CN103274487A - Seawater desalination system based on wave power generation fishing platform - Google Patents

Abstract

The invention provides a seawater desalination system based on a wave power generation fishing platform. The system comprises a heating device, a baking device, a first detection module, a ventilation device, a condensing device, an ozone generator and a control device, wherein the baking device is connected with the heating device; the first detection module is connected with the baking device; the ventilation device is connected with the baking device and the heating device respectively; the condensing device is connected with the baking device; the ozone generator is connected with the condensing device and is connected with the ventilation device through a first electric valve; the control device is connected with the first detection module, the ozone generator, the first electric valve and the ventilation device respectively and controls the startup or shutdown of the ozone generator so as to realize the deodorization and disinfection of the system; and the control device controls the startup or shutdown of the ventilation device according to the detection results of the first detection module and controls the conduction or cutoff of the condensing device and the ventilation device through controlling the first electric valve. According to the system, not only is seawater desalination realized, but also objects can be baked, so that the storage time of the objects is prolonged, and the resource utilization ratio and practicability of the system are improved.

Description

A kind of based on the seawater desalination system in the wave-energy power generation fishing platform

Technical field

The present invention relates to field of sea water desalting technology, relate to a kind of based on the seawater desalination system in the wave-energy power generation fishing platform in particular

Background technology

As everyone knows, 5.1 hundred million km at the earth's surface ²The total area in, the ocean area is 3.6 hundred million km ^2,, approximately take up an area of 70.8% of ball surface-area, the ocean has 95% of earth Total Water, and therefore, under global Freshwater resources situation in short supply, the development desalination technology is asked for the task of top priority that fresh water has become modern society to the ocean.

In the navigation of the ocean of reality or seafari operation, especially in fishing platform, be provided with seawater desalination system usually, to solve the needs of problems to fresh water.Existing seawater desalination system mainly is directly seawater to be heated by heating unit, by condensing works the water vapour that heating unit produces is carried out condensation more afterwards, thereby obtains required fresh water.Yet, existing seawater desalination system function singleness, and because along with the operation type in the fishing platform increases gradually, and the limitation of offshore operation at present, therefore, how effectively to utilize seawater desalination system, become the technical problem that those skilled in the art press for solution.

Summary of the invention

In view of this, the invention provides a kind ofly based on the seawater desalination system in the wave-energy power generation fishing platform, solved the technical problem of existing seawater desalination system function singleness, realized the system function variation, improved the practicality of system.

For achieving the above object, the invention provides following technical scheme:

A kind of based on the seawater desalination system in the wave-energy power generation fishing platform, described system comprises:

Heating unit;

Link to each other with described heating unit, and the drying unit of stored article;

Link to each other with described drying unit, detect current first temperature of gas in the described drying unit and the first detection module of current first humidity;

The extractor fan that links to each other with described heating unit with described drying unit respectively;

The condensing works that links to each other with described drying unit;

Link to each other with described condensing works, and pass through the ozonizer that first motorized valve links to each other with described condensing works;

Link to each other with described ozonizer with described first detection module, described first motorized valve, described extractor fan respectively, controlling described ozonizer starts or stops, and according to described current first temperature and first preset temp, controlling described extractor fan starts or stops, and according to described current first humidity and the first default humidity, by controlling described first motorized valve, the control device of controlling described condensing works and described extractor fan conducting or ending.

Preferably, described system also comprises:

T-valve and the ultrasonic atomizer that links to each other with described control device respectively, wherein,

Described drying unit links to each other with described extractor fan by described T-valve;

Described condensing works links to each other with described extractor fan by described ozonizer, described first motorized valve, described ultrasonic atomizer and described T-valve successively;

Then described control device is when carrying out the article oven dry, control described ultrasonic atomizer and stop, according to described current first temperature and first preset temp, control described extractor fan and start, and by the described T-valve of control, control described drying unit and described extractor fan conducting; According to described current first humidity and the first default humidity, control described extractor fan and start, and by described first motorized valve of control and described T-valve, control described condensing works and described extractor fan conducting; When carrying out sea water desaltination, control described ultrasonic atomizer and described extractor fan and start, and by the described T-valve of control, control described ultrasonic atomizer and described extractor fan conducting; When carrying out system's taste removal, control described ozonizer and start, and by described first motorized valve of control and described T-valve, control described condensing works and described extractor fan conducting.

Preferably, described drying unit comprises:

The oven dry casing that links to each other with described heating unit, described condensing works and described T-valve respectively;

Be arranged in the described oven dry casing recirculation blower that links to each other with described control device.

Preferably, described heating unit comprises:

Solar water heater, hot water circulating pump and cellular interchanger that head and the tail link to each other successively;

Link to each other with described solar water heater, detect second detection module of current second temperature of described solar water heater water temperature inside;

Link to each other with described cellular interchanger, detect the 3rd detection module of current the 3rd temperature of described cellular interchanger water temperature inside, wherein,

Described cellular interchanger links to each other with described drying unit with described extractor fan respectively;

Described control device links to each other with described second detection module, described the 3rd detection module and described hot water circulating pump respectively, described current second temperature that calculating receives and the current temperature difference of described current the 3rd temperature, and according to the described current temperature difference and default temperature range, control described hot water circulating pump and start or stop.

Preferably, described cellular interchanger comprises:

The retaining casing;

Be arranged in the described retaining casing, and run through many heating tunneltrons of described retaining casing;

Be arranged on dismountable dividing plate in the described heating tunneltron of each root, wherein, described dividing plate comprises: the mainboard parallel with described heating tunneltron, and be arranged on the described mainboard, become a plurality of daughter boards of preset angles with described mainboard.

Preferably, described cellular interchanger also comprises:

Be arranged in the described retaining casing T shape water inlet pipe vertical with described heating tunneltron and T shape rising pipe;

Described T shape water inlet pipe is near the first surface of described retaining casing, and described T shape rising pipe is near the second surface of described retaining casing, and wherein, described first surface and described second surface are the surfaces that described retaining casing opposes mutually.

Preferably, described condensing works comprises:

First condenser that links to each other with described drying unit and second condenser that links to each other with described ozonizer;

Connect described first condenser and described second condenser, and second motorized valve that links to each other with described control device;

Link to each other with described second condenser with described first condenser, detect current the 4th temperature of described first condenser and described second condenser, and the 4th detection module of current the 4th humidity of described first condenser and described second condenser output gas;

Then described control device links to each other with described the 4th detection module, according to described current first humidity that receives and described current the 4th humidity, determines the operational efficiency of described first condenser and described second condenser.

Preferably, described system also comprises:

Fresh water collection box, first valve, resistance detection module, second valve, first wash water valve and second wash water valve, wherein,

Described fresh water collection box links to each other with described second condenser with described first condenser by described first valve;

Described resistance detection module is arranged on the feed-water end of described first valve, the flow through current resistance of described feed-water end fresh water of detection, so that described control device links to each other with described resistance detection module, according to described current resistance and default resistance, control described ultrasonic atomizer to the atomization quantity of seawater;

Described second valve is arranged on the water side of described fresh water collection box;

The described fresh water collection box of described first wash water valve links to each other;

Described second wash water valve links to each other with described cellular interchanger.

Preferably, described system also comprises:

The sea-water pump of Xiang Lianing, seawater column, magnetic valve, desalination water tank and the 3rd wash water valve successively;

The float(ing)valve that links to each other with described seawater column;

The expansion tank that links to each other with described solar water heater with described float(ing)valve respectively;

Link to each other with described control device with described seawater column respectively, detect the first Level Detection module of current first liquid level of described seawater column maritime interior waters;

Link to each other with described control device with described desalination water tank respectively, detect the second Level Detection module of current second liquid level of described desalination water tank maritime interior waters, wherein,

Described desalination water tank links to each other with described ultrasonic atomizer;

Described control device links to each other with described sea-water pump, described magnetic valve and the described second Level Detection module respectively, according to described current first liquid level and the first default liquid level scope, controls the startup of described sea-water pump; Detect and according to described current second liquid level and the second default liquid level scope, by controlling described magnetic valve, control described desalination water tank and described seawater column conducting.

Preferably, described first detection module and described the 4th detection module are temperature sensor and humidity sensor, perhaps Temperature Humidity Sensor;

Described second detection module and described the 3rd detection module are temperature sensor;

The described first Level Detection module and the described second Level Detection module are liquid level sensor.

Via above-mentioned technical scheme as can be known, compared with prior art, it is a kind of based on the seawater desalination system in the wave-energy power generation fishing platform that the present invention openly provides, in actual applications, and when carrying out sea water desaltination, by heating unit seawater is heated, and will obtain water vapour by coupled drying unit, transfer to condensing works, afterwards, after this condensing works water vapour is carried out condensation, obtain fresh water.Because the present invention is provided with the first detection module that links to each other with described drying unit, it can detect current first temperature and current first humidity of gas in the described drying unit, therefore, when drying the article that are stored in the described drying unit, and described current first temperature that control device is judged reception is during less than first preset temp, described control device will be controlled extractor fan and start, thereby the gas in the described drying unit is pumped to heating unit, through after the heating of this heating unit, be transferred back described drying unit, thereby realize the oven dry to article in this drying unit.

Wherein, in the drying course to article, because the moisture of article self will be evaporated in the drying unit, the gas humidity in this drying unit can increase gradually.When control device is judged described current first humidity and is not less than the first default humidity, control first motorized valve and start, thereby make described condensing works and described extractor fan conducting, form the loop.At this moment, hot and humid gas in the drying unit can be transported to described condensing works, by obtaining cryodrying gas behind this condensing works dehumidification by condensation, afterwards again by described extractor fan, this cryodrying gas pumped to heating unit heat, and the high temperature drying gas that will obtain after will heating, described drying unit carried back, in order to proceed to dry described article, till the humidity of these article reaches storage requirement.

Therefore, of the present inventionly not only realized the desalination of seawater is handled based on the seawater desalination system in the wave-energy power generation fishing platform, the more important thing is and realized being stored in the oven dry of the article in the drying unit, prolonged the storage time of article greatly, and the ozone that produces by ozonizer, eliminate the peculiar smell in the system, purified system.That is to say, the present invention is to provide a kind of with the oven dry of sea water desaltination, article and eliminate function integration such as peculiar smell, based on the seawater desalination system in the wave-energy power generation fishing platform, improved utilization ratio and the practicality of resource greatly.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is embodiments of the invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to the accompanying drawing that provides.

Fig. 1 is a kind of structural representation based on the seawater desalination system embodiment 1 in the wave-energy power generation fishing platform and embodiment 2 of the present invention;

Fig. 2 A is the structural representation of the embodiment of a kind of heating unit of the present invention;

Fig. 2 B is the structural representation of a kind of cellular heat exchanger embodiments of the present invention;

Fig. 2 C is the 3-D view of a kind of dividing plate embodiment of the present invention;

Fig. 2 D is the distribution schematic diagram of a kind of T shape of the present invention water inlet pipe and water outlet pipe embodiment;

Fig. 3 A is a kind of structural representation based on the seawater desalination system embodiment 3 in the wave-energy power generation fishing platform of the present invention;

Fig. 3 B is a kind of pilot circuit connection diagram of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

The embodiment of the invention discloses a kind ofly based on the seawater desalination system in the wave-energy power generation fishing platform, described system comprises heating unit; Link to each other with described heating unit, and the drying unit of stored article; Link to each other with described drying unit, detect current first temperature of gas in the described drying unit and the first detection module of current first humidity; The condensing works that links to each other with described drying unit; The extractor fan that links to each other with described heating unit with described drying unit respectively; And, link to each other with described condensing works, and pass through the ozonizer that first motorized valve links to each other with described extractor fan; The control device that links to each other with described ozonizer with described first detection module, described first motorized valve, described extractor fan respectively.When carrying out sea water desaltination, by heating unit seawater is heated, obtain water vapour earlier, afterwards described water vapour is transferred to condensing works by drying unit, by this condensing works water vapour is carried out condensation, obtain actual required fresh water.

Wherein, in wave-energy power generation fishing platform, for the sea-food that prevents from catching addles, people can pickle it usually, yet, even if the sea-food after pickling, because the moisture of himself and environment of living in is excessive, the sea-food of pickling still can not be stored for a long time.Therefore, in order to prolong the storage time of sea-food, the present invention heats the gas in the drying unit by heating unit, obtain high temperature drying gas, it is delivered to drying unit, thereby realize the wherein oven dry of the article of storage, namely by reducing the moisture of described article, prolong the storage time of article.

Concrete, when control device is judged current first temperature of institute less than first preset temp, controlling described extractor fan starts, by this extractor fan with the cryogenic gas in the drying unit, pump to heating unit and heat, in order to use the high-temperature gas that obtains, the article that are stored in the drying unit dried.Wherein, in described drying course, because the moisture of article can be evaporated in the described drying unit gradually, the gas humidity in this drying unit can increase gradually.Therefore, when current first humidity of judging reception when described control device is not less than the first default humidity, to control described first motorized valve opens, thereby make described condensing works successively by described ozonizer and described first motorized valve, with described extractor fan conducting, form the loop, then the hot and humid gas in the drying unit will be transferred to condensing works and carry out dehumidification by condensation, and the cryodrying gas that obtains can pass through this loop, pumped to described heating unit by described extractor fan, by the heating of this heating unit realization to this cryodrying gas, and the high temperature drying gas after will heating is carried back drying unit, in order to continue article are dried, so circulation is till the humidity of described article reaches storage requirement.

Therefore; provided by the invention described based on the seawater desalination system in the wave-energy power generation fishing platform; not only realized the desalination of seawater is handled; and when in described drying unit, storing the article that need oven dry; can dry processing to these article; prolonged the storage time of article; avoided the waste of resource; also have; after system used for some time, control device can be controlled usually and start described ozonizer, by the ozone of this ozonizer generation; realization is to the taste removal of total system, to keep the clean hygiene of system.Therefore, described based on the diverse in function not only of the seawater desalination system in the wave-energy power generation fishing platform, and also economical and practical, have broad application prospects.

With reference to Fig. 1, show a kind of structural representation based on the seawater desalination system embodiment 1 in the wave-energy power generation fishing platform of the present invention, described system can comprise: the heating unit 101 of Xiang Lianing successively, drying unit 102 and condensing works 103, the extractor fan 104 that links to each other with described drying unit 102 with described heating unit 101 respectively, link to each other with described condensing works 103, and the ozonizer 106 that links to each other with described extractor fan 104 by first motorized valve 105, the first detection module 107 that links to each other with described drying unit, and, respectively with described extractor fan 104, described first motorized valve 105, do not draw among described ozonizer 106 and the control device 108(figure that described first detection module 107 links to each other).

Wherein, described drying unit 102 can stores, as various sea-foods etc.Described first detection module 107 is for detection of current first temperature and current first humidity of the gas in the described drying unit, and the result of described detection is sent to described control device 108, so that this control device 108 carries out subsequent operations.In the present embodiment, need to prove, when the described ozonizer 106 of described control device 108 controls stops namely being in off-position, this ozonizer 106 still is in conducting state, be that the gas that condensing works carries out behind the dehumidification by condensation still can be in open mode by described ozonizer 106, the described first motorized valve 105(), arrive described extractor fan 104.

In the present embodiment, when seawater being desalinated processing, be used for that seawater is heated the heating unit that obtains water vapour and can use existing heating unit to finish, will no longer describe in detail this heating unit of realizing this function herein.Equally, described condensing works also can adopt existing condensing works, as long as the water vapor condensation of heating unit output can be become fresh water in detail, the structure of this condensing works is described in detail no longer also herein.But, need to prove, in the present embodiment, in the process that seawater is desalinated, 102 of described drying units have played and have connected described heating unit 101 and described condensing works, the effect of transmission water vapour, and it does not carry out any processing to the water vapour that receives.

In actual applications, in the especially tangible fishing platform, rotten for the sea-food that prevents from catching, people can pickle the sea-food of catching usually, and still, because himself and storage environment moisture are excessive, the storage time of article still can not be oversize.For this reason, in the present embodiment, by the gas of high temperature drying sea-food is dried processing, thereby reduce the moisture of himself, to prolong the storage time of sea-food, avoided the waste of resource.

Concrete, in the present embodiment, by described first detection module 107, detect current first temperature (being the Current Temperatures of described heating unit 101 exit gass) of gas in the described drying unit 102, and send it to described control device 108, judge that by this control device 108 whether described current first temperature is less than first preset temp, when described judged result for not the time, the temperature that gases in the current drying unit 102 then are described is enough to make the moisture evaporation of article, need not heating unit 101 and the gases in the drying unit 102 is heated again.And when described judged result when being, then the gas temperature in explanation drying unit this moment 102 can't make the moisture evaporation in the article, perhaps the moisture evaporation speed in the article is very slow, at this moment, described control device 108 will be controlled extractor fan 104 and start, by this extractor fan 104 with the gas in the drying unit 102, pump to described heating unit 101, cryogenic gas by 101 pairs of receptions of this heating unit heats afterwards, thereby obtain high-temperature gas, and it is carried back described drying unit 102, the oven dry of article is handled continuing.

Wherein, in the process that high-temperature gas is dried article, the moisture in the article can constantly be evaporated in the drying unit 102, thereby its gas inside humidity is increased gradually.Therefore, in the present embodiment, will be by described first proofing unit 107, detect current first humidity of gas in the drying unit 102, and described current first humidity sent to control device 108, judge that by this control device 108 whether described current first humidity is less than the first default humidity, if described judged result is for being, then the humidity of explanation drying unit this moment 102 interior gases does not influence the evaporation of article moisture, and only need keep existing oven dry treating processes and get final product this moment.And when described judged result for not the time, then gas has been hot and humid gas in the explanation drying unit 102 this moment, namely the humidity of this gas is excessive at this moment, can't dry article, so, control device 108 will be according to this judged result, open by controlling first motorized valve 105, control described condensing works and described extractor fan conducting, thereby make described drying unit 102, described condensing works 103, described ozonizer 106(is in off-position at this moment), described first motorized valve 105, described extractor fan 104 and described heating unit 101 form a loop, then the hot and humid gas in the drying unit 102 will be transferred to described condensing works 103, through (this condensation process process is equivalent to hot and humid gas is carried out the process of cool-down dehumidification) after the condensation process of this condensing works 103, the cryodrying gas that obtains is passed through described loop, being delivered to described heating unit 101 heats, the high temperature drying gas that will obtain after will being heated by this heating unit 101 afterwards, carry back described drying unit 102, in order to continue the article of its storage are dried, till the humidity of described article reaches storage requirement.

Need to prove, in the present embodiment, described first preset temp and the described first default humidity, be first preset temp and first of pre-set according to the article self characteristics that will store, different article correspondence preset humidity can be different.Wherein, when described first preset temp can refer to article moisture start vaporizer, the temperature that needs the gas in the drying unit 102 to have; In order to improve drying efficiency, described first preset temp can also refer to the article moisture evaporation when the fastest, needs the temperature that gases have in the drying unit 102.Similarly, the described first default humidity can refer to not revaporization even when beginning to increase of article moisture, needs the humidity that gases have in the drying unit 102; In order to improve drying efficiency, when the described first default humidity can also refer to that article moisture evaporation speed reduces, need the humidity that gas has in the drying unit 102.In a word; no matter described first preset temp (or described first default humidity) specifically refers to temperature when (or humidity); all be that to dry the article that are stored in the drying unit 102 be final purpose; therefore; every is that the described content that refers to of prerequisite all belongs to protection scope of the present invention with this purpose, will enumerate no longer one by one herein.

In addition, no matter the embodiment of the invention is for sea water desaltination is handled, still be used for the oven dry of article such as sea-food is handled, after use for some time, must have certain fishy smell in the air based on the seawater desalination system in the wave-energy power generation fishing platform when described.Therefore, in order to realize the purification taste removal of system, the described control device 108 in the embodiment of the invention can also be controlled described ozonizer 106 and start, thereby makes this ozonizer energising and produce ozone, utilize the characteristic of ozone self taste removal sterilization, realize the purification to seawater desalination system.It should be noted that, when control device 108 starts at the described ozonizer 106 of control startup, (or in advance) opens described first motorized valve 105 in this system simultaneously, thereby makes total system form the loop, in order to this system is carried out the thorough disinfection taste removal.

Optionally, described first detection module 107 can be temperature sensor and humidity sensor, perhaps Temperature Humidity Sensor etc. can also be other detection modules that can realize detecting the temperature and humidity of gas in the drying unit or water vapour, herein with explanation no longer one by one.

Wherein, described extractor fan 104 is specifically as follows centrifugal fan.Described control device 108 can be micro-chip or computer etc.Certainly, in order to regulate the homogeneity of gas humiture in the described drying unit 102, to improve the drying efficiency to article, can also in described drying unit, recirculation blower be set.Optionally, described condensing works can be condenser, and it specifically can reach the purpose of condensed steam by the electricity refrigeration.Certainly, in order to cut down the consumption of energy, save production cost, present embodiment can in the seawater below 20 meters, utilize low temperature seawater as low-temperature receiver by condenser being arranged on the seawater depths, reaches the purpose of condensed steam.

Wherein, in actual applications, the described seawater desalination system of the embodiment of the invention will utilize wave-energy power generation, obtain required energy, and dispense with outer connecting power greatly reduces the energy consumption of system.

In the embodiment of the invention, when needs are desalinated seawater, by heating unit seawater is become water vapour earlier, by condensing works water vapor condensation is become fresh water again, thereby satisfied the demand of people to fresh water.When needs are dried article such as sea-food, during with storage time of long-term article, earlier with article storage to drying unit, by heating unit the gas in the drying unit is heated again, thereby obtain the gas of high temperature drying, by this gas the article in the described drying unit are dried.Wherein, in the process that system dries article, because the moisture evaporation in the article has arrived in the gas in the drying unit, thereby increased the humidity of gas in the drying unit, at this moment, when current first humidity of gas is not less than the first default humidity in control device is judged drying unit, system will enter except wet condition, be that control device is controlled first motorized valve and opened, thereby the hot and humid gas in the drying unit is transported in the condensing works, by condensing works described hot and humid gas is carried out dehumidification by condensation, and the cryodrying gas that is obtained after with condensation by extractor fan, by ozonizer and first motorized valve, pump to described heating unit and heat, the high temperature drying gas that will obtain after will heating is afterwards carried back described drying unit, thereby realizes the circulation oven dry to article, till the humidity of article reaches storage requirement.After system uses for some time, control device will be controlled ozonizer and start, and then this ozonizer will produce ozone, realize the taste removal sterilization to system.Therefore, of the present inventionly describedly not only realized the desalination of seawater is handled based on the seawater desalination system in the wave-energy power generation fishing platform, and finished the oven dry that is stored in the article in the drying unit has been handled, prolonged the storage time of article greatly, also pass through ozonizer, realization has improved practicality and the application prospect of system greatly to the taste removal of system.

With reference to Fig. 1, also show the structural representation of a kind of embodiment 2 based on the seawater desalination system in the wave-energy power generation fishing platform of the present invention, parts 101～108 and annexation thereof are identical with embodiment 1 in the present embodiment, will no longer repeat herein.And present embodiment is compared with embodiment 1, its difference is, described system can also comprise: the T-valve 109 and the ultrasonic atomizer 110 that link to each other respectively at described control device 108, then described drying unit 102 is by described T-valve 109 and described extractor fan 104, and described condensing works 103 links to each other with described extractor fan 104 by described ozonizer 106, described first motorized valve 105, described ultrasonic atomizer 110 and described T-valve 109 successively.(described control device 108 does not draw among the figure)

Wherein, in the practical application of present embodiment, when system carries out sea water desaltination, described control device 108 will control described ultrasonic atomizer 110 and described extractor fan 104 starts, and by the described T-valve 109 of control, control described ultrasonic atomizer 110 and 104 conductings of described extractor fan, like this, when 110 pairs of seawater of ultrasonic atomizer atomize when obtaining water smoke, described extractor fan 104 can be pumped described water smoke to described heating unit 101 by described T-valve 109, at this moment, this heating unit 101 will heat water smoke, and water smoke is become water vapour, so that condensing works becomes fresh water with water vapor condensation.That is to say, when seawater being desalinated processing, present embodiment is with respect to prior art, be to use earlier ultrasonic atomizer 110 that seawater is become water smoke, heated by 101 pairs of water smokes of heating unit again and obtain water vapour, obtain water vapour but not directly use heating unit that seawater is heated, improved evaporation of seawater efficient greatly, reduce energy consumption, saved production cost.

Need to prove, in the present embodiment, when the described ultrasonic atomizer 110 of control device 108 control starts, when namely controlling described ultrasonic atomizer 110 and being in switch-on regime, the processing that will atomize to the seawater that receives of this ultrasonic atomizer 110; Stop and controlling these ultrasonic atomizeies 110 when described control device 108, when namely controlling it and being in off-position, though this ultrasonic atomizer 110 has stopped described nebulisation operation, but its inside still keeps channel status, i.e. the gas of described first motorized valve 105 outputs still can transfer out by this ultrasonic atomizer 110.That is to say that when ultrasonic atomizer 110 was in off-position, it still can play and connect first motorized valve 105 and T-valve 109, and air-transmitting effect.

Wherein, during greater than the exhausting amount of described extractor fan 104, the water smoke between is piled up, and reduces vaporization efficiency for the atomization quantity that prevents described ultrasonic atomizer 110; When perhaps described ultrasonic atomizer 110 atomization quantities are less than the exhausting amount of described extractor fan 104, because of water smoke under-supply, and the reduction vaporization efficiency, increase energy consumption, present embodiment is by the atomization quantity of the described ultrasonic atomizer 110 of described control device 108 controls, changes synchronously with the exhausting amount of described extractor fan 104.

Optionally, described first detection module 107 can be specially temperature sensor and humidity sensor, perhaps Temperature Humidity Sensor.In actual applications, it is used for detecting current first temperature (being the Current Temperatures of the exit gas of described heating unit 101) and current first humidity of gas in the described drying unit 102, and described current first temperature and described current first humidity sent to described control device 108, so that this control device 108 carries out subsequent operations.Wherein, the concrete control process of 108 pairs of extractor fans 104 of described control device and first motorized valve 105, with reference to above-mentioned based on the description among the embodiment 1 of the seawater desalination system in the wave-energy power generation fishing platform will repeat no more herein.

Wherein, in order to guarantee the humiture unanimity of each position gas in the described drying unit 102, the article of storing with toilet are heated evenly, and improve drying efficiency, and described drying unit 102 can be made of oven dry casing 1021 and recirculation blower 1022.In actual applications, by described control device 108 according to actual needs, control starting or stoping of described recirculation blower, thereby regulate the even distribution of gas humiture in the described oven dry casing.

It is a kind of based on the seawater desalination system in the wave-energy power generation fishing platform that present embodiment provides, when system carries out fresh water treatment to seawater, start by control device control ultrasonic atomizer, earlier seawater is atomized into water smoke by this ultrasonic atomizer, by heating unit water smoke is carried out heat treated again and obtain water vapour, by condensing works water vapour is carried out condensation afterwards and obtain fresh water, improved the production efficiency of sea water desaltination significantly, reduced energy consumption and production cost.When the article of storing in need be to drying unit are dried, control device control ultrasonic atomizer stops namely to stop the sea water desaltination treating processes, and startup extractor fan, thereby the cryodrying gas in the drying unit pumped to heating unit heat, obtain high temperature drying gas, to finish the oven dry to the article of storing in the drying unit.

In drying course, the moisture in the article can be evaporated out, thereby the humidity of gas in the drying unit is increased.Therefore, when the first detection module detected first current humidity reaches the first default humidity, control device will be by control first motorized valve and described T-valve, control described condensing works and described extractor fan conducting, thereby after making condensing works finish dehumidification by condensation to the hot and humid gas in the drying unit, by the loop that forms, the cryodrying gas that obtains is delivered to heating unit again to be heated, and the high temperature drying gas that will obtain after will heating returns to described drying unit again, to continue that article are dried processing, so circulation is till the humidity of described article reaches storage requirement.Wherein, described control device can also be controlled ozonizer and start, thereby makes this ozonizer produce ozone, to realize the sterilization taste removal to system.Therefore, of the present invention based on the seawater desalination system in the wave-energy power generation fishing platform, not only can less energy-consumption, finish sea water desaltination expeditiously, but also can realize oven dry to the article of storing in the drying unit, prolonged the storage time of article, in addition, can also be by the ozone of ozonizer generation, finish the sterilization taste removal to system, thereby make the system function diversification, improved usage factor of system resource and practicality.

With reference to Fig. 2 A, show the structural representation of the embodiment of a kind of heating unit of the present invention, preferably, the described heating unit of present embodiment will be applied to a kind of based in the seawater desalination system in the wave-energy power generation fishing platform of above-described embodiment 2, the concrete structure of this system please refer to the description of above-described embodiment 2, and present embodiment will describe in detail no longer one by one.Present embodiment only specifically describes the described heating unit in this system, described heating unit 101 can comprise: solar water heater 1011, second detection module 1012 that links to each other with described solar water 1011, respectively with described solar water heater 1011, the cellular interchanger 1013 that extractor fan in the described system links to each other with drying unit, the 3rd detection module 1014 that links to each other with described cellular interchanger 1013, and, the hot water circulating pump 1015 that links to each other with described cellular interchanger 1013 with described solar water heater 1011 respectively.

Wherein, described second detection module 1012, described the 3rd detection module 1014 and described hot water circulating pump 1015 all link to each other with control device in the described system (not drawing among the figure).In actual applications, described second detection module 1012 is for detection of current second temperature of described solar water heater 1011 water temperature inside, and described the 3rd detection module 1014 is for detection of current the 3rd temperature of described cellular interchanger 1013 water temperature inside.And, described second detection module 1012 and described the 3rd detection module 1014 all can send the result of described detection described control device, so that described control device calculates the current temperature difference of described current second temperature and described current the 3rd temperature, and according to the described current temperature difference and default temperature range, control described hot water circulating pump 1015 and start and stop.

Concrete, when the described current temperature difference is not less than the maximum value of described default temperature range, described control device will be controlled described hot water circulating pump 1015 and start, thereby make water in the solar water heater 1011 and the water in the described cellular interchanger 1013, the connecting tube by between the two forms and exchanges.Because described solar water heater 1011 is under irradiation of sunlight, its inner water is in heated condition always, therefore, to improve water temperature in this cellular interchanger 1013 by above-mentioned interchange process, arrive described default temperature range until the described current temperature difference, described control device is controlled described hot water circulating pump 1015 and is stopped, and namely stops above-mentioned interchange process.

Wherein, described second detection module 1012 and described the 3rd detection module 1014 specifically can be temperature sensors.In actual applications, when the water temperature of detected cellular interchanger 1013 was higher, control device can be controlled described ultrasonic atomizer 110 and suitably increase the seawater atomization quantity, to improve the working efficiency of sea water desaltination.Wherein, because described first detection module 107 detected described current first temperature, also be the Current Temperatures of cellular interchanger 1013 exit gass or water vapour, and the Current Temperatures that described the 3rd detection module 1014 detected described current the 3rd temperature are cellular interchanger 1013 inlet water temperatures.Therefore, control device can be according to the temperature difference of described current first temperature and described current the 3rd temperature, and the predefined default temperature difference, determine the operational energy efficiency of described cellular interchanger 1013, and then determine whether will increase the atomization quantity of ultrasonic atomizer.

Wherein, with reference to Fig. 2 B, show the structural representation of a kind of cellular heat exchanger embodiments of the present invention, be applied in the described heating unit in above-described embodiment, preferably, described cellular interchanger 1013 specifically can comprise: retaining casing 10131 is arranged in the described retaining casing 10131, and many heating tunneltrons 10132 that run through described retaining casing 10131 are arranged on dismountable dividing plate 10133 in the described heating tunneltron 10132 of each root.

Wherein, described dividing plate can comprise the mainboard parallel with described heating tunneltron 10132, and is arranged on the described mainboard, becomes a plurality of daughter boards of preset angles with described mainboard.For example, described a plurality of daughter boards can be vertical with described mainboard and be alternately distributed two sides at described mainboard, and in addition, the arc be close to described heating tunneltron is arranged at the edge of each daughter board, and then this arc radius equals the radius of described heating tunneltron.In order to be illustrated more clearly in the concrete structure of described dividing plate, please refer to the 3-D view of a kind of dividing plate embodiment shown in Fig. 2 C.

Need to prove, the structure of described cellular interchanger 1013, except the arranging of described dividing plate 10133, structure and the annexation of miscellaneous part are same as the prior art, the first surface and the second surface (this first surface and second surface are the contrast surface of described retaining casing) that are namely run through described retaining casing by many heating tunneltrons, and with the two ends of the described heating tunneltron of each root, weld with described first surface and described second surface, form cellular retaining casing.When practical application, surface-welding there is the cover plate that is communicated with elbow, be connected to described first surface and the described first surface of described cellular retaining casing, and guarantee that described connection elbow aims at described heating tunneltron, thereby all heating tunneltrons are together in series, form the state that has only an entrance and an outlet, so that the hot water in this cellular retaining casing, by the heating tunneltron of described state, finish the heat treated to the gas in water smoke or the drying unit.

Preferably, in the present embodiment, pass in and out the hot water of described cellular interchanger 1013, can be by being arranged in the described retaining casing, T shape water inlet pipe and the T shape rising pipe vertical with described heating tunneltron are realized, with reference to the distribution schematic diagram of a kind of T shape water inlet pipe and water outlet pipe embodiment shown in Fig. 2 D.Wherein, described T shape water inlet pipe is near the first surface of described retaining casing, described T shape rising pipe is near the second surface of described retaining casing, and described T shape water inlet pipe becomes opposition to distribute with described T shape rising pipe, and be provided with a plurality of apertures on both pipelines, guaranteed the even Inlet and outlet water of each position in the retaining casing.In addition, because hot water has the come-up characteristic, TNE UPPER SEA TEMPERATURE can be higher than lower floor's water temperature in the retaining casing, therefore, described T shape water inlet pipe in the present embodiment can be positioned at the top of described retaining casing with respect to described T shape rising pipe, and this design has improved the water speed that changes of retaining casing greatly.

In the present embodiment, utilize the sunlight realization to the heating of heating unit, greatly reduce energy consumption, saved production cost.And, by in each root heating tunneltron of described cellular interchanger, dividing plate being set, not only prolonged heat-up time, improved heating efficiency, and, because described dividing plate is demountable, thereby through behind the certain hour, people can rotate or extract out described dividing plate, removing adds the crystal salt of heat tunnel, guaranteed the works better of heating unit, and the described crystal salt that obtains also can be used for pickling sea-food, improved the practicality of system greatly.

With reference to Fig. 3 A, show a kind of structural representation based on the seawater desalination system embodiment 3 in the wave-energy power generation fishing platform of the present invention, parts 101～110 and annexation thereof in the present embodiment are same as the previously described embodiments, will repeat no more herein.In order to make system more perfect, described system can also comprise: the sea-water pump 111 of Xiang Lianing successively, seawater column 112 and the first Level Detection module 113, the desalination water tank 115 that links to each other with described seawater column 112 by magnetic valve 114, the second Level Detection module 116 that links to each other with described desalination water tank 115, first condenser 1031 that links to each other with described drying unit 102, second condenser 1033 that links to each other with described first condenser 1031 by second motorized valve 1032, the 4th detection module 1034 that links to each other with described second condenser 1033 with described first condenser 1031 respectively, by first valve 117 and described first condenser 1031 and the fresh water collection box 118 that described second condenser 1033 links to each other, be arranged on the resistance detection module 119 of described first valve, 117 feed-water ends.

Wherein, described desalination water tank 115 links to each other with described ultrasonic atomizer 110, and described first condenser 1031 links to each other with described drying unit 102, and described second condenser 1033 links to each other with described ozonizer 106.Described drying unit 102 can comprise oven dry casing 1021, and be arranged on recirculation blower 1022 in the described oven dry casing 1021, start by the described recirculation blower 1022 of control device 108 controls, to guarantee the humiture uniformity of each position gas in this drying unit 102.

Preferably, described first condenser 1031 and described second condenser 1033 in the present embodiment all can be arranged on the seawater depths, utilize the seawater of low temperature, realize the condensation process to water vapour, need not the electricity refrigeration, have reduced energy consumption and production cost.And, present embodiment has been selected two condensers that connect by second motorized valve 1032 for use, according to actual needs, control device 108 is by described second motorized valve 1032 of control, control the conducting of described first condenser 1031 and described second condenser 1033 or end, to guarantee that condensing works can carry out abundant condensation to it when the water vapour that needs condensation or gas volume greatly the time; And when the steam vapour amount that needs condensation hour, only need to use first condenser 1031 to carry out condensation to get final product, reduced energy consumption.

Wherein, in the present embodiment, the input terminus of described control device 108 respectively with the described first Level Detection module 113, the described second Level Detection module 116, described first detection module 107, described second detection module 1012, described the 3rd detection module 1014, described the 4th detection module 1034 links to each other with described resistance detection module 119, output terminal respectively with described sea-water pump 111, described magnetic valve 114, described first motorized valve 105, described ultrasonic atomizer 110, described T-valve 109, described extractor fan 104, described ozonizer 106, described and motorized valve 1032 and described hot water circulating pump 1015, with reference to a kind of pilot circuit connection diagram of the present invention shown in Fig. 3 B.

In actual applications, people's read data intuitively for convenience, described system can also arrange the display unit that links to each other with described control device.Certainly, for guaranteeing the normal operation of system, described system can also comprise the supply unit that links to each other with described control device, and in the present embodiment, described system adopts wave-energy power generation to obtain required electric energy.

Optionally, for the ease of cleaning and the maintenance to described seawater Controlling System, described system can also comprise respectively and described fresh water collection box 118, described cellular interchanger 1013 and the described desalination water tank 115 corresponding wash water valves that link to each other.In addition, in order to control reality to the demand of the fresh water of described fresh water collection box 118 collections, described system can also comprise second valve that links to each other with described fresh water collection box 118.

Certainly, in actual applications, also comprise the float(ing)valve that links to each other with described seawater column 112, and the expansion tank that links to each other with described solar water heater with described float(ing)valve respectively.Wherein, the structure and function of described float(ing)valve and described expansion tank is well known to a person skilled in the art, present embodiment will no longer describe in detail.

Present embodiment provide based on the seawater desalination system in the wave-energy power generation fishing platform, be atomized into water smoke by seawater between the seawater spraying gun, by heating unit water smoke is heated again afterwards and obtains water vapour, thereby improved the vaporization efficiency of seawater greatly.When system dries being stored in article in the drying unit, by being arranged on the recirculation blower in the oven dry casing, the gas humiture unanimity of any position in the control drying unit, thus this article thermally equivalent guaranteed, improved the drying efficiency of system to article.And, when Control System of Seawater Desalination is in idle condition, control device will start ozonizer, the ozone that is produced by this ozonizer is to each parts of described system drying that carries out disinfection, the simple health of system maintenance, improve the quality of fresh water and article, prolonged the work-ing life of Control System of Seawater Desalination.In addition, utilize sun power as the main energy sources of system, reduced energy consumption and production cost.

Each embodiment adopts the mode of going forward one by one to describe in this specification sheets, and what each embodiment stressed is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the present invention.Multiple modification to these embodiment will be apparent concerning those skilled in the art, and defined General Principle can realize under the situation that does not break away from the spirit or scope of the present invention in other embodiments herein.Therefore, the present invention will can not be restricted to these embodiment shown in this article, but will meet the wideest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. one kind based on the seawater desalination system in the wave-energy power generation fishing platform, it is characterized in that described system comprises:

Heating unit;

Link to each other with described heating unit, and the drying unit of stored article;

Link to each other with described drying unit, detect current first temperature of gas in the described drying unit and the first detection module of current first humidity;

The extractor fan that links to each other with described heating unit with described drying unit respectively;

The condensing works that links to each other with described drying unit;

Link to each other with described condensing works, and pass through the ozonizer that first motorized valve links to each other with described condensing works;

Link to each other with described ozonizer with described first detection module, described first motorized valve, described extractor fan respectively, controlling described ozonizer starts or stops, and according to described current first temperature and first preset temp, controlling described extractor fan starts or stops, and according to described current first humidity and the first default humidity, by controlling described first motorized valve, the control device of controlling described condensing works and described extractor fan conducting or ending.

2. system according to claim 1 is characterized in that, described system also comprises:

T-valve and the ultrasonic atomizer that links to each other with described control device respectively, wherein,

Described drying unit links to each other with described extractor fan by described T-valve;

Described condensing works links to each other with described extractor fan by described ozonizer, described first motorized valve, described ultrasonic atomizer and described T-valve successively;

Then described control device is when carrying out the article oven dry, control described ultrasonic atomizer and stop, according to described current first temperature and first preset temp, control described extractor fan and start, and by the described T-valve of control, control described drying unit and described extractor fan conducting; According to described current first humidity and the first default humidity, control described extractor fan and start, and by described first motorized valve of control and described T-valve, control described condensing works and described extractor fan conducting; When carrying out sea water desaltination, control described ultrasonic atomizer and described extractor fan and start, and by the described T-valve of control, control described ultrasonic atomizer and described extractor fan conducting; When carrying out system's taste removal, control described ozonizer and start, and by described first motorized valve of control and described T-valve, control described condensing works and described extractor fan conducting.

3. system according to claim 2 is characterized in that, described drying unit comprises:

The oven dry casing that links to each other with described heating unit, described condensing works and described T-valve respectively;

Be arranged in the described oven dry casing recirculation blower that links to each other with described control device.

4. according to any described system of claim 1-3, it is characterized in that described heating unit comprises:

Solar water heater, hot water circulating pump and cellular interchanger that head and the tail link to each other successively;

Link to each other with described solar water heater, detect second detection module of current second temperature of described solar water heater water temperature inside;

Link to each other with described cellular interchanger, detect the 3rd detection module of current the 3rd temperature of described cellular interchanger water temperature inside, wherein,

Described cellular interchanger links to each other with described drying unit with described extractor fan respectively;

Described control device links to each other with described second detection module, described the 3rd detection module and described hot water circulating pump respectively, described current second temperature that calculating receives and the current temperature difference of described current the 3rd temperature, and according to the described current temperature difference and default temperature range, control described hot water circulating pump and start or stop.

5. system according to claim 4 is characterized in that, described cellular interchanger comprises:

The retaining casing;

Be arranged in the described retaining casing, and run through many heating tunneltrons of described retaining casing;

Be arranged on dismountable dividing plate in the described heating tunneltron of each root, wherein, described dividing plate comprises: the mainboard parallel with described heating tunneltron, and be arranged on the described mainboard, become a plurality of daughter boards of preset angles with described mainboard.

6. system according to claim 5 is characterized in that, described cellular interchanger also comprises:

Be arranged in the described retaining casing T shape water inlet pipe vertical with described heating tunneltron and T shape rising pipe;

Described T shape water inlet pipe is near the first surface of described retaining casing, and described T shape rising pipe is near the second surface of described retaining casing, and wherein, described first surface and described second surface are the surfaces that described retaining casing opposes mutually.

7. according to any described system of claim 1-3, it is characterized in that described condensing works comprises:

First condenser that links to each other with described drying unit and second condenser that links to each other with described ozonizer;

Connect described first condenser and described second condenser, and second motorized valve that links to each other with described control device;

Link to each other with described second condenser with described first condenser, detect current the 4th temperature of described first condenser and described second condenser, and the 4th detection module of current the 4th humidity of described first condenser and described second condenser output gas;

Then described control device links to each other with described the 4th detection module, according to described current first humidity that receives and described current the 4th humidity, determines the operational efficiency of described first condenser and described second condenser.

8. system according to claim 7 is characterized in that, described system also comprises:

Fresh water collection box, first valve, resistance detection module, second valve, first wash water valve and second wash water valve, wherein,

Described fresh water collection box links to each other with described second condenser with described first condenser by described first valve;

Described resistance detection module is arranged on the feed-water end of described first valve, the flow through current resistance of described feed-water end fresh water of detection, so that described control device links to each other with described resistance detection module, according to described current resistance and default resistance, control described ultrasonic atomizer to the atomization quantity of seawater;

Described second valve is arranged on the water side of described fresh water collection box;

The described fresh water collection box of described first wash water valve links to each other;

Described second wash water valve links to each other with described cellular interchanger.

9. system according to claim 7 is characterized in that, described system also comprises:

The sea-water pump of Xiang Lianing, seawater column, magnetic valve, desalination water tank and the 3rd wash water valve successively;

The float(ing)valve that links to each other with described seawater column;

The expansion tank that links to each other with described solar water heater with described float(ing)valve respectively;

Link to each other with described control device with described seawater column respectively, detect the first Level Detection module of current first liquid level of described seawater column maritime interior waters;

Link to each other with described control device with described desalination water tank respectively, detect the second Level Detection module of current second liquid level of described desalination water tank maritime interior waters, wherein,

Described desalination water tank links to each other with described ultrasonic atomizer;

Described control device links to each other with described sea-water pump, described magnetic valve and the described second Level Detection module respectively, according to described current first liquid level and the first default liquid level scope, controls the startup of described sea-water pump; Detect and according to described current second liquid level and the second default liquid level scope, by controlling described magnetic valve, control described desalination water tank and described seawater column conducting.

10. system according to claim 9 is characterized in that, described first detection module and described the 4th detection module are temperature sensor and humidity sensor, perhaps Temperature Humidity Sensor;

Described second detection module and described the 3rd detection module are temperature sensor;

The described first Level Detection module and the described second Level Detection module are liquid level sensor.

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