CN205803566U - A kind of device for uranium extraction from seawater continuously - Google Patents
A kind of device for uranium extraction from seawater continuously Download PDFInfo
- Publication number
- CN205803566U CN205803566U CN201620675519.4U CN201620675519U CN205803566U CN 205803566 U CN205803566 U CN 205803566U CN 201620675519 U CN201620675519 U CN 201620675519U CN 205803566 U CN205803566 U CN 205803566U
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- China
- Prior art keywords
- shaping
- tube chamber
- machine
- adsorbent
- push pedal
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/20—Recycling
Abstract
This utility model relates to a kind of device for uranium extraction from seawater, specifically a kind of device for uranium extraction from seawater continuously.This device includes: can machine-shaping adsorbent system (1), can magnetic recovery adsorption system (2) and synchronized links system (3).This device by can the adsorbing material of machine-shaping and can being used in combination by magnetic adsorbing material after the meeting, play the not same-action of every kind of material simultaneously.Early stage uses the adsorbing material of machine-shaping to carry out first step absorption, plays the advantage that the cost of material is low, absorption rear impurity and uranium concentration and reduces, carries out magnetic adsorbent absorption, play the advantage that its absorption property is good.
Description
Technical field
This utility model relates to a kind of device for uranium extraction from seawater, specifically a kind of device for uranium extraction from seawater continuously.
Background technology
Along with the development of nuclear industry, people are increasing to the demand of uranium ore resource, and the exploitation dynamics of uranium ore is also
Strengthen year by year.In recent years, the mining progress development of world's uranium ore is swift and violent.The most explored uranium ore is more at present, but wherein
The uranium ore with extraction value only accounts for the 12-18% of total amount, and the uranium ore major part of China is unavailable uranium ore.At present, at nuclear power station
In wide variety of presurized water reactor (such as Qinshan, Daya Bay nuclear power plant's heap-type of China) to the utilization rate of natural uranium resource the most about
1%, in world wide from the point of view of, the prospect of uranium resource is the most optimistic.Can exploit under 130 dollars/kilogram of the whole world at present
Uranium resource is only 5,300,000 tons, and this also implies that, these natural uraniums are merely capable of supplying the nuclear power station of 530 1,000,000 kilowatts and make
With 60 years, and the nuclear power station of 1,000,000 kilowatts that the current whole world is currently running was 372.Solve the uranium resource in global range short
Scarce problem is extremely the most urgent.With the presence of there being the uranium resource of Development volue in a large number in the middle of sea water, total amount is about 45 hundreds of millions tons.Sea water carries
Uranium is to solve the effective way that uranium resources in China is poor.
The key issue of the extraction of uranium from seawater is research and development efficient absorption materials, and researches and develops matched adsorbent equipment.Adsorption material
The performance of material is had a great impact by pattern, size and the spatial arrangement of material.Along with material preparation and modification technology continuous
Development and perfection, adsorbent many employings nano material, nano lamellar material is except having the character such as table that nano material generally has
Outside the character such as face effect, small-size effect, quantum size effect, tunnel-effect, also there is a lot of unique character.Have each to different
The feature of property;Simultaneously thickness be greatly lowered can cause the increase of material specific surface area and surface can raising.
But in existing extraction of uranium from seawater actual application, there is following technical problem: problem 1: adsorbent have employed
Nanoparticulate, is not fixed easily, and it is more difficult to reclaim, and uses filter type to separate and easily blocks filter plate.Problem 2: adopt
With extruding, it is sticked with molding and can solve the problem that nano material is difficult to filter, and low cost, but the absorbability meeting of material
It is affected.Problem 3: using magnetic recovery is the mode that a good solution adsorbing material reclaims, and magnetic adsorptive material does not has
Having the process through extruding, be sticked with molding, specific surface area is big, and absorption property is good, has preferably suction particularly with low concentration uranium
Attached performance, but preparation material cost is high.Problem 4: be difficult to extracting the most continuously of sea water.
Utility model content
This application provides a kind of device for uranium extraction from seawater continuously for problem above, this device includes as shown in Figure 1: can
Machine-shaping adsorbent system (1), can magnetic recovery adsorption system (2) and synchronized links system (3);Can machine-shaping inhale
Attached dose of adsorption system (1) be as shown in Figure 2: the first push rod (1-1), the first push rod (1-1) side with the first cingulum (1-11),
First push rod (1-1) front end is push pedal (1-2), and push pedal (1-2) is inserted in the first tube chamber (1-10), at the first tube chamber (1-10)
Middle part be provided with interception net (1-7), bottom put can machine-shaping adsorbent (1-3), can machine-shaping adsorbent (1-3) be downside filter
Net (1-8), is the water inlet pipe (1-4) with individual event valve (1-5) and the outlet pipe (1-9) with individual event valve (1-6) on the downside of filter screen,
Outlet pipe (1-9) is connected with the second tube chamber (2-12);
Can the second push rod (2-6) in magnetic recovery adsorption system (2), the second push rod (2-6) side is with the second cingulum (2-
7), the second push pedal (2-3) is connected by connecting rod (2-5) with the second push rod (2-6), and the 3rd tube chamber is inserted in the second push pedal (2-3)
(2-13), in, the second tube chamber (2-12) lower limb is fixing base plate (2-4), and top edge is the second push pedal (2-3);Such as accompanying drawing 3 institute
Showing: the second push pedal (2-3) is provided with the hole (2-2) being connected to check valve (2-10), connecting rod is passed through in the second push pedal (2-3) top
(2-5) electromagnetism filter screen (2-11) is connected, containing Electromagnetic Control line (1-14) in connecting rod (2-5), Electromagnetic Control line (1-14)
End connects electromagnetism filter screen (2-11), and the other end is connected with controlling electromagnetic control apparatus;Electromagnetism filter screen (2-11) is arranged above the 3rd pipe
Chamber (2-13), the 3rd tube chamber (2-13) is arranged above being connected to the drain pipe (2-1) of check valve (2-15);
Synchronized links system (3) includes fixing bar (3-2) and rotates gear (3-1), by rotation gear (3-1) respectively with
First cingulum (1-11) and the second cingulum (2-7) connect, it is achieved can machine-shaping adsorbent system (1), can magnetic recovery
Adsorption system (2) synchronizes to interlock.
In actual use, sea water is entered through can be adsorbed by machine-shaping adsorbent (1-3) by water inlet pipe (1-4)
After, the first push rod (1-1) moves down, and enters in the second tube chamber (2-12) by drain pipe (1-9), now the second push rod (2-
6) moving up, electromagnetism filter screen (2-11) energizing magnetic, the magnetic adsorptive material in the 3rd tube chamber (2-13) is adsorbed
In electromagnetism filter screen (2-11), the 3rd tube chamber (2-13), the solution after original absorption is discharged by drain pipe (2-1).Work as electromagnetism
When filter screen (2-11) arrives the 3rd tube chamber (2-13) top, the first push rod (1-1) moves up new sea water and enters, and simultaneously second
Push pedal (2-3) moves downward, and the liquid in the second tube chamber (2-12) enters in the 3rd tube chamber (2-13), now by hole (2-2)
Electromagnetism filter screen (2-11) magnetic disappears, and magnetic adsorbent mixes with solution composition, carries out adsorption reaction, as the second push pedal (2-3)
When contacting with fixing base plate (2-4), the first push rod (1-1) starts to move down, and completes a cyclic process, carries out next week
The adsorption process of phase.
Beneficial effect: a kind of device for uranium extraction from seawater continuously of present study, by can machine-shaping adsorbing material and can magnetic
Adsorbing material after the meeting is used in combination, and plays the not same-action of every kind of material simultaneously.Early stage uses the adsorbing material of machine-shaping
Carry out first step absorption, play the advantage that the cost of material is low, absorption rear impurity and uranium concentration and reduce, carry out magnetic adsorbent suction
Attached, play the advantage that its absorption property is good.
Accompanying drawing explanation
Accompanying drawing 1: a kind of device for uranium extraction from seawater schematic diagram continuously.
Accompanying drawing 2: can machine-shaping adsorbent system (1) enlarged drawing.
Accompanying drawing 3: the second push pedal (2-3) top view.
Detailed description of the invention
Embodiment 1:
A kind of device for uranium extraction from seawater continuously, this device includes as shown in Figure 1: can machine-shaping adsorbent system
(1), can magnetic recovery adsorption system (2) and synchronized links system (3);Can machine-shaping adsorbent system (1) such as accompanying drawing 2
Shown in: the first push rod (1-1), the first push rod (1-1) side is with the first cingulum (1-11), and the first push rod (1-1) front end is for pushing away
Plate (1-2), push pedal (1-2) is inserted in the first tube chamber (1-10), is provided with interception net (1-7) at the first tube chamber (1-10) middle part,
Bottom put can machine-shaping adsorbent (1-3), can machine-shaping adsorbent (1-3) be lower side screen (1-8), on the downside of filter screen for band
There is the water inlet pipe (1-4) of individual event valve (1-5) and with the outlet pipe (1-9) of individual event valve (1-6), outlet pipe (1-9) and the second pipe
Chamber (2-12) connects;
Can the second push rod (2-6) in magnetic recovery adsorption system (2), the second push rod (2-6) side is with the second cingulum (2-
7), the second push pedal (2-3) is connected by connecting rod (2-5) with the second push rod (2-6), and the 3rd tube chamber is inserted in the second push pedal (2-3)
(2-13), in, the second tube chamber (2-12) lower limb is fixing base plate (2-4), and top edge is the second push pedal (2-3);Such as accompanying drawing 3 institute
Showing: the second push pedal (2-3) is provided with the hole (2-2) being connected to check valve (2-10), connecting rod is passed through in the second push pedal (2-3) top
(2-5) electromagnetism filter screen (2-11) is connected, containing Electromagnetic Control line (1-14) in connecting rod (2-5), Electromagnetic Control line (1-14)
End connects electromagnetism filter screen (2-11), and the other end is connected with controlling electromagnetic control apparatus;Electromagnetism filter screen (2-11) is arranged above the 3rd pipe
Chamber (2-13), the 3rd tube chamber (2-13) is arranged above being connected to the drain pipe (2-1) of check valve (2-15);
Synchronized links system (3) includes fixing bar (3-2) and rotates gear (3-1), by rotation gear (3-1) respectively with
First cingulum (1-11) and the second cingulum (2-7) connect, it is achieved can machine-shaping adsorbent system (1), can magnetic recovery
Adsorption system (2) synchronizes to interlock.
Claims (1)
1. a continuous device for uranium extraction from seawater, this device includes: can machine-shaping adsorbent system (1), can magnetic recovery
Adsorption system (2) and synchronized links system (3);Can the first push rod (1-1) in machine-shaping adsorbent system (1), first
Push rod (1-1) side is with the first cingulum (1-11), and the first push rod (1-1) front end is push pedal (1-2), and push pedal (1-2) is inserted in
In first tube chamber (1-10), being provided with interception net (1-7) at the first tube chamber (1-10) middle part, bottom is put can machine-shaping adsorbent
(1-3), can machine-shaping adsorbent (1-3) be lower side screen (1-8), be the water inlet pipe with individual event valve (1-5) on the downside of filter screen
(1-4) with the outlet pipe (1-9) of individual event valve (1-6), outlet pipe (1-9) is connected with the second tube chamber (2-12);
Can the second push rod (2-6) in magnetic recovery adsorption system (2), the second push rod (2-6) side with the second cingulum (2-7),
Second push pedal (2-3) is connected by connecting rod (2-5) with the second push rod (2-6), and the 3rd tube chamber (2-is inserted in the second push pedal (2-3)
13), in, the second tube chamber (2-12) lower limb is fixing base plate (2-4), and top edge is the second push pedal (2-3);Second push pedal (2-3)
Being provided with the hole (2-2) being connected to check valve (2-10), the second push pedal (2-3) top connects electromagnetism filter screen by connecting rod (2-5)
(2-11), containing Electromagnetic Control line (1-14) in connecting rod (2-5), Electromagnetic Control line (1-14) one end connects electromagnetism filter screen (2-
11), the other end is connected with controlling electromagnetic control apparatus;Electromagnetism filter screen (2-11) is arranged above the 3rd tube chamber (2-13), the 3rd tube chamber
(2-13) it is arranged above being connected to the drain pipe (2-1) of check valve (2-15);
Synchronized links system (3) includes fixing bar (3-2) and rotates gear (3-1), by rotating gear (3-1) respectively with first
Cingulum (1-11) and the second cingulum (2-7) connect, it is achieved can machine-shaping adsorbent system (1), can magnetic recovery absorption
System (2) synchronizes to interlock.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620675519.4U CN205803566U (en) | 2016-07-01 | 2016-07-01 | A kind of device for uranium extraction from seawater continuously |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620675519.4U CN205803566U (en) | 2016-07-01 | 2016-07-01 | A kind of device for uranium extraction from seawater continuously |
Publications (1)
Publication Number | Publication Date |
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CN205803566U true CN205803566U (en) | 2016-12-14 |
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ID=57512064
Family Applications (1)
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CN201620675519.4U Expired - Fee Related CN205803566U (en) | 2016-07-01 | 2016-07-01 | A kind of device for uranium extraction from seawater continuously |
Country Status (1)
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CN (1) | CN205803566U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112505264A (en) * | 2021-02-08 | 2021-03-16 | 中国工程物理研究院核物理与化学研究所 | A sea trial test device for uranium is carried to sea water |
-
2016
- 2016-07-01 CN CN201620675519.4U patent/CN205803566U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112505264A (en) * | 2021-02-08 | 2021-03-16 | 中国工程物理研究院核物理与化学研究所 | A sea trial test device for uranium is carried to sea water |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161214 Termination date: 20200701 |
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CF01 | Termination of patent right due to non-payment of annual fee |