CN207761888U - Tower type solar electricity generation system - Google Patents

Abstract

The utility model discloses a kind of tower type solar electricity generation systems comprising support construction；Hot tank is fixed on the lower part of support construction；Cold tank is located at the top of hot tank, and fixed the shape of cold tank is funnel-form, and top is uncovered structure, and lower part is hollow-core construction on the support structure, and cold tank is internally provided with a hollow funnel wide at the top and narrow at the bottom, and hollow funnel forms receiving space with cold top tank structure；Condenser is set to the top of cold tank, is used for focusing sunlight；Heliostat field, including multiple heliostats, heliostat is located at around support construction, for providing reflected sunlight for condenser；Heat exchanger group is set to hot pot bottom, and is connect with hot tank by pipeline；Turbo-generator Set is connect by pipeline with heat exchanger group.Compared with prior art, the utility model tower type solar power generation system structure is simple, pollution-free, generating efficiency is high, being capable of lasting power generation in 24 hours.

Description

Tower type solar electricity generation system

Technical field

The utility model belongs to field of new energy generation, and more specifically, the utility model is related to a kind of tower type solars Electricity generation system.

Background technology

Solar light-heat power-generation refers to：Solar thermal energy is collected using large scale array parabolic or dish-shaped minute surface, passes through heat exchange Device provides steam, in conjunction with the technique of traditional steam turbine generator, to achieve the purpose that power generation.Using solar light-heat power-generation skill Art avoids expensive silicon wafer opto-electronic conversion technique, can substantially reduce the cost of solar power generation.Moreover, added by solar energy Hot medium can be stored in huge container, continue to drive vapour by discharging the heat stored by these after the sun sets Wheel power generation can reach continuous power generation in 24 hours.

Currently, difference of the solar light-heat power-generation according to the type of focusing, can be divided into slot type, three kinds of tower and dish-style (disc type) System, tower type solar electricity generation system is due to its simple, application with higher focusing ratio and photoelectric conversion efficiency, and design The advantages that range is wide is increasingly valued by people.Tower-type solar thermal power generating system mainly has according to heat-transfer working medium difference Salt melting system, heat-conducting oil system, air system and water/vapour system, but these systems all have some disadvantages：

There is cheap, good effect of heat exchange using water as the tower-type solar thermal power generating system of working medium, control the spies such as simple Point, but device of working medium heat storage capacity is poor, and when intensity of solar radiation declines, the cloud layer short time blocks heliostat field, causes to absorb heat System can not generate qualified Steam Actuation steam turbine and work on；

High as the fused salt cost of the solar power system of working medium using salt melting system, cost of investment is big, and fused salt is solidifying Solid point is low, is easy to condense in equipment and pipeline, causes the damage of equipment and pipeline, the operating temperature of fused salt is not more than 600 DEG C, when the temperature is excessively high, the thermal decomposition of fused salt can be caused, limit its generating efficiency；

It is per ton at 20000 yuan or more by the conduction oil conduction oil of the solar power system of working medium of heat-conducting oil system, at This height, and conduction oil operating temperature highest only has 400 DEG C, generating efficiency is low, and the solidification point of conduction oil is low, need to be arranged additional anti- Solidifying system, improves project cost cost.

In view of this, it is necessory to provide a kind of cheap, sustainable, stable, efficiency power generation tower type solar hair Electric system.

Utility model content

The purpose of this utility model is that：Overcome the deficiencies of the prior art and provide it is a kind of it is cheap, sustainable, stable, The tower type solar electricity generation system of efficiency power generation.

To achieve the goals above, the utility model provides a kind of tower type solar electricity generation system, including：

Support construction；

Hot tank is fixed on the lower part of support construction；

Cold tank is located at the top of hot tank, fixes on the support structure, and the shape of cold tank is funnel-form, and top is open tie Structure, lower part are hollow-core construction, and cold tank is internally provided with a hollow funnel wide at the top and narrow at the bottom, hollow funnel and cold top tank structure shape At receiving space；

Condenser is set to the top of cold tank, is used for focusing sunlight；

Heliostat field, including multiple heliostats, heliostat is located at around support construction, for providing reflection for condenser Sunlight；

Heat exchanger group is set to hot pot bottom, and is connect with hot tank by pipeline；

Turbo-generator Set is connect by pipeline with heat exchanger group.

As a kind of improvement of the utility model tower type solar electricity generation system, the top of the cold tank is hollow cylinder Or hollow cube, lower part are open circles stage body or hollow prismoid.

As a kind of improvement of the utility model tower type solar electricity generation system, the top of the cold tank is hollow cylinder Body, lower part are open circles stage body.

As a kind of improvement of the utility model tower type solar electricity generation system, the hollow funnel is welded with cold top tank structure Connection, hollow funnel are open circles stage body or hollow prismoid.

As a kind of improvement of the utility model tower type solar electricity generation system, the hot tank is funnel shaped configuration, top For hollow cylinder or hollow cube, lower part is open circles stage body or hollow prismoid, the company of being provided between cold tank and hot tank Junctor, the shape of the connector are open circles stage body or hollow prismoid, the upper and lower part of connector respectively with cold tank and Hot tank connection, the light reflected back from heliostat field optically focused focus after condenser is by secondary reflection are fallen in connector.

As a kind of improvement of the utility model tower type solar electricity generation system, it is provided between the cold tank and connector First regulating valve.

As a kind of improvement of the utility model tower type solar electricity generation system, the heat exchanger group include from top to bottom according to Preheater, evaporator and the superheater of secondary setting, the heat exchanger group are exchanged heat by water supply.

As a kind of improvement of the utility model tower type solar electricity generation system, the pipe between the hot tank and heat exchanger group The second regulating valve is provided on road.

As a kind of improvement of the utility model tower type solar electricity generation system, connected between the heat exchanger group and cold tank There are transport deferent, transport pipeline to be connected to respectively with the top of the bottom of heat exchanger group and cold tank, conveying is provided on transport pipeline Pump.

As a kind of improvement of the utility model tower type solar electricity generation system, the Turbo-generator Set and heat exchanger group Between pipeline include water supply line and jet chimney, water supply line is located at the lower part of Turbo-generator Set and heat exchanger group, steam Steam pipe road is located at the top of Turbo-generator Set and heat exchanger group.

Compared with the existing technology, the utility model tower type solar electricity generation system has the following technical effects：

1) sand particulates can be used as a heat transfer medium, since sand working medium is dirt cheap, tower photo-thermal can be greatly reduced Fund input of the power station in terms of heat transfer medium；

2) use sand particulates operating temperature up to 1000 DEG C, can obtain higher temperature, higher quality steam, energy Generating efficiency is substantially improved；

3) sand particulates used do not undergo phase transition for solid-state in the course of work, and disposable engineering investment cost is few；

4) use sand it is non-corrosive, will not etching apparatus, pipeline, reduce cost of investment, and extend equipment pipe The service life in road；

5) use sand as working medium, it is completely compatible with ecological environment, environmental pollution will not be caused；

6) heat transfer medium sand conducts heat with solar radiation in optically focused focal point direct heat transfer without by heat transmission equipment, Reduce heat exchange loss, improve the whole efficiency in power station, solve traditional power station by heat transmission equipment come conduct heat, heat exchange efficiency Low problem；Simultaneously because direct heat exchange solves endothermic tube and invests big and short life ask without traditional endothermic tube Topic.

Description of the drawings

With reference to the accompanying drawings and detailed description, to the utility model tower type solar electricity generation system and its Advantageous Effect is described in detail, wherein：

Fig. 1 is the structural schematic diagram of the utility model tower type solar electricity generation system.

Reference numeral：

10- support constructions；The hot tanks of 11-；The cold tanks of 12-；120- sands；The hollow funnels of 13-；14- connectors；140- optically focused Focus, 16- condensers；18- heat exchanger groups；20- Turbo-generator Sets；22- water supply lines；24- jet chimneys；26- delivery tubes Road；28- delivery pumps；The first regulating valves of 30-；The second regulating valves of 32-；34- heliostats.

Specific implementation mode

In order to make the purpose of this utility model, technical solution and advantageous effects be more clear, below in conjunction with attached drawing and Specific implementation mode, the present invention will be further described in detail.It should be understood that described in this specification specific Embodiment is intended merely to explain the utility model, is not intended to limit the utility model.

Refering to Figure 1, the utility model tower type solar electricity generation system includes：

Support construction 10；

Hot tank 11 is fixed on the lower part of support construction 10；

Cold tank 12 is located at the top of hot tank 11, is fixed in support construction 10, and the shape of cold tank 12 is funnel-form, top For uncovered structure, lower part is hollow-core construction, and cold tank 12 is internally provided with a hollow funnel 13 wide at the top and narrow at the bottom, hollow funnel 13 form receiving space with 12 inner wall of cold tank；

Condenser 16 is set to the top of cold tank 12, is used for focusing sunlight；

Heliostat field, including multiple heliostats 34, heliostat 34 are located at around support construction 10, for being condenser 16 Reflected sunlight is provided；

Heat exchanger group 18 is set to 11 bottom of hot tank, and is connect with hot tank 11 by pipeline；

Turbo-generator Set 20 is connect by pipeline with heat exchanger group 18.

Support construction 10 is frame structure, is mainly used for fixing and supporting hot tank 11 and cold tank 12 and other auxiliary are set Standby, support construction 10 is arranged around 12 tank body of hot tank 11 and cold tank.

Hot tank 11 is funnel shaped, and top is hollow cylinder or hollow cube, and lower part is open circles stage body or hollow Prismoid, in the shown embodiment, the first half of hot tank 11 is hollow cylinder, and lower half is open circles stage body, is so set It sets, convenient for quickly collecting and being temporarily used for store the sand 120 in cold tank 12 after the heating of 16 reflected light of condenser, simultaneously Sand 120 is facilitated quickly to be conveyed to following heat exchanger group 18 by the open circles stage body of lower half.

Cold tank 12 is located at the surface of hot tank 11, and the shape of cold tank 12 is funnel shaped, and top is hollow cylinder or sky Body-centred cube, lower part are open circles stage body or hollow prismoid, and in the shown embodiment, the first half is hollow cylinder, under Half portion is open circles stage body.There are one hollow funnel 13, hollow funnel 13 is shape wide at the top and narrow at the bottom for the centre position welding of cold tank 12, For open circles stage body or hollow prismoid structure, in the shown embodiment, hollow funnel 13 is open circles stage body, hollow funnel After 13 are welded and fixed with cold tank 12, annular receiving space is formed, for storing working medium sand 120, the setting of hollow funnel 13 It is related with the direction of the reflected light of sunlight, it can ensure that the sunlight after condenser 16 reflects is formed in connector 14 Optically focused focus 140.

Sand 120 is common river sand and sea sand, and main component is quartz and carbonate.

Connector 14 is connect with hot tank 11 and cold tank 12 respectively between hot tank 11 and cold tank 12, connector 14 Structure is the wide open circles stage body of top narrow lower portion or hollow prismoid, since the top of the hot tank 11 in illustrated embodiment is The lower part of hollow cylinder, cold tank 12 is open circles stage body, and in the shown embodiment, connector 14 selects open circles stage body knot Structure is connect respectively with hot tank 11 and cold tank 12, in setting up procedure, it is to be ensured that and opening above can be corresponding with cold tank 12, below Opening can be corresponding with hot tank 11.The first regulating valve 30 is provided between connector 14 and cold tank 12, the first regulating valve 30 Setting is mainly used for cold tank 12 and stores sand 120, sand after sunlight is not strong enough or heating is filled in the space of hot tank 11 When 120, the first regulating valve 30 can be closed, prevents sand 120 from falling into hot tank 11 from cold tank 12, when needing to sand 120 When heating, open the first regulating valve 30, the sand 120 in cold tank 12 since the effect of gravity is fallen into hot tank 11, Sand 120 in whereabouts is heated rapidly at the optically focused focus 140 in connector 14, be can reach 1000 DEG C, is then stored up There are in hot tank 11, due to the structure feature of cold tank 12, connector 14 and hot tank 11, sand 120 is during whereabouts, shape At the form of a similar hourglass.

In other embodiments, hot tank 11, cold tank 12 and connector 14 can be also made to integral structure, formed one big The tank body of type, also can by connector 14 and hot tank 11 or cold tank 12 it is prefabricated it is into a single integrated structure after, then with another tank be adapted to company It connects, required shape is made, as long as disclosure satisfy that needs,

Condenser 16 is concave mirror, is arranged in the surface of cold tank 12, the sunlight for focusing and reflecting different moments, Sand 120 to be stored in cold tank 12 is quickly heated, by the light that multiple heliostats 34 reflect back in heliostat field Line is in condenser 16 by secondary reflection, and optically focused focus 140 just falls the connector 14 between cold tank 12 and hot tank 11 after reflection In.

Heat exchanger group 18 is located at the underface of hot tank 11, including set gradually from the bottom up preheater (not shown), steam Device (not shown) and superheater (not shown) are sent out, heat exchanger group 18 is connect by pipeline with hot tank 11, and is set in connecting pipe It is equipped with the second regulating valve 32, heat exchanger group 18 is for receiving the sand 120 flowed out from hot tank 11.

Heat exchanger group 18 is connected to by transport pipeline 26 with cold tank 12, the bottom with heat exchanger group 18 respectively of transport pipeline 26 It is connected to the top of cold tank 12, delivery pump 28 is provided on transport pipeline 26, delivery pump 28 is arranged in the attached of heat exchanger group 18 Closely, by delivery pump 28 and transport pipeline 26 for passing through the sand 120 after cooling that exchanges heat in delivery heat transfer device group 18, to sand 120 are recycled, and the sand 120 conveyed by transport pipeline 26 is mainly delivered to the hollow funnel being arranged in cold tank 12 In loop configuration between 13 and 12 inner wall of cold tank.Sand 120 can also be used crawler belt combination conveyer form recycle it is defeated It send.

Turbo-generator Set 20 passes through the water supply line of lower part 22 and the jet chimney on top 24 and heat exchanger group 18 respectively Connection.After the first regulating valve 32 is opened, the sand 120 after the heating being stored in hot tank 11 is changed since gravity is fallen into In hot device group 18, preheater, evaporator and superheater in heat exchanger group 18 are passed through successively by the water supply in water supply line 22 After heating, superheated steam is formed, superheated steam is transported to Turbo-generator Set 20 by jet chimney 24 and generates electricity, sent out by steamer Steam after motor group 20 generates electricity is condensed into after liquid and is transported to heat exchanger group 18 by water supply line 22 again and exchanges heat, and carries out Continual power generation operation transfers out the electricity sent out then by ancillary equipment.

The operation principle of heat exchanger group 18 is：Sand 120 (temperature reaches as high as 1000 DEG C) after being heated in hot tank 11 is fallen Enter in heat exchanger group 18, sand 120 slowly covers preheater, evaporator and superheater from bottom to top, due to supplying water Water supply in pipeline 22 passes sequentially through preheater, evaporator and superheater and is heated, and eventually forms superheated steam, and sand 120 with water supply after exchanging heat, and due to exchanging heat at first with water supply, temperature declines comparatively fast the sand 120 of the bottom, and The sand 120 of middle layer is exchanged heat to the water supply in evaporator, and temperature decline is slower, and preheater and evaporator are passed through in water supply After heat exchange, eventually by the superheater of top layer, due to passing through the feed temperature in superheater in the bottom and middle level sand 120 After heat exchange, temperature is sufficiently high, then after the heat exchange of the sand of top layer 120, forms superheated steam, then passes through steam Pipeline 24 is transported to Turbo-generator Set 20 and generates electricity.

The sand 120 of the bottom in heat exchanger group 18 after heat exchange is more due to exchanging heat, and temperature declines comparatively fast, at first Be transported in cold tank 12 by delivery pump 28 and transport pipeline 26, the sand 120 of middle layer due to also having higher temperature, when After the sand 120 of the bottom is transported away, the sand 120 of middle layer is continued as at the sand 120 of the bottom in preheater Water supply carries out part heat exchange, is transported in cold tank 12 also by delivery pump 28 and transport pipeline 26 after having changed heat, the sand of top layer Son 120 is similar with the bottom and the sand in middle level 120, has been changed after heat to superheater, evaporator and preheater pass through conveying successively Pump 28 and transport pipeline 26 are transported in cold tank 12.Sand 120 in heat exchanger group 18 is during ceaselessly transporting, hot tank 11 In heating after sand 120 ceaselessly supplemented, it is logical when during the sand 120 in cold tank 12 falling on hot tank 11 under The sunlight crossed at optically focused focus 140 ceaselessly heats, and forms work in cycles in this way, it is ensured that whole system can not between Disconnected operation.

Since also there is certain temperature after heat exchange from the sand 120 being transported in heat exchanger group 18 in cold tank 12, because This, only needs the shorter time that sand 120 is quick when sunlight after the reflection of condenser 16 is in optically focused focus 140 It is heated to required temperature.When system is when running at night, since condenser 16 can not receive sunlight at this time, need to close The sand 120 that first regulating valve 30 prevents the sand 120 in cold tank 12 from continuing to fall into hot tank 11, but is temporarily stored in hot tank 11 Amount and temperature can continue to exchange heat for the water supply Jing Guo heat exchanger group 18, can ensure that system at night also can be just in this way Often operation, being capable of continual carry out power generation operation.

Heliostat field includes multiple heliostats 34, and the surrounding in support construction 10 is arranged in heliostat 34, for being condenser 16 provide the reflected sunlight of different moments.When the sun moves from east to west, solar irradiation is mapped to the heliostat of different direction On 34, then by the reflex of heliostat 34, the sunlight of different moments is reflected on condenser 16, makes condenser 16 Sunlight can be received in different moments, is then continued by the sand 120 being stored in cold tank 12 after focusing Heating makes system be in and runs without interruption.

The workflow of the utility model tower type solar electricity generation system is：

1) sand 120 to be heated is stored in cold tank 12, after opening the first regulating valve 30 below cold tank 12, sand 120 flow out from cold tank 12, flow into hot tank 11 after rapid heating at the optically focused focus 140 of lower section, the sand after being heated 120 are stored in hot tank 11；

2) the second regulating valve 32 is opened, is temporarily stored in the sand 120 in hot tank 11 along in pipeline flow-direction heat exchanger group 18, Sand 120 relies on gravity flowing from top to bottom in heat exchanger group 18, by the water supply of water supply line 22 below heat exchanger group 18 Into generating superheated steam after the heat exchange of preheater, evaporator and superheater, superheated steam enters vapour along jet chimney 24 Turbine generator group 20 generates electricity, and is then transferred out the electricity sent out by ancillary equipment, the water supply condensed out passes through feed pipe Road 22 continues transported to heat exchanger group 18 and exchanges heat, and realizes recycling for water resource；

3) sand 120 after releasing energy using delivery pump 28 from the lower part of heat exchanger group 18 along transport pipeline 26 again It is transferred back to cold tank 12, waits for and enters next cycle, to realize sustainable sealing and circulating process.

It should be noted that the utility model tower type solar electricity generation system only changes 11, cold tank 12, hollow funnel 13 to heat Be illustrated with the partial shape of connector 14, but in other embodiments, hollow cylinder and hollow cube with it is empty It can be combined with each other between heart round estrade and hollow prismoid, as long as funnel shaped can be formed.

As can be seen from the above description, compared with the existing technology, the utility model tower type solar electricity generation system has following Technique effect：

1) sand particulates are used as a heat transfer medium, since sand working medium is dirt cheap, tower photo-thermal electricity can be greatly reduced The fund input stood in terms of heat transfer medium；

2) use sand particulates operating temperature up to 1000 DEG C, can obtain higher temperature, higher quality steam, energy Generating efficiency is substantially improved；

3) sand particulates used do not undergo phase transition for solid-state in the course of work, and disposable engineering investment cost is few；

4) use sand it is non-corrosive, will not etching apparatus, pipeline, reduce cost of investment, and extend equipment pipe The service life in road；

5) use sand as working medium, it is completely compatible with ecological environment, environmental pollution will not be caused；

6) heat transfer medium sand and solar radiation direct heat transfer at optically focused focus 140, pass without by heat transmission equipment Heat reduces heat exchange loss, improves the whole efficiency in power station, solve traditional power station by heat transmission equipment to conduct heat, exchange heat The low problem of efficiency；Simultaneously because direct heat exchange, without traditional endothermic tube, solve that endothermic tube investment is big and short life Problem.

According to above-mentioned principle, the utility model can also carry out change and modification appropriate to above-mentioned specific implementation mode. Therefore, the utility model is not limited to specific implementation mode disclosed and described above, some modifications to the utility model It should also be as falling into the protection scope of the claims of the present utility model with change.In addition, although having used one in this specification A little specific terms, these terms are merely for convenience of description, does not constitute any restrictions to the utility model.

Claims (10)

1. a kind of tower type solar electricity generation system, which is characterized in that including：

Support construction；

Hot tank is fixed on the lower part of support construction；

Cold tank is located at the top of hot tank, and fixed the shape of cold tank is funnel-form, and top is uncovered structure on the support structure, under Portion is hollow-core construction, and cold tank is internally provided with a hollow funnel wide at the top and narrow at the bottom, and hollow funnel is formed with cold top tank structure and received Hold space；

Condenser is set to the top of cold tank, is used for focusing sunlight；

Heliostat field, including multiple heliostats, heliostat are located at around support construction, for providing the reflection sun for condenser Light；

Heat exchanger group is set to hot pot bottom, and is connect with hot tank by pipeline；

Turbo-generator Set is connect by pipeline with heat exchanger group.

2. tower type solar electricity generation system according to claim 1, which is characterized in that the top of the cold tank is open circles Cylinder or hollow cube, lower part are open circles stage body or hollow prismoid.

3. tower type solar electricity generation system according to claim 1, which is characterized in that the top of the cold tank is open circles Cylinder, lower part are open circles stage body.

4. tower type solar electricity generation system according to claim 1, which is characterized in that the hollow funnel and cold top tank structure It is welded to connect, hollow funnel is open circles stage body or hollow prismoid.

5. tower type solar electricity generation system according to claim 1, which is characterized in that the hot tank is funnel shaped configuration, Top is hollow cylinder or hollow cube, and lower part is open circles stage body or hollow prismoid, is arranged between cold tank and hot tank Have a connector, the shape of the connector is open circles stage body or hollow prismoid, the upper and lower part of connector respectively with it is cold Tank is connected with hot tank, and the light reflected back from heliostat field optically focused focus after condenser is by secondary reflection is fallen in connector In.

6. tower type solar electricity generation system according to claim 5, which is characterized in that set between the cold tank and connector It is equipped with the first regulating valve.

7. tower type solar electricity generation system according to claim 1, which is characterized in that the heat exchanger group include from it is lower to On the preheater, evaporator and the superheater that set gradually, the heat exchanger group exchanged heat by water supply.

8. tower type solar electricity generation system according to claim 1, which is characterized in that between the hot tank and heat exchanger group Pipeline on be provided with the second regulating valve.

9. tower type solar electricity generation system according to claim 1, which is characterized in that between the heat exchanger group and cold tank It is connected with transport deferent, transport pipeline is connected to the top of the bottom of heat exchanger group and cold tank, is provided on transport pipeline respectively Delivery pump.

10. tower type solar electricity generation system according to claim 1, which is characterized in that the Turbo-generator Set and change Pipeline between hot device group includes water supply line and jet chimney, and water supply line is located under Turbo-generator Set and heat exchanger group Portion, jet chimney are located at the top of Turbo-generator Set and heat exchanger group.