CN103296925A - Solar cell and temperature difference materials combined power generation device - Google Patents
Solar cell and temperature difference materials combined power generation device Download PDFInfo
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- CN103296925A CN103296925A CN 201210046782 CN201210046782A CN103296925A CN 103296925 A CN103296925 A CN 103296925A CN 201210046782 CN201210046782 CN 201210046782 CN 201210046782 A CN201210046782 A CN 201210046782A CN 103296925 A CN103296925 A CN 103296925A
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Abstract
A solar cell and temperature difference materials combined power generation device comprises a solar cell panel and a temperature difference cell. The light-permeable solar cell panel is arranged on an upper layer, the temperature difference cell is arranged on a lower layer, and gas exists between the solar cell panel and the temperature difference cell.
Description
Technical field;
The present invention relates to solar cell and thermoelectric material combination generator.
Background technology:
Sunlight can be divided into different wave length, and visible light part (0.4~0.76 μ m) accounts for the about 50% of solar radiation gross energy, and wavelength accounts for about 43% greater than the infrared ray (>0.76 μ m) of visible light, accounts for about 7% of total amount less than the ultraviolet ray (<0.4 μ m) of visible light.The visible light part (0.4~0.76 μ m) that only reaches certain energy in the sunlight just can make in the battery electronics overflow and carry out opto-electronic conversion, do not have the infrared ray photon of enough energy directly to pass cell panel, electronics is overflowed and carry out opto-electronic conversion.
Ultrared wavelength ratio visible light is long, has thermal effect.Infrared radiation under certain condition can be converted into heat energy.
Do not retrieve the combination generator with the infrared ray heating thermoelectric material that sees through solar panel as yet.
Summary of the invention:
The objective of the invention is: 1, make the thermoelectric material generating with the infrared ray heating thermoelectric material hot junction that sees through solar panel, improve solar panel opto-electronic conversion usefulness.2, solar panel and thermoelectric cell arrange respectively, and solar panel is located on the transparent glass of upper strata, and thermoelectric cell is located on lower floor's base plate, are gas between solar panel and thermoelectric cell, and its advantage is to make simply, and is easy to maintenance.3, the infrared radiation that sees through solar panel is on the infrared photothermal conversion coating of thermoelectric cell hot junction, and the infrared photothermal conversion coating can be converted into heat energy with infrared radiation, and heating thermoelectric cell hot junction has the transformation efficiency height, the advantage that heat is concentrated.4, the solar panel with air communication has the heat sinking function that accelerates solar panel, improves the solar panel transformation efficiency.5, establish phase-changing energy storage material in the cavity of thermoelectric cell plate hot junction, improve the thermoelectric cell transformation efficiency.
Solar cell and thermoelectric material combination generator that the present invention proposes comprise: solar panel, thermoelectric cell, the euphotic solar energy cell panel is located at the upper strata, thermoelectric cell is located at lower floor, be gas between solar panel and thermoelectric cell, see through the infrared ray heating thermoelectric cell hot junction of solar panel, the cold junction of air or the hot thermoelectric cell of water cooling, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, link to each other with lead or conducting film between the hot junction of thermoelectric cell and thermoelectric material with between the cold junction of thermoelectric cell and thermoelectric material, thermoelectric cell generating under the effect that continues the temperature difference, gas cooled solar panel between solar panel and thermoelectric cell.
Another kind of solar cell and thermoelectric material combination generator that the present invention proposes comprise: solar panel, thermoelectric cell, solar panel and thermoelectric cell arrange respectively, the euphotic solar energy cell panel is located at the upper strata, thermoelectric cell is located at lower floor, be gas between solar panel and thermoelectric cell, be the hollow parting bead around solar panel and the thermoelectric cell, solar panel and and difference battery and hollow parting bead between the slit seal with glue, see through the infrared ray heating thermoelectric cell hot junction of solar panel, the cold junction of air or the hot thermoelectric cell of water cooling, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, link to each other with lead between the hot junction of thermoelectric cell and thermoelectric material with between the cold junction of thermoelectric cell and thermoelectric material, thermoelectric cell generating under the effect that continues the temperature difference, gas cooled solar panel between solar panel and thermoelectric cell.
Another kind of solar cell and thermoelectric material combination generator that the present invention proposes comprise: solar panel, thermoelectric cell, the heat dissipation metal device, solar panel and thermoelectric cell arrange respectively, the euphotic solar energy cell panel is located at the upper strata, thermoelectric cell is located at lower floor, be gas between solar panel and thermoelectric cell, be the hollow parting bead around solar panel and the thermoelectric cell, solar panel and and difference battery and hollow parting bead between the slit seal with glue, see through the infrared ray heating thermoelectric cell hot junction of solar panel and the hot junction of solar cell base plate opto-electronic conversion heat heating thermoelectric cell, the cold junction of heat dissipation metal device heat of cooling thermoelectric cell, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, link to each other with lead between the hot junction of thermoelectric cell and thermoelectric material with between the cold junction of thermoelectric cell and thermoelectric material, thermoelectric cell generating under the effect that continues the temperature difference, gas cooled solar panel between solar panel and thermoelectric cell.
Another kind of solar cell and thermoelectric material combination generator that the present invention proposes comprise: solar panel, thermoelectric cell, the euphotic solar energy cell panel injects in the groove of hollow parting bead upper strata fixing, the thermoelectric cell plate injects in the hollow parting bead lower floor groove fixing, establish the hollow parting bead around between euphotic solar energy cell panel and thermoelectric cell plate, fill inert gas in the cavity, see through the infrared ray heating thermoelectric cell hot junction of solar panel, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, link to each other with lead between thermoelectric cell hot junction and thermoelectric material with between thermoelectric cell cold junction and thermoelectric material, solar panel opto-electronic conversion heat absorbs by inert gas.
Another kind of solar cell and thermoelectric material combination generator that the present invention proposes comprise: solar panel, thermoelectric cell, the euphotic solar energy cell panel injects in the groove of hollow parting bead upper strata fixing, the thermoelectric cell plate injects in the hollow parting bead lower floor groove fixing, the hollow parting bead is established in the left and right sides between euphotic solar energy cell panel and thermoelectric cell plate, euphotic solar energy cell panel and thermoelectric cell plate be both sides and air communication up and down, see through the infrared ray heating thermoelectric cell hot junction of solar panel, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, link to each other with lead between thermoelectric cell hot junction and thermoelectric material with between thermoelectric cell cold junction and thermoelectric material, solar panel opto-electronic conversion heat is by moving air heat radiation up and down.
The thermoelectric cell hot end surface is coated with the infrared photothermal conversion coating, see through the infrared radiation of solar panel on the infrared photothermal conversion coating of thermoelectric cell hot junction, the infrared photothermal conversion coating can be converted into heat energy heating thermoelectric cell hot junction with infrared radiation, has the transformation efficiency height, speed is fast, the advantage that heat is concentrated.
Establish phase-changing energy storage material in the cavity of thermoelectric cell plate hot junction, phase-changing energy storage material stores the infrared photothermal conversion heat, and when thermoelectric cell plate hot-side temperature reduced, phase-changing energy storage material was emitted store heat, improves the thermoelectric cell transformation efficiency.
Blanketing gas comprises in the cavity: air, helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), nitrogen (N2), carbon monoxide (CO), carbon dioxide (CO2) and combination thereof.
Solar panel comprises: the solar panel that the solar panel that the solar panel that the solar panel that monocrystalline silicon is made or polysilicon are made or amorphous silicon are made or the solar panel of thin film fabrication or gallium arsenide solar cell plate or multi-element compounds are made.
Thermoelectric cell comprises: temperature difference electricity generation device hot junction and semi-conducting material and temperature difference electricity generation device cold junction are formed thermo-electric generation system, temperature difference electricity generation device hot junction and semi-conductor nano particles and temperature difference electricity generation device cold junction are formed thermo-electric generation system, and temperature difference electricity generation device hot junction and quanta point material and temperature difference electricity generation device cold junction are formed thermo-electric generation system.
Description of drawings:
Below in conjunction with drawings and Examples the present invention is further described.
Fig. 1 has feature enclosed cavity solar cell of the present invention and thermoelectric material combination generator sectional structure chart.
Fig. 2 has feature upper and lower opening solar cell of the present invention and thermoelectric material combination generator sectional structure chart.
Fig. 3 has feature metallic plate cools solar cell of the present invention and thermoelectric material combination generator sectional structure chart.
Fig. 4 has solar cell and the thermoelectric material combination generator sectional structure chart that feature of the present invention has phase-changing energy storage material.
Fig. 5 has feature liquid cools solar cell of the present invention and thermoelectric material combination generator sectional structure chart.
Embodiment:
Embodiment 1:
Enclosed cavity solar cell and thermoelectric material combination generator sectional structure chart are as shown in Figure 1; wherein: the 1st, aluminium hollow parting bead; the 2nd, the solar cell embedding groove; the 3rd, the thermoelectric cell embedding groove; the 4th, aluminium hollow parting bead reflecting surface; the 5th, last light transmission glass plate; the 6th, solar battery chip; the 7th, following printing opacity overcoat, the 8th, inert gas, the 9th, infrared photothermal conversion coating; the 10th, the thermoelectric cell chip is uploaded thermal-protective coating; the 11st, the thermoelectric cell chip assembly, the 12nd, radiating bottom plate, thermoelectric cell chip assembly 11 comprises: use lead between the cold junction of the hot junction of thermoelectric cell and semiconductor thermoelectric material and thermoelectric cell and thermoelectric material.
During use; sunlight or sun focus irradiation are on last light transmission glass plate 5; the visible light that reaches certain energy makes in the battery electronics overflow and carries out opto-electronic conversion; infrared ray passes on solar battery chip 6 and following printing opacity overcoat 7 and the inert gas 8 and is radiated on the infrared photothermal conversion coating 9; infrared photothermal conversion coating 9 is converted to heat energy with infrared ray luminous energy; pass to the thermoelectric cell chip and upload thermal-protective coating 10; the thermoelectric cell chip is uploaded thermal-protective coating 10 heating thermoelectric cell chip assemblies 11 hot junctions; thermoelectric cell chip assembly 11 cold junctions are radiating bottom plates 12; upload thermal-protective coating 10 and 12 formation of the cold junction radiating bottom plate temperature difference, the electric current output that lead produces thermoelectric cell chip assembly 11 between thermoelectric material at the thermoelectric cell chip.
The effect of aluminium hollow parting bead reflecting surface 4 is that infrared ray is repeatedly reflected, and improves the energy of infrared ray.
Embodiment 2:
Upper and lower opening solar cell and thermoelectric material combination generator sectional structure chart are as shown in Figure 2; wherein: the 13rd, aluminium hollow parting bead; the 14th, the solar cell embedding groove; the 15th, the thermoelectric cell embedding groove; the 16th, aluminium hollow parting bead reflecting surface; the 17th, last light transmission glass plate; the 18th, solar battery chip; the 19th, following printing opacity overcoat, the 20th, upper and lower opening air layer, the 21st, infrared photothermal conversion coating; the 22nd, the thermoelectric cell chip is uploaded thermal-protective coating; the 23rd, the thermoelectric cell chip assembly, the 24th, radiating bottom plate, thermoelectric cell chip assembly 23 comprises: use lead between the cold junction of the hot junction of thermoelectric cell and semiconductor thermoelectric material and thermoelectric cell and thermoelectric material.
During use; sunlight or sun focus irradiation are on last light transmission glass plate 17; the visible light that reaches certain energy makes in the battery electronics overflow and carries out opto-electronic conversion; infrared ray passes solar battery chip 18 and following printing opacity overcoat 19 and upper and lower opening air layer 20 and is radiated on the infrared photothermal conversion coating 21; infrared photothermal conversion coating 21 is converted to heat energy with infrared ray luminous energy; pass to the thermoelectric cell chip and upload thermal-protective coating 22; the thermoelectric cell chip is uploaded thermal-protective coating 22 heating thermoelectric cell chip assemblies 23 hot junctions; thermoelectric cell chip assembly 23 cold junctions are radiating bottom plates 24; upload thermal- protective coating 22 and 24 formation of the cold junction radiating bottom plate temperature difference at the thermoelectric cell chip; the electric current output that lead produces thermoelectric cell chip assembly 23 between thermoelectric material, the heat that solar battery chip 18 produces is discharged by upper and lower opening air layer 20.
Embodiment 3:
Metallic plate cools solar cell and thermoelectric material combination generator sectional structure chart are as shown in Figure 3; wherein: the 25th, aluminium hollow parting bead; the 26th, the solar cell embedding groove; the 27th, the thermoelectric cell embedding groove; the 28th, aluminium hollow parting bead reflecting surface; the 29th, last light transmission glass plate; the 30th, solar battery chip; the 31st, following printing opacity overcoat; the 32nd, the upper and lower opening air layer; the 33rd, the infrared photothermal conversion coating; the 34th, the thermoelectric cell chip is uploaded thermal-protective coating, and the 35th, thermoelectric cell chip assembly, the 36th, aluminium radiating bottom plate; the 37th, aluminium radiating bottom plate heat radiation wing, thermoelectric cell chip assembly 35 comprises: lead between thermoelectric cell hot junction and semiconductor thermoelectric material and thermoelectric cell cold junction and thermoelectric material.
During use; sunlight or sun focus irradiation are on last light transmission glass plate 29; the visible light that reaches certain energy makes in the battery electronics overflow and carries out opto-electronic conversion; infrared ray passes solar battery chip 30 and following printing opacity overcoat 31 and upper and lower opening air layer 32 and is radiated on the infrared photothermal conversion coating 33; infrared photothermal conversion coating 33 is converted to heat energy with infrared ray luminous energy; pass to the thermoelectric cell chip and upload thermal-protective coating 34; the thermoelectric cell chip is uploaded thermal-protective coating 34 heating thermoelectric cell chip assemblies 35 hot junctions; thermoelectric cell chip assembly 35 cold junctions are aluminium radiating bottom plate 36 and aluminium radiating bottom plate heat radiation wing 37; upload thermal-protective coating 34 and cold junction aluminium radiating bottom plate 36 and 37 of aluminium radiating bottom plate heat radiation wings at the thermoelectric cell chip and form the temperature difference; the electric current output that lead produces thermoelectric cell chip assembly 35 between thermoelectric material, the heat that solar battery chip 30 produces is discharged by upper and lower opening air layer 32.
Embodiment 4:
Have the solar cell of phase-changing energy storage material and thermoelectric material combination generator sectional structure chart as shown in Figure 4, wherein: the 38th, aluminium hollow parting bead, the 39th, the solar cell embedding groove, the 40th, the thermoelectric cell embedding groove, the 41st, aluminium hollow parting bead reflecting surface, the 42nd, last light transmission glass plate, the 43rd, solar battery chip, the 44th, following printing opacity overcoat, the 45th, inert gas, the 46th, infrared photothermal conversion coating, the 47th, heat transfer hollow aluminum section bar on the thermoelectric cell chip, the 48th, phase-changing energy storage material, the 49th, the thermoelectric cell chip assembly, the 50th, the aluminium radiating bottom plate, the 51st, aluminium radiating bottom plate heat radiation wing, thermoelectric cell chip assembly 49 comprises: lead between the cold junction of the hot junction of thermoelectric cell and semiconductor thermoelectric material and thermoelectric cell and thermoelectric material.
During use, sunlight or sun focus irradiation are on last light transmission glass plate 42, the visible light that reaches certain energy makes in the battery electronics overflow and carries out opto-electronic conversion, infrared ray passes solar battery chip 43 and following printing opacity overcoat 44 and inert gas 45 and is radiated on the infrared photothermal conversion coating 46, infrared photothermal conversion coating 46 is converted to heat energy with infrared ray luminous energy, pass on the thermoelectric cell chip on the heat transfer hollow aluminum section bar 47, heat transfer hollow aluminum section bar 47 heating phase-changing energy storage material 48 and thermoelectric cell chip assembly 49 hot junctions on the thermoelectric cell chip, thermoelectric cell chip assembly 49 cold junctions are aluminium radiating bottom plate 50 and aluminium radiating bottom plate heat radiation wing 51,51 of heat transfer hollow aluminum section bar 47 and cold junction aluminium radiating bottom plate 50 and aluminium radiating bottom plate heat radiation wings form the temperature difference on the thermoelectric cell chip, the electric current output that lead produces thermoelectric cell chip assembly 49 between thermoelectric material, the heat that solar battery chip 43 produces absorbs by inert gas 45, and the unnecessary heat that phase-changing energy storage material 48 absorbs is emitted when thermoelectric cell chip hot-side temperature descends.
Embodiment 5:
Liquid cools solar cell and thermoelectric material combination generator sectional structure chart are as shown in Figure 5, wherein: the 52nd, aluminium hollow parting bead, the 53rd, the solar cell embedding groove, the 54th, the thermoelectric cell embedding groove, the 55th, aluminium hollow parting bead reflecting surface, the 56th, last light transmission glass plate, the 57th, solar battery chip, the 58th, following printing opacity overcoat, the 59th, inert gas, the 60th, infrared photothermal conversion coating, the 61st, heat transfer layer on the thermoelectric cell chip, the 62nd, the thermoelectric cell chip assembly, the 63rd, the hollow radiating bottom plate of aluminium, the 64th, cooling water, the 65th, cooling water inlet, the 66th, coolant outlet, thermoelectric cell chip assembly 62 comprises: use lead between the cold junction of the hot junction of thermoelectric cell and semiconductor thermoelectric material and thermoelectric cell and thermoelectric material.
During use, sunlight or sun focus irradiation are on last light transmission glass plate 56, the visible light that reaches certain energy makes in the battery electronics overflow and carries out opto-electronic conversion, infrared ray passes solar battery chip 57 and following printing opacity overcoat 58 and inert gas 59 and is radiated on the infrared photothermal conversion coating 60, infrared photothermal conversion coating 60 is converted to heat energy with infrared ray luminous energy, pass on the thermoelectric cell chip on the heat transfer layer 61, heat transfer layer 61 heating thermoelectric cell chip assemblies 62 hot junctions on the thermoelectric cell chip, thermoelectric cell chip assembly 62 cold junctions are the hollow radiating bottom plates 63 of aluminium, be full of cooling water 64 in hollow radiating bottom plate 63 cavitys of aluminium, cooling water 64 is entered by cooling water inlet 65, discharged by coolant outlet 66, thermoelectric cell chip assembly 62 cold junction heats are discharged, heat transfer layer 61 forms the temperature difference with thermoelectric cell chip assembly 62 cold junctions on the thermoelectric cell chip, the electric current output that lead produces thermoelectric cell chip assembly 62 between thermoelectric material, the heat that solar battery chip 57 produces absorbs by inert gas 59.
Claims (10)
1. solar cell and thermoelectric material combination generator comprise: solar panel, thermoelectric cell is characterized in that: the euphotic solar energy cell panel is located at the upper strata, and thermoelectric cell is located at lower floor, is gas between solar panel and thermoelectric cell.
2. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: the thermoelectric cell hot end surface is coated with the infrared photothermal conversion coating.
3. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: the hot junction that sees through the heat heating thermoelectric cell of solar panel infrared photothermal conversion, the cold junction of air or water cooling thermoelectric cell, be gas between solar panel and thermoelectric cell, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, links to each other with lead between the hot junction of thermoelectric cell and thermoelectric material with between the cold junction of thermoelectric cell and thermoelectric material.
4. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: the hot junction that sees through the heat heating thermoelectric cell of solar panel infrared photothermal conversion, the cold junction of heat dissipation metal device heat of cooling thermoelectric cell, be gas between solar panel and thermoelectric cell, the cold junction of the hot junction of thermoelectric cell and thermoelectric material and thermoelectric cell is formed thermoelectric cell, links to each other with lead between the hot junction of thermoelectric cell and thermoelectric material with between the cold junction of thermoelectric cell and thermoelectric material.
5. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: the euphotic solar energy cell panel injects in the groove of hollow parting bead upper strata fixing, the thermoelectric cell plate injects in the hollow parting bead lower floor groove fixing, be gas between solar panel and thermoelectric cell, the hollow parting bead is established in the left and right sides between euphotic solar energy cell panel and thermoelectric cell plate, and euphotic solar energy cell panel and thermoelectric cell plate be both sides and air communication up and down.
6. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: the euphotic solar energy cell panel injects fixing and sealing in the groove of hollow parting bead upper strata, the thermoelectric cell plate injects fixing and sealing in the hollow parting bead lower floor groove, fills inert gas in euphotic solar energy cell panel and thermoelectric cell plate and the hollow parting bead composition cavity.
7. solar cell and thermoelectric material combination generator according to claim 1 is characterized in that: establish phase-changing energy storage material in the cavity of thermoelectric cell plate hot junction.
8. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: solar panel comprises: the solar panel that the solar panel that the solar panel that the solar panel that monocrystalline silicon is made or polysilicon are made or amorphous silicon are made or the solar panel of thin film fabrication or gallium arsenide solar cell plate or multi-element compounds are made.
9. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: gas comprises: air, helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), nitrogen (N2), carbon monoxide (CO), carbon dioxide (CO2) and combination thereof.
10. solar cell and thermoelectric material combination generator according to claim 1, it is characterized in that: thermoelectric cell comprises: temperature difference electricity generation device hot junction and semi-conducting material and temperature difference electricity generation device cold junction are formed thermo-electric generation system, temperature difference electricity generation device hot junction and semi-conductor nano particles and temperature difference electricity generation device cold junction are formed thermo-electric generation system, and temperature difference electricity generation device hot junction and quanta point material and temperature difference electricity generation device cold junction are formed thermo-electric generation system.
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| Application Number | Priority Date | Filing Date | Title |
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| CN 201210046782 CN103296925A (en) | 2012-02-28 | 2012-02-28 | Solar cell and temperature difference materials combined power generation device |
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| CN 201210046782 CN103296925A (en) | 2012-02-28 | 2012-02-28 | Solar cell and temperature difference materials combined power generation device |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN103628635A (en) * | 2013-11-13 | 2014-03-12 | 河南天恩太阳能科技有限公司 | Solar inorganic phase change insulation board |
| CN103836502A (en) * | 2014-03-20 | 2014-06-04 | 广东工业大学 | Solar phase change heat accumulation thermoelectric power generation street lamp system |
| CN104022689A (en) * | 2014-06-20 | 2014-09-03 | 中国地质大学(武汉) | Solar phase-change energy storage thermoelectric power generation device and lighting system |
| CN105471366A (en) * | 2015-11-20 | 2016-04-06 | 南京理工大学 | Solar and thermoelectric coupling system containing phase change material |
| CN110487098A (en) * | 2019-09-10 | 2019-11-22 | 李居强 | Energy storage device and energy-storage system |
| CN113630067A (en) * | 2021-07-21 | 2021-11-09 | 武汉理工大学 | All-weather solar power generation system, power generation device and power generation method |
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2012
- 2012-02-28 CN CN 201210046782 patent/CN103296925A/en active Pending
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103628635A (en) * | 2013-11-13 | 2014-03-12 | 河南天恩太阳能科技有限公司 | Solar inorganic phase change insulation board |
| CN103836502A (en) * | 2014-03-20 | 2014-06-04 | 广东工业大学 | Solar phase change heat accumulation thermoelectric power generation street lamp system |
| CN103836502B (en) * | 2014-03-20 | 2016-07-06 | 广东工业大学 | Solar energy phase-change heat storage thermo-electric generation road lamp system |
| CN104022689A (en) * | 2014-06-20 | 2014-09-03 | 中国地质大学(武汉) | Solar phase-change energy storage thermoelectric power generation device and lighting system |
| CN105471366A (en) * | 2015-11-20 | 2016-04-06 | 南京理工大学 | Solar and thermoelectric coupling system containing phase change material |
| CN110487098A (en) * | 2019-09-10 | 2019-11-22 | 李居强 | Energy storage device and energy-storage system |
| CN113630067A (en) * | 2021-07-21 | 2021-11-09 | 武汉理工大学 | All-weather solar power generation system, power generation device and power generation method |
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Application publication date: 20130911 |