CN105605799A

CN105605799A - Photovoltaic power generation hot water system

Info

Publication number: CN105605799A
Application number: CN201511001792.5A
Authority: CN
Inventors: 马根昌
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-06-14
Filing date: 2014-06-14
Publication date: 2016-05-25
Also published as: CN104048421B; CN104048421A

Abstract

The invention provides a photovoltaic power generation hot water system which comprises a vacuum glass panel, a photovoltaic panel and a heat-insulating water collection cavity, wherein the heat-insulating water collection cavity adopts a flat box of which the front surface is open; the vacuum glass panel seals the open front surface of the heat-insulating water collection cavity, and comprises two glass layers; a vacuum layer is defined between the two glass layers; a photovoltaic panel is laid in the vacuum layer; the back surface of the photovoltaic panel is clung to the inner glass layer; the photovoltaic panel is electrically connected with an external charger and an external storage battery sequentially via conductive components; the heat-insulating water collection cavity is fully filled with water, and is communicated with a heat-insulating water tank through a water inlet pipe and a water outlet pipe; either the water inlet pipe or the water outlet pipe is communicated with a circulation pump in series. According to the photovoltaic power generation hot water system, two states of maximum generating efficiency and maximum hot water production efficiency can be switched flexibly, waste of solar energy can be avoided completely, and the comprehensive utilization efficiency of solar energy is improved greatly.

Description

Photovoltaic generation hot-water heating system

The application is that application number is: 201410263108X, name is called: the divisional application of the patent application of solar power generation and water supply integrated system.

Technical field

The present invention relates to solar facilities field, especially, relate to a kind of photovoltaic generation hot-water heating system.

Background technology

Along with the day of world energy sources is becoming tight, new energy technology has obtained development fast; Wherein, for solar facilities, form extensive industrialization, obtained well universal. But current solar facilities is confined to solar water heater and photovoltaic power generation apparatus; Wherein, solar water heater mainly relies on vacuum tube to carry out thermal-arrest, and hot water is enclosed in vacuum tube, carries out convection current heat conduction with the water body in water tank; Photovoltaic power generation apparatus is mainly formed by silicon wafer tiling, can be converted to electric energy by projecting its surperficial solar irradiation, still, in fact, light-the photoelectric transformation efficiency of photovoltaic panel is only 15% left and right, that is to say that the solar energy that major part is irradiated in photovoltaic panel is all wasted.

Consider the comprehensive utilization of solar energy, at present existing more design combines photovoltaic panel and vacuum tube, typically if application number is 201210213975.3, name is called solar energy composite and utilizes the patent application of system, its rear at solar energy vacuum tube array arranges photovoltaic panel, thereby the gap between the adjacent body from by solar energy vacuum tube array is leaked and collected to the solar energy at vacuum tube array rear, generate electricity; Like this, this system both can have been produced electric energy, can produce again hot water. Produce the solar energy system of hot water and electric energy for other, its structure is also that 201210213975.3 patent application is basic identical with this application number simultaneously, and only just the relative position of vacuum tube and photovoltaic panel is different. Like this, the problem of existence is, the system of this kind of version, or be that photovoltaic side has blocked vacuum tube, or be that vacuum tube has blocked photovoltaic panel causes us to maximize and febrile state switches between maximizing flexibly at generating state; And, because photovoltaic panel and vacuum tube remain separate, still cannot avoid the generating efficiency of photovoltaic panel, cause solar energy waste largely.

Summary of the invention

For the problems referred to above, the object of the present invention is to provide a kind of photovoltaic generation hot-water heating system, this system can be switched flexibly to generating efficiency maximization and this two states of heat production water maximizing efficiency state, and avoid the waste of solar energy completely, made solar energy composite utilization ratio obtain huge raising.

The present invention solves the first technical scheme that its technical problem adopts: this photovoltaic generation hot-water heating system comprises vacuum glass faceplate, photovoltaic panel, insulation collect cavity; It is uncovered flat box-like above that described insulation collect cavity is; Described vacuum glass faceplate is sealed on described insulation collect cavity uncovered above on; Described vacuum glass faceplate is made up of double glazing, is vacuum layer between double glazing; In described vacuum layer, tiling has described photovoltaic panel, and the inner layer glass of described double glazing is close at the back side of described photovoltaic panel; Described photovoltaic panel and outside charger, battery are electrically connected by conductive component order; In described insulation collect cavity, be full of water body, and be connected with attemperater by water inlet pipe, outlet pipe; In one in described water inlet pipe, outlet pipe, be serially connected with circulating pump.

As preferably, described photovoltaic panel adopts four jiaos all to have the silicon wafer of lead angle to be put together; The inner layer glass of described vacuum glass faceplate have hemispherical projections towards insulation collect cavity side array, the position of each described hemispherical projections is just right against the neutral gear central authorities that the lead angle of the silicon wafer adjacent by four surrounds; Like this, not only improve the heat exchange area of the water body of described inner layer glass and described insulation collect cavity inside; And, leak the illumination to photovoltaic panel rear from the lead angle neutral gear of each silicon wafer in described photovoltaic panel, by strong beam that each hemispherical projections pools, through the water body of insulation collect cavity inside, make the temperature of pencil water body of strong beam process apparently higher than the temperature of water body around, this makes each strong beam place all produce a local convection fast, thereby the water body drawing in whole insulation collect cavity carries out quick convection current, this has significantly promoted the various piece of the inner water body of insulation collect cavity for the infiltration rate of the heat on described inner layer glass plate.

As preferably, described circulating pump comprises an electrodeless variable-speed motor; The input of this electrodeless variable-speed motor connects an amplifying circuit, and the signal end of this amplifying circuit is coupled to a miniature photovoltaic sheet; Described miniature photovoltaic sheet and described photovoltaic panel be arranged in parallel; Like this, the real-time current value that this miniature photovoltaic sheet produces can direct proportion reflects the solar irradiation intensity of the unit are in described photovoltaic panel, thereby direct proportion reflects the real-time heating power of described photovoltaic panel, thereby automatically realize the real-time control of the input current to described electrodeless variable-speed motor, so that the circulation rate of circulating pump is adapted to the heat production speed in described insulation collect cavity, thereby the loss of having saved as much as possible circulating pump.

The present invention solves the second technical scheme that its technical problem adopts: this photovoltaic generation hot-water heating system comprises vacuum glass faceplate, photovoltaic panel, insulation collect cavity; It is uncovered flat box-like above that described insulation collect cavity is; Described vacuum glass faceplate is sealed on described insulation collect cavity uncovered above on; Described vacuum glass faceplate is made up of double glazing, is vacuum layer between double glazing; Described photovoltaic panel is arranged on insulation collect cavity inside, is parallel to vacuum glass faceplate; Described photovoltaic panel and outside charger, battery are electrically connected by conductive component order; The inner falling heat-transfer liquid of described insulation collect cavity; The water body of described heat-conducting liquid and attemperater inside is realized heat transmission by heat-exchange system.

As preferably, the anti-hydraulic gland of described photovoltaic panel outer wrap layer of transparent; Heat-conducting liquid in described insulation collect cavity is water, and described heat-exchange system comprises water inlet pipe and water outlet pipe and circulating pump, and the water body in insulation collect cavity and the water body in attemperater are realized heat transmission by convection current; This system architecture is simple, and cost is lower; Further, described photovoltaic panel is pressed close to the inner layer glass surface of described vacuum glass faceplate; And, one in described water inlet pipe and water outlet pipe is connected in a side that is incubated collect cavity, another root is connected in the opposite side of insulation collect cavity, and the line of water inlet pipe and outlet pipe deviates from a side of vacuum glass faceplate in photovoltaic panel, and goes into battle and show hemisphere jut in the baseplane of described heat-preservation heat-collection water cavity; Further, the size of each described hemisphere jut is different.

As preferably, the heat-conducting liquid in described insulation collect cavity is transparent conduction oil; Described heat-exchange system comprises and wriggling in insulation collect cavity inside and be connected to the heat exchanger tube of attemperater and be serially connected in the circulating pump in this heat exchanger tube; Described heat exchanger tube is one of following two kinds of structures: one is closed-loop path, inner encapsulation phase change medium, and this heat exchanger tube gos deep into attemperater inside, in the inner bending heat exchange path that forms of attemperater; It two is open loop, and two water flowing end is all connected with the water body in attemperater.

The beneficial effect of two kinds of technical schemes provided by the present invention is: this photovoltaic generation hot-water heating system in use, first be irradiated in photovoltaic panel by the solar energy that whole lighting surface gathered of system, can ensure that photovoltaic panel has maximized generating state; And under photovoltaic panel maximum generation state, only the solar energy of 15% left and right is converted to electric energy, and after-heat passes to the heat-conducting liquid directly or indirectly contacting with photovoltaic panel completely, and this after-heat is completely for promoting the water temperature in attemperater the most at last; As can be seen here, for above-mentioned system, under the situation of Electricity Generation, even can realize 100% the utilization rate of approaching of solar energy; In addition, only need hot water, and do not needing under the situation of generating, only need close the circuit between photovoltaic panel and charger, battery; Can make the luminous energy in photovoltaic panel cannot be converted to electric energy, finally can only pass to attemperater with heat energy form, thereby make hot water efficiency of supply reach maximization.

Brief description of the drawings

Fig. 1 is the side schematic view of the embodiment mono-of this photovoltaic generation hot-water heating system.

Fig. 2 is in embodiment mono-, the forward schematic diagram of photovoltaic panel and vacuum glass faceplate inner layer glass.

Fig. 3 is in embodiment mono-, and vacuum glass faceplate rear, corresponding to the thermal convection current schematic diagram of the water body of first spherical high spot of inner layer glass.

Fig. 4 is the side schematic view of the embodiment bis-of this photovoltaic generation hot-water heating system.

Fig. 5 is the side schematic view of the embodiment tri-of this photovoltaic generation hot-water heating system.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described:

Embodiment mono-:

Fig. 1～Fig. 3 is the embodiment mono-of this photovoltaic generation hot-water heating system, and this photovoltaic generation hot-water heating system comprises vacuum glass faceplate, photovoltaic panel 2, insulation collect cavity 3; It is uncovered flat box-like above that described insulation collect cavity 3 is, after for being covered with the baseplane 4 of insulation material (as expanded material); Described vacuum glass faceplate is sealed on described insulation collect cavity 3 uncovered above on; Described vacuum glass faceplate is made up of double glazing, i.e. glass outer 11 and inner layer glass 12 is vacuum layer between double glazing; In described vacuum layer, tiling has described photovoltaic panel 2, and the inner layer glass 12 of described double glazing is close at the back side of described photovoltaic panel 2; Described photovoltaic panel 2 is electrically connected by conductive component order with outside charger (not shown), battery (not shown); In described insulation collect cavity 3, be full of water body, and be connected with attemperater (not shown) by water inlet pipe 30, outlet pipe (not shown); In one in described water inlet pipe 30, outlet pipe, be serially connected with circulating pump.

In embodiment mono-, described photovoltaic panel 2 adopts four jiaos all to have the silicon wafer of lead angle to be put together; As shown in Figure 2, between the lead angle of each silicon wafer, surround a neutral gear 20, the inner layer glass 12 of described vacuum glass faceplate have hemispherical projections 120 towards insulation collect cavity side array, the position of each described hemispherical projections 120 as shown in Figure 2, is just right against neutral gear 20 central authorities that the lead angle of the silicon wafer adjacent by four surrounds; Like this, not only improve the heat exchange area of the water body of described inner layer glass 12 and described insulation collect cavity 3 inside; And, the illumination of leaking to photovoltaic panel 2 rears from the lead angle neutral gear 20 of each silicon wafer in described photovoltaic panel 2, by each hemispherical projections 120 strong beam that pools, through the water body of insulation collect cavity 3 inside, make the temperature of pencil water body of strong beam process apparently higher than the temperature of water body around, this makes each strong beam place all produce a local convection fast, as shown in Figure 3, straight dashed line arrow is depicted as strong beam direction, and curved arrow is depicted as water body heat to flow path direction;

Water body in the whole insulation collect cavity of the final traction of the quick convection current in each part carries out quick convection current, thereby has significantly promoted the various piece of insulation collect cavity 3 inner water bodys for the infiltration rate of the heat on described inner layer glass plate 12.

Embodiment bis-:

Fig. 4 is the embodiment bis-of this photovoltaic generation hot-water heating system, and in this embodiment, this photovoltaic generation hot-water heating system comprises vacuum glass faceplate 1, photovoltaic panel 2, insulation collect cavity 3; It is uncovered flat box-like above that described insulation collect cavity 3 is, described vacuum glass faceplate 1 is sealed on described insulation collect cavity 3 uncovered above on, insulation collect cavity 3 below for have Insulation baseplane 4, in the present embodiment two, also be made up of vacuum glass plane this baseplane 4, has good heat insulation effect; Described vacuum glass faceplate is made up of double glazing, is vacuum layer between double glazing; Described photovoltaic panel 2 is arranged on insulation collect cavity inside, is parallel to vacuum glass faceplate 1, the anti-hydraulic gland of photovoltaic panel 2 outer wrap layer of transparent; Described photovoltaic panel 2 is electrically connected by conductive component order with outside charger, battery; Described insulation collect cavity 3 inner filling waters, this insulation collect cavity 3 is connected with attemperater (not shown) by water inlet pipe and water outlet pipe 30,31 and circulating pump (not shown); This system architecture is simple, and cost is lower.

And, in this embodiment bis-, described photovoltaic panel 2 is pressed close to the inner layer glass surface of described vacuum glass faceplate 1, and it is pressed close to degree and is: photovoltaic panel 2 is 1mm～3mm with the spacing on inner layer glass surface, makes to form between photovoltaic panel 2 and inner layer glass surface the thin water layer of one deck; Described water inlet pipe 30 is connected in a side of insulation collect cavity 3, outlet pipe 31 is connected in the opposite side of insulation collect cavity 3, water inlet pipe 30 deviates from a side of vacuum glass faceplate 1 with the line of outlet pipe 31 in photovoltaic panel 2, and goes into battle and show hemisphere jut 40 in the baseplane 4 of described heat-preservation heat-collection water cavity; The effect of this hemisphere jut 40 is, when the circulating water body of insulation in collect cavity 3 is during from an effluent to opposite side, every through a hemisphere jut 40, just be changed flow direction one time with the shape of this hemisphere jut 40, that is by these hemisphere jut 40 disturbances once, thereby at the water body internal convection shown in the curve arrow shown in the interior formation Fig. 4 of insulation collect cavity 3, this impels the heat in photovoltaic panel 2 to be assigned in water body and to go fast and equably, has improved heat exchange efficiency.

Further, the size of each described hemisphere jut 40 is different, like this, can make to be incubated the more sinuous flow of the interior formation of collect cavity 3, further promotes heat exchange efficiency.

Embodiment tri-:

Fig. 5 is the embodiment tri-of this photovoltaic generation hot-water heating system, and wherein, this photovoltaic generation hot-water heating system comprises vacuum glass faceplate 1, photovoltaic panel 2, insulation collect cavity 3; It is uncovered flat box-like above that described insulation collect cavity 3 is, described vacuum glass faceplate 1 is sealed on described insulation collect cavity 3 uncovered above on, insulation collect cavity 3 below for have Insulation baseplane 4, in the present embodiment three, also be made up of vacuum glass plane this baseplane 4, has good heat insulation effect; Described vacuum glass faceplate is made up of double glazing, is vacuum layer between double glazing; Described photovoltaic panel 2 is arranged on insulation collect cavity inside, is parallel to vacuum glass faceplate 1; Described photovoltaic panel 2 is electrically connected by conductive component order with outside charger, battery; Described insulation collect cavity 3 inside are full of transparent conduction oil; Insulation collect cavity 3 inside are provided with one section of sinuous heat exchanger tube 5, and this heat exchanger tube 5 is connected to attemperater, and the circulating pump being serially connected with in this heat exchanger tube 5; One of described heat exchanger tube 5 is following two kinds of structures: one is closed-loop path, inner encapsulation phase change medium, and this heat exchanger tube gos deep into attemperater inside, in the inner bending heat exchange path that forms of attemperater; It two is open loop, and two water flowing end is all connected with the water body in attemperater.

The advantage of embodiment tri-is: one, photovoltaic panel 2 is without carrying out water-proofing treatment again, and electric leakage security is better; The heat transfer rate that two, can improve system by the speed of speed-raising circulating pump easily, because conduction oil is static with respect to photovoltaic panel 2 all the time, therefore, while significantly improving the circulation rate of circulating pump, destroy the structure compactness of photovoltaic panel 2 without considering that the liquid flow of insulation in collect cavity 3 is too fast.

In addition, for three above-mentioned embodiment, described circulating pump preferably adopts an electrodeless variable-speed motor; The input of this electrodeless variable-speed motor connects an amplifying circuit, and the signal end of this amplifying circuit is coupled to a miniature photovoltaic sheet; Described miniature photovoltaic sheet and described photovoltaic panel 2 be arranged in parallel; Like this, the real-time current value that this miniature photovoltaic sheet produces can direct proportion reflects the solar irradiation intensity of the unit are in described photovoltaic panel, thereby direct proportion reflects the real-time heating power of described photovoltaic panel, thereby automatically realize the real-time control of the input current to described electrodeless variable-speed motor, so that the circulation rate of circulating pump is adapted to the heat production speed in described insulation collect cavity, thereby the loss of having saved as much as possible circulating pump.

Photovoltaic generation hot-water heating system provided by the invention in use, is first irradiated in photovoltaic panel 2 by the solar energy that whole lighting surface gathered of system, can ensure that photovoltaic panel has maximized generating state; And under photovoltaic panel maximum generation state, only the solar energy of 15% left and right is converted to electric energy, and after-heat passes to the heat-conducting liquid directly or indirectly contacting with photovoltaic panel 2 completely, and this after-heat is completely for promoting the water temperature in attemperater the most at last; As can be seen here, for above-mentioned system, under the situation of Electricity Generation, even can realize 100% the utilization rate of approaching of solar energy; In addition, only need hot water, and do not needing under the situation of generating, only need close the circuit between photovoltaic panel and charger, battery; Can make the luminous energy in photovoltaic panel cannot be converted to electric energy, finally can only pass to attemperater with heat energy form, thereby make hot water efficiency of supply reach maximization.

The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims

1. a photovoltaic generation hot-water heating system, is characterized in that: this photovoltaic generation hot-water heating system comprises vacuum glass faceplate (1), photovoltaic panel (2), insulation collect cavity (3); It is uncovered flat box-like above that described insulation collect cavity (3) is; Described vacuum glass faceplate (1) is sealed on described insulation collect cavity (3) uncovered above on; Described vacuum glass faceplate is made up of double glazing, is vacuum layer between double glazing; Described photovoltaic panel (2) is arranged on insulation collect cavity (3) inside, is parallel to vacuum glass faceplate (1); Described photovoltaic panel (2) is electrically connected by conductive component order with outside charger, battery; The inner falling heat-transfer liquid of described insulation collect cavity (3); The water body of described heat-conducting liquid and attemperater inside is realized heat transmission by heat-exchange system.

2. photovoltaic generation hot-water heating system according to claim 1, is characterized in that: the anti-hydraulic gland of described photovoltaic panel (2) outer wrap layer of transparent; Heat-conducting liquid in described insulation collect cavity (3) is water, and described heat-exchange system comprises water inlet pipe and water outlet pipe and circulating pump, and the water body in insulation collect cavity and the water body in attemperater are realized heat transmission by convection current.

3. photovoltaic generation hot-water heating system according to claim 2, is characterized in that: described photovoltaic panel (2) is pressed close to the inner layer glass surface of described vacuum glass faceplate (1); And, one in described water inlet pipe and water outlet pipe is connected in a side that is incubated collect cavity (3), another root is connected in the opposite side of insulation collect cavity (3), the line of water inlet pipe and outlet pipe deviates from a side of vacuum glass faceplate (1) in photovoltaic panel (2), and the baseplane of described heat-preservation heat-collection water cavity (4) are gone into battle and shown hemisphere jut (40).

4. photovoltaic generation hot-water heating system according to claim 3, is characterized in that: the size of each described hemisphere jut (40) is different.

5. photovoltaic generation hot-water heating system according to claim 1, is characterized in that: the heat-conducting liquid in described insulation collect cavity (3) is transparent conduction oil; Described heat-exchange system comprises and wriggling in insulation collect cavity inside and be connected to the heat exchanger tube of attemperater and be serially connected in the circulating pump in this heat exchanger tube; Described heat exchanger tube is one of following two kinds of structures: one is closed-loop path, inner encapsulation phase change medium, and this heat exchanger tube gos deep into attemperater inside, in the inner bending heat exchange path that forms of attemperater; It two is open loop, and two water flowing end is all connected with the water body in attemperater.

6. photovoltaic generation hot-water heating system according to claim 1, is characterized in that: described circulating pump comprises an electrodeless variable-speed motor; The input of this electrodeless variable-speed motor connects an amplifying circuit, and the signal end of this amplifying circuit is coupled to a miniature photovoltaic sheet; Described miniature photovoltaic sheet and described photovoltaic panel (2) be arranged in parallel.