CN201225241Y - Solar steam power generating station - Google Patents

Abstract

The utility model relates to a solar steam generating station. The solar steam generating station comprises a steam generator unit, a distributing transmission station, a series-parallel row heat collector, the mounting bracket of the row heating collector, a diamond-shaped vacuum reflector, a sunlight tracker, a solar photoelectric panel, a solar navigator, a sunlight absorbing regulator, a sunlight tracking moving orbit, a frequency conversion driver, a carrying locomotive, single-machine heat storage tanks, the connecting valves of the single-machine heat, a solid-state heat storage tank, a liquid heat storage tank, connecting valves, one-way valves, a steam heat insulating tank, a hot water heat insulating tank, a pressure reducing tank, the cooling and dropping coil pipe of the pressure reducing tank, a steam auxiliary electric heater, a steam auxiliary fuel and gas heater, a hot water supply pump, a water supply pump, a high pressure steam safety air release valve, an air release pipeline, manometers, thermometers, and the like.

Description

The solar steam power station

Technical field

The utility model relates to a kind of power station of solar setup.

Background technique

In the steam power station, also there is not a kind of device that utilizes cheap solar energy heat absorption pipe absorption solar heat that steam source is provided to the steam electric power unit at present.

Summary of the invention

The purpose of this utility model provides the go forward one by one heat stack, track rotation of string that spiral solar energy heat absorption pipe that a kind of high power absorbs heat forms and connection, row's formula and follows the heat-storaging steam solar power station of sunlight motion.This solar steam power station includes: the steam electric power unit, join power transmission terminal, it is characterized in that: increasing has spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe groove, spiral solar energy heat absorption pipe heat conductive tube, spiral solar energy heat absorption pipe heat conductive tube groove, spiral solar energy heat absorption pipe heat conductive tube seal ring, connect seal ring, spiral solar energy heat absorption pipe connects service valve, spiral solar energy heat absorption pipe collecting pipe, series parallel connection row formula heat collector, row's formula heat collector scaffold, rhombus vacuum reflecting mirror, the sunshine tracking device, solar opto-electronic board, the solar energy path finder.Sunlight absorbs regulator, the sunshine tracking tracks, the frequency conversion drive machine, the carrying locomotive, single long-pending heat storage can, single long-pending heat storage can connects valve, solid-state heat storage can, liquid heat storage can, connect valve, one-way valve, the steam insulation jar, the hot water thermal insulating jar, the decompression jar, decompression jar decrease temperature and pressure coil pipe, the steam electrical auxiliary heater, steam auxiliary fuel combustion heater, hot feed water pump, feed water pump, high pressure steam safety snifting valve, pipeline loses heart, pressure gauge, thermometer, annexation between them is: the seal groove of spiral solar energy heat absorption pipe and spiral solar energy heat absorption pipe heat conductive tube seal groove are tightly connected by spiral solar energy heat absorption pipe heat conductive tube seal ring, spiral solar energy heat absorption pipe heat conductive tube is connected service valve and connects with spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe connects service valve and connects through being connected valve with spiral solar energy heat absorption pipe collecting pipe, the inlet of spiral solar energy heat absorption pipe collecting pipe is connected with the outlet of single long-pending heat storage can through connecting valve, the inlet of single long-pending heat storage can is connected with the outlet of spiral solar energy heat absorption pipe collecting pipe by connecting valve, the outlet of single long-pending heat storage can connects by being connected valve with the inlet of spiral solar energy heat absorption pipe collecting pipe, the outlet of spiral solar energy heat absorption pipe collecting pipe is connected with the inlet of single long-pending heat storage can through connecting valve, the outlet of single long-pending heat storage can connects by being connected valve with the inlet of spiral solar energy heat absorption pipe collecting pipe, the outlet of spiral solar energy heat absorption pipe collecting pipe is connected with the inlet of single long-pending heat storage can through connecting valve, the outlet of single long-pending heat storage can connects by being connected valve with the inlet of spiral solar energy heat absorption pipe collecting pipe, the outlet of spiral solar energy heat absorption pipe collecting pipe is connected with the inlet of single long-pending heat storage can through connecting valve, the outlet of single long-pending heat storage can is through connecting valve, one-way valve, connecting valve is connected with the inlet of solid-state heat storage can, pressure gauge, thermometer is connected with the top of solid-state heat storage can, the outlet of solid-state heat storage can is through connecting valve, one-way valve, connecting valve is connected with the inlet of liquid heat storage can, first outlet of liquid heat storage can is through connecting valve, one-way valve, pipeline connects by being connected valve with the inlet of single long-pending heat storage can, second outlet of liquid heat storage can is through connecting valve, one-way valve, connecting valve is connected with the inlet of steam insulation jar heating coil, the inlet of the heating pipe of steam auxiliary fuel combustion heater is connected on the pipeline that connects between valve and the one-way valve through connecting valve, the outlet of the heating pipe of steam auxiliary fuel combustion heater is connected on one-way valve and the pipeline that is connected between the valve through connecting valve, pressure gauge, thermometer is connected with the top of liquid heat storage can, the outlet of the heating coil of steam insulation jar is through connecting valve, one-way valve, pipeline, connecting valve is connected with the inlet of the heating coil of hot water thermal insulating jar, the outlet of the heating coil of hot water thermal insulating jar is through connecting valve, pipeline, one-way valve be connected valve and connect, the steam electrical auxiliary heater is installed in the steam insulation jar, thermometer, the high pressure steam safety valve is connected with the top of steam insulation jar, the inlet of steam insulation jar is through connecting valve, one-way valve, hot feed water pump connects valve and is connected with the outlet of hot water thermal insulating jar, pressure gauge, thermometer is connected with the top of hot water thermal insulating jar, the inlet of hot water thermal insulating jar is through connecting valve, one-way valve, connecting valve is connected with the outlet of the decrease temperature and pressure coil pipe of decompression jar, pressure gauge is connected with the top of decompression jar through connecting valve, the inlet of decompression jar decrease temperature and pressure coil pipe is through connecting valve, feed water pump, connecting valve is connected with water-supply source, the steam (vapor) outlet of steam insulation jar is through connecting valve, one-way valve is connected with the inlet that promotes the storehouse by steam electric power unit turbine, pressure gauge is connected with the top that steam electric power unit turbine promotes the storehouse through connecting valve, steam electric power unit turbine promotes the steam (vapor) outlet in storehouse through the steam-driven generator turbine, connecting valve is connected with the top of decompression jar, the steam electric power unit is connected with electric substation, electric substation is connected with electrical network, series parallel connection row formula heat collector is by spiral solar energy heat absorption pipe and spiral solar energy heat absorption pipe heat conductive tube, spiral solar energy heat absorption pipe connects service valve, spiral solar energy heat absorption pipe collecting pipe connects to form, row's formula heat collector scaffold is interconnected by the frame pole to be formed, rhombus vacuum reflecting mirror department clothes are on the row's of being installed in formula heat collector scaffold between spiral solar energy heat absorption pipe and the spiral solar energy heat absorption pipe, the sunshine tracking device, solar opto-electronic board, the solar energy path finder, sunlight absorbs regulator and takes charge of respectively on the clothes row of the being installed in formula heat collector scaffold, the sunshine tracking tracks is installed on the operation platform, the frequency conversion drive machine is installed on the carrying locomotive, and the runner of carrying locomotive is placed on the sunshine tracking tracks.

Transformation power station, the high-pressure delivery network of solar power station are known technologies, realize the solar energy transmission process by interconnecting.Its working principle is as follows:

Spiral solar energy heat absorption pipe composes in parallel first thermal-arrest row battle array, give heat-conducting fluid heating in the pipe after absorbing sunlight, the heat-conducting fluid of holding heat under the arm connects service valve by spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe collecting pipe flows into first single long-pending heat storage can and carries out the preservation of first order heat, second thermal-arrest that the spiral solar energy heat absorption pipe that single first order heat that amasss the interior preservation of heat storage can is connected by the outlet inflow of first single long-pending heat storage can composes in parallel is arranged battle array, heat for the heat-conducting fluid that has first order heat in the pipe once more after absorbing sunlight, the heat-conducting fluid of holding heat under the arm connects service valve by spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe collecting pipe flows into second single long-pending heat storage can and preserves second level heat, second level heat in second single long-pending heat storage can, the 3rd thermal-arrest row battle array that the spiral solar energy heat absorption pipe of connecting by the outlet inflow of second single long-pending heat storage can composes in parallel, heat for the heat-conducting fluid that has second level heat in the pipe once more after absorbing sunlight, the heat-conducting fluid of holding heat under the arm connects service valve by spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe collecting pipe flows into the 3rd single long-pending heat storage can and preserves third level heat, third level heat in the 3rd single long-pending heat storage can, the 4th thermal-arrest row battle array that the spiral solar energy heat absorption pipe of connecting by the outlet inflow of the 3rd single long-pending heat storage can composes in parallel, heat for the heat-conducting fluid that has third level heat in the pipe once more after absorbing sunlight, the heat-conducting fluid of holding the High Temperature High Pressure heat under the arm connects service valve by spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe collecting pipe flows into the 4th single long-pending heat storage can and preserves fourth stage High Temperature High Pressure heat, the High Temperature High Pressure heat that the 4th single long-pending heat storage can is preserved passes through the outlet of the 4th single long-pending heat storage can through connecting valve, one-way valve, second connects valve flows into solid-state heat storage can and carries out heat exchange and discharge first heat and be stored in the solid-state heat storage can standby, heat-conducting fluid after the exchange is held heat under the arm and is connected valve through solid-state heat storage can outlet, one-way valve, the second connection valve flows into liquid heat storage can and carries out heat exchange, and the heat-conducting fluid after the exchange flows into through liquid heat storage can first outlet and connects valve, one-way valve carries out secondary heat absorption circulation through connecting the single long-pending heat storage can of valve inflow; High Temperature High Pressure heat-conducting fluid in the liquid heat storage can flows into through second outlet and connects valve, the softened water of one-way valve in connecting valve inflow steam insulation jar coil pipe and steam insulation jar carries out heat exchange, inferior High Temperature High Pressure heat-conducting fluid after the heat exchange exports through steam insulation jar coil pipe, connect valve, one-way valve, second softened water that connects in valve inflow hot water thermal insulating jar heating coil and the hot water thermal insulating jar carries out the heat exchange second time, and the medium temperature and medium pressure heat-conducting fluid after the heat exchange flows into through the outlet of hot water thermal insulating jar heating coil and connects valve, one-way valve carries out secondary heat absorption circulation through connecting the single long-pending heat storage can of valve inflow.High temperature and high pressure steam in the steam insulation jar is through connecting valve, one-way valve inflow steam electric power unit turbine promotion storehouse promotion steam electric power unit turbine rotary electrification, and the unstable voltage that sends is delivered to electrical network after electric substation's transformation.The superheated vapor that promotes steam electric power unit turbine rotary electrification promotes the outlet in storehouse through steam electric power unit turbine, connect valve and flow into decompression jar decompression cooling, the cooling coil of cooling coil cooling water in the decompression jar in the decompression jar enters the mouth and is connected valve, feed water pump, connect valve, the nourishment source connects, cooling water in the cooling coil in the decompression jar passes through to connect valve through the outlet of cooling coil, one-way valve, second connects valve flows into the hot water thermal insulating jar, cooled warm water is through connecting valve, one-way valve flows into the hot water thermal insulating jar, and the hot water in the hot water thermal insulating jar is through connecting valve, hot feed water pump one-way valve, second connects valve inflow steam insulation jar carries out the heating evaporation circulation second time.Finish the solar steam power generation process.

Following advantage has been compared with coal-fired thermal power station, solar energy concentration generating station in this in sum solar steam power station: one; This solar steam power station is compared with the coal-fired thermal power station does not have atmospheric pollution, does not have heat discharge, does not have resource consumption, is the best facility of protection environment, resource conservation.Two: this solar steam power station is compared with the coal-fired thermal power station and has been reduced human and material resources, resource consumption, does not have cost of transportation, and economic benefit is higher.Three: this solar steam power station is compared with the coal-fired thermal power station and is implemented conveniently, and the completion time of project is short, and cost consumption is low, and is easy to maintenance.Four: this solar steam power station is compared with the concentration solar generating station has many long-pending heat energy deposits, can continue to keep generator operation when not having illumination, Mi has mended the illumination restriction at concentration solar generating station and shortage of heat, the construction difficulty is big, the expense cost height, the optically focused difficulty can not be popularized the problem of enforcement.Five: this solar steam power station compare with coal-fired thermal power station, concentration solar generating station have floor space little, simple in structure, implement convenient, economize the people, save time, advantage such as laborsaving and practicable unattended, be the protection environmental protection mankind's the best energy.

Self-supporting or the conveying of electric power just can be realized by being connected with known technology electric substation, dispensing electrical network in this from the above solar steam power station.

Description of drawings:

Accompanying drawing shows the embodiment in solar steam power station, wherein Fig. 1 is the structure principle chart of solar power station, Fig. 2 is the structural drawing of spiral solar energy heat absorption pipe, and Fig. 3 is the structural drawing of spiral solar energy heat absorption pipe heat conductive tube, and Fig. 4 is row's formula collector structure figure.

Embodiment:

In Fig. 1, the 1st, spiral solar energy heat absorption pipe, the 2nd, spiral solar energy heat absorption pipe connects service valve, 3,12,15,16,23,25,30,32,37,35,27,19,17,89, the 90th, spiral solar energy heat absorption pipe collecting pipe, 4,6,8,9,11,13,14,22,24,29,33,38,40,42,48,49,36,53,54,57,58,62,101,104,69,70,76,103,74,75,106,107,81,82,97,99,108,109,110,111,112, the 113rd, connect valve, the 60th, high pressure steam safety snifting valve, 41,45,43,61,63,96,98,77,114, the 91st, one-way valve, 46,52,64, the 80th, pressure gauge, 47,51,59,73, the 83rd, thermometer, 10,7,21,31, the 39th, single long-pending heat storage can, 44, it is solid-state heat storage can, the 50th, liquid heat storage can, the 56th, steam auxiliary fuel combustion heater, the 55th, steam auxiliary fuel combustion heater heating pipe, the 79th, the steam insulation jar, the 84th, the steam electrical auxiliary heater, the 71st, steam insulation jar heating coil, the 65th, electric substation, the 66th, be that steam electric power unit turbine promotes the storehouse, the 67th, the steam electric power unit, the 68th, steam electric power unit turbine, the 72nd, feed water pump, the 78th, the decompression jar, the 100th, decompression jar cooling coil, the 86th, the hot water thermal insulating jar, the 85th, hot water thermal insulating jar heating coil, the 87th, hot feed water pump, in Fig. 2, the 1st, spiral solar energy heat absorption pipe, the 92nd, spiral solar energy heat absorption pipe groove, the 125th, connect seal ring, in Fig. 3, the 93rd, spiral solar energy heat absorption pipe heat conductive tube, the 94th, spiral solar energy heat absorption pipe heat conductive tube groove, the 95th, spiral solar energy heat absorption pipe connects seal ring, in Fig. 4, the 114th, row's formula heat collector scaffold, the 115th, rhombus vacuum reflecting mirror, the 116th, the sunshine tracking device, the 117th, solar opto-electronic board, the 118th, the solar energy path finder, the 119th, sunlight absorbs regulator, the 120th, the sunshine tracking tracks, the 121st, the frequency conversion drive machine, the 122nd, carrying locomotive, the 123rd, sunshine tracking motion road wheel, the 124th, row's formula heat collector installation frame body.Annexation between them is: the groove 92 and the spiral solar energy heat absorption pipe heat conductive tube groove 94 of spiral solar energy heat absorption pipe are tightly connected by spiral solar energy heat absorption pipe heat conductive tube seal ring 95, spiral solar energy heat absorption pipe heat conductive tube 93 is connected service valve 2 and connects with spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe connects service valve 2 and connects through being connected valve 2 with spiral solar energy heat absorption pipe collecting pipe 3, spiral solar energy heat absorption pipe collecting pipe 3,12 inlet is through connecting valve 8,11 are connected with the outlet of single long-pending heat storage can 10, the inlet of single long-pending heat storage can 7 is by connecting valve 6,13 with spiral solar energy heat absorption pipe collecting pipe 15,90 outlet connects, the outlet and the spiral solar energy heat absorption pipe collecting pipe 16 of single long-pending heat storage can 7,89 inlet is by connecting valve 4,14 connect, spiral solar energy heat absorption pipe collecting pipe 17,23 outlet is through connecting valve 18,22 are connected with the inlet of single long-pending heat storage can 21, the outlet and the spiral solar energy heat absorption pipe collecting pipe 19 of single long-pending heat storage can 21,25 inlet is by connecting valve 20,24 connect, spiral solar energy heat absorption pipe collecting pipe 26,30 outlet is through connecting valve 28,29 are connected with the inlet of single long-pending heat storage can 31, the outlet and the spiral solar energy heat absorption pipe collecting pipe 27 of single long-pending heat storage can 31,32 inlet is by connecting valve 33,34 connect, spiral solar energy heat absorption pipe collecting pipe 35,37 outlet is through connecting valve 36,38 are connected with the inlet of single long-pending heat storage can 39, the outlet of single long-pending heat storage can 39 is through connecting valve 40, one-way valve 41 connects valve 42 and is connected with the inlet of solid-state heat storage can 44, pressure gauge 46, thermometer 47 is connected with the top of solid-state heat storage can 44, the outlet of solid-state heat storage can 44 is through connecting valve 48, one-way valve 45 connects valve 49 and is connected with the inlet of liquid heat storage can 50, first outlet of liquid heat storage can 50 is through connecting valve 53, one-way valve 43, pipeline connects by being connected valve 9 with the inlet of single long-pending heat storage can 10, second outlet of liquid heat storage can 50 is through connecting valve 54, one-way valve 61 connects valve 62 and is connected with the inlet of steam insulation jar 79 heating coils 71, the inlet of the heating pipe 55 of steam auxiliary fuel combustion heater is connected on the pipeline that connects between valve 54 and the one-way valve 61 through connecting valve 57, the outlet of the heating pipe 55 of steam auxiliary fuel combustion heater is connected on one-way valve 61 and the pipeline that is connected between the valve 62 through connecting valve 58, pressure gauge 52, thermometer 51 is connected with the top of liquid heat storage can 50, the outlet of the heating coil 71 of steam insulation jar 79 is through connecting valve 69, one-way valve 96, pipeline, connecting valve 97 is connected with the inlet of the heating coil 85 of hot water thermal insulating jar 86, the outlet of the heating coil 85 of hot water thermal insulating jar 86 is through connecting valve 81, pipeline, one-way valve 91 be connected valve 9 and connect, steam electrical auxiliary heater 84 is installed in the steam insulation jar 79, thermometer 59, high pressure steam safety valve 60 is connected with the top of steam insulation jar 79, the inlet of steam insulation jar 79 is through connecting valve 76, one-way valve 98 hot feed water pumps 87 connect valve 99 and are connected with the outlet of hot water thermal insulating jar 86, pressure gauge 80, thermometer 83 is connected with the top of hot water thermal insulating jar, the inlet of hot water thermal insulating jar 86 is through connecting valve 82, one-way valve 77, connecting valve 106 is connected with the outlet of the decrease temperature and pressure coil pipe 100 of decompression jar 78, pressure gauge 73 is connected with the top of decompression jar 78 through connecting valve 74, the inlet of decompression jar decrease temperature and pressure coil pipe 100 is through connecting valve 75, feed water pump 72, connecting valve 70 is connected with water-supply source, the steam (vapor) outlet of steam insulation jar 79 is through connecting valve 101, one-way valve 63 is connected with the inlet that promotes storehouse 66 by wind generator turbines 68, pressure gauge 64 is connected with the top that wind generator turbines promotes storehouse 66 through connecting valve 104, wind generator turbines promotes the steam (vapor) outlet in storehouse 66 through wind generator turbines 68, connecting valve 103 is connected with the top of decompression jar 78, steam electric power unit 67 is connected with electric substation 65, electric substation 65 is connected with electrical network, series parallel connection row formula heat collector is by spiral solar energy heat absorption pipe 1 and spiral solar energy heat absorption pipe heat conductive tube 93, spiral solar energy heat absorption pipe connects service valve 2, spiral solar energy heat absorption pipe collecting pipe 3 connects to form, row's formula heat collector scaffold 114 is interconnected by the frame pole to be formed, rhombus vacuum reflecting mirror 115 department's clothes are on the row's of being installed in formula heat collector scaffold 114 between spiral solar energy heat absorption pipe 1 and the spiral solar energy heat absorption pipe 1, sunshine tracking device 116, solar opto-electronic board 117, solar energy path finder 118, sunlight absorbs regulator 119 and takes charge of respectively on the clothes row of the being installed in formula heat collector scaffold 114, sunshine tracking tracks 120 is installed on the operation platform, frequency conversion drive machine 121 is installed on the carrying locomotive 122, the runner of carrying locomotive 122 is placed on the sunshine tracking tracks 123, on row's formula heat collector scaffold 114 row's of being placed in formula heat collector installation frame body 124.

In the present embodiment, spiral solar energy heat absorption pipe 1 is the glass liner structure, and spiral solar energy heat absorption pipe heat conductive tube 93 is U type pipes, and the mouth end of spiral solar energy heat absorption pipe 1 is connected or amplexis with the outlet of the U type pipe of spiral solar energy heat absorption pipe heat conductive tube 93.

In the present embodiment, spiral solar energy heat absorption pipe heat conductive tube 93 connects through being connected valve 2 with spiral solar energy heat absorption pipe heat conductive tube 93.

In the present embodiment, spiral solar energy heat absorption pipe collecting pipe 3 connects through being connected valve 8 or 12 with spiral solar energy heat absorption pipe collecting pipe 12.

In the present embodiment, connect up and down or side by side successively through connecting valve between single long-pending heat storage can 10,7,21,31,39.

In the present embodiment, the steam (vapor) outlet that wind generator turbines promotes storehouse 66 is connected with the tops of a plurality of decompression jars 78 through wind generator turbines 68, connection valve 103, enlarges the compatibilization of decompression tank battery (78).

In the present embodiment, the VLA solar thermal collector is made up of a plurality of equal series parallel connection row formula heat collectors.

In the present embodiment, the VLA solar thermal collector is made up of a plurality of equal series parallel connection row formula heat collectors, and its quantity is the steam raising amount decision according to steam insulation jar 79.

In the present embodiment, steam insulation jar 79, hot water thermal insulating jar 86 are that to get single-stage or multistage jar according to the load of steam electric power unit and evaporated quantity of water molten.

In the present embodiment, sunshine tracking device 116, solar opto-electronic board 117, solar energy path finder 118, sunlight absorption regulator 119 are taken charge of on the clothes row of the being installed in formula heat collector scaffold 114 respectively or other firm places.

In the present embodiment, solar opto-electronic board 117, solar energy path finder 118, sunlight absorption regulator 119 can be accepted or rejected according to actual needs.

In the present embodiment, the heating pipe 55 of steam auxiliary fuel combustion heater is connected with coal fired boiler as required.

In the present embodiment, can be connected through seal ring between spiral solar energy heat absorption pipe 1 and the spiral solar energy heat absorption pipe 1, connect through being connected valve (2) between spiral solar energy heat absorption pipe heat conductive tube (93) and the spiral solar energy heat absorption pipe heat conductive tube (93), directly be connected between spiral solar energy heat absorption pipe heat conductive tube (93) and the spiral solar energy heat absorption pipe heat conductive tube (93).

Claims (13)

1, a kind of solar steam power station includes: steam electric power unit (66), join power transmission terminal (65), it is characterized in that: increasing has spiral solar energy heat absorption pipe (1), spiral solar energy heat absorption pipe groove (92), spiral solar energy heat absorption pipe heat conductive tube (93), spiral solar energy heat absorption pipe heat conductive tube groove (94), spiral solar energy heat absorption pipe heat conductive tube seal ring (95), connect seal ring, spiral solar energy heat absorption pipe connects service valve (2), spiral solar energy heat absorption pipe collecting pipe (3,12,15,16,23,25,30,32,37,35,27,19,17,89,90), row's formula heat collector scaffold (114), rhombus vacuum reflecting mirror (115), sunshine tracking device (116), solar opto-electronic board (117), solar energy path finder (118), sunlight absorbs regulator (119), sunshine tracking tracks (120), frequency conversion drive machine (121), carrying locomotive (122), row's formula heat collector installation frame body (124), the single long-pending heat storage can (10 of sunshine tracking motion road wheel (123), 7,21,31,39), single long-pending heat storage can connects valve (4,6,8,9,11,13,14,18,20,22,24,28,29,33,34,36,38), solid-state heat storage can (44), liquid heat storage can (50), connect valve (40,42,48,49,36,53,54,57,58,62,101,104,69,70,76,103,74,75,106,107,81,82,97,99,108,109,110,111,112,113), one-way valve (41,45,43,61,63,96,98,77,114,91), steam insulation jar (79), hot water thermal insulating jar (86), decompression jar (78), decompression jar decrease temperature and pressure coil pipe (100), steam electrical auxiliary heater (84), steam auxiliary fuel combustion heater (56), steam auxiliary fuel combustion heater coil pipe (55), hot feed water pump (87), feed water pump (72), high pressure steam safety snifting valve (60), pressure gauge (46,52,64,80), thermometer (47,51,59,73,83), annexation between them is: the groove of spiral solar energy heat absorption pipe (92) is tightly connected by spiral solar energy heat absorption pipe heat conductive tube seal ring (95) with the groove (94) of spiral solar energy heat absorption pipe heat conductive tube, spiral solar energy heat absorption pipe heat conductive tube (93) is connected service valve (2) and connects with spiral solar energy heat absorption pipe, spiral solar energy heat absorption pipe connects service valve (2) and connects through being connected valve (2) with spiral solar energy heat absorption pipe collecting pipe (3), spiral solar energy heat absorption pipe collecting pipe (3,12) inlet is through connecting valve (8,11) outlet with single long-pending heat storage can (10) is connected, the inlet of single long-pending heat storage can (7) is by connecting valve (6,13) with spiral solar energy heat absorption pipe collecting pipe (15,90) outlet connects, the outlet and the spiral solar energy heat absorption pipe collecting pipe (16 of single long-pending heat storage can (7), 89) inlet is by connecting valve (4,14) connect, spiral solar energy heat absorption pipe collecting pipe (17,23) outlet is through connecting valve (18,22) inlet with single long-pending heat storage can (21) is connected, the outlet and the spiral solar energy heat absorption pipe collecting pipe (19 of single long-pending heat storage can (21), 25) inlet is by connecting valve (20,24) connect, spiral solar energy heat absorption pipe collecting pipe (26,30) outlet is through connecting valve (28,29) inlet with single long-pending heat storage can (31) is connected, the outlet and the spiral solar energy heat absorption pipe collecting pipe (27 of single long-pending heat storage can (31), 32) inlet is by connecting valve (33,34) connect, spiral solar energy heat absorption pipe collecting pipe (35,37) outlet is through connecting valve (36,38) inlet with single long-pending heat storage can (39) is connected, the outlet of single long-pending heat storage can (39) is through connecting valve (40), one-way valve (41) connects valve (42) and is connected with the inlet of solid-state heat storage can (44), pressure gauge (46), thermometer (47) is connected with the top of solid-state heat storage can (44), the outlet of solid-state heat storage can (44) is through connecting valve (480, one-way valve (45) connects valve (49) and is connected with the inlet of liquid heat storage can (50), first outlet of liquid heat storage can (50) is through connecting valve (53), one-way valve (43), the long-pending heat storage can 10 of pipeline and list) inlet connects by being connected valve (9), second outlet of liquid heat storage can (50) is through connecting valve (54), one-way valve (61) connects valve (62) and is connected with the inlet of steam insulation jar (79) heating coil (71), the inlet of the heating pipe (55) of steam auxiliary fuel combustion heater is connected on the pipeline that connects between valve (54) and the one-way valve (61) through connecting valve (57), the outlet of the heating pipe (55) of steam auxiliary fuel combustion heater is connected on one-way valve (61) and the pipeline that is connected between the valve (62) through connecting valve (58), pressure gauge (52), thermometer (51) is connected with the top of liquid heat storage can (50), the outlet of the heating coil (71) of steam insulation jar (79) is through connecting valve (69), one-way valve (96), pipeline, connecting valve (97) is connected with the inlet of the heating coil (85) of hot water thermal insulating jar (86), the outlet of the heating coil (85) of hot water thermal insulating jar (86) is through connecting valve (81), pipeline, one-way valve (91) be connected valve (9) and connect, steam electrical auxiliary heater (84) is installed in the steam insulation jar (79), thermometer (59), high pressure steam safety valve (60) is connected with the top of steam insulation jar (79), the inlet of steam insulation jar (79) is through connecting valve (76), the hot feed water pump of one-way valve (98) (87) connects valve (99) and is connected with the outlet of hot water thermal insulating jar (86), pressure gauge (80), thermometer (83) is connected with the top of hot water thermal insulating jar, the inlet of hot water thermal insulating jar (86) is through connecting valve (82), one-way valve (77), connecting valve (106) is connected with the outlet of the decrease temperature and pressure coil pipe (100) of decompression jar (78), pressure gauge (73) is connected with the top of decompression jar (78) through connecting valve (74), the inlet of decompression jar decrease temperature and pressure coil pipe (100) is through connecting valve (75), feed water pump (72), connecting valve (70) is connected with water-supply source, the steam (vapor) outlet of steam insulation jar (79) is through connecting valve (101), one-way valve (63) is connected with the inlet that promotes storehouse (66) by wind generator turbines (68), pressure gauge (64) is connected with the top that wind generator turbines promotes storehouse (66) through connecting valve (104), wind generator turbines promotes the steam (vapor) outlet in storehouse (66) through wind generator turbines (68), connecting valve (103) is connected with the top of decompression jar (78), steam electric power unit (67) is connected with electric substation (65), electric substation (65) is connected with electrical network, row's formula heat collector scaffold (114) is by spiral solar energy heat absorption pipe (1) and spiral solar energy heat absorption pipe heat conductive tube (93), spiral solar energy heat absorption pipe connects service valve (2), spiral solar energy heat absorption pipe collecting pipe (3) connects to form, row's formula heat collector installation frame body (124) is interconnected by the frame pole to be formed, rhombus vacuum reflecting mirror (115) department clothes are on the row's of being installed in formula heat collector scaffold (114) between spiral solar energy heat absorption pipe (1) and the spiral solar energy heat absorption pipe (1), sunshine tracking device (116), solar opto-electronic board (117), solar energy path finder (118), sunlight absorbs regulator (119) and takes charge of respectively on the clothes row's of being installed in formula heat collector scaffolds (114), sunshine tracking tracks (120) is installed on the operation platform, frequency conversion drive machine (121) is installed on the carrying locomotive (122), and the runner of carrying locomotive (122) is placed on the sunshine tracking tracks (123).

2, solar steam according to claim 1 power station, it is characterized in that: spiral solar energy heat absorption pipe (1) is the glass liner structure, spiral solar energy heat absorption pipe heat conductive tube (93) is a U type pipe, and the mouth end of spiral solar energy heat absorption pipe (1) is connected or amplexis with the outlet of the U type pipe of spiral solar energy heat absorption pipe heat conductive tube (93).

3, solar steam according to claim 1 power station is characterized in that: spiral solar energy heat absorption pipe heat conductive tube (93) connects through being connected valve (2) with spiral solar energy heat absorption pipe heat conductive tube (93).

4, solar steam according to claim 1 power station is characterized in that: spiral solar energy heat absorption pipe collecting pipe (3) connects through being connected valve (8 or 12) with spiral solar energy heat absorption pipe collecting pipe (12).

5, solar steam according to claim 1 power station is characterized in that: connect up and down or side by side successively through connecting valve between single long-pending heat storage can (10), (7), (21), (31), (39).

6, solar steam according to claim 1 power station, it is characterized in that: the steam (vapor) outlet that wind generator turbines promotes storehouse (66) is connected with the tops of a plurality of decompressions jar (78) through wind generator turbines (68), connection valve (103), enlarges the compatibilization of decompression tank battery (78).

7, solar steam according to claim 1 power station is characterized in that: the VLA solar thermal collector by a plurality of equal row's formula heat collectors (124) also, series connection forms.

8, solar steam according to claim 1 power station is characterized in that: the VLA solar thermal collector by a plurality of equal row's formula heat collectors (124) also, series connection forms, its quantity is the steam raising amount decision plus-minus according to steam insulation jar (79).

9, solar steam according to claim 1 power station is characterized in that: steam insulation jar (79), hot water thermal insulating jar (86) are that to get single-stage or multistage jar according to the load of steam electric power unit and evaporated quantity of water molten.

10, solar steam according to claim 1 power station is characterized in that: sunshine tracking device (116), solar opto-electronic board (117), solar energy path finder (118), sunlight absorb regulator (119) and take charge ofs respectively and obey on the row's of being installed in formula heat collector scaffolds (114).

11, solar steam according to claim 1 power station is characterized in that: solar opto-electronic board (117), solar energy path finder (118), sunlight absorb regulator (119) fixed installation.

12, solar steam according to claim 1 power station, it is characterized in that: the heating pipe (55) of steam auxiliary fuel combustion heater is connected with coal fired boiler.

13, solar steam according to claim 1 power station, it is characterized in that: connect through being connected seal ring (125) between spiral solar energy heat absorption pipe (1) and the spiral solar energy heat absorption pipe (1), directly be connected between spiral solar energy heat absorption pipe heat conductive tube (93) and the spiral solar energy heat absorption pipe heat conductive tube (93).

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