CN106194615A - Solar steam heat and power system - Google Patents

Abstract

The present invention provides a kind of solar steam heat and power system, belongs to field of generating equipment, pushes back device including solar energy collecting assembly, high-pressure water heating boiler, steam rotatory force device, electromotor, steam heat abstractor and high-temperature water；High-pressure water heating boiler is positioned at the energy outfan of solar energy collecting assembly；Steam rotatory force device is provided with high-pressure steam input, clutch end and Low pressure steam outfan, and high-pressure steam input is connected with high-pressure water heating boiler；Electromotor is connected with clutch end；Steam heat abstractor is connected with Low pressure steam outfan；High-temperature water pushes back device and is back in high-pressure water heating boiler by high temperature liquid water.The solar steam heat and power system that the present invention provides, after the steam of high pressure has done work, steam heat abstractor reduces arrival critical point low-pressure steam temperature, Low Temperature Steam is condensed into high-temperature-hot-water, it is back in high-pressure water heating boiler, the interior energy of steam can be made full use of, improve light energy conversion efficiency further.

Description

Solar steam heat and power system

Technical field

The present invention relates to field of generating equipment, particularly relate to a kind of solar steam heat and power system.

Background technology

Along with expanding economy, the progress of society, clean energy resource has become as certainty and social consensus.Occur now The various electric device relying on solar electrical energy generation, such as solar panel class electricity generation system, thermal-arrest solar heat fused salt Heat storage type electricity generation system, solar energy Stirling formula electricity generation system, tower large-sized solar electricity generation system etc., current all kinds of solar energys The feature directions such as system is increasingly higher towards generating efficiency, with low cost, safe and efficient, length in service life are developed.

Current solar power system is respectively arranged with pluses and minuses, such as: photovoltaic generation transformation efficiency is the lowest, and in manufacture process Seriously polluted, unit cost of electricity-generating is higher；Solar energy Stirling technology is not the most ripe at present, and Stirling engine needs Sunlight to be focused on reaches the highest temperature (700 °) and could run, and electricity conversion is not the highest；Solar heat fused salt Heat storage type electricity generation system transformation efficiency is the lowest.

Solar energy Stirling electricity generation system is increasingly paid attention to by people now, and development in recent years is faster, the sun Energy Stirling generation technology odds ratio is more apparent: one is desert and the Gobi Region adapting to sunshine-duration length, and this is with China too Sun can match in resource reserve distribution；Two is that the thermal efficiency is the highest；Three is its compact conformation, easy for installation, but generation current effect The peak value of rate is 30%, and script Stirling engine thermal loss is exactly 2～3 times of internal combustion engine, therefore, from invention in 1816 years Since do not widelyd popularize.

And it is known that the efficiency of solar water heater is the pattern that current light energy conversion efficiency is the highest, therefore, if sharp Realizing generating by hot water and steam system, its solar energy utilization ratio can be higher.And if using aforementioned heat exchange radiator mistake The side-product hot water that journey produces can also be supplied to resident living and use, and Solar use efficiency improves further.

Summary of the invention

It is an object of the invention to provide one utilizes solar energy heating to produce steam, utilizes steam acting generating High efficiency electricity generation system.

For achieving the above object, the present invention provides a kind of solar steam heat and power system, including:

For collecting solar energy and improving the solar energy collecting assembly of its energy density；

For aqueous water is processed into the high-pressure water heating boiler of high-pressure steam, described high-pressure water heating boiler is positioned at solar energy The energy outfan of collection assembly；

For the pressure of high-pressure steam is converted into the steam rotatory force device of power, described steam rotatory force device sets There are high-pressure steam input, clutch end and Low pressure steam outfan, described high-pressure steam input and high pressure Hot-water boiler connects；

For converting kinetic energy into the electromotor of electric energy, described electromotor connects with the clutch end of steam rotatory force device Connect；

For for Low pressure steam heat radiation so that it becomes the steam heat abstractor of high temperature liquid water, described steam heat abstractor It is connected with the Low pressure steam outfan of steam rotatory force device；

High-temperature water pushes back device, and described high-temperature water pushes back one end of device and is connected with steam heat abstractor, and the other end is with high Warm water's boiler connects, to be back in high-pressure water heating boiler by high temperature liquid water.

Further, described solar energy collecting assembly includes:

Fixed pedestal, described fixed pedestal is fixedly mounted in desired location；

Motion bar, described motion bar is flexibly connected with fixed pedestal, and motion bar can rotate around fixed pedestal；

Butterfly condenser, described butterfly condenser is arranged on motion bar, butterfly condenser by solar energy collecting to high pressure Hot-water boiler；

Sun tracker, described sun tracker sensing sunlight orientation is electrically connected with power set, instruction power dress Put and make action with sun different azimuth；

Power set, on the one hand described power set are electrically connected with sun tracker, on the other hand drive with motion bar Connect, with according to sun tracker the signal of telecommunication drive motion bar rotate so that adjust butterfly condenser towards.

Further, the bottom surface of described high-pressure water heating boiler is downward projection of arcwall face or plane, described high-pressure boiler Scribble nano-sized carbon energy-absorbing coating on bottom surface, inside boiler bottom, be provided with corrosion-inhibiting coating.

Further, the bottom surface of described high-pressure water heating boiler is provided with quartz glass cover, described quartz glass cover and high pressure Vacuum layer is constituted between the bottom surface of hot-water boiler.

Further, described high-pressure water heating boiler other faces in addition to bottom surface are provided with insulation material layer and adiabatic cylinder Layer.

Further, the end face of described high-pressure water heating boiler has been provided with the steam trap of steam centrifugation, described steam trap It is connected with the high-pressure steam input of steam rotatory force device.

Further, described steam rotatory force device includes cylinder, piston, bent axle and flywheel；Described hot high pressure kettle Stove is connected with cylinder, the axially-movable in cylinder of described piston, and described piston is mechanically connected with bent axle, and described bent axle is solid with flywheel Fixed connection, described flywheel is fixing with electromotor to be connected.

Further, described steam heat abstractor: include multiple fin, each fin is by being used for low setting-out steaming of circulating The tube of gas and the tabs for dispelling the heat are constituted, and described tabs is fixed on the outside of tube；

One end of the tube of each fin is by the Low pressure steam of piston type regulating valve with steam rotatory force device Outfan connects, and the other end pushes back device with high-temperature water and is connected.

Further, described steam heat abstractor: include cylinder, radiator coil tube and radiator fan；Described radiator coil tube is pacified Being contained in cylinder, one end of described radiator coil tube is connected with the Low pressure steam outfan of steam rotatory force device, the other end with High-temperature water pushes back device and connects；Described radiator fan is arranged on one end of cylinder, its air-out direction alignment radiator coil tube.

Further, described steam heat abstractor includes heat exchanger coil, water pump and flow speed controller；

Described heat exchanger coil is arranged in couveuse, fills insulation material, heat exchange dish between heat exchanger coil space Pipe is double wall casing, and the inside tube of double wall casing is jet chimney, and described jet chimney one end is low with steam rotatory force device Setting-out steam outfan connects, and the other end pushes back device with high-temperature water and is connected；

Double wall casing outboard tube be provided with water inlet, outlet, water inlet connects cold water, and outlet connects warm water and stores Tank；

Described flow speed controller is electrically connected with water pump, to be controlled the size of current by water pump；

Further, described high-temperature water pushes back device and is connected with the outlet of heat exchanger coil, and high-temperature-hot-water is pushed back pot Stove.

Compared to prior art, the solar steam heat and power system that the present invention provides, utilize solar energy collecting collect components Solar energy, and by solar energy collecting to high pressure hot-water boiler, the water in high-pressure water heating boiler is heated and produces High Temperature High Pressure Steam, is converted into kinetic energy by steam at steam rotatory force device, then drives electrical power generators；Steam owing to solar energy converts water The interior transformation of energy efficiency of gas is high, makes equipment entirety light energy conversion efficiency high.It is of particular importance that the solar energy that the present invention provides Steam heat and power system, is additionally provided with steam heat abstractor and high-temperature water pushes back device, after steam heat abstractor can be for acting Low pressure steam is lowered the temperature so that it is be transformed into the steam heat abstractor of high temperature liquid water, then it is paramount to be pushed back device backflow by high-temperature water In pressure hot-water boiler, it is possible to make full use of the interior energy of steam, improve light energy conversion efficiency further.According to sun height direction Difference, holder device and sun follower make to remain that high-pressure water heating boiler is in level, and make sunlight gather all the time Collection is at boiler bottom.

Accompanying drawing explanation

In order to be illustrated more clearly that the specific embodiment of the invention or technical scheme of the prior art, below will be to specifically In embodiment or description of the prior art, the required accompanying drawing used is briefly described, it should be apparent that, in describing below Accompanying drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not paying creative work Put, it is also possible to obtain other technology figure according to these accompanying drawings.

The structural representation of the first embodiment of the solar steam heat and power system that Fig. 1 provides for the present invention；

Fig. 2 is the partial enlarged drawing of the solar steam heat and power system shown in Fig. 1；

Fig. 3 is the steam heat abstractor of the solar steam heat and power system shown in Fig. 2 profile on A direction；

Fig. 4 is the structural representation of the steam heat abstractor of the solar steam heat and power system shown in Fig. 2；

The partial structurtes schematic diagram of the second embodiment of the solar steam heat and power system that Fig. 5 provides for the present invention；

Fig. 6 is the steam heat abstractor profile in directionb of the solar steam heat and power system shown in Fig. 5；

Fig. 7 is the structural representation of the steam heat abstractor of the solar steam heat and power system shown in Fig. 5；

The structural representation of the 3rd embodiment of the solar steam heat and power system that Fig. 8 provides for the present invention；

Fig. 9 is the structural representation of the steam heat abstractor of the solar steam heat and power system shown in Fig. 8；

The partial structurtes schematic diagram of the 4th embodiment of the solar steam heat and power system that Figure 10 provides for the present invention.

Reference:

1-solar energy collecting assembly；2-high-pressure water heating boiler；3-steam rotatory force device；

4-electromotor；5-steam heat abstractor；6-high-temperature water pushes back device；

11-fixed pedestal；12-motion bar；13-butterfly condenser；

14-sun tracker；21-nano-sized carbon energy-absorbing coating；

22-quartz glass cover；23-vacuum layer；24-insulation material layer；

25-thermal insulation cylinder；26-steam trap；31-cylinder；

32-piston；33-bent axle；34-flywheel；

51-fin；52-cushion block；53-piston type regulating valve；

54-cylinder；55-radiator coil tube；56-radiator fan；

57-heat exchanger coil；58-jet chimney；59-water pump；

511-tube；512-tabs；571-water inlet；

572-outlet；531-driver；The movable piston boit of 532-；

27-roughened finish；61-water atomizing nozzle.

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme is clearly and completely described, it is clear that described enforcement Example is a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the common skill in this area The every other embodiment that art personnel are obtained under not making creative work premise, broadly falls into the model of present invention protection Enclose.

In describing the invention, it should be noted that term " " center ", " on ", D score, "left", "right", " vertically ", Orientation or the position relationship of the instruction such as " level ", " interior ", " outward " they are based on orientation shown in the drawings or position relationship, merely to Be easy to describe the present invention and simplifying describe rather than instruction or the hint device of indication or element must have specific orientation, With specific azimuth configuration and operation, therefore it is not considered as limiting the invention.Additionally, term " first ", " second ", " the 3rd " is only used for describing purpose, and it is not intended that indicate or hint relative importance.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " is installed ", " phase Even ", " connection " should be interpreted broadly, for example, it may be fixing connection, it is also possible to be to removably connect, or be integrally connected；Can To be mechanical connection, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, can understand that above-mentioned term is at this with concrete condition Concrete meaning in invention.

Embodiment one

The structural representation of the first embodiment of the solar steam heat and power system that Fig. 1 provides for the present invention；Fig. 2 is Fig. 1 The partial enlarged drawing of shown solar steam heat and power system；Fig. 3 is that the steam of the solar steam heat and power system shown in Fig. 2 dissipates Thermal profile on A direction；Fig. 4 is the structure of the steam heat abstractor of the solar steam heat and power system shown in Fig. 2 Schematic diagram.

As depicted in figs. 1 and 2, the present embodiment provides a kind of solar steam heat and power system, including:

For collecting solar energy and improving the solar energy collecting assembly 1 of its energy density；

For aqueous water is processed into the high-pressure water heating boiler 2 of high-pressure steam, high-pressure water heating boiler 2 is positioned at solar energy and receives The energy outfan of collection assembly 1；

For the pressure of high-pressure steam is converted into the steam rotatory force device 3 of power, steam rotatory force device 3 is provided with High-pressure steam input, clutch end and Low pressure steam outfan, high-pressure steam input and hot high pressure kettle Stove 2 connects；

For converting kinetic energy into the electromotor 4 of electric energy, electromotor 4 connects with the clutch end of steam rotatory force device 3 Connect；

For for Low pressure steam heat radiation so that it becomes the steam heat abstractor 5 of high temperature liquid water, steam heat abstractor 5 with The Low pressure steam outfan of steam rotatory force device 3 connects；

High-temperature water pushes back device 6, and high-temperature water pushes back one end of device 6 and is connected with steam heat abstractor 5, the other end and high pressure Hot-water boiler 2 connects, to be back in high-pressure water heating boiler 2 by high temperature liquid water.

The solar steam heat and power system that the present invention provides, utilizes solar energy collecting assembly 1 to collect solar energy, and by the sun Can assemble to high pressure hot-water boiler 2, the water in high-pressure water heating boiler 2 be heated the steam producing High Temperature High Pressure, water steams Gas is converted into kinetic energy at steam rotatory force device 3, then drives electromotor 4 to generate electricity；Steam rotatory force device preferably uses piston type, as The most feasible may be used without steam turbine, due to solar energy, to convert the interior transformation of energy efficiency of steam high, and equipment entirety luminous energy turns Change efficiency high.

It is of particular importance that the solar steam heat and power system that the present invention provides, it is additionally provided with steam heat abstractor 5 and high temperature Hydraulic pressure return device 6, the steam of high pressure comes out to, from steam rotatory force device 3, the steam heat radiation that space is bigger after having done work In device 5, pressure reduces, simultaneously as pressure step-down causes temperature also to reduce simultaneously, steam heat abstractor 5 is further low pressure Vapor (steam) temperature reduces arrival critical point, and low-pressure steam is condensed into high-temperature-hot-water (the highest preferably about 95 °), high-temperature hot Water from steam heat abstractor 5 out, then is pushed back device 6 by high-temperature water and is back in high-pressure water heating boiler 2, it is possible to make full use of water The interior energy of steam, improves light energy conversion efficiency further.

Specifically, solar energy collecting assembly 1 includes fixed pedestal 11, motion bar 12, butterfly condenser 13, solar tracking Device 14 and power set；Fixed pedestal 11 fixedly mounts on the ground, and motion bar 12 is flexibly connected with fixed pedestal 11, lives Lever 12 can rotate around fixed pedestal 11；Butterfly condenser 13 is arranged on motion bar 12, and solar energy is gathered by butterfly condenser 13 Collection is to high pressure hot-water boiler 2；Sun tracker 14 is fixed on the side of butterfly condenser 13；Power set on the one hand with the sun with Track device 14 is electrically connected with, on the other hand with motion bar 12 drive connection, with the signal of telecommunication driving activity according to sun tracker 14 Bar 12 rotate and then adjust butterfly condenser 13 towards.

Sun tracker 14 can sense sun position on high in real time, and drives motion bar 12 phase by power set Fixed pedestal 11 is rotated, makes the butterfly condenser 13 on motion bar 12 can be all the time towards the sun, it is thus achieved that optimal acceptance angle Degree.

In the present embodiment, the bottom surface of high-pressure water heating boiler 2 is downward projection of arcwall face, and arcwall face can increase high pressure The light-receiving area of hot-water boiler 2, makes the butterfly condenser 13 can be more accurately by the arc of solar energy collecting to high pressure hot-water boiler 2 On shape face.And, arcwall face scribbles nano-sized carbon energy-absorbing coating 21, by increasing capacitance it is possible to increase heat absorption efficiency, absorb the sun more fully Energy.High-pressure boiler medial surface covers ceramic-like corrosion-inhibiting coating.

Certainly, this is only a specific embodiment of the present invention, the high-pressure water heating boiler bottom shape not office of the present invention It is limited to this, it is possible to for other shapes, such as, can be plane.

In the present embodiment, the bottom surface of high-pressure water heating boiler 2 is provided with quartz glass cover 22, quartz glass cover 22 and high pressure Constituting vacuum layer 23 between the bottom surface of hot-water boiler 2, vacuum layer 23 prevents heat to scatter and disappear, and quartz glass cover 22 has again preferably Light transmission and higher intensity, improve solar energy utilization ratio further,

Additionally, other faces that high-pressure water heating boiler 2 is in addition to bottom surface are provided with adiabator coating 24 and adiabatic cylinder 25, Insulation material layer 24 can reduce the thermal loss of high-pressure water heating boiler 2, and adiabatic cylinder 25 and quartz glass one isostructure are with high Vacuum environment between pressure hot-water boiler 2, the equipment above protection boiler, prevents because error causes solar light focusing to pot simultaneously Equipment above stove and impaired.

In the present embodiment, the end face of high-pressure water heating boiler 2 has been provided with the steam trap 26 of steam centrifugation, steam trap 26 It is connected with the high-pressure steam input of steam rotatory force device 3.Steam can be separated by steam trap 26 with aqueous water, the most fair Permitted steam and entered steam rotatory force device 3.

In the present embodiment, steam rotatory force device 3 includes cylinder 31, piston 32, bent axle 33 and flywheel 34；Hot high pressure Homogeneous solution-type reactor 2 is connected with cylinder 31, and piston 32 is fixed in cylinder 31, and piston 32 is fixing with bent axle 33 to be connected, bent axle 33 and flywheel 34 fixing connections, flywheel 34 is fixing with electromotor 4 to be connected.

As shown in Figure 3 and Figure 4, in the present embodiment, steam heat abstractor 5 includes multiple copper heat spreader 51, Duo Getong Fin 51 processed is isolated by cushion block 52, and each copper heat spreader 51 is by tube 511 He for the Low pressure steam that circulates Tabs 512 for heat radiation is constituted, and tabs 512 is fixed on the outside of tube 511；The tubulose of each copper heat spreader 51 The one end in portion 511 is connected with the Low pressure steam outfan of steam rotatory force device 3 by piston type regulating valve 53, the other end and High-temperature water pushes back device 6 and connects.

The steam of high pressure exports from steam rotatory force device after having done work, and enters copper by piston type regulating valve 53 The tube 511 of fin 51 processed, piston type regulating valve 53 includes driver 531 and movable piston boit 532, driver drives Movable piston boit moves back and forth with open and close fin.Due to the tabs 512 contacted with tube 511, area of dissipation Greatly, it is possible to the heat of steam is released quickly against in air, it is achieved cooling purpose.

Optimal radiating effect is, it is ensured that return water temperature, at about 95 °, illustrates when its water is too low that heat dissipation capacity is the most whole System energy utilization rate is relatively low, and when outlet temperature is too high, steam liquefaction is unsuccessful causes whole system running efficiency to decline, and And high-temperature water pushes back device to boiler blow-down water difficulty.Therefore, the heat dissipation capacity of radiator is reduced when leaving water temperature is less than 95 °, instead Quickening heat dissipation capacity, remain the liquefaction of water, and keep higher temperature,

For achieving the above object, use can be determined according to the return water temperature that outdoor environment and high-temperature water push back at device Sheet number, is controlled the unlatching of each fin 51 by piston type regulating valve 53.Summer (during ambient temperature height) opening sheet number is maximum, the winter My god (ambient temperature is low) time, opening sheet number is minimum, final ensures that return water temperature is at about 95 °.

Certainly, this is only a specific embodiment of the present invention, and the concrete structure of the heat abstractor of the present invention does not limit to In this, it is possible to for other implementations, the most also include following two implementation.

Embodiment two

The partial structurtes schematic diagram of the second embodiment of the solar steam heat and power system that Fig. 5 provides for the present invention；Fig. 6 is The steam heat abstractor of the solar steam heat and power system shown in Fig. 5 profile in directionb；Fig. 7 is the sun shown in Fig. 5 The structural representation of the steam heat abstractor of energy steam heat and power system.

As illustrated in figs. 5-7, the solar steam heat and power system that the present embodiment provides, it is to steam with the difference of embodiment one Steam and heat sinking device 5.In this embodiment, steam heat abstractor 5 includes cylinder, radiator coil tube 55 and radiator fan 56；Radiator coil tube 55 are arranged in cylinder, and one end of radiator coil tube 55 is connected with the Low pressure steam outfan of steam rotatory force device 3, the other end Push back device 6 to be connected with high-temperature water, radiator coil tube 55 also can connect fin 51；Radiator fan 56 is arranged on the one of cylinder End, its air-out direction alignment radiator coil tube 55.

The steam of high pressure inputs radiator coil tube 55 from steam rotatory force device after having done work, and radiator fan 56 is at cylinder Internal formation, through the air-flow of coil pipe 55, takes away the partial heat of steam, it is achieved cooling purpose.

Additionally, also the return water temperature at device can be pushed back according to outdoor environment and high-temperature water determine the defeated of radiator fan 56 Going out power i.e. rotating speed, during temperature height, rotating speed is fast, radiating efficiency is high；When temperature is low, rotating speed is slow, radiating efficiency is low；Remain back Coolant-temperature gage is at about 95 °.

Said process can pass through, and temperature inductor realizes automatically controlling, and temperature inductor is arranged at heat abstractor 5 high temperature Solidifying water out position, moment detection radiator outlet temperature, and temperature inductor are electrically connected with radiator fan 56.

Embodiment three

The structural representation of the 3rd embodiment of the solar steam heat and power system that Fig. 8 provides for the present invention；Fig. 9 is Fig. 8 The structural representation of the steam heat abstractor of shown solar steam heat and power system.

As shown in FIG. 8 and 9, the solar steam heat and power system that the present embodiment provides, itself and embodiment one and embodiment two Difference be steam heat abstractor.

In this embodiment, steam and heat sinking device includes heat exchanger coil 57, jet chimney 58, water pump 59 and flow speed control Device；Heat exchanger coil 57 is double wall casing, and the inside tube of double wall casing is jet chimney 58, between heat exchanger coil 57 outboard tube Insulation layer wraps up to reduce heat-energy losses, and whole heat exchanger coil 57 is all tight with insulation material parcel；Jet chimney 58 one end are connected with the Low pressure steam outfan of steam rotatory force device 3, and the other end pushes back device 6 and is connected with high-temperature water；Heat The outer wall of the outboard tube of exchange coil pipe 57 is provided with water inlet 571 and outlet 572, and it is outer for shape that water pump 59 is positioned at couveuse 57 Become the current from outlet 572 to outlet 572；Flow speed controller is electrically connected with water pump 59, to control water by water pump 59 The size of stream.

It is steam cooling that this enforcement have employed the mode of water-cooled, specifically, water pump 59 by cold water from heat exchanger coil The cold water outer tube water inlet 571 of 57 injects, and cold water fully thermally contacts with jet chimney 58 in heat exchanger coil 57, and band is leaked water steaming The partial heat of gas, it is achieved cooling purpose, heat exchanger coil length extends do so as far as possible and can guarantee that heat exchanger coil 57 The cooling water temperature of outlet reaches maximum temperature.And, with cooling water reclamation system used heat, make whole system rub except inside The outer basic collected sunlight energy of consumption of wearing homenergic loss all utilizes.Additionally, can regulate according to the temperature of high-temperature condensation water Water pump 59 power, and then coutroi velocity, regulate radiating efficiency.

Embodiment four

The partial structurtes schematic diagram of the 4th embodiment of the solar steam heat and power system that Figure 10 provides for the present invention.

As shown in Figure 10, the solar steam heat and power system that the present embodiment provides, it exists with the difference of embodiment one to three Device 6 is pushed back in high-pressure water heating boiler 2 and high-temperature water.

High-temperature water pushes back one end that device 6 is connected with high-pressure water heating boiler 2 and is provided with the water atomizing nozzle 61 of high pressure, and high pressure The inner surface of hot-water boiler 2 is provided with roughened finish 27.

High-pressure water heating boiler 2, in the operating of heeling condition, is sprayed water to high pressure hot-water boiler 2 by the water atomizing nozzle 61 of high pressure Bottom, does the coarse process such as micro-protrusions, burr bottom high-pressure water heating boiler 2, form roughened finish 27, make the water after injection attached Boiler bottom to be easier to, and be unlikely to trickling and cause high-pressure water heating boiler 2 " dry combustion method " phenomenon to lower curtate.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit；To the greatest extent The present invention has been described in detail by pipe with reference to foregoing embodiments, it will be understood by those within the art that: it depends on So the technical scheme described in foregoing embodiments can be modified, or the most some or all of technical characteristic is entered Row equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from various embodiments of the present invention technology The scope of scheme.

Claims (10)

1. a solar steam heat and power system, it is characterised in that including:

For collecting solar energy and improving the solar energy collecting assembly of its energy density；

For aqueous water is processed into the high-pressure water heating boiler of high-pressure steam, described high-pressure water heating boiler is positioned at solar energy collecting The energy outfan of assembly；

For the pressure of high-pressure steam is converted into the steam rotatory force device of power, described steam rotatory force device is provided with height Setting-out steam input, clutch end and Low pressure steam outfan, described high-pressure steam input and high-pressure water heating Boiler connects；

For converting kinetic energy into the electromotor of electric energy, described electromotor is connected with the clutch end of steam rotatory force device；

For for Low pressure steam heat radiation so that it becomes the steam heat abstractor of high temperature liquid water, described steam heat abstractor and steaming The Low pressure steam outfan of vapour rotatory force device connects；

High-temperature water pushes back device, and described high-temperature water pushes back one end of device and is connected with steam heat abstractor, the other end and hot high pressure Homogeneous solution-type reactor connects, to be back in high-pressure water heating boiler by high temperature liquid water.

Solar steam heat and power system the most according to claim 1, it is characterised in that described solar energy collecting assembly bag Include:

Fixed pedestal, described fixed pedestal is fixedly mounted in desired location；

Motion bar, described motion bar is flexibly connected with fixed pedestal, and motion bar can rotate up and down around fixed pedestal；

Butterfly condenser, described butterfly condenser is arranged on motion bar, butterfly condenser by solar energy collecting to high-pressure water heating Boiler；

Sun tracker, described sun tracker is fixed on the side of butterfly condenser；

Power set, on the one hand described power set are electrically connected with sun tracker, on the other hand with motion bar drive connection, With according to sun tracker the signal of telecommunication drive motion bar rotate so that adjust butterfly condenser towards.

Solar steam heat and power system the most according to claim 1, it is characterised in that the bottom surface of described high-pressure water heating boiler For downward projection of arcwall face, described arcwall face scribbles nano-sized carbon energy-absorbing coating, inside boiler bottom, is provided with corrosion-inhibiting coating.

Solar steam heat and power system the most according to claim 3, it is characterised in that the bottom surface of described high-pressure water heating boiler Quartz glass cover is installed, between the bottom surface of described quartz glass cover and high-pressure water heating boiler, constitutes vacuum layer.

5. according to the solar steam heat and power system described in claim 3 or 4, it is characterised in that described high-pressure water heating boiler removes Other faces outside bottom surface are provided with insulation material layer and adiabatic cylinder layer.

Solar steam heat and power system the most according to claim 1, it is characterised in that the end face of described high-pressure water heating boiler Being provided with the steam trap of steam centrifugation, described steam trap is connected with the high-pressure steam input of steam rotatory force device.

Solar steam heat and power system the most according to claim 1, it is characterised in that described steam rotatory force device includes Cylinder, piston, bent axle and flywheel；Described high-pressure water heating boiler is connected with cylinder, the axially-movable in cylinder of described piston, institute Stating piston to be mechanically connected with bent axle, described bent axle is fixing with flywheel to be connected, and described flywheel is fixing with electromotor to be connected.

Solar steam heat and power system the most according to claim 1, it is characterised in that described steam heat abstractor: include Multiple fin, each fin is made up of the tube for the Low pressure steam that circulates and the tabs for heat radiation, described Tabs is fixed on the outside of tube；

One end of the tube of each fin is exported by the Low pressure steam of piston type regulating valve with steam rotatory force device End connects, and the other end pushes back device with high-temperature water and is connected.

Solar steam heat and power system the most according to claim 1, it is characterised in that described steam heat abstractor: include Cylinder, radiator coil tube and radiator fan；Described radiator coil tube is arranged in cylinder, and one end of described radiator coil tube rotates with steam The Low pressure steam outfan of power apparatus connects, and the other end pushes back device with high-temperature water and is connected；Described radiator fan is arranged on cylinder One end of body, its air-out direction alignment radiator coil tube.

Solar steam heat and power system the most according to claim 1, it is characterised in that described steam heat abstractor includes Heat exchanger coil, water pump and flow speed controller；

Described heat exchanger coil is arranged in couveuse, fills insulation material between heat exchanger coil space, and heat exchanger coil is Double wall casing, the inside tube of double wall casing is jet chimney, described jet chimney one end and the low setting-out of steam rotatory force device Steam outfan connects, and the other end pushes back device with high-temperature water and is connected；

Double wall casing outboard tube be provided with water inlet, outlet, water inlet connects cold water, and outlet connects warm water holding vessel；

Described flow speed controller is electrically connected with water pump, to be controlled the size of current by water pump.