CN205837674U - A kind of photo-thermal power generation heat-insulation system - Google Patents

Abstract

This utility model relates to a kind of photo-thermal power generation heat-insulation system, including tank structure and conveyance conduit structure, described tank structure and conveyance conduit connect, described tank structure includes tank body, the outer surface of described tank body is coated with heat insulation layer successively, reflecting layer and nanoporous aerogel heat-insulation layer, the outer surface of described nanoporous aerogel heat-insulation layer is along the circumference of tank body, and the most abreast the nanoporous aerogel support bar that width is 1 3cm is set at interval of 0.5 1 meters, outside at described nanoporous aerogel support bar, it is provided for being coated with described nanoporous aerogel heat-insulation layer and the overcoat of nanoporous aerogel support bar, described nanoporous aerogel heat-insulation layer and described overcoat surround the cavity structure of closing, air heat insulating layer is formed in described cavity structure.This photo-thermal power generation heat-insulation system is simple, economical, efficient, practical, it is possible to provide convenient for solar light-heat power-generation further.

Description

A kind of photo-thermal power generation heat-insulation system

Technical field

This utility model relates to photo-thermal power generation technical field of energy storage, particularly relates to a kind of photo-thermal power generation heat-insulation system.

Background technology

Along with the exhaustion of traditional energy and going from bad to worse of environment, the mankind have to find new clean energy resource to replace passing The system energy is that people service.In new clean energy resource, solar energy receives the extensive pass of people due to widely distributed, rich reserves Note, the heat energy of solar energy accounts for more than the 60% of solar energy simultaneously, utilizes solar thermal energy to carry out generating and has great advantage； And photo-thermal power generation can direct output AC electric power, cost is low compared with photovoltaic generation, is more suitable for Electricity Generation；It addition, photo-thermal power generation Be also with storage tank has the energy-accumulating mediums such as the water of sunlight heat, conduction oil or fused salt to store, at overcast and rainy or night by absorption Between generate electricity.But, want under conditions of there is no solar radiation overcast and rainy night alive etc., it is ensured that solar energy thermal-power-generating system System continuously and stably exports electric energy, is necessary for keeping constant with the temperature of energy-accumulating medium in conveyance conduit in storage tank, and this is also work Cheng Shi needs the big problem solved.

Utility model content

The purpose of this utility model is to propose a kind of simple, economic, efficient, practical photo-thermal power generation heat-insulation system, energy Enough convenient for solar light-heat power-generation offer further.

For reaching this purpose, this utility model by the following technical solutions:

A kind of photo-thermal power generation heat-insulation system, including tank structure and conveyance conduit structure, described tank structure and conveying pipe Road connects, and described tank structure includes that tank body, the outer surface of described tank body are coated with heat insulation layer, reflecting layer and nanoporous aerogel successively Heat-insulation layer, the outer surface of described nanoporous aerogel heat-insulation layer is along the circumference of tank body, and the most abreast at interval of 0.5-1 Rice arranges the nanoporous aerogel support bar that width is 1-3cm, in the outside of described nanoporous aerogel support bar, is provided for Being coated with described nanoporous aerogel heat-insulation layer and the overcoat of nanoporous aerogel support bar, described nanoporous aerogel heat-insulation layer is with described Overcoat surrounds the cavity structure of closing, forms air heat insulating layer in described cavity structure.

Wherein, the outer surface of described nanoporous aerogel heat-insulation layer along the circumference of tank body, and the most every Every 0.8 meter, the nanoporous aerogel support bar that width is 2cm is set.

Wherein, if described heat insulation layer includes dried layer alumina silicate fibre layer and is wound in outermost described alumina silicate fibre layer Outside and helical iron wire layer, be provided for filling up the silicon in this gap at the gap between adjacent two layers alumina silicate fibre layer Acid aluminum fiber structure, the camber of described heat insulation layer outer surface is less than or equal to 5mm.

Wherein, described reflecting layer is bright finish aluminium foil or stainless steel foil.

Wherein, described overcoat is aluminum skin, stainless steel sheet| or zinc-coated spiral pipe.

Wherein, described conveyance conduit structure includes interior conduit and Outer Tube, said inner tube road and the end-enclosed of Outer Tube Connecting, said inner tube road and Outer Tube surround the cavity structure of closing, form vacuum layer in described cavity structure.

Wherein, the end of said inner tube road and Outer Tube is welded by flange closure.

Wherein, said inner tube road and Outer Tube are concentric pipe or non-concentric pipeline.

Wherein, the inwall of described Outer Tube arranges bright finish structure.

The beneficial effects of the utility model are: a kind of photo-thermal power generation heat-insulation system, including tank structure and conveyance conduit Structure, described tank structure and conveyance conduit connect, and described tank structure includes that tank body, the outer surface of described tank body are coated with successively Heat insulation layer, reflecting layer and nanoporous aerogel heat-insulation layer, the outer surface of described nanoporous aerogel heat-insulation layer along the circumference of tank body, and The most abreast the nanoporous aerogel support bar that one width is 1-3cm is set at interval of 0.5-1 rice, at described nanometer gas The outside of gel support bar, is provided for being coated with described nanoporous aerogel heat-insulation layer and the overcoat of nanoporous aerogel support bar, Described nanoporous aerogel heat-insulation layer and described overcoat form air thermal preservation in surrounding the cavity structure of closing, described cavity structure Layer.Nanoporous aerogel material has extremely low thermal conductivity, lower than the heat conductivity of air, compares Conventional insulation, nanometer The thickness of aeroge is only the half of the traditional material possessing identical heat retention, great economy.And nanoporous aerogel support bar Combinative prevention layer forms air heat insulating layer, and heat insulation effect is good.Visible, this photo-thermal power generation heat-insulation system, simple, economical, efficient, Practicality, and can provide convenient for solar light-heat power-generation further.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in this utility model embodiment, below will be to this utility model embodiment In description, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only that this practicality is new Some embodiments of type, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to root Other accompanying drawing is obtained according to the content of this utility model embodiment and these accompanying drawings.

Fig. 1 is the sectional view of the outer wall of the tank structure of the photo-thermal power generation heat-insulation system that this utility model embodiment provides.

Fig. 2 is the structural representation of the conveyance conduit structure of the photo-thermal power generation heat-insulation system that this utility model embodiment provides Figure.

Description of reference numerals is as follows:

1-tank body；2-heat insulation layer；3-reflecting layer；4-nanoporous aerogel heat-insulation layer；5-air heat insulating layer；

6-nanoporous aerogel support bar；7-overcoat；81-interior conduit；82-Outer Tube.

Detailed description of the invention

For making this utility model solve the technical problem that, the technical scheme that uses and the technique effect reached clearer, Below in conjunction with accompanying drawing, the technical scheme of this utility model embodiment is described in further detail, it is clear that described reality Executing example is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, The every other embodiment that those skilled in the art are obtained under not making creative work premise, broadly falls into this practicality new The scope of type protection.

Refer to Fig. 1, it is the outer wall of tank structure of the photo-thermal power generation heat-insulation system that this utility model embodiment provides Sectional view, this photo-thermal power generation heat-insulation system can be applicable to all kinds of solar light-heat power-generation and other heat accumulation equipments.

This photo-thermal power generation heat-insulation system, including tank structure and conveyance conduit structure, described tank structure and conveyance conduit Connecting, described tank structure includes that tank body 1, the outer surface of described tank body 1 are coated with heat insulation layer 2, reflecting layer 3 and nanometer airsetting successively Glue heat-insulation layer 4, the outer surface of described nanoporous aerogel heat-insulation layer 4 along the circumference of tank body 1, and the most abreast at interval of 0.5-1 rice arranges the nanoporous aerogel support bar 6 that width is 1-3cm, in the outside of described nanoporous aerogel support bar 6, It is provided for being coated with the overcoat 7 of described nanoporous aerogel heat-insulation layer 4 and nanoporous aerogel support bar 6, described nanoporous aerogel Heat-insulation layer 4 and described overcoat 7 form air heat insulating layer 5 in surrounding the cavity structure of closing, described cavity structure.

Nanoporous aerogel material has extremely low thermal conductivity, lower than the heat conductivity of air, compares Conventional insulation, The thickness of nanoporous aerogel is only the half of the traditional material possessing identical heat retention, great economy.And nanoporous aerogel props up Stay 6 combinative prevention layer 7 forms air heat insulating layer 5, and heat insulation effect is good.Visible, this photo-thermal power generation heat-insulation system, simple, warp Ji, efficient, practical, and can provide convenient for solar light-heat power-generation further.

The heat conductivity of nanoporous aerogel material is only 0.016W/ (m K), and heat-insulating property is good, and has super-hydrophobic Property, life-span length, resistance to compression, be easily installed maintenance, be prone to construction, easy cutting sew.

Due to reflecting layer 3 and the structure of nanoporous aerogel heat-insulation layer 4, in heat diffusion process, reflecting layer 3 is to heat spoke Penetrate and there is excellent reflection, reduce the consumption of heat.The special construction of nanoporous aerogel, can hinder in external environment condition low Temperature condenses the infiltration of water, thus extends the service life of nanoporous aerogel heat-insulation layer 4, and improves nanoporous aerogel heat-insulation layer 4 Insulation effect, extends the service life of photo-thermal power generation heat-insulation system effectively.

Wherein, the outer surface of described nanoporous aerogel heat-insulation layer 4 is along the circumference of tank body 1 and the most every It is spaced 0.8 meter and the nanoporous aerogel support bar 6 that width is 2cm is set.

It is demonstrated experimentally that arrange, at interval of 0.8 meter, the nanoporous aerogel support bar that width is 2cm the most abreast The design of 6, both can ensure that the heat insulation effect of radiation areas between adjacent nano aeroge support bar 6, it is also possible to as far as possible The materials saving nanoporous aerogel support bar 6, and the integrated level making tank structure overall is higher, and structure is simpler the most real Existing.

The air conduction coefficient of quiescent flow is between 0.023-0.027W/m K, it is possible to use air layer increases light The resistance of heat transfer of hot power generation and heat insulation system.The air layer closed not only has good insulation effect, and has good protection against the tide Performance.Generally, air layer is arranged in the low temperature side of photo-thermal power generation heat-insulation system by us, if being arranged in high temperature side, then The condensed water that the air-out layer low temperature side that must take appropriate measures is likely to occur.

Nanoporous aerogel heat-insulation layer 4 is used to add the mode that air heat insulating layer 5 is used in combination at tank body 1 outer surface to protect Temp effect is notable, and the cost of air heat insulating layer 5 is the lowest.

Wherein, if described heat insulation layer 2 includes dried layer alumina silicate fibre layer and is wound in outermost described alumina silicate fibre Outside Ceng and helical iron wire layer, it is provided for filling up this gap at the gap between adjacent two layers alumina silicate fibre layer Alumina silicate fibre structure, the camber of described heat insulation layer 2 outer surface is less than or equal to 5mm.

Alumina silicate fibre is again ceramic fibre, is a kind of New type of light refractory material, and this material has unit weight height light, resistance to Temperature, Heat stability is good, the advantages such as pyroconductivity is low, thermal capacitance is little, resistance to mechanical is vibrated, expanded by heating is little, heat-proof quality is good, through spy Different processing, can be made into the products such as aluminosilicate fiberboard, alumina silicate fiber felt, alumina silicate fibre rope, alumina silicate fibre blanket.Aluminium silicate Fibrous layer has the features such as thermostable heat-conductive coefficient is low, and service life is long, and tensile strength is big, good springiness, nontoxic, is to replace asbestos New material, be widely used in the insulation of the thermal hardware of metallurgy, electric power, machinery, chemical industry.

Heat insulation layer 2 uses binding method to construct, this binding method construction time, use multilamellar successively, with fault seam, ectonexine tooled joint Mode is laid, and ectonexine stitches the 100-200mm that staggers, and each layer carries out the process of levelling and tight seam, uses identical thermal insulation at gap It is tight that the chip of material carries out plug.After heat insulation layer 2 molding, outer surface should be round and smooth smooth, Local Convex concavity≤5mm.Heat insulation layer 2 is installed After Hao, heat insulation layer 2 is tied up by application iron wire, and the elasticity tied up wants moderate and firm, the surface of the heat insulation layer 2 after tying up Convex-concave degree≤5mm.

The material of nanoporous aerogel heat-insulation layer 4 is nanoporous aerogel felt, according to mode circumferentially overlapping, that axially flush around Wrap in outside reflecting layer 3.Circumferentially overlapping, mode that is that axially flush can improve the globality of nanoporous aerogel heat-insulation layer 4.

Wherein, described reflecting layer 3 is bright finish aluminium foil or stainless steel foil.

In general, aluminium foil is in the operation of rolling, and the one side of aluminium foil and roll contact is bright finish, and aluminium foil and another aluminium foil The one side of contact is dull surface.By the light of aluminium foil facing to heat insulation layer 2, more preferable reflecting effect can be played.

Wherein, described overcoat 7 is aluminum skin, stainless steel sheet| or zinc-coated spiral pipe.

The overcoat 7 of aluminum skin is attractive in appearance corrosion-resistant, and intensity is little, and being used in general thickness on heat insulation protecting layer is 1mm, and repeatable Utilize, good economy performance.

Refer to Fig. 2, it is the conveyance conduit structure of the photo-thermal power generation heat-insulation system that this utility model embodiment provides Structural representation.

Wherein, described conveyance conduit structure includes interior conduit 81 and Outer Tube 82, said inner tube road 81 and Outer Tube 82 End-enclosed connects, and said inner tube road 81 and Outer Tube 82 surround the cavity structure of closing, forms vacuum in described cavity structure Layer.

Described conveyance conduit structure uses double-skin duct design, it is preferable that add dedicated multi-layered in the interlayer of double-skin duct Heat insulation composite material also keeps high vacuum state, high insulating effect.

Wherein, the end of said inner tube road 81 and Outer Tube 82 is welded by flange closure.

Flange (Flange), again call orchid flange or bead, be interconnective between modal pipe and pipe Part, the connection between pipe end.Flange joint or bump joint, refer to be connected with each other by flange, pad and bolt three Releasable connection as one group of combined sealing structure.

Wherein, said inner tube road 81 and Outer Tube 82 are concentric pipe or non-concentric pipeline.

Preferably, said inner tube road 81 and Outer Tube 82 are concentric pipe.This structure makes interior conduit 81 and Outer Tube The heat of 82 is more evenly distributed, it is to avoid because the coefficient expanded with heat and contract with cold in local is different, cause quality conveyance conduit structure occur Problem, extends the service life of conveyance conduit structure.

Wherein, the inwall of described Outer Tube 82 arranges bright finish structure.

By the bright finish structure of described Outer Tube 82 towards interior conduit 81, it is possible to play more preferable reflecting effect.

Bright finish structure possesses and has reflection, plays prevention heat radiation, improves the heat insulation effect of whole conveyance conduit.

It should be noted that described bright finish structure is to use flexible metal flexible axle to be polished as carrier power polishing processes ?.Metal flexible axle is the flexible shaft (mandrel) by an internal transmission power and outer surface number layer metal steel wire integument Composition.Metal flexible axle can arbitrarily bend in the bending radius limited, and flexible axle entirety belongs to flexible shaft.The mandrel of metal flexible axle Transmit power by rotation, and the outer surface integument of metal flexible axle is geo-stationary.Two ends are with the gold of bearings Belong to flexible axle rotating speed when transmitting power and can reach 1200r/min.The advantage of this polishing processes is that transmission power is steady, and owing to being gold Belonging to the mandrel in flexible axle to rotate, flexible axle outer surface will not produce any vibration and centrifugal force, and polishing effect is good.

The photo-thermal power generation heat-insulation system that this utility model embodiment provides, it tank structure included is followed successively by from inside to outside Tank body 1 heat insulation layer 2 reflecting layer 3 nanoporous aerogel heat-insulation layer 4 nanoporous aerogel support bar 6 air heat insulating layer 5 Overcoat 7.The material of heat insulation layer 2 is alumina silicate fibre, this alumina silicate fibre use binding method construction, multilamellar successively, same to fault Seam, ectonexine tooled joint mode is laid, and each layer is carried out the process of levelling and tight seam, uses identical adiabator to fill at gap Sternly.Reflecting layer 3 is bright finish aluminium foil (plate) or stainless steel foil (plate), uses the construction of viscous note method to be placed in outside heat insulation layer 2, nanoporous aerogel The material of heat-insulation layer 4 is nanoporous aerogel felt, according to mode circumferentially overlapping, that axially flush around wrapping in outside reflecting layer 3.Described Nanoporous aerogel support bar 6 is circumferentially wound along tank body 1, and is fixed on outside nanoporous aerogel heat-insulation layer 4, nanoporous aerogel support bar The width of 6 is 1-3cm, the outermost of nanoporous aerogel layer heat-insulation layer, arranges one every 0.5-1 rice the most abreast and receives Rice aeroge support bar 6.Overcoat 7 is aluminum skin, stainless steel sheet| or zinc-coated spiral pipe, is arranged on nanoporous aerogel support bar 6 Forming cavity between outside, and nanoporous aerogel heat-insulation layer 4, this cavity is air heat insulating layer 5.Tank structure have employed nanometer The method that aeroge heat-insulation layer 4 is used in combination with air heat insulating layer 5, better heat preservation.Nanoporous aerogel heat-insulation layer 4 not with Tank body 1 is joined directly together, but is applied with heat insulation layer 2 and reflecting layer 3 between tank body 1 and nanoporous aerogel heat-insulation layer 4, improves The service life of nanoporous aerogel heat-insulation layer 4 and the heat insulation effect of tank body 1.

This utility model embodiment provides photo-thermal power generation heat-insulation system, and the conveyance conduit that it includes uses inside and outside double-skin duct Design, at the concentric or nonconcentric(al) Outer Tube 82 of one, interior conduit 81 overcoat, interior conduit 81 and Outer Tube 82 pass through flange welding Together, and carry out evacuation process by exporting to be connected with vacuum pump, to reduce, interior conduit 81 is carried out in warm Heat loss, reaches the insulation to conveyance conduit in preheating quick, uniform and system operation, prevents heat transfer thing in conveyance conduit There is solidification in matter.Electrode is set in the import and export position of conveyance conduit simultaneously, provides low-voltage, a high electric current for conveyance conduit Electric energy, interior conduit 81 is carried out electric energy heating, in preventing conveyance conduit, medium solidifies.Electrical heating voltage is not higher than 45V, Output electric current selects between 2-5kA according to the concrete condition of conveyance conduit.The inwall of Outer Tube 82 is processed by shot blasting, makes It possesses reflection, stops heat radiation, improves the heat insulation effect of whole conveyance conduit.Lead when rupturing occurs in interior conduit 81 simultaneously When cause heat transfer substance is excessive, the use of Outer Tube 82 can play effective safety protection function.

This utility model embodiment provide photo-thermal power generation heat-insulation system, the materials'use of nanoporous aerogel heat-insulation layer 4 be The felt that the nanoporous aerogel that heat conductivity is low supports, the outer surface at tank body 1 uses nanoporous aerogel heat-insulation layer 4 to add air and protects Being used in combination of temperature layer 5, conveyance conduit uses inside and outside twin flue, and evacuation processes.This photo-thermal power generation heat-insulation system, has anti- Solidify, stablize output power, improve the Practical significance such as efficiency of energy utilization.

This utility model embodiment provides a kind of simple, economic, efficient, practical photo-thermal power generation heat-insulation system, it is possible to enter One step ground provides convenient for solar light-heat power-generation.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to this reality By novel thought, the most all will change, this specification content should not be construed as To restriction of the present utility model.

Claims (9)

1. a photo-thermal power generation heat-insulation system, including tank structure and conveyance conduit structure, described tank structure and conveyance conduit Connect, it is characterised in that: described tank structure include tank body, the outer surface of described tank body be coated with successively heat insulation layer, reflecting layer and Nanoporous aerogel heat-insulation layer, the outer surface of described nanoporous aerogel heat-insulation layer is along the circumference of tank body, and the most abreast The nanoporous aerogel support bar that one width is 1-3cm is set at interval of 0.5-1 rice, outside described nanoporous aerogel support bar Side, is provided for being coated with described nanoporous aerogel heat-insulation layer and the overcoat of nanoporous aerogel support bar, described nanoporous aerogel Heat-insulation layer and described overcoat form air heat insulating layer in surrounding the cavity structure of closing, described cavity structure.

Photo-thermal power generation heat-insulation system the most according to claim 1, it is characterised in that outside described nanoporous aerogel heat-insulation layer Surface is along the circumference of tank body, and arranges, at interval of 0.8 meter, the nanoporous aerogel that width is 2cm the most abreast and prop up Stay.

Photo-thermal power generation heat-insulation system the most according to claim 1, it is characterised in that if described heat insulation layer includes dried layer silicic acid Aluminum fiber layer and outside being wound in outermost described alumina silicate fibre layer and helical iron wire layer, adjacent two layers aluminium silicate It is provided for filling up the alumina silicate fibre structure in this gap, the camber of described heat insulation layer outer surface at gap between fibrous layer Less than or equal to 5mm.

Photo-thermal power generation heat-insulation system the most according to claim 1, it is characterised in that described reflecting layer is bright finish aluminium foil or not Rust steel foil.

Photo-thermal power generation heat-insulation system the most according to claim 1, it is characterised in that described overcoat is aluminum skin, rustless steel Skin or zinc-coated spiral pipe.

Photo-thermal power generation heat-insulation system the most according to claim 1, it is characterised in that described conveyance conduit structure includes inner tube Road and Outer Tube, the end-enclosed of said inner tube road and Outer Tube connects, and said inner tube road and Outer Tube surround the cavity of closing Structure, forms vacuum layer in described cavity structure.

Photo-thermal power generation heat-insulation system the most according to claim 6, it is characterised in that said inner tube road and the end of Outer Tube Welded by flange closure.

Photo-thermal power generation heat-insulation system the most according to claim 6, it is characterised in that said inner tube road and Outer Tube are concentric Pipeline or non-concentric pipeline.

Photo-thermal power generation heat-insulation system the most according to claim 6, it is characterised in that the inwall of described Outer Tube arranges bright finish Structure.