CN106556177B - Thermal power plant's heat recovery method based on seawater as cooling water - Google Patents
Thermal power plant's heat recovery method based on seawater as cooling water Download PDFInfo
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- CN106556177B CN106556177B CN201710004995.2A CN201710004995A CN106556177B CN 106556177 B CN106556177 B CN 106556177B CN 201710004995 A CN201710004995 A CN 201710004995A CN 106556177 B CN106556177 B CN 106556177B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B30/00—Heat pumps
- F25B30/06—Heat pumps characterised by the source of low potential heat
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/001—Processes for the treatment of water whereby the filtration technique is of importance
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/02—Treatment of water, waste water, or sewage by heating
- C02F1/04—Treatment of water, waste water, or sewage by heating by distillation or evaporation
- C02F1/16—Treatment of water, waste water, or sewage by heating by distillation or evaporation using waste heat from other processes
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/08—Seawater, e.g. for desalination
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2209/00—Controlling or monitoring parameters in water treatment
- C02F2209/02—Temperature
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/10—Energy recovery
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/14—Maintenance of water treatment installations
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- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Physics & Mathematics (AREA)
- Mechanical Engineering (AREA)
- Thermal Sciences (AREA)
- General Engineering & Computer Science (AREA)
- Heat Treatment Of Water, Waste Water Or Sewage (AREA)
Abstract
Thermal power plant's heat recovery method based on seawater as cooling water, belong to power plant field, to reduce thermal power plant's heat waste, and reduce the thermal pollution of thermal power plant, so that the user for being dispersed in seawater discharge channel can use the waste heat of power plant, and in heat transfer process, heat exchange efficiency is high, consumptive material loss is low, has technical point that S1. excavates outdoor channel along thermal power plant to sea, including seawater introduces channel and seawater discharge channel;S2. selector distributing canal section installs following thermal power plant's heat recovery systems based on seawater as cooling water in the seawater discharge channel, and seawater of the channel introducing as cooling water is introduced by seawater, it is exchanged heat with turbine condenser with the steam that liquefies, the heat exchange is to exchange heat for the first time, and the seawater after first time heat exchange is drained to seawater discharge channel.
Description
Technical field
The invention belongs to power plant fields, are related to a kind of thermal power plant's heat recovery method based on seawater as cooling water.
Background technique
Thermal power plant needs using cooling water with cooling steam, and general power plant cooling water is from cooling tower, and the electricity in coastal waters
It is cooling to steam to achieve the purpose that gather materials on the spot as cooling water that factory can be introduced directly into seawater.Seawater completes steam and condenses meeting
Self heat is improved, when such as Dalian winter, the temperature of the seawater of completion condensation can reach 18 degree or so, and general power plant can be by this
Part seawater flows back into the sea, however, this mode will cause seawater thermal pollution, has also wasted the heat of power plant.
Generally can all there are the house or workshop for having demand to this partial heat near discharge water, if can be by this part
Heat uses, and both avoids thermal pollution, can also be improved using energy source.
However, have certain distance between the outdoor channel of thermal power plant and sea, house or workshop to heat demand also compared with
Near dispersion discharge water, it is therefore desirable in seawater flow process, different user be enabled to obtain heat nearby.
And during seawater discharge is entered sea, impurity in seawater or the impurity entered in discharge process, such as mud
Sand, algae, fallen leaves, rubbish etc. can all seriously affect heat exchange, and heat exchange consumptive material is lost.
Summary of the invention
To solve the above-mentioned problems, the present invention provides a kind of heat recovery sides, thermal power plant based on seawater as cooling water
Method, with to reduce thermal power plant's heat waste, and reduce thermal power plant thermal pollution so that the user for being dispersed in seawater discharge channel can
To utilize the waste heat of power plant, and in heat transfer process, heat exchange efficiency is high, and consumptive material loss is low.
To achieve the goals above, the invention provides the following technical scheme: a kind of thermoelectricity based on seawater as cooling water
Factory's heat recovery method, includes the following steps:
S1. outdoor channel is excavated along thermal power plant to sea, including seawater introduces channel and seawater discharge channel;
S2. selector distributing canal section installs following thermal power plants based on seawater as cooling water in the seawater discharge channel
Heat recovery system, and seawater of the channel introducing as cooling water is introduced by seawater, it is exchanged heat with turbine condenser
With the steam that liquefies, which is to exchange heat for the first time, and the seawater after first time heat exchange is drained to seawater discharge channel;
Seawater after the intermediary's water flowed in S3.PE intermediary water return pipe and the first time heat exchange for entering closed irrigation canals and ditches carries out
Second of heat exchange, improves the temperature of intermediary's water, and intermediary's water of the heating passes through heat pump unit and heat demand device shape again
At heat exchange cycle;
In second of heat transfer process, the evaporation vapour of the seawater after exchanging heat for the first time is condensed in the inclination of closed irrigation canals and ditches
Upper cover, and enter guiding gutter along condensed water drainage channel with collection and purification water, corrosion-resistant net circulation transmission is filtered, and by outer net
Perching knife is scalped in transmission process is bonded in corrosion-resistant online impurity, and the impurity arranged in ditch is periodically struck off by scraper plate;
Described based on seawater includes closed irrigation canals and ditches as thermal power plant's heat recovery system of cooling water, with tilt flat plate
Type upper cover, the outer surface of the upper cover are laid with insulating layer and open up several condensed waters on it along the inclined direction of the upper cover
Channel is drained, which converges in the guiding gutter for being placed in the inclination bottom edge of the upper cover, the closed irrigation canals and ditches
Hermatic door is installed at both ends, and the guiding gutter is stretched out by hermatic door, and water inlet is mounted on the hermatic door of side, and has filtering
Net, the tilt angle of the tilt flat plate type upper cover are 5~10 degree;
The horizontal lower covers of the irrigation canals and ditches is laid with a ZuUXing PE intermediary water return pipe, between each PE intermediary water return pipe of the group
It uniformly arranges in Semi surrounding type, and closely knit in gap filling sand, each PE intermediary water return pipe is equipped with circulating pump, and and intermediary
The connection of water water tank, and control valve is installed on connecting pipe;
It exchanges heat as the seawater of cooling water and the turbine condenser of thermal power plant, the seawater after heat exchange is by side hermatic door
Water inlet enters, and exchanges heat in the closed irrigation canals and ditches with intermediary's water in PE intermediary water return pipe;In PE intermediary water return pipe
Upper layer covers one layer of water-permeable brick, and the water-permeable brick inclination is laid with, and the row of digging out near the water-permeable brick for being located at inclination lowest part
Ditch is connected to the water-permeable brick for being located at inclination lowest part with row's ditch;The upper cover is consistent with the laying inclined direction of water-permeable brick, described
The tilt angle of water-permeable brick is 7~12 degree;
The upper layer of water-permeable brick is laid with corrosion-resistant net, and the corrosion-resistant net is single layer of wires net, and twine is in transverse and longitudinal square crossing
Uniformly arrangement;Drive roll and driven voller be mounted on the left and right sides hermatic door support frame on, the first driving chain respectively with it is described
The front end of drive roll is connected with the front end of the driven voller, the second driving chain respectively with the rear end of the drive roll and it is described from
The rear end of dynamic roller is connected, so that the drive roll and the driven voller link, the corrosion-resistant net is covered on the first driving chain
Or second on driving chain;One or two of the support frame of the both sides sealing door is equipped with outer net perching knife;
For row's ditch equipped with scraper plate, Pai Gouzhong is equipped with the track advanced for scraper plate;
First water pipe, second water pipe at the non-U-shaped end of the PE intermediary water return pipe are stretched out by the side hermatic door, should
The water outlet of the first water pipe connection heat pump unit evaporator, the second water pipe connection heat pump unit evaporator
Water intake end, the water outlet of the condenser of the heat pump unit connect third water pipe, and the water intake end of condenser connects the 4th water pipe.
The utility model has the advantages that the invention enables the workshop, the house that are dispersed in power plant seawater discharge channel two sides, it can be to power generation
The waste heat of factory is recycled, and the thermal pollution in power plant is reduced, also, improves heat exchange efficiency, when extending the use of consumptive material
Between, also by by the condensation water recovery and use of steam generation, exchanged heat with formation, the integral type process of purification.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of system of the present invention;
Fig. 2 is another structural schematic diagram of system of the present invention;
Fig. 3 is corrosion-resistant net drive mechanism schematic diagram;
Fig. 4 is the structural block diagram of the system;
Fig. 5 is the schematic diagram of method described in embodiment.
1. upper cover, 2. guiding gutters, 3.PE intermediary water return pipe, 4. water-permeable bricks, 5. corrosion-resistant nets, 6. drive rolls, 7. is driven
Roller, 8. first driving chains, 9. corrosion-resistant nets, 10. motors, 11. corrosion-resistant nets, 12. second driving chains.
Specific embodiment
Present embodiment provides a kind of embodiment, with the present invention is further described.
In one embodiment, as the heat recovery system, thermal power plant based on seawater as cooling water of Dalian use in winter
System, including closed irrigation canals and ditches, with tilt flat plate type upper cover 1, the outer surface of the upper cover 1 is laid with insulating layer, on described
The inclined direction of lid 1 opens up several condensed water drainage channels on it, which, which converges in, is placed in the upper cover
Hermatic door is installed at the guiding gutter 2 on 1 inclination bottom edge, the both ends of the closed irrigation canals and ditches, and the guiding gutter 2 is stretched out by hermatic door.
In heat transfer process, a large amount of vapor are had in upper cover 1 and are condensed into condensed water, are typically considered a kind of recyclable clean water,
To be recycled to this part water, plate inclination upper cover 1 is set by upper cover 1, and opens up several condensed water drainage canals
Road drains the condensed water for condensing in upper cover 1 by gravity, and converges in the guiding gutter 2 on the inclination bottom edge of upper cover 1, with
So that this partial coagulation water is collected.And it is laid with insulating layer, it is to guarantee that low temperature season does not freeze, when such as winter, upper cover 1 is warm
Spend it is low, may cause condensation water freezing the problem of appearance.The tilt angle of the tilt flat plate type upper cover is 5~10 degree, excellent
8 degree are selected as, since the purpose that upper cover is obliquely installed is to collect condensed water, if tilt angle is too small, condensed water is not easy
Flowing, cannot reach guiding gutter, so that condensed water can not be collected by drainage;And wide-angle is crossed, and condensation water flow velocity is difficult to
Control generates overflow phenomena, and excessive angle, also wastes a large amount of heat preservation layer material, which is by a large amount of
Angle replacement experiment discovery preferred range, condensed water flow velocity under the range is ideal, gathering speed can be adapted to, and
Overflow phenomena will not occur, under the angle, the use for keeping the temperature layer material not will lead to apparent increased costs.In the embodiment
In, the evaporation and condensation water of seawater is recycled, is to obtain a kind of very effective means of clean water, this recycling occurs
In heat transfer process, the water of recycling is further promoted, for example, the flow of processed seawater is 10000 ton/hours, according to
The evaporation capacity of a ten thousandth, evaporation capacity hourly can achieve 1 ton, and the clean water energy collected reaches 24 tons or so within one day, receives
The water of collection is considerable.
In the system, the water inlet of the seawater flowed into after exchanging heat for the first time is mounted on the hermatic door of side, and has filtering
Net, to filter out the thing of the more big parts such as the rubbish that falls into during discharge flow of seawater after exchanging heat for the first time.It is described
The horizontal lower cover of irrigation canals and ditches is laid with a ZuUXing PE intermediary water return pipe 3, is in Semi surrounding type between each PE intermediary water return pipe 3 of the group
Uniformly arrangement, and closely knit in gap filling sand, each PE intermediary water return pipe 3 is equipped with circulating pump, and with intermediary's water water tank
Connection, and control valve is installed on connecting pipe;The intermediary's water circulated in U-shaped PE intermediary water return pipe 3, water tank
Intermediary's water in the water supplement PE intermediary water return pipe 3 in water tank can be used directly from tap water, when needed in water.
Exchange heat as the seawater of cooling water and the turbine condenser of thermal power plant, seawater after heat exchange by side hermatic door into
Enter, exchange heat in the closed irrigation canals and ditches with intermediary's water in PE intermediary water return pipe 3, and the heat is passed through into heat pump unit progress
Next round heat exchange, to supply the workshop or house of irrigation canals and ditches two sides, in this way, even if user disperses, however, since discharge seawater is along row
It puts channel and is in flow regime, each dispersion user can be supplied thermal energy to achieve the purpose that obtain heat nearby, and use sand
On the one hand closely knit U-shaped PE intermediary water return pipe 3 plays fixing pipe, on the other hand, the heat transmitting of sand preferably, is suitble to change
Heat uses, if not using sand, once the impurity Long-Term Sorption being easily bonded on pipe, will extreme influence heat exchange effect
Rate.
Seawater after exchanging heat for the first time is entered by side hermatic door, in the closed irrigation canals and ditches with PE intermediary water return pipe 3
In intermediary's water heat exchange;One layer of water-permeable brick 4 is covered on the upper layer of PE intermediary water return pipe 3, the inclination of water-permeable brick 4 is laid with, and
The row's of digging out ditch near the water-permeable brick 4 for being located at inclination lowest part is connected to the water-permeable brick 4 for being located at inclination lowest part with row's ditch,
For row's ditch equipped with scraper plate, Pai Gouzhong is equipped with the track advanced for scraper plate;The upper cover 1 and the laying of water-permeable brick 4 are inclined
Tilted direction is consistent;Purpose using water-permeable brick 4 is to form one layer of filtering between U-shaped PE intermediary water return pipe 3 and water inlet, make
Water can be exchanged heat and impurity is filtered by water-permeable brick 4 by water-permeable brick 4, and in order to avoid water-permeable brick 4 is bonded by impurity, inclined
Tiltedly setting as long as ditch is arranged in periodic cleaning, and makes so that impurity slides down into Pai Gou by gravity, by water-permeable brick 4
It driving scraper plate most to arrange ditch with track to be cleared up, period and the intensity of controller control cleaning can be used, cleaning effect is preferable,
Extend water-permeable brick 4 uses time and clearance time.The laying tilt angle of the water-permeable brick is 7~12 degree, preferably 10
Degree preferably can attach permeable slip layer in water-permeable brick upper surface in this scenario, so that impurity, which is easier to slide, falls into Pai Gou,
The purpose that water-permeable brick inclination is laid with is in order to enable impurity is slid down onto row's ditch by gravity, since seawater is when introducing power plant,
It is primary by filtering, thus, the seawater of impurity significantly relatively in the sea is few in discharge process, in this case, be not necessarily to so that
Water-permeable brick tilt angle is excessive;Water-permeable brick tilt angle is big, and impurity is easy to fall, however but but also seawater be easy row ditch it is attached
Nearly accumulation, leads to the non-uniform problem that exchanges heat, and angle too small, impurity are not easy to fall into Pai Gou, find by a large amount of inclined experimentals,
Above range is ideal, and within this range, impurity is easy to be slipped to Pai Gouzhong, and the not seawater product near the row's of will cause ditch
It is poly-, and upper cover 1 is consistent with the laying inclined direction of water-permeable brick 4, in order to when overflow occurs for the condensed water of upper cover, due to
The condensing water temperature and ocean temperature difference fallen will affect heat exchange uniformly, thus, above-mentioned restriction is made, even if overflow occurs,
Since inclined direction is consistent, overflow water can generally far from water-permeable brick, reduce the influence of heat exchanging near the row's of flowing to ditch.In this reality
It applies in example, the amount that preferably seawater introduces closed irrigation canals and ditches, which maintains, just not to be had water-permeable brick or do not had water-permeable brick, and did not had second just
Driving chain, heat transfer effect is preferable at this time.
It is filtered, is found in multiple practice, water-permeable brick 4 makes however, it has been found in practice that only using water-permeable brick 4
It is still undesirable with the time, in order to increase the use time of water-permeable brick 4, also for filter effect is improved, increase heat exchange efficiency, saturating
The upper layer of water brick 4 is laid with corrosion-resistant net 5, and the corrosion-resistant net 5 is single layer of wires net, it is of course also possible to be multilayer steel wire, net
Silk is uniformly arranged in transverse and longitudinal square crossing;Drive roll 6 and driven voller 7 are mounted on the support frame of left and right sides hermatic door, and first
Driving chain 8 is connected with the front end of the front end of the drive roll 6 and the driven voller 7 respectively, the second driving chain 12 respectively with
The rear end of the drive roll 6 is connected with the rear end of the driven voller 7, so that the drive roll 6 and the driven voller 7 link, institute
Corrosion-resistant net 5 is stated to be covered on the first driving chain 8 or the second driving chain 12;With this, so that the circulation of corrosion-resistant net 5 is driven,
Impurity is allowed to be bonded on steel wire, and in order to increase the filter effect of steel wire and using the time, in the both sides sealing door
One or two of support frame is equipped with outer net perching knife, to root out the outer impurity being bonded on the net, the perching knife can cooperate with
Bracket stretches out, and can strike off outer net sticky object, under there is splicing groove, catch adhesive, with periodic cleaning, thus, the biography
The corrosion-resistant net of motivation structure can stretch out hermatic door, i.e. perching knife is located on the hermatic door in outside that (perching knife is located at system confined space
Except, such as Fig. 1), with the sticky object of easy cleaning splicing groove, and in order to consider leakproofness, which can be placed in inside
On hermatic door (perching knife is located within system confined space, such as Fig. 2).
First water pipe, second water pipe at the non-U-shaped end of the PE intermediary water return pipe 3 are stretched out by the side hermatic door,
The water outlet of the first water pipe connection heat pump unit evaporator, second water pipe connect heat pump unit evaporator
Water intake end, the water outlet of the condenser of the heat pump unit connects third water pipe, and the water intake end of condenser connects the 4th water pipe.
In the present embodiment, using the evaporator of heat pump unit as object of reference, what it is into evaporator is high-temperature water, i.e., the second pipe
It is high-temperature conduit, evaporator outflow is water at low temperature, i.e. the first pipe is low temperature water pipe;Similarly, with the condenser of heat pump unit
For object of reference, what it is into condenser is water at low temperature, i.e., the 4th pipe is low temperature water pipe, and reserve condenser is high-temperature water, i.e. third
Pipe is high-temperature conduit.Heat after condenser exchanges heat the seawater after first time heat exchange with intermediary's water again exports, to supply factory
The heating water of room and house heat exchange, so that the waste heat of power plant be recycled.
In one embodiment, all equipment, components etc. with contact with sea water, are corrosion resistances.
As one embodiment, a kind of thermal power plant's heat recovery method based on seawater as cooling water, including walk as follows
It is rapid:
S1. outdoor channel is excavated along thermal power plant to sea, including seawater introduces channel and seawater discharge channel;
S2. selector distributing canal section is installed in above-described embodiment based on seawater as cooling water in the seawater discharge channel
Thermal power plant's heat recovery system, and channel is introduced by seawater and introduces seawater as cooling water, by itself and turbine condenser
It exchanges heat with the steam that liquefies, which is to exchange heat for the first time, and the seawater (about 18 degree) after first time heat exchange is drained to sea
Water discharges channel;
After the intermediary's water (about 10 degree) flowed in S3.PE intermediary water return pipe and the first time heat exchange for entering closed irrigation canals and ditches
Seawater carries out second and exchanges heat, and improves the temperature (about 15 degree) of intermediary's water, intermediary's water of the heating passes through heat pump unit again
Heat exchange cycle is formed with heat demand device;
In second of heat transfer process, the evaporation vapour of the seawater after exchanging heat for the first time is condensed in the inclination of closed irrigation canals and ditches
Upper cover, and enter guiding gutter along condensed water drainage channel with collection and purification water, corrosion-resistant net circulation transmission is filtered, and by outer net
Perching knife is scalped in transmission process is bonded in corrosion-resistant online impurity, and the impurity arranged in ditch is periodically struck off by scraper plate.
The preferable specific embodiment of the above, only the invention, but the protection scope of the invention is not
It is confined to this, anyone skilled in the art is in the technical scope that the invention discloses, according to the present invention
The technical solution of creation and its inventive concept are subject to equivalent substitution or change, should all cover the invention protection scope it
It is interior.
Claims (1)
1. a kind of thermal power plant's heat recovery method based on seawater as cooling water, which comprises the steps of:
S1. outdoor channel is excavated along thermal power plant to sea, including seawater introduces channel and seawater discharge channel;
S2. selector distributing canal section installs following thermal power plant's heats based on seawater as cooling water in the seawater discharge channel
Recovery system, and seawater of the channel introducing as cooling water is introduced by seawater, it is exchanged heat with turbine condenser with liquid
Change steam, which is to exchange heat for the first time, and the seawater after exchanging heat for the first time is drained to seawater discharge channel;
Seawater after the intermediary's water flowed in S3.PE intermediary water return pipe and the first time heat exchange for entering closed irrigation canals and ditches carries out second
Secondary heat exchange improves the temperature of intermediary's water, and intermediary's water of the heating passes through heat pump unit again and heat demand device is formed and exchanged heat
Circulation;
In second of heat transfer process, the evaporation vapour of the seawater after exchanging heat for the first time is condensed in the inclination of closed irrigation canals and ditches
Lid, and enter guiding gutter along condensed water drainage channel with collection and purification water, corrosion-resistant net circulation transmission filtering, and shoveled by outer net
Knife is scalped in transmission process is bonded in corrosion-resistant online impurity, and the impurity arranged in ditch is periodically struck off by scraper plate;
Described based on seawater includes closed irrigation canals and ditches as thermal power plant's heat recovery system of cooling water, in tilt flat plate type
It covers (1), the outer surface of the upper cover (1) is laid with insulating layer and opens up on it several along the inclined direction of the upper cover (1)
Condensed water drains channel, and each channel that drains converges in the guiding gutter (2) for being placed in the inclination bottom edge of the upper cover (1), described closed
Hermatic door is installed at the both ends of irrigation canals and ditches, and the guiding gutter (2) is stretched out by hermatic door, and water inlet is mounted on the hermatic door of side, and
With filter screen, the tilt angle of the tilt flat plate type upper cover (1) is 5~10 degree;
The horizontal lower cover of the irrigation canals and ditches is laid with a ZuUXing PE intermediary water return pipe (3), each PE intermediary water return pipe (3) of the group
Between uniformly arrange in Semi surrounding type, and closely knit in gap filling sand, each PE intermediary water return pipe (3) is equipped with circulating pump, and
It is connected to intermediary water water tank, and control valve is installed on connecting pipe;
It exchanging heat as the seawater of cooling water and the turbine condenser of thermal power plant, the seawater after heat exchange is entered by side hermatic door,
It exchanges heat in the closed irrigation canals and ditches with intermediary's water in PE intermediary water return pipe (3);It is covered on the upper layer of PE intermediary water return pipe (3)
One layer of water-permeable brick (4) of lid, water-permeable brick (4) inclination is laid with, and is dug out near the water-permeable brick (4) for being located at inclination lowest part
Ditch is arranged, is connected to the water-permeable brick (4) for being located at inclination lowest part with row's ditch;The laying inclination side of the upper cover (1) and water-permeable brick (4)
To consistent, the tilt angle of the water-permeable brick is 7~12 degree;
The upper layer of water-permeable brick (4) is laid with corrosion-resistant net (5), and the corrosion-resistant net (5) is single layer of wires net, and twine is vertical in transverse and longitudinal
Intersect uniformly arrangement;Drive roll (6) and driven voller (7) are mounted on the support frame of left and right sides hermatic door, the first driving chain
(8) be connected respectively with the front end of the front end of the drive roll (6) and the driven voller (7), the second driving chain (12) respectively with
The rear end of the drive roll (6) is connected with the rear end of the driven voller (7), so that the drive roll (6) and the driven voller (7)
Linkage, the corrosion-resistant net (5) are covered on the first driving chain (8) or the second driving chain (12);The branch of both sides sealing door
One or two of support is equipped with outer net perching knife;
For row's ditch equipped with scraper plate, Pai Gouzhong is equipped with the track advanced for scraper plate;
First water pipe, second water pipe at the non-U-shaped end of the PE intermediary water return pipe (3) are stretched out by the side hermatic door, institute
The water outlet for the first water pipe connection heat pump unit evaporator stated, the second water pipe connection heat pump unit evaporator enter water
End, the water outlet of the condenser of the heat pump unit connect third water pipe, and the water intake end of condenser connects the 4th water pipe.
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CN201724473U (en) * | 2010-03-16 | 2011-01-26 | 大连日铭科技有限公司 | Heat exchanger special for sea water source heat pump set |
KR20110099841A (en) * | 2010-03-03 | 2011-09-09 | 김상원 | Ways and a manufacturing device manufacturing a clean the ocean for eating and drinking as use seawater and heat pump system |
CN104074692A (en) * | 2013-03-28 | 2014-10-01 | 株式会社日立制作所 | Integrative System of Concentrating Solar Power Plant and Desalineation Plant |
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2017
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Publication number | Priority date | Publication date | Assignee | Title |
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KR20110099841A (en) * | 2010-03-03 | 2011-09-09 | 김상원 | Ways and a manufacturing device manufacturing a clean the ocean for eating and drinking as use seawater and heat pump system |
CN201724473U (en) * | 2010-03-16 | 2011-01-26 | 大连日铭科技有限公司 | Heat exchanger special for sea water source heat pump set |
CN104074692A (en) * | 2013-03-28 | 2014-10-01 | 株式会社日立制作所 | Integrative System of Concentrating Solar Power Plant and Desalineation Plant |
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