CN104181937A - Solar energy photovoltaic and solar energy thermal current chimney generating integrated apparatus - Google Patents

Abstract

Disclosed is a solar energy photovoltaic and solar energy thermal current chimney generating integrated apparatus. A solar energy photovoltaic cell panel is utilized to partially or completely replace the glass of the top cover of the heat collector shed of a conventional solar energy thermal current power apparatus, such that air flow in a greenhouse can cool the back surface of the photovoltaic cell panel to enable the generating efficiency to be enhanced. At the same time, heat of the back surface of the cell panel is dissipated, such that the air flow penetrating into the heat collector shed can be heated, and such a combination can enable a photovoltaic battery to be effectively cooled and enable the generating efficiency to be remarkably improved; at the same time, the air flow in the heat collector shed can be heated, and thermal currents are formed for power generation, such that the efficiency of the whole power apparatus is improved; and since solar energy is efficiently utilized, the diameter of the heat collector shed can be reduced to a certain degree, and the land occupation area is decreased.

Description

A kind of photovoltaic, solar heat air-flow chimney generation integrating device

Technical field

The invention belongs to utilization of new energy resources field, be specifically related to a kind of a kind of photovoltaic, solar heat air-flow chimney generation integrating device that can efficiently utilize sun power.

Background technology

The ultimate principle of solar heat air-flow chimney generation is the air utilizing in solar energy heating thermal-arrest canopy, produce the temperature difference, cause air density change to cause convection current, thermal current is flowed out from chimney, therefore air heat is more severe, and density difference is larger, and chimney is higher, air current flow speed is larger, and generated energy is larger; The various arrangements of existing thermal current chimney generation are very poor to the heating effect of air-flow, cause generating efficiency very low, generally at 1-3%, cause up to the present also neither one thermal current chimney generation station process operation steady in a long-term of the whole world.The experimental power station of the first 50kW building up this of Hispanic Man Sana near, solar thermal collector diameter 240m, sun tower height 195m, diameter 10m.After successfully having moved 36 months between 1982-1986 in a strong wind tower blown down and fail so far to rebuild (recklessly set up one's own business, Solar Updraft Tower Power Plant. energy technology, 2006,26 volume supplementary issues, 91-93); Before 10 years, to build the thermal current chimney power station of 1000 meters of tower heights with regard to the legend southern NSW of Australia state, build up message but so far there are no, may be all low relevant with generating efficiency.However still have every year in a large number and deliver about thermal current chimney generation document, illustrate that the whole world is all at this generation mode of concern.But any breakthrough is all devoted in the scope of thermal current that finding improves one's methods and has been failed in research in the past.And solar energy power generating is as the solar utilization technique of industrialization, but cause the not high (Zhang Xiaoxia of generating efficiency because lacking heat dissipating method efficient and easy to implement, Hou Jingwei, Yin Panpan, Zhang Guo. the research of solar-energy photo-voltaic cell type of cooling under optically focused condition, Shenyang Building Univ.'s journal, 2008,24 (6): 1091-1098).

Summary of the invention

The object of the invention is to solve problems of the prior art, provide a kind of photovoltaic, solar heat air-flow chimney generation technology simultaneously utilized to improve the integrating device of overall generating efficiency.

For achieving the above object, the technical solution used in the present invention is: comprise thermal-arrest canopy bottom surface and be arranged on the thermal-arrest ceiling lid on thermal-arrest canopy bottom surface, between described thermal-arrest ceiling lid edge and thermal-arrest canopy bottom surface, leave gap, and cover and be provided with chimney at thermal-arrest ceiling, in the outlet of thermal-arrest canopy or chimney, be provided with generating fan, cover and be equipped with solar photovoltaic cell panel at thermal-arrest ceiling.

Described solar photovoltaic cell panel covers thermal-arrest ceiling lid edge; Described solar photovoltaic cell panel covers whole thermal-arrest ceiling lid; The described solar photovoltaic cell panel back side is with enhanced heat exchange element fin; Described thermal-arrest ceiling lid and thermal-arrest canopy bottom surface cover ground with 360 °; Described thermal-arrest ceiling lid and thermal-arrest canopy bottom surface cover ground with an a certain angle that is less than 360 °; Described thermal-arrest ceiling lid circumferentially closely joins together, or is divided into the sector region with spacing.

The present invention partly or entirely replaces the glass of the thermal-arrest ceiling lid of current thermal current chimney generator with the photovoltaic battery panel of the enhanced heat exchange elements such as back side band fin, air-flow in booth can cooling photovoltaic battery panel, its generating efficiency is increased, simultaneously the bottom surface of cell panel can heated air stream, form hot airflow power generation, the overall efficiency of whole device is improved.

Be combined with like this four obvious advantages:

(1) photovoltaic cell obtains effectively coolingly, and its generating efficiency can significantly rise;

(2) air-flow in booth is heated, and can be used for driving generating fan;

(3) under identical generated output, soil can be effectively utilized, and the thermal-arrest shed top surface upward photovoltaic battery panel of part is accepted sun power, produces electric energy, and thermal-arrest shed top surface down part is the radiating surface of photovoltaic cell, the air-flow in heating thermal-arrest canopy.The soil of an area is utilized by photovoltaic and two kinds of electricity-generating methods of thermal current chimney simultaneously;

(4) the present invention can improve solar panel generating efficiency effectively, improves efficiency and the reliability of propulsion system based on solar heat air-flow principle, and has that efficiency of energy utilization is high, advantages of simple structure and simple.

Brief description of the drawings

Fig. 1 is one-piece construction schematic diagram of the present invention.

Embodiment

Below in conjunction with accompanying drawing, structural principle of the present invention and principle of work are described in further detail.

Referring to Fig. 1, the present invention includes thermal-arrest canopy bottom surface 1 and be arranged on the thermal-arrest ceiling lid 3 on thermal-arrest canopy bottom surface 1, between thermal-arrest ceiling lid 3 edges and thermal-arrest canopy bottom surface 1, leave gap, and be provided with chimney 4 on thermal-arrest ceiling lid 3, in the outlet of thermal-arrest canopy or chimney 4, be provided with generating fan 5, on thermal-arrest ceiling lid 3 edges or whole thermal-arrest ceiling lid 3, be equipped with solar photovoltaic cell panel 2.At solar photovoltaic cell panel 2 back sides with enhanced heat exchange element fin 6.

Thermal-arrest ceiling lid 3 of the present invention and thermal-arrest canopy bottom surface 1 are with 360 ° or be less than a certain angle of 360 ° and cover ground, and thermal-arrest ceiling lid 3 circumferentially closely joins together, or are divided into the sector region with spacing, are beneficial to the cleaning on solar panel surface.

The present invention utilizes it to dispel the heat to heat the air-flow that enters thermal-arrest canopy by the solar photovoltaic cell panel 2 of laying with fin 6 on thermal-arrest ceiling lid 3, improves photovoltaic and hot airflow power generation efficiency simultaneously.

Solar radiation, through transparent thermal-arrest ceiling lid 3, is absorbed by thermal-arrest canopy bottom surface 1 heat-sink shell, and simultaneously due to greenhouse effect, thermal-arrest canopy can intercept the long-wave radiation that send on ground well.Entering in canopy air is subject to 1 heating of thermal-arrest canopy bottom surface and makes thermal-arrest canopy inner air and outer air temperature difference, produce density difference and cause convection current, hot-air constantly enters the chimney 4 at thermal-arrest canopy middle part, cold air outside canopy enters thermal-arrest canopy by the gap of surrounding, so just form the continuous flow that air in thermal-arrest canopy radially imports chimney, updraft in chimney 4 promotes generating fan 5 and rotates, thereby drives generator generating.Simultaneously, lay solar photovoltaic cell panel 2 at thermal-arrest ceiling lid 3 and under illumination, produce photovoltaic effect generation voltage, sun power is changed into electric energy, and a large amount of heat energy that solar photovoltaic cell panel 2 produces in this process are used to heat air-flow in thermal-arrest canopy, form hot airflow power generation.Because air-flow in thermal-arrest canopy siphons away the heat energy of solar photovoltaic cell panel 2, it is carried out to the cooling solar energy power generating efficiency that also makes and improve.

Reference literature (Haaf W, Friedrich K, Mayr G, Schlaich J.Solar chimneys.Part I:Principle and construction of the pilot plant in Manzanares.Int.J.Sust.Energy 1983:2:3-20.) digital simulation Spain experimental power station, all change the glass of thermal-arrest ceiling lid into solar panel, the generating efficiency of supposing solar photovoltaic cell panel is 15%, and solar irradiation intensity is 1000Wm ^-2time solar-energy photo-voltaic cell generated energy be $\mathrm{\π}\×{122}^2\left(m^2\right)\×1000\left(\frac{W}{m^2}\right)\×0.15\≈7.01\mathrm{MW};$ By Solar panel backside being added to strengthening heat exchange element, can make solar cell plate temperature reduce approximately 10 DEG C or more, solar panel generating efficiency is significantly promoted; Hot airflow power generation efficiency also can increase simultaneously, makes the generated output of whole device have the lifting of two orders of magnitude than the peak power (50kW) in pure thermal current chimney power station.Because the generated energy of thermal current is very little compared with photovoltaic power generation quantity, even if therefore generating fan is not set in chimney or booth, chimney only plays the effect of organizing air-flow, and the generated energy of photovoltaic cell is also significantly improved than the general photovoltaic battery panel generated energy under same area.

This technological synthesis utilizes the feature of photovoltaic, solar heat air-flow chimney generation, improves solar energy utilization ratio, and environmental protection save soil, and the reliable and stable life-span of equipment is long, installation and maintenance are easy, meets the trend of new forms of energy development.

Claims (7)

1. a photovoltaic, solar heat air-flow chimney generation integrating device, it is characterized in that: comprise thermal-arrest canopy bottom surface (1) and be arranged on the thermal-arrest ceiling lid (3) on thermal-arrest canopy bottom surface (1), between described thermal-arrest ceiling lid (3) edge and thermal-arrest canopy bottom surface (1), leave gap, and on thermal-arrest ceiling lid (3), be provided with chimney (4), in the outlet of thermal-arrest canopy or chimney (4), be provided with generating fan (5), on thermal-arrest ceiling lid (3), be equipped with solar photovoltaic cell panel (2).

2. photovoltaic according to claim 1, solar heat air-flow chimney generation integrating device, is characterized in that: described solar photovoltaic cell panel (2) covers thermal-arrest ceiling lid (3) edge.

3. photovoltaic according to claim 1, solar heat air-flow chimney generation integrating device, is characterized in that: described solar photovoltaic cell panel (2) covers whole thermal-arrest ceiling lid (3).

4. according to the photovoltaic described in claim 1,2 or 3, solar heat air-flow chimney generation integrating device, it is characterized in that: described solar photovoltaic cell panel (2) back side is with enhanced heat exchange element fin (6).

5. photovoltaic according to claim 1, solar heat air-flow chimney generation integrating device, is characterized in that: described thermal-arrest ceiling lid (3) and thermal-arrest canopy bottom surface (1) cover ground with 360 °.

6. photovoltaic according to claim 1, solar heat air-flow chimney generation integrating device, is characterized in that: described thermal-arrest ceiling lid (3) and thermal-arrest canopy bottom surface (1) cover ground with an a certain angle that is less than 360 °.

7. photovoltaic according to claim 1, solar heat air-flow chimney generation integrating device, is characterized in that: described thermal-arrest ceiling lid (3) circumferentially closely joins together, or is divided into the sector region with spacing.