CN105815152A - Solar organic farm - Google Patents

Abstract

The invention provides a solar organic farm, and relates to the fields of agriculture and desert greening. The solar organic farm comprises a groove type light concentration system, a heat storage system, a photovoltaic power generation system, a sea water desalination system, an organic Rankine cycle system and a greenhouse/shed system, wherein the groove type light concentration system and the heat storage system are connected with the organic Rankine cycle system, cooperate with the photovoltaic power generation system, and provide heat energy and electric power supply, which are uninterrupted for 24 hours, for the farm; the sea water desalination system is connected with the greenhouse/shed system, so as to, on one hand, cool a shed by daylight, and on the other hand, to provide fresh water supply for the whole farm; the greenhouse/shed system for which a water tillage method is adopted is self provided with a sea water cooling system and a condensation system, and provides a closed and independent environment for growth of a crop. The invention provides the solar organic farm, the solar organic farm can be constructed in areas, where are short in water but sufficient in sunshine, such as a desert, a gobi desert and the like, the autarky is realized, the zero release is achieved, and food and fresh water can be also provided continuously.

Description

A kind of organic farm of solar energy

Technical field

The present invention relates to agricultural and Desert Greening Technology field, particularly relate to a kind of organic farm of solar energy.

Background technology

Along with the supply pressure of the energy needed for the increase of world population, proportion of crop planting and fresh water is also rising.The average consumption of agricultural production accounts for the 70% of world's fresh water usage amount, but in some water-deficient areas, the 90% of water consumption is used for irrigating, and this is the most irrational.Under global climate change effect, people maintain production estimation with greater need for the supply of a kind of stable energy and fresh water.Sunlight, sea water are inexhaustible, uncultivated discarded ground, desert, seem there is no contact between three, but our the required stable energy and fresh water and organically crops endlessly can be obtained after three is merged, really realize change oasis, desert.

Summary of the invention

It is an object of the invention to provide a kind of organic farm of solar energy, to solve above-mentioned technical problem.

The technical problem to be solved realizes by the following technical solutions:

A kind of organic farm of solar energy, it is characterized in that, it it is a set of comprehensive Agro-ecological System being merged by multisystem and being formed, its system merged includes: trench light condensing system, heat reservoir, photovoltaic generating system, seawater desalination system, heat exchange and organic rankine cycle system, greenhouse system, described heat reservoir is made up of low temperature heat storage can and high-temperature heat-storage tank；

Described trench light condensing system, heat reservoir are connected with heat exchange and organic rankine cycle system, coordinate photovoltaic generating system, provide 24 hours continual heat energy and supply of electric power for farm；

Described seawater desalination system is connected with greenhouse system, lowers the temperature for booth the most by day, on the other hand provides water supply for whole farm；

Described greenhouse system, uses water culture, carries sea water cooling system and condenser system, provides for crop growth and closes independent environment.

Described greenhouse system includes warmhouse booth and the porous cardboard being arranged on warmhouse booth sidewall, sea water flows into the porous cardboard of warmhouse booth sidewall from warmhouse booth top, by blower fan, outdoor air is introduced in warmhouse booth by porous cardboard, for warmhouse booth cooling and humidification.

Described greenhouse system, is used for irrigating through condenser output fresh water with condenser, hot-air moist in canopy.

The heat accumulation heat transfer medium of described heat reservoir is any one or two kinds of in conduction oil, fused salt and water.

Described trench light condensing system can be substituted by tower condenser system or disc type condensation system, or multisystem depositing.

Described trench light condensing system North and South direction is arranged, the real-time tracking sun rises in east and drop in west process, is added the fused salt in hot channel by focused solar energy；Fused salt after heating is partly into heat exchange and Organic Rankine Cycle system generates electricity through pipeline, and waste heat is supplied to seawater desalination system；Another part flows in high-temperature heat-storage tank and stores, and cloud layer is sailed when, the fused salt in high-temperature heat-storage tank exports in heat-exchange system as thermal compensation.

The main body of described seawater desalination system is that a vapor compressor coordinates a multi-effect distilling machine, and the mode of desalinization uses the mode of hot desalination.

The heat of heat reservoir is converted into steam by described heat exchange and Organic Rankine Cycle system, then pushing turbine generates electricity；Heat exchange and Organic Rankine Cycle system match with photovoltaic generating system, can ensure the supply of electric power on whole farm.

Described greenhouse system is by coating steel pipe as support, and metope is double-layer inflatable PE film, and top is monolayer PE film；The cooling humidification system of booth is made up of porous cardboard and fan, and hot-air, through being saturated with the porous cardboard of sea water, reduces temperature and improves again humidity, this method reduces the moisture evaporation of crops, reduces irrigation water further.

The utilization of energy on a kind of organic farm of described solar energy and regulation and control method, it is characterised in that: comprise the steps:

, trench light condensing system adjusts to towards east, and photovoltaic generating system is opened the sunrise time-division in the morning；After the thermal-collecting tube temperature of photovoltaic generating system rises, fused salt output in low temperature heat storage can enters thermal-collecting tube, beginning to warm up, the fused salt after heating stores in pipeline is partly into high-temperature heat-storage tank, and a part is fed directly in heat exchange and Organic Rankine Cycle system generate electricity；

Waste heat after generating is delivered to seawater desalination system, carries out desalinization operation, and the sea water after desalination, in the fresh water collecting case of pipeline input seawater desalination system, carries out crop irrigation by irrigation pipeline；Fused salt after heat exchange returns in low temperature heat storage can, completes once to circulate, the most constantly circulation；

In time without solar irradiation, in the fused salt output of storage in high-temperature heat-storage tank to heat exchange and Organic Rankine Cycle system, generating electricity, a waste heat part is used for seawater desalination system, and a part is for the heating of greenhouse system；

When greenhouse system internal temperature exceedes setting value, sea water is introduced porous cardboard from ceiling endlessly, after enter underground sea water through pipeline and flow out pipeline and discharge；Fan is opened, and the gap in porous cardboard of the hot-air outside warmhouse booth introduces inside booth, and because porous cardboard has been saturated with low temperature seawater, therefore the air themperature passed through reduces humidity and promotes, and booth internal temperature is decreased obviously；Moist hot-air by hydrogenesis therein, can generate fresh water, through condenser in fresh water collecting pipeline is pooled to fresh water collecting case before discharging booth；Fresh water in fresh water collecting case, irrigates crop through irrigation pipeline.

The invention has the beneficial effects as follows:

The present invention provides a kind of organic farm of solar energy, in desert, the illumination such as Gobi desert and island sufficient, but the regional Planting Crops of scarcity of fresh water resources, farm system is self-sufficient, food, electric power, heat energy and fresh water also can be provided endlessly, have outstanding role at aspects such as desert afforestations.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is medium temperature chamber of the present invention greenhouse system schematic diagram.

In figure: 1, trench light condensing system；2, greenhouse system；3, desalinization (hot desalination) system；4, low temperature heat storage can；5, heat exchange and organic rankine cycle system；6, photovoltaic generating system；7, high-temperature heat-storage tank；8, porous cardboard；9, condenser；10, fan；11, fresh water collecting pipeline；12, irrigation pipeline；13, fresh water collecting case；14, underground sea water flows out pipeline；15, underground sea water flow ipe.

Detailed description of the invention

For the technological means making the present invention realize, creation characteristic, reach purpose and be easy to understand with effect, below in conjunction with the accompanying drawings and specific embodiment, the present invention is expanded on further, but following embodiment is only the preferred embodiments of the present invention, and not all.Based on the embodiment in embodiment, those skilled in the art are obtained other embodiments on the premise of not making creative work, broadly falls into protection scope of the present invention.

As shown in Figure 1-2,

A kind of organic farm of solar energy, comprising trench light condensing system 1, heat reservoir, photovoltaic generating system 6, desalinization (hot desalination) system 3, heat exchange and organic rankine cycle system 5, greenhouse system 2, heat reservoir comprises low temperature heat storage can 4 and high-temperature heat-storage tank 7.

Trench light condensing system 1 North and South direction is arranged, the real-time tracking sun rises in east and drop in west process, is added the fused salt in hot channel by focused solar energy.Fused salt after heating is partly into heat exchange and Organic Rankine Cycle system 5 generates electricity through pipeline, and waste heat is supplied to desalinization (hot desalination) system 3；A part flows in high-temperature heat-storage tank 7 and stores.Heat storage can is extremely important, cloud layer is the biggest on the impact of spotlight effect, desalinization (hot desalination) system 3 and heat exchange and organic rankine cycle system 5 are required for stable thermal source, and cloud layer is sailed when, the fused salt in high-temperature heat-storage tank 7 exports in heat-exchange system as thermal compensation.

The main body of desalinization (hot desalination) system 3 is that a vapor compressor coordinates a multi-effect distilling machine (MED-TVC), the mode of desalinization has two kinds at present, it is respectively pressure or heat energy, pressure mode needs a large amount of electric power, and be only limitted to and Low-salinity scope, heat energy mode then can process the sea water of high salinity, although there is supply of electric power on farm, it is contemplated that conversion efficiency problem or hot desalination is more suitable for.

Heat exchange and Organic Rankine Cycle system 5 are responsible for the heat in heat storage can is converted into steam, then pushing turbine generates electricity.Normal steam turbine needs the steam (High Temperature High Pressure) of higher quality, all can have higher requirement for trench light condensing system 1, heat reservoir (4,7) and pipeline, Organic Rankine Cycle (ORC) is the selection that the most suitably generates electricity from a cost perspective.Heat exchange and Organic Rankine Cycle system 5 match with photovoltaic generating system 6, can ensure the supply of electric power on whole farm.

Greenhouse system 2 is by coating steel pipe as support, and metope is double-layer inflatable PE film, and top is monolayer PE film.The cooling humidification system of booth is made up of porous cardboard 8 and fan 10, and hot-air, through being saturated with the porous cardboard of sea water, reduces temperature and improves again humidity, this method reduces the moisture evaporation of crops, reduces irrigation water further.

Working-flow is:

, trench light condensing system 1 adjusts to towards east, and photovoltaic generating system 6 is opened the sunrise time-division in the morning.After thermal-collecting tube temperature rises, fused salt output in low temperature heat storage can 4 enters thermal-collecting tube, beginning to warm up, the fused salt after heating stores in pipeline is partly into high-temperature heat-storage tank 7, and a part is fed directly in heat exchange and Organic Rankine Cycle system 5 generate electricity.

Waste heat after generating is delivered to desalinization (hot desalination) system 3, carries out desalinization operation, and the sea water after desalination inputs in fresh water collecting case 14 through pipeline, carries out crop irrigation by irrigation pipeline 12.Fused salt after heat exchange returns in low temperature heat storage can 4, exports to trench light condensing system 1, completes once to circulate, the most constantly circulation.

There being cloud layer to sail, rainy weather, the time-division at night, in high-temperature heat-storage tank 7, the fused salt of storage exports to heat exchange and Organic Rankine Cycle system 5, generating electricity, a waste heat part is used for desalinization (hot desalination) system 3, and a part is for the heating of greenhouse system 2.

When greenhouse system 2 internal temperature exceedes setting value, sea water is introduced porous cardboard 8 from ceiling endlessly, after enter underground sea water through pipeline and flow out pipeline 14 and discharge.Fan 10 is opened, and the gap in porous cardboard 8 of the hot-air outside booth introduces inside booth, and because porous cardboard 8 has been saturated with low temperature seawater, therefore the air themperature passed through reduces humidity and promotes, and booth internal temperature is decreased obviously.Moist hot-air by hydrogenesis therein, can generate fresh water, through condenser 9 in fresh water collecting pipeline 11 is pooled to fresh water collecting case 13 before discharging booth.Fresh water in fresh water collecting case 13, is transported to each crop through irrigation pipeline 12.

The ultimate principle of the present invention, principal character and advantages of the present invention have more than been shown and described.Skilled person will appreciate that of the industry; the present invention is not restricted to the described embodiments; the preference being only the present invention described in above-described embodiment and description; it is not intended to limit the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements both fall within scope of the claimed invention.Claimed scope is defined by appending claims and equivalent thereof.

Claims (10)

1. the organic farm of solar energy, it is characterized in that, it it is a set of comprehensive Agro-ecological System being merged by multisystem and being formed, its system merged includes: trench light condensing system, heat reservoir, photovoltaic generating system, seawater desalination system, heat exchange and organic rankine cycle system, greenhouse system, described heat reservoir is made up of low temperature heat storage can and high-temperature heat-storage tank；

Described trench light condensing system, heat reservoir are connected with heat exchange and organic rankine cycle system, coordinate photovoltaic generating system, provide 24 hours continual heat energy and supply of electric power for farm；

Described seawater desalination system is connected with greenhouse system, lowers the temperature for booth the most by day, on the other hand provides water supply for whole farm；

Described greenhouse system, uses water culture, carries sea water cooling system and condenser system, provides for crop growth and closes independent environment.

The organic farm of solar energy the most according to claim 1, it is characterized in that: described greenhouse system includes warmhouse booth and the porous cardboard being arranged on warmhouse booth sidewall, sea water flows into the porous cardboard of warmhouse booth sidewall from warmhouse booth top, by blower fan, outdoor air is introduced in warmhouse booth by porous cardboard, for warmhouse booth cooling and humidification.

The organic farm of solar energy the most according to claim 1, it is characterised in that: described greenhouse system, is used for irrigating through condenser output fresh water with condenser, hot-air moist in canopy.

The organic farm of solar energy the most according to claim 1, it is characterised in that: the heat accumulation heat transfer medium of described heat reservoir is any one or two kinds of in conduction oil, fused salt and water.

The organic farm of solar energy the most according to claim 1, it is characterised in that: described trench light condensing system can be substituted by tower condenser system or disc type condensation system, or multisystem depositing.

The organic farm of solar energy the most according to claim 1, it is characterised in that: described trench light condensing system North and South direction is arranged, the real-time tracking sun rises in east and drop in west process, is added the fused salt in hot channel by focused solar energy；Fused salt after heating is partly into heat exchange and Organic Rankine Cycle system generates electricity through pipeline, and waste heat is supplied to seawater desalination system；Another part flows in high-temperature heat-storage tank and stores, and cloud layer is sailed when, the fused salt in high-temperature heat-storage tank exports in heat-exchange system as thermal compensation.

The organic farm of solar energy the most according to claim 1, it is characterised in that: the main body of described seawater desalination system is that a vapor compressor coordinates a multi-effect distilling machine, and the mode of desalinization uses the mode of hot desalination.

The organic farm of solar energy the most according to claim 1, it is characterised in that: the heat of heat reservoir is converted into steam by described heat exchange and Organic Rankine Cycle system, then pushing turbine generates electricity；Heat exchange and Organic Rankine Cycle system match with photovoltaic generating system, can ensure the supply of electric power on whole farm.

The organic farm of solar energy the most according to claim 1, it is characterised in that: described greenhouse system is by coating steel pipe as support, and metope is double-layer inflatable PE film, and top is monolayer PE film；The cooling humidification system of booth is made up of porous cardboard and fan, and hot-air, through being saturated with the porous cardboard of sea water, reduces temperature and improves again humidity, this method reduces the moisture evaporation of crops, reduces irrigation water further.

10. the organic farm of solar energy described in a claim 1 utilization of energy and regulation and control method, it is characterised in that: comprise the steps:

, trench light condensing system adjusts to towards east, and photovoltaic generating system is opened the sunrise time-division in the morning；After the thermal-collecting tube temperature of photovoltaic generating system rises, fused salt output in low temperature heat storage can enters thermal-collecting tube, beginning to warm up, the fused salt after heating stores in pipeline is partly into high-temperature heat-storage tank, and a part is fed directly in heat exchange and Organic Rankine Cycle system generate electricity；

Waste heat after generating is delivered to seawater desalination system, carries out desalinization operation, and the sea water after desalination, in the fresh water collecting case of pipeline input seawater desalination system, carries out crop irrigation by irrigation pipeline；Fused salt after heat exchange returns in low temperature heat storage can, completes once to circulate, the most constantly circulation；

In time without solar irradiation, in the fused salt output of storage in high-temperature heat-storage tank to heat exchange and Organic Rankine Cycle system, generating electricity, a waste heat part is used for seawater desalination system, and a part is for the heating of greenhouse system；

When greenhouse system internal temperature exceedes setting value, sea water is introduced porous cardboard from ceiling endlessly, after enter underground sea water through pipeline and flow out pipeline and discharge；Fan is opened, and the gap in porous cardboard of the hot-air outside warmhouse booth introduces inside booth, and because porous cardboard has been saturated with low temperature seawater, therefore the air themperature passed through reduces humidity and promotes, and booth internal temperature is decreased obviously；Moist hot-air by hydrogenesis therein, can generate fresh water, through condenser in fresh water collecting pipeline is pooled to fresh water collecting case before discharging booth；Fresh water in fresh water collecting case, irrigates crop through irrigation pipeline.