CN102141301A - Pipe-cavity integrated disc solar heat receiver - Google Patents

Abstract

The invention relates to a pipe-cavity integrated disc solar heat receiver. An integrated structure of a heat absorption cavity and a heat exchanging pipeline is adopted, the cylindrical cavity is provided with two rows of pores to form a circulating pipeline of the gas; the heat exchanging gas flows in an air passage at a high speed and takes away the heat; two groups of the air passages are connected with two gas distribution/gas collection covers via a vent pipe respectively, and the gas distribution/gas collection covers play a role in distributing the gas and collecting the gas alternately during the continuous operation of a system. The inlet of the heat absorption cavity is provided with an annular diffuse reflector, and the bottom of the heat absorption cavity is provided with a diffuse reflecting cone to reduce the radiation heat loss of the heat absorption cavity. The invention solves the thermal fatigue problem generally existent in the conventional direct receiver compared with the past direct solar heat receiver. The receiver has a more compact structure and a longer service life; meanwhile the system has the advantages of small air resistance, good air-tightness, high heat exchanging efficiency and the like, so the overall operation efficiency and the stability of the disc system are facilitated.

Description

The integrated disc type solar energy hot receiver of tube chamber

Technical field

The present invention relates to the solar heat receiver, relate in particular to the integrated disc type solar energy hot receiver of a kind of tube chamber.

Background technology

Along with energy crisis and problem of environmental pollution are serious day by day, people press for the alternative energy source of seeking cleaning, and solar energy is widely distributed on earth, and the solar energy thermal-power-generating technology is considered to the clean energy technology of potentialization.Dish formula-Stirling solar heat generating is the highest a kind of mode of photoelectric transformation efficiency in the solar energy thermal-power-generating technology, it gathers solar radiation in the hot receiver by paraboloid of revolution dish concentrator, and receiver is realized the conversion of solar energy to electrical by the Stirling thermo-motor after with energy absorption.The power of general solar energy Stirling engine is all less relatively, is suitable for the distributed energy utilization, also possesses and unites the potentiality of generating electricity by way of merging two or more grid systems on a large scale.In addition, they can also be designed to the heat of mixing origin system of fuel and solar concentrator, can not replace sunshine to continue generating with fossil fuel or biomass fuel when having sunlight.

The disc type solar energy heat generating system comprises critical pieces such as concentrator, receiver, hot machine, support, tracking control system.During system works, concentrator on hot receiver and be converted into heat energy, absorbs the heat energy that sunshine is transformed with the solar radiation reflect focalization when working media of hot machine is flowed through receiver, medium temperature is raise, can promote hot machine running, drive generator for electricity generation.

Recipient is the core component of photo-thermal conversion, and the receiver of disc type solar energy heat generating system has two types: directly reception type and indirect reception type.Receiver refers generally to the heat pipe-type receiver indirectly, adopts liquid alkali metal to transmit the high density hot-fluid as middle heat catalysis, still is in the experimental study stage at present, has many problems to wait to solve; And existing dish formula-Stirling heat generating system generally adopts is direct recipient, because modern efficient Stirling starts general circulating pressure all very high (about 20MPa), the flow velocity of working medium in heat exchanger tube is also very fast, so can realize very high reception heat flow density (about 75W/cm ²).Directly receiver architecture is simple relatively, but because there is very significantly unstability in solar radiation, add the optically focused precision problem of condenser itself, often cause directly receiving heat exchanger tube and have serious temperature uneven phenomenon, and then caused such as a series of problems such as heat fatigue, oxidation, service lifes.

It is even that the hot receiver of a function admirable should have heat flux distribution, efficiency of transmission height, characteristics such as long service life.The quality of hot receiver performance is one of key factor that can the decision whole system good operation.Traditional direct receiver often adopts heating tube crooked formation heat-absorbent surface or cavity, is easy to occur local damage or gas leakage, causes system high to material requirements, and cost raises greatly.Also attempt having developed the direct receiver of a small amount of other types both at home and abroad, improved the reliability of receiver, but compare its vapour lock of traditional tubular type direct heater and become big, air-tightness also is difficult to guarantee, therefore operational efficiency to Stirling-electric hybrid has very big influence, designs a kind of heat flux distribution relatively evenly and vapour lock is less, can ensure that bubble-tight hot receiver has crucial meaning for the disc type solar energy heat generating system simultaneously.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, provide a kind of tube chamber integrated disc type solar energy hot receiver.

The integrated disc type solar energy hot receiver of tube chamber comprises interior breather pipe, first distribution/gas collection lid, outer air vent, the second distribution gas collection lid, aluminum alloy casing, is connected and fixed plate, high-temperature-resistant thermal-insulation layer, annular diffuse reflector, high temperature resistant quartz glass, cylindrical cavity, screw, intercommunicating pore, interior circulation road, outer shroud runner, heat-absorbing chamber and diffuse reflection cone; The annular diffuse reflector links closely with the cylindrical cavity top and links to each other, the bottom of cylindrical cavity is provided with a diffuse reflection cone, the diffuse reflection cone is fixed on four by screw and is connected and fixed on the plate, four are connected and fixed plate along the circumferential cylindrical cavity inwall that evenly is welded in, the annular diffuse reflector, cylindrical cavity and diffuse reflection cone all are covered with the high-temperature-resistant thermal-insulation layer outward, the high-temperature-resistant thermal-insulation layer outward again the metallized aluminum alloy shell fixed, circulation road and outer shroud runner in being provided with in the cylindrical cavity, interior circulation road and outer shroud runner are arranged some groups respectively vertically, be provided with intercommunicating pore in interior circulation road and outer shroud runner bottom, intercommunicating pore upper end is by adding cartridge screw and sealing ring seals, interior circulation road links to each other with first distribution/gas collection lid by the interior breather pipe of cylindrical cavity bottom, the outer shroud runner links to each other with second distribution/gas collection lid by the outer air vent of cylindrical cavity bottom, outer air vent links to each other with second distribution/gas collection lid, interior breather pipe links to each other with first distribution/gas collection lid, first distribution/gas collection lid links to each other with the Stirling-electric hybrid expansion chamber, and second distribution/gas collection lid links to each other with the Stirling-electric hybrid regenerator.

The width of cylindrical cavity is 13-40mm, and interior circulation road axis is 3-8mm apart from cylindrical cavity bottom surface distance, and the distance between outer shroud runner and the interior circulation road axis is 4-15mm;

Described cylindrical cavity, be connected and fixed plate and screw all adopts high-temperature alloy material 1Cr18Ni9Ti, annular diffuse reflector and diffuse reflection cone all adopt ceramic material, its side near heat-absorbing chamber is high diffuse reflectance surface, high temperature resistant quartz glass adopts high light line penetrance material, and the cylindrical cavity internal face applies high temperature resistant radiation absorption coating.

The main effect of described diffuse reflection cone is that the focused ray that will incide cavity central authorities is delivered to cylindrical cavity by irreflexive mode, and the main effect of annular diffuse reflector is the radiation loss that reduces cavity.

High temperature resistant quartz glass mainly contains two effects: (1) focused ray import; (2) heat convection of restriction cavity and external environment reduces thermal loss.

The present invention compared with prior art has following beneficial effect:

(1) adopt the method for holing on the heat absorption cavity to constitute the circulation duct of Stirling working medium, realize the integrated of heat absorption cavity and working medium circulation duct, structure is very compact; Two distribution/gas collections cover the breather pipe excuse and evenly arrange, can realize even distribution, circumferential more uniform temperature when making cylindrical cavity work can solve the heat fatigue problem of receiver in the past effectively, and lifetime of system is longer.

(2) working medium cross section of fluid channel area equates, the gas communication vapour lock is little, and whole unhelpful volume is little, and the pressure loss when reducing the gas heating has effectively strengthened the internal efficiency of Stirling-electric hybrid.The layout that interior circulation road adds the outer shroud runner can effectively increase the heat exchange area of gas, and bottom surface, interior circulation road is apart from cylinder cavity inner wall face 3mm only, and thermal resistance is very little, can realize high efficient heat exchanging, makes gas be heated to higher temperature.

(3) former and later two diffuse reflectors of cavity the radiation heat loss that can reduce cavity effectively is set, totally enclosed heat absorption cavity can reduce the convection heat losses effectively, the integral solar absorptivity of system is higher.

Description of drawings

Fig. 1 is the structural representation of the integrated disc type solar energy hot receiver of tube chamber;

Fig. 2 is the left view of the integrated disc type solar energy hot receiver of tube chamber;

Fig. 3 is that enlarged drawing (3:1) is looked on the right side of first distribution among Fig. 1/gas collection lid and second distribution/gas collection lid;

Among the figure: breather pipe 1, first distribution/gas collection lid 2, outer air vent 3, second distribution gas collection lid 4, aluminum alloy casing 5, be connected and fixed plate 6, high-temperature-resistant thermal-insulation layer 7, annular diffuse reflector 8, high temperature resistant quartz glass 9, cylindrical cavity 10, screw 11, intercommunicating pore 12, interior circulation road 13, outer shroud runner 14, heat-absorbing chamber 15, diffuse reflection cone 16.

The specific embodiment

As shown in Figure 1, the integrated disc type solar energy hot receiver of tube chamber comprises interior breather pipe 1, first distribution/gas collection lid 2, outer air vent 3, second distribution gas collection lid 4, aluminum alloy casing 5, is connected and fixed plate 6, high-temperature-resistant thermal-insulation layer 7, annular diffuse reflector 8, high temperature resistant quartz glass 9, cylindrical cavity 10, screw 11, intercommunicating pore 12, interior circulation road 13, outer shroud runner 14, heat-absorbing chamber 15 and diffuse reflection cone 16; Annular diffuse reflector 8 links closely with cylindrical cavity 10 tops and links to each other, the bottom of cylindrical cavity 10 is provided with a diffuse reflection cone 16, diffuse reflection cone 16 is fixed on four by screw and is connected and fixed on the plate 6, four are connected and fixed plate 6 along circumferential cylindrical cavity 10 inwalls that evenly are welded in, annular diffuse reflector 8, cylindrical cavity 10 and the diffuse reflection cone 16 outer high-temperature-resistant thermal-insulation layers 7 that all are covered with, high-temperature-resistant thermal-insulation layer 7 outer metallized aluminum alloy shell 5 are again fixed, circulation road 13 and outer shroud runner 14 in being provided with in the cylindrical cavity 10, interior circulation road 13 and outer shroud runner 14 are arranged some groups respectively vertically, be provided with intercommunicating pore 12 in interior circulation road 13 and outer shroud runner 14 bottoms, intercommunicating pore 12 upper ends are by adding the sealing of cartridge screw 11 and sealing ring, interior circulation road 13 links to each other with first distribution/gas collection lid 2 by the interior breather pipe 1 of cylindrical cavity 10 bottoms, outer shroud runner 14 links to each other with second distribution/gas collection lid 4 by the outer air vent 3 of cylindrical cavity 10 bottoms, outer air vent 3 is connected with second distribution/gas collection lid 4, interior breather pipe 1 links to each other with first distribution/gas collection lid 2, first distribution/gas collection lid 2 links to each other with the Stirling-electric hybrid expansion chamber, and second distribution/gas collection covers 4 and links to each other with the Stirling-electric hybrid regenerator.

The width of described cylindrical cavity 10 is 13-40mm, and interior circulation road 13 axis are 3-8mm apart from cylindrical cavity 10 bottom surfaces distance, and the distance between outer shroud runner 14 and interior circulation road 13 axis is 4-15mm;

Described cylindrical cavity 10, be connected and fixed plate 6 and screw 11 all adopts high-temperature alloy material 1Cr18Ni9Ti, annular diffuse reflector 8 and diffuse reflection cone 16 all adopt ceramic material, high temperature resistant quartz glass 9 adopts high light line penetrance material, and cylindrical cavity 10 internal faces apply high temperature resistant radiation absorption coating.

The main effect of diffuse reflection cone 16 is that the focused ray that will incide cavity central authorities is delivered to cylindrical cavity 10 by irreflexive mode, and the main effect of annular diffuse reflector 8 is the radiation losses that reduce cavity.

High temperature resistant quartz glass 9 mainly contains two effects: 1 focused ray import; The heat convection of 2 restriction cavitys and external environment reduces thermal loss.

The course of work of the present invention is as follows:

Sunray is focused on by dish rotation parabolic minute surface, and focused ray passes high temperature resistant quartz glass and enters heat-absorbing chamber, and about 25% emittance incides on the diffuse reflection cone and by its diffuse reflection.Because the radiation and the convection losses of cavity are all very little, the energy overwhelming majority of focused ray is directly absorbed by cylindrical cavity or the diffuse reflection by diffuse reflector is absorbed by secondary again.The cylindrical cavity internal face absorb focused radiation can after be translated into heat energy, circulation road and outer shroud runner wall in heat energy is passed to by heat conducting mode, the gas flow at high speed is also taken away its heat.When Stirling-electric hybrid gas when regenerator enters expansion chamber, first distribution/gas collection is built the gas collection effect, second distribution/gas collection is built the distribution effect, gas evenly enters outer air vent from second distribution/gas collection lid, flow through successively subsequently outer shroud runner, intercommunicating pore and interior circulation road, the absorbing cavity body heat content raises gas temperature simultaneously, and high temperature and high pressure gas enters first distribution/gas collection lid through outer air vent again, enters the acting of Stirling engine expansion chamber at last.When Stirling-electric hybrid gas when expansion chamber flows back to regenerator, first distribution/gas collection is built the distribution effect, second distribution/gas collection is built the gas collection effect, the gas flow process is with aforementioned opposite.When total system moved continuously, gas flowed in runner repeatedly, can realize focusing on the efficient absorption and the utilization of solar radiant energy.

Claims (3)

1. the integrated disc type solar energy hot receiver of tube chamber is characterized in that comprising interior breather pipe (1), first distribution/gas collection lid (2), outer air vent (3), second distribution gas collection lid (4), aluminum alloy casing (5), is connected and fixed plate (6), high-temperature-resistant thermal-insulation layer (7), annular diffuse reflector (8), high temperature resistant quartz glass (9), cylindrical cavity (10), screw (11), intercommunicating pore (12), interior circulation road (13), outer shroud runner (14), heat-absorbing chamber (15) and diffuse reflection cone (16); Annular diffuse reflector (8) links closely with cylindrical cavity (10) top and links to each other, the bottom of cylindrical cavity (10) is provided with a diffuse reflection cone (16), diffuse reflection cone (16) is fixed on four by screw and is connected and fixed on the plate (6), four are connected and fixed plate (6) along circumferential cylindrical cavity (10) inwall that evenly is welded in, annular diffuse reflector (8), the outer high-temperature-resistant thermal-insulation layer (7) that all is covered with of cylindrical cavity (10) and diffuse reflection cone (16), the outer metallized aluminum alloy shell (5) again of high-temperature-resistant thermal-insulation layer (7) is fixed, circulation road (13) and outer shroud runner (14) in being provided with in the cylindrical cavity (10), interior circulation road (13) and outer shroud runner (14) are arranged some groups respectively vertically, be provided with intercommunicating pore (12) in interior circulation road (13) and outer shroud runner (14) bottom, intercommunicating pore (12) upper end seals by adding cartridge screw (11) and sealing ring, interior circulation road (13) links to each other with first distribution/gas collection lid (2) by the interior breather pipe (1) of cylindrical cavity (10) bottom, outer shroud runner (14) links to each other with second distribution/gas collection lid (4) by the outer air vent (3) of cylindrical cavity (10) bottom, outer air vent (3) links to each other with second distribution/gas collection lid (4), interior breather pipe (1) links to each other with first distribution/gas collection lid (2), first distribution/gas collection lid (2) is connected with the Stirling-electric hybrid expansion chamber, and second distribution/gas collection lid (4) links to each other with the Stirling-electric hybrid regenerator.

2. the integrated disc type solar energy hot receiver of a kind of tube chamber according to claim 1, the width that it is characterized in that described cylindrical cavity (10) is 13-40mm, interior circulation road (13) axis is 3-8mm apart from cylindrical cavity (10) bottom surface distance, and the distance between outer shroud runner (14) and interior circulation road (13) axis is 4-15mm.

3. the integrated disc type solar energy hot receiver of a kind of tube chamber according to claim 1, it is characterized in that described cylindrical cavity (10), be connected and fixed plate (6) and screw (11) all adopts high-temperature alloy material 1Cr18Ni9Ti, annular diffuse reflector (8) and diffuse reflection cone (16) all adopt ceramic material, high temperature resistant quartz glass (9) adopts high light line penetrance material, and cylindrical cavity (10) internal face applies high temperature resistant radiation absorption coating.

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