CN102874752A - Solar energy photocatalysis water decomposing hydrogen making machine - Google Patents
Solar energy photocatalysis water decomposing hydrogen making machine Download PDFInfo
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- CN102874752A CN102874752A CN2012104251620A CN201210425162A CN102874752A CN 102874752 A CN102874752 A CN 102874752A CN 2012104251620 A CN2012104251620 A CN 2012104251620A CN 201210425162 A CN201210425162 A CN 201210425162A CN 102874752 A CN102874752 A CN 102874752A
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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
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
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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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
- Y02P20/133—Renewable energy sources, e.g. sunlight
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Abstract
The invention discloses a solar energy photocatalysis water decomposing hydrogen making machine. The solar energy photocatalysis water decomposing hydrogen making machine comprises a reactor with a solar cover at the upper end, a rotating plate, a hydraulic rotary disk arranged on a machine seat, and a solar battery board. The solar energy photocatalysis water decomposing hydrogen making machine has the functions of automatically producing hydrogen and electricity, and automatically tracking the solar energy, and is intelligent in control, stable in performance, convenient to operate, high in working efficiency, compact in structure and convenient to install.
Description
Technical field
The present invention relates to a kind of hydrogen making machine, particularly a kind of solar energy photocatalytic hydrogen production by water decomposition machine.
Background technology
Along with socioeconomic development, increasing to the demand of the energy, fossil energy faces exhaustion, and that sun power is got is without cease.A sunlight catalytic minute hydrolysis water hydrogen producing technology is very promising hydrogen production process, obtains people's extensive concern, and hydrogen has broad application prospects in a lot of fields as the energy.Because catalytic material and photochemical reactor play vital effect to sunlight catalytic hydrogen production by water decomposition efficient, also there is not a kind of equipment that truly adopts the sunlight catalytic hydrogen production by water decomposition at present.
Summary of the invention
Technical problem to be solved by this invention is, not enough for prior art, a kind of have automatic production hydrogen, electric energy are provided, from motion tracking sun function, and stable performance, easy to operate, high efficiency, compact construction, solar energy photocatalytic hydrogen production by water decomposition machine easy for installation.
For solving the problems of the technologies described above, the technical solution adopted in the present invention is: a kind of solar energy photocatalytic hydrogen production by water decomposition machine, comprise the upper end be equipped with solar shield (1) reactor (2), swivel plate (25), be contained in hydraulic gyration dish (24), solar panel (22) on the support (31), described reactor (2) is installed in swivel plate (25) one ends through the first mechanism for regulating elevation angle, and solar panel (22) is installed in swivel plate (25) the other end through the second mechanism for regulating elevation angle; Described solar shield (1) bottom is provided with reactor window (51), and solar shield (1) is provided with convergent hole (34) with reactor (2) junction, and convex lens (41) is equipped with in described convergent hole (34) below; Described reactor (2) comprises reactor inner chamber (45) and reactor exocoel (44), described convex lens (41) links to each other with reactor inner chamber (45) by flat mirror (42), and described reactor inner chamber (45) is communicated with reactor exocoel (44) by aerogenesis mouth (35), inlet mouth (40), opening for feed (43), the discharge port (48) on the reactor inner chamber (45); Described reactor exocoel (44) is provided with cooling water outlet (37) and cooling water intake (46), described cooling water outlet (37) is provided with cooling-water temperature sensor (36), and described cooling water intake (46) is provided with cooling water flow valve (47); Described reactor inner chamber (45) bottom is provided with magnetic and mixes son (49), and described reactor exocoel (46) bottom is fixed with magnetic and mixes device (50); Described reactor inner chamber (45) inwall is provided with catalyst rings (39); Be fixed with respectively solar tracking device (23,21) on described solar shield (1) and the solar panel (22); Be equipped with magnetic valve on described hydraulic gyration dish (24) and the cooling water flow valve (47); Described regulating mechanism is connected with hydro-pump (28) on the support (31); Described hydro-pump (28) is connected with hydrauliccapsule.
Described the first mechanism for regulating elevation angle comprises reactor column (7), the first hydraulic ram that is fixed on swivel plate (25) one ends, the cylinder body of described the first hydraulic ram (8) is hinged with described reactor column (7) lower end or swivel plate (25), the piston rod of described the first hydraulic ram (6) upper end is hinged with the base (4) of described reactor (2), and described reactor column (7) is hinged with the seat of honour (5) of described reactor (2); Described the second mechanism for regulating elevation angle comprises solar panel column (18), the second hydraulic ram that is fixed on swivel plate (25) the other end, the cylinder body of described the second hydraulic ram (17) is hinged with described solar panel column (18) lower end or swivel plate (25), the piston rod of described the second hydraulic ram (3) upper end is hinged with the base (32) of described solar panel (22), and described solar panel column (18) upper end is hinged with the seat of honour (20) of described solar panel (22); Described the first hydraulic ram is provided with oil transportation mouth (11) and oil return opening (12), and described the second hydraulic ram is provided with oil transportation mouth (13) and oil return opening (14); On described the first hydraulic ram and the second hydraulic ram magnetic valve is installed all; Described oil return opening (12,14) is communicated with hydro-pump (28) by used oil pipe (26); Described oil transportation mouth (11,13) is communicated with hydro-pump (28) by transition pipeline (27).
Described support (31) inside is provided with pilot circuit, and the hydrauliccapsule that described pilot circuit is connected with solar tracking device (21,23), cooling-water temperature sensor (36), hydro-pump (28), magnetic valve, the first hydraulic ram on the hydraulic gyration dish (24) and magnetic valve, the magnetic valve on the cooling water flow valve (47), the motor of hydro-pump (28), the magnetic valve on the transition pipeline (27), the operating panel (30) on the support (31) of being connected on the hydraulic ram connect.
Described pilot circuit comprises treater, computer, the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit, 24V power source circuit, hydraulic gyration dish driving circuit for electromagnetic valve, regulating mechanism driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit and Voltage stabilizing module; Described the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit are connected with computer, and computer is connected with treater, and treater is connected with Voltage stabilizing module is two-way; Treater is connected with hydraulic gyration dish driving circuit for electromagnetic valve, the first hydraulic ram driving circuit for electromagnetic valve, the second hydraulic ram driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit; Described 24V power source circuit is connected with the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit, hydraulic gyration dish driving circuit for electromagnetic valve, the first hydraulic ram driving circuit for electromagnetic valve, the second hydraulic ram driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit.
Compared with prior art, the beneficial effect that the present invention has is: the present invention has automatic production hydrogen, electric energy, from functions such as the motion tracking sun, use minicomputer control, stable performance, easy to operate, high efficiency, compact construction, easy for installation.
Description of drawings
Fig. 1 is one embodiment of the invention structural representation;
Fig. 2 is one embodiment of the invention reactor sectional view;
Fig. 3 is one embodiment of the invention pilot circuit structured flowchart;
Fig. 4 is one embodiment of the invention solar tracking device driving circuit principle figure;
Fig. 5 is one embodiment of the invention cooling-water temperature sensor driving circuit principle figure;
Fig. 6 is one embodiment of the invention hydrauliccapsule driving circuit principle figure;
Fig. 7 is one embodiment of the invention driving circuit for electromagnetic valve schematic diagram;
Fig. 8 is one embodiment of the invention hydraulic pump motor driving circuit principle figure.
Embodiment
As depicted in figs. 1 and 2, one embodiment of the invention comprise the upper end be equipped with solar shield 1 reactor 2, swivel plate 25, be contained in hydraulic gyration dish 24, solar panel 22 on the support 31, described reactor 2 is installed in swivel plate 25 1 ends through the first mechanism for regulating elevation angle, and solar panel 22 is installed in swivel plate 25 the other ends through the second mechanism for regulating elevation angle; Described solar shield 1 bottom is provided with reactor window 51, and solar shield 1 is provided with convergent hole 34 with reactor 2 junctions, and convex lens 41 is equipped with in described convergent hole 34 belows; Described reactor 2 comprises reactor inner chamber 45 and reactor exocoel 44, described convex lens 41 links to each other with reactor inner chamber 45 by flat mirror 42, and described reactor inner chamber 45 is communicated with reactor exocoel 44 by aerogenesis mouth 35, inlet mouth 40, opening for feed 43, discharge port 48 on the reactor inner chamber 45; Described reactor exocoel 44 is provided with cooling water outlet 37 and cooling water intake 46, and described cooling water outlet 37 is provided with cooling-water temperature sensor 36, and described cooling water intake 46 is provided with cooling water flow valve 47; Described reactor inner chamber 45 bottoms are provided with magnetic and mix son 49, and described reactor exocoel 46 bottoms are fixed with magnetic and mix device 50; Described reactor inner chamber 45 inwalls are provided with catalyst rings 39; Be fixed with respectively solar tracking device 23,21 on described solar shield 1 and the solar panel 22; Be equipped with magnetic valve on described hydraulic gyration dish 24 and the cooling water flow valve 47; Described regulating mechanism is connected with hydro-pump 28 on the support 31; Described hydro-pump 28 is connected with hydrauliccapsule.
Described the first mechanism for regulating elevation angle comprises reactor column 7, the first hydraulic ram that is fixed on swivel plate 25 1 ends, the cylinder body 8 of described the first hydraulic ram is hinged with described reactor column 7 lower ends or swivel plate 25, piston rod 6 upper ends of described the first hydraulic ram and the base (4) of described reactor 2 are hinged, and described reactor column 7 is hinged with the seat of honour 5 of described reactor 2; Described the second mechanism for regulating elevation angle comprises solar panel column 18, the second hydraulic ram that is fixed on swivel plate 25 the other ends, the cylinder body 17 of described the second hydraulic ram is hinged with described solar panel column 18 lower ends or swivel plate 25, piston rod 3 upper ends of described the second hydraulic ram and the base 32 of described solar panel 22 are hinged, and the seat of honour 20 of described solar panel column 18 upper ends and described solar panel 22 is hinged; Described the first hydraulic ram is provided with oil transportation mouth 11 and oil return opening 12, and described the second hydraulic ram is provided with oil transportation mouth 13 and oil return opening 14; On described the first hydraulic ram and the second hydraulic ram magnetic valve is installed all; Described oil return opening 12,14 is communicated with hydro-pump 28 by used oil pipe 26; Described oil transportation mouth 11,13 is communicated with hydro-pump 28 by transition pipeline 27.
Described support 31 inside are provided with pilot circuit, the hydrauliccapsule on described pilot circuit and solar tracking device 21,23, cooling-water temperature sensor 36, the hydro-pump 28, magnetic valve, the first hydraulic ram on the hydraulic gyration dish 24 and be connected the magnetic valve on the hydraulic ram, the magnetic valve on the cooling water flow valve 47, the motor of hydro-pump 28, the magnetic valve on the transition pipeline 27, the operating panel 30 on the support 31 and be connected.
As shown in Figure 3, described pilot circuit comprises treater, computer, the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit, 24V power source circuit, hydraulic gyration dish driving circuit for electromagnetic valve, regulating mechanism driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit and Voltage stabilizing module; Described the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit are connected with computer, and computer is connected with treater, and treater is connected with Voltage stabilizing module is two-way; Treater is connected with hydraulic gyration dish driving circuit for electromagnetic valve, the first hydraulic ram driving circuit for electromagnetic valve, the second hydraulic ram driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit; Described 24V power source circuit is connected with the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit, hydraulic gyration dish driving circuit for electromagnetic valve, the first hydraulic ram driving circuit for electromagnetic valve, the second hydraulic ram driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit.
The serial ports output of minicomputer is connected to the signal input part of micro-chip with signal cable, solar tracking device, water coolant sensor and hydrauliccapsule output signal are delivered to minicomputer analysis through signal wire, described treater is micro-chip, and the micro-chip model is C8051F020; Described Voltage stabilizing module adopts L4960 voltage stabilizing chip, obtains+5V voltage.
As shown in Figure 4, described the first solar tracking device driving circuit is identical with the second solar tracking device driving circuit structure, the first solar tracking device driving circuit comprises the resistance branch of the parallel connection that two line structures are identical, resistance branch is composed in series by three resistance, wherein the second resistance is photovaristor, and the 3rd resistance is adjustable resistance; Described resistance is 1000 Europe.
Described catalyst rings adopts high-efficiency photocatalysis material such as the semiconductor materials such as TiO2, ZnO to add circlewise, and described solar panel adopts silicon crystal slate, and described sensor adopts high-precision product, and described hydraulic stem, hydro-pump all have sale on the market.
Fig. 5 is the cooling-water temperature sensor driving circuit, adopts the HS00388 chip, and HS0038B is infrared receiving terminal, and " VISHAY " is that Germany produces operating voltage 2.0V~5V, working current 0.25mA.Highly sensitive, high conformity, strong interference immunity.
Fig. 6 is hydro-pump hydrauliccapsule driving circuit, adopts the RCOK chip, and this chip is the SOC chip that the digital-to-analogue of a slice high complexity is mixed, and adopts 0.18 micron technique to make, and includes a DSP kernel.This DSP kernel adopts based on RISC superscale 5 stage pipeline structure, has two dual ALUs (ALU) and two adder and multipliers (MAC), provides each clock period can carry out the nearly data-handling capacity of 4 instructions.
Fig. 7 is driving circuit for electromagnetic valve, adopts the TLE5206 chip, and the magnetic valve of regulating mechanism hydraulic ram, hydraulic gyration dish hydraulic flow is all driven by circuit shown in Figure 7.The TLE5206 chip provides the uninterrupted current up to 5A, and the 6A peak point current has output short circuit protection, the sluggish diagnostic functions of overheating protection band, under-voltage locking, CMOS/T hole level input compatibility function, working temperature :-40 ℃~+ 150 ℃.
Fig. 8 is the driving circuit of hydraulic pump motor, adopts the L298N chip, and L298N is that a kind of high-voltage, the large-current electric machine that ST company produces drives chip.This chip adopts the encapsulation of 15 pin.Operating voltage 4.5V-45V, 25 ℃-130 ℃ of working temperature meters, the output immediate current can reach 3A, continuous firing electric current 2A.Contain two high-voltage great-current full-bridge type driving mechanisms, adopt the control of standard logic level signal, can external detection resistance, variable quantity is fed back to pilot circuit, can drive two direct-current machine.
Principle of work of the present invention is as follows:
Referring to Fig. 1, Fig. 3, start the first solar tracking device 21 shown in Figure 1, hydro-pump 28 is started working under time variable control, realizes that by 24 work of hydraulic gyration dish swivel plate horizontally rotates, and realizes the adjustment of solar panel luffing angle by 17 work of the second hydraulic ram; Start the second solar tracking device 23 shown in Figure 1, by the 2 luffing angle adjustment of the first hydraulic ram 7 work realization response devices; The information exchange that the first solar tracking device 21, the second solar tracking device 23 gather is crossed by computational analysis, swivel plate 25 horizontally rotate the information priority that angle gathers with the second solar tracking device 23.
Referring to Fig. 2, sunlight is assembled through solar shield 1, enters convergent hole 34 by reactor window 51, through convex lens 41 sunlight is diffused into whole reactor inner chamber 45, and the light of reactor inner chamber 45 interior refractions is reflected back by flat mirror 42, has improved light utilization; Catalyst rings 39 is to be added circlewise by semiconductor materials such as high-efficiency photocatalysis material such as TiO2, ZnO, and a minute multilayer is installed in the reactor inner chamber 45, produces hydrogen to improve photochemical catalyzing; Magnetic is mixed son 49 and is played uniform stirring and anti-bumping; Be water coolant in the reactor exocoel 44, produce the hydrogen temperature needs according to photochemical catalyzing in the reactor, adjust cooling water flow.
Claims (10)
1. solar energy photocatalytic hydrogen production by water decomposition machine, comprise the upper end be equipped with solar shield (1) reactor (2), swivel plate (25), be contained in hydraulic gyration dish (24), solar panel (22) on the support (31), it is characterized in that, described reactor (2) is installed in swivel plate (25) one ends through the first mechanism for regulating elevation angle, and solar panel (22) is installed in swivel plate (25) the other end through the second mechanism for regulating elevation angle; Described solar shield (1) bottom is provided with reactor window (51), and solar shield (1) is provided with convergent hole (34) with reactor (2) junction, and convex lens (41) is equipped with in described convergent hole (34) below; Described reactor (2) comprises reactor inner chamber (45) and reactor exocoel (44), described convex lens (41) links to each other with reactor inner chamber (45) by flat mirror (42), and described reactor inner chamber (45) is communicated with reactor exocoel (44) by aerogenesis mouth (35), inlet mouth (40), opening for feed (43), the discharge port (48) on the reactor inner chamber (45); Described reactor exocoel (44) is provided with cooling water outlet (37) and cooling water intake (46), described cooling water outlet (37) is provided with cooling-water temperature sensor (36), and described cooling water intake (46) is provided with cooling water flow valve (47); Described reactor inner chamber (45) bottom is provided with magnetic and mixes son (49), and described reactor exocoel (46) bottom is fixed with magnetic and mixes device (50); Described reactor inner chamber (45) inwall is provided with catalyst rings (39); Be fixed with respectively solar tracking device (23,21) on described solar shield (1) and the solar panel (22); Be equipped with magnetic valve on described hydraulic gyration dish (24) and the cooling water flow valve (47); Described regulating mechanism is connected with hydro-pump (28) on the support (31); Described hydro-pump (28) is connected with hydrauliccapsule.
2. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 1, it is characterized in that, described the first mechanism for regulating elevation angle comprises the reactor column (7) that is fixed on swivel plate (25) one ends, the first hydraulic ram, the cylinder body of described the first hydraulic ram (8) is hinged with described reactor column (7) lower end or swivel plate (25), the piston rod of described the first hydraulic ram (6) upper end is hinged with the base (4) of described reactor (2), and described reactor column (7) is hinged with the seat of honour (5) of described reactor (2); Described the second mechanism for regulating elevation angle comprises solar panel column (18), the second hydraulic ram that is fixed on swivel plate (25) the other end, the cylinder body of described the second hydraulic ram (17) is hinged with described solar panel column (18) lower end or swivel plate (25), the piston rod of described the second hydraulic ram (3) upper end is hinged with the base (32) of described solar panel (22), and described solar panel column (18) upper end is hinged with the seat of honour (20) of described solar panel (22); Described the first hydraulic ram is provided with oil transportation mouth (11) and oil return opening (12), and described the second hydraulic ram is provided with oil transportation mouth (13) and oil return opening (14); On described the first hydraulic ram and the second hydraulic ram magnetic valve is installed all; Described oil return opening (12,14) is communicated with hydro-pump (28) by used oil pipe (26); Described oil transportation mouth (11,13) is communicated with hydro-pump (28) by transition pipeline (27).
3. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 2, its spy just is, described support (31) inside is provided with pilot circuit, described pilot circuit and solar tracking device (21,23), cooling-water temperature sensor (36), the hydrauliccapsule that hydro-pump (28) connects, magnetic valve on the hydraulic gyration dish (24), magnetic valve on the first hydraulic ram and the second hydraulic ram, magnetic valve on the cooling water flow valve (47), the motor of hydro-pump (28), magnetic valve on the transition pipeline (27), operating panel (30) on the support (31) connects.
4. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 1, its spy just is, described catalyst rings (39) is by TiO
2Or ZnO processes.
5. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 3, its spy just is, described pilot circuit comprises treater, computer, the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit, 24V power source circuit, hydraulic gyration dish driving circuit for electromagnetic valve, regulating mechanism driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit and Voltage stabilizing module; Described the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit are connected with computer, and computer is connected with treater, and treater is connected with Voltage stabilizing module is two-way; Treater is connected with hydraulic gyration dish driving circuit for electromagnetic valve, the first hydraulic ram driving circuit for electromagnetic valve, the second hydraulic ram driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit; Described 24V power source circuit is connected with the first solar tracking device driving circuit, the second solar tracking device driving circuit, cooling-water temperature sensor driving circuit, hydrauliccapsule driving circuit, hydraulic gyration dish driving circuit for electromagnetic valve, the first hydraulic ram driving circuit for electromagnetic valve, the second hydraulic ram driving circuit for electromagnetic valve, cooling water flow valve driving circuit for electromagnetic valve, hydraulic pump motor driving circuit.
6. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 5, its spy just is, and described treater is micro-chip, and the micro-chip model is C8051F020.
7. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 5, its spy just is, described Voltage stabilizing module adopts L4960 voltage stabilizing chip.
8. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 5, its spy just is, described the first solar tracking device driving circuit is identical with the second solar tracking device driving circuit structure, the first solar tracking device driving circuit comprises the resistance branch of the parallel connection that two line structures are identical, resistance branch is composed in series by three resistance, wherein the second resistance is photovaristor, and the 3rd resistance is adjustable resistance; Described resistance is 1000 Europe.
9. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 5, its spy just is, described cooling-water temperature sensor driving circuit adopts the HS00388 chip.
10. solar energy photocatalytic hydrogen production by water decomposition machine according to claim 5, its spy just is, described hydrauliccapsule driving circuit adopts the RCOK chip.
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Cited By (4)
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CN103359686A (en) * | 2013-07-15 | 2013-10-23 | 中盈长江国际新能源投资有限公司 | Light-catalyzed reaction system for collecting sunlight |
CN103523750A (en) * | 2013-09-27 | 2014-01-22 | 湖北洛克泰克仪器有限公司 | Reaction device and method for hydrogen production through photocatalytic water splitting |
CN105227124A (en) * | 2015-09-24 | 2016-01-06 | 苏州绿豆豆软件科技有限公司 | A kind of optically focused conveyer based on speculum and its implementation |
CN109936330A (en) * | 2017-12-18 | 2019-06-25 | 南京林业大学 | A kind of solar panel automatic adjusting mechanism and its adjusting method based on big data platform |
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CN101033058A (en) * | 2007-04-13 | 2007-09-12 | 西安交通大学 | Optical catalytic hydrogen production system by directly utilizing solar energy to decompose water |
CN101814862A (en) * | 2010-04-21 | 2010-08-25 | 天津工程师范学院 | Incident illumination intensity tracking device of photovoltaic battery |
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WO2007076067A2 (en) * | 2005-12-22 | 2007-07-05 | United Technologies Corporation | Concentrating catalytic hydrogen production system |
CN101033058A (en) * | 2007-04-13 | 2007-09-12 | 西安交通大学 | Optical catalytic hydrogen production system by directly utilizing solar energy to decompose water |
CN101814862A (en) * | 2010-04-21 | 2010-08-25 | 天津工程师范学院 | Incident illumination intensity tracking device of photovoltaic battery |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103359686A (en) * | 2013-07-15 | 2013-10-23 | 中盈长江国际新能源投资有限公司 | Light-catalyzed reaction system for collecting sunlight |
WO2015007130A1 (en) * | 2013-07-15 | 2015-01-22 | 中盈长江国际新能源投资有限公司 | Light-catalyzed reaction system by collecting sunlight |
EP3023387A4 (en) * | 2013-07-15 | 2017-01-04 | Zhongying Changjiang International New Energy Investment Co., Ltd | Light-catalyzed reaction system by collecting sunlight |
CN103523750A (en) * | 2013-09-27 | 2014-01-22 | 湖北洛克泰克仪器有限公司 | Reaction device and method for hydrogen production through photocatalytic water splitting |
CN103523750B (en) * | 2013-09-27 | 2015-04-01 | 湖北洛克泰克仪器有限公司 | Reaction device and method for hydrogen production through photocatalytic water splitting |
CN105227124A (en) * | 2015-09-24 | 2016-01-06 | 苏州绿豆豆软件科技有限公司 | A kind of optically focused conveyer based on speculum and its implementation |
CN105227124B (en) * | 2015-09-24 | 2018-02-16 | 苏州绿豆豆软件科技有限公司 | A kind of optically focused conveyer and its implementation based on speculum |
CN109936330A (en) * | 2017-12-18 | 2019-06-25 | 南京林业大学 | A kind of solar panel automatic adjusting mechanism and its adjusting method based on big data platform |
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Application publication date: 20130116 |