 2, subsequently into the first annular tube sheet 3 being connect with entrance header 2.Monophasic fluid is along first annular
Spiral in the endothermic tube 7 of tube sheet 3 is uniformly mixed subsequently into intermediate header 10.Uniformly mixed monophasic fluid enters back into
The second annular tubesheet 3 ' being connected with intermediate header 10 continues the spiral along the endothermic tube 7 of the second annular tubesheet 3 ', finally
Monophasic fluid enters outlet header 8 and is uniformly mixed, and enters back into outlet main line 9 and flows out heat dump.
As shown in figure 4, single annular tubesheet is made of more endothermic tubes 7 spiral in a ring in parallel, monophasic fluid by
The lower entrance in position enters, and along 7 spiral of endothermic tube, is flowed out by the higher outlet in position.
Fig. 5 and Fig. 6 show the monophasic fluid toroidal helical being directly connected to and rises heat dump.As shown in Figure 5 and Figure 6, directly
The monophasic fluid toroidal helical connect in succession rises in heat dump, and the entrance header 2 is mounted on the minimum point of heat dump, side
It is connect with entrance main line 1, the other side is connect with the entrance of first annular tube sheet 3;The outlet of first annular tube sheet 3 and the second ring
The entrance of shape tube sheet 3 ' is directly connected to, and the endothermic tube of the endothermic tube of first annular tube sheet 3 and the second annular tubesheet 3 ' corresponds
Connection;Outlet header 8 be mounted on heat dump peak, the outlet of entrance side and the second annular tubesheet 3 ', outlet side and
Main line 9 is exported to be connected to.Monophasic fluid enters entrance header 2 from entrance main line 1 first, connects subsequently into entrance header 2
The first annular tube sheet 3 connect.Monophasic fluid spiral along the endothermic tube 7 of first annular tube sheet 3, then immediately proceeds to second
Annular tubesheet 3 ' continues spiral, final monophasic fluid along the endothermic tube 7 of the second annular tubesheet 3 ' and enters outlet header 8
It is uniformly mixed, enters back into outlet main line 9 and flow out heat dump.
Claims (7)
1. a kind of monophasic fluid toroidal helical rises heat dump, it is characterised in that:The monophasic fluid toroidal helical, which rises, inhales
Hot device is mounted on the top of tower type solar energy thermal power generation station heat absorption tower;The heat dump is by multiple annular tubesheets arranged up and down
Composition;The lowest point installation entrance header (2) of heat dump, the side of entrance header (2) are connected to entrance main line (1), entrance
The other side of header (2) is connected to the entrance of first annular tubesheet (3) positioned at lowest point;Monophasic fluid is first by entrance master
Pipeline (1) enters entrance header (2), is then divided into multichannel and enters annular tubesheet absorption heat from entrance header (2);Heat dump
Peak is equipped with outlet header (8), and the side of outlet header (8) is connected to outlet main line (9), outlet header (8) it is another
The outlet of side and the last annular tubesheet positioned at highest point;Monophasic fluid initially enters out after heat dump heat absorption
Mouth header (8) is uniformly mixed, then again from outlet header (8) into inlet/outlet main line (9).
2. monophasic fluid toroidal helical described in accordance with the claim 1 rises heat dump, it is characterised in that:The annular tubesheet
It is composed in parallel by more endothermic tubes;In the annular tubesheet of mounted on top, more endothermic tubes spiral form in a ring will gather
Burnt solar radiation is converted into thermal energy.
3. monophasic fluid toroidal helical described in accordance with the claim 1 rises heat dump, it is characterised in that:Adjacent annular tube sheet it
Between be directly connected to, or by converging header (4), distribute header (6) and connecting line (5) indirect communication, or pass through intermediate collection
Case (10) indirect unicom.
4. monophasic fluid toroidal helical described in accordance with the claim 3 rises heat dump, it is characterised in that:Indirect communication it is adjacent
In annular tubesheet, the outlet of annular tubesheet, which is equipped with, converges header (4), and the entrance of annular tubesheet is equipped with distribution header (6), converges
Intersection case (4) and distribution header (6) are connected to by welding with the endothermic tube of annular tubesheet;Connecting line (5), which is mounted on, converges collection
Between case (4) and distribution header (6), header (4) will be converged by welding and be connected to distribution header (6), it is adjacent to connect
Annular tubesheet.
5. monophasic fluid toroidal helical described in accordance with the claim 3 rises heat dump, it is characterised in that:Adjacent annular tubesheet
It is connected by intermediate header (10);Intermediate header (10) is welded between adjacent two annular tubesheets up and down, annular in connection
The outlet of the entrance of tube sheet and lower annular tubesheet.
6. monophasic fluid toroidal helical described in accordance with the claim 3 rises heat dump, it is characterised in that:It is minimum positioned at heat dump
The outlet of the first annular tube sheet (3) at place and the entrance of the second annular tubesheet (3 ') above first annular tube sheet (3) are straight
Lead in succession, the endothermic tube (7) of first annular tube sheet (3) is connected to the endothermic tube (7) of the second annular tubesheet (3 ') one-to-one correspondence.
7. monophasic fluid toroidal helical described in accordance with the claim 1 rises heat dump, it is characterised in that:The annular tubesheet
Shape be round or polygon.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810177295.8A CN108413621A (en) | 2018-03-05 | 2018-03-05 | A kind of monophasic fluid toroidal helical rising heat dump |
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CN201810177295.8A CN108413621A (en) | 2018-03-05 | 2018-03-05 | A kind of monophasic fluid toroidal helical rising heat dump |
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CN201810177295.8A Pending CN108413621A (en) | 2018-03-05 | 2018-03-05 | A kind of monophasic fluid toroidal helical rising heat dump |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110513894A (en) * | 2019-08-29 | 2019-11-29 | 北京首航艾启威节能技术股份有限公司 | A kind of tower photo-thermal power station spiral heat absorption device |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2002507A (en) * | 1977-08-12 | 1979-02-21 | Evaporation & Solar Heating Lt | Solar heater |
CN1186206A (en) * | 1997-11-05 | 1998-07-01 | 量子能源系统有限公司 | Improved water heater |
CN1296560A (en) * | 1998-04-03 | 2001-05-23 | Abb阿尔斯托姆能源公司 | Heat recovery steam generator |
CN201983480U (en) * | 2011-03-24 | 2011-09-21 | 益科博能源科技(上海)有限公司 | Tower-type solar heat-collecting device |
CN103822514A (en) * | 2014-02-17 | 2014-05-28 | 南京华电节能环保设备有限公司 | Circular-pipe-separation type heat pipe exchanger |
CN203928450U (en) * | 2013-11-11 | 2014-11-05 | 杭州工电能源科技有限公司 | The spiral heat dump structure of tower type solar thermo-power station |
CN205066180U (en) * | 2015-09-25 | 2016-03-02 | 北京兆阳光热技术有限公司 | Light and heat receiving arrangement and tower helioplant in tower power station |
-
2018
- 2018-03-05 CN CN201810177295.8A patent/CN108413621A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2002507A (en) * | 1977-08-12 | 1979-02-21 | Evaporation & Solar Heating Lt | Solar heater |
CN1186206A (en) * | 1997-11-05 | 1998-07-01 | 量子能源系统有限公司 | Improved water heater |
CN1296560A (en) * | 1998-04-03 | 2001-05-23 | Abb阿尔斯托姆能源公司 | Heat recovery steam generator |
CN201983480U (en) * | 2011-03-24 | 2011-09-21 | 益科博能源科技(上海)有限公司 | Tower-type solar heat-collecting device |
CN203928450U (en) * | 2013-11-11 | 2014-11-05 | 杭州工电能源科技有限公司 | The spiral heat dump structure of tower type solar thermo-power station |
CN103822514A (en) * | 2014-02-17 | 2014-05-28 | 南京华电节能环保设备有限公司 | Circular-pipe-separation type heat pipe exchanger |
CN205066180U (en) * | 2015-09-25 | 2016-03-02 | 北京兆阳光热技术有限公司 | Light and heat receiving arrangement and tower helioplant in tower power station |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110513894A (en) * | 2019-08-29 | 2019-11-29 | 北京首航艾启威节能技术股份有限公司 | A kind of tower photo-thermal power station spiral heat absorption device |
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Application publication date: 20180817 |