CN109851005A - A kind of sleeve electrode type flows through formula capacitive deionization equipment and technology - Google Patents
A kind of sleeve electrode type flows through formula capacitive deionization equipment and technology Download PDFInfo
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- CN109851005A CN109851005A CN201910095265.7A CN201910095265A CN109851005A CN 109851005 A CN109851005 A CN 109851005A CN 201910095265 A CN201910095265 A CN 201910095265A CN 109851005 A CN109851005 A CN 109851005A
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Abstract
A kind of sleeve electrode type flows through formula capacitive deionization equipment and technology, and equipment is made of upper positioning seal head assembly (10), column anode (20), sleeve cathode (30), lower positioning seal head assembly (40);The deionized technique from water opens power supply, is sent into treated water, can fouling tendency calcium ions and magnesium ions be deposited on sleeve cathode (30) inner surface, flow out water purification.
Description
Technical field
The invention belongs to electrochemical field, in particular to a kind of sleeve electrode type flows through formula capacitive deionization equipment and technology.
Background technique
Salt in treated water is existed with the state of ion (positively charged or negative electricity) mostly, and electro-adsorption demineralization technology is again
It is exactly to constitute electrode capacitance that title, which flows through the basic thought of formula capacitive deionization technology, forms capacitor electrostatic by impressed DC voltage
, it forces ion to movement at the electrode with opposite charges, is enriched with ion in electrode double layer, substantially reduces in solution
Ion concentration, to realize the desalination to aqueous solution.
Patent of invention " a kind of using active carbon fiber fabrics as the Electro Sorb water treatment facilities and technique of electrode "
(201210315573.4), " filter plant and technique that formula capacitive deionization method is flowed through in a kind of utilization " (201510550081.7)
All oneself is successfully applied in the technique of sea water desalination and industrial brackish water removing sodium chloride ion;But it is used in industrial down cycles water
When decalcification magnesium ion, calcium ions and magnesium ions can fouling on the electrode, it is necessary to propose new equipment and technology thus.
Summary of the invention
A kind of sleeve electrode type flows through formula capacitive deionization equipment, by upper positioning seal head assembly, column anode, tubular female
Pole, lower positioning seal head assembly is constituted, it is characterized in that upper positioning seal head assembly is by upper small diaphragm seal, upper small seal pipe, upper small sealing
Ring, upper location sealing head, upper big sealing ring, upper big seal pipe, upper big diaphragm seal are constituted, and the upper surface of upper location sealing head is put
The upper small seal groove of small seal pipe and upper small sealing ring puts big seal pipe and upper big sealing ring below upper location sealing head
Upper big seal groove, three-way connection is connect on the right of upper location sealing head, threeway A pipe connects the outlet pipe of treated water, threeway B pipe
Backwash water water inlet pipe is connected, has upper free vent on the right side of the upper small seal groove of the upper surface of upper location sealing head;
Upper small sealing groove center and upper big seal groove central coaxial position, the geometric dimension of upper small seal groove with across its
The upper joint pin of column anode matches;The geometric dimension of upper big seal groove is matched with the sleeve cathode end being put into slot, depending on
The position gap of column anode and sleeve cathode;
8 self-tapping screw holes are uniformly distributed on upper big diaphragm seal;
Upper positioning seal head assembly is made of insulating materials;
The cylinder of column anode uses coating titanium tube, draws in upper end soldering and sealing titanium plate, and in upper cylinder end face coaxial welding
Upper joint pin of the titanium matter with spiral shell mosquito out;Titanium matter is drawn with spiral shell mosquito in lower end soldering and sealing titanium plate, and in lower cylinder end face coaxial welding
Lower joint pin;
Sleeve cathode uses 316L stainless steel tube, and the interior diameter of sleeve cathode is 4-12mm bigger than the overall diameter of column anode,
Gap between sleeve cathode and column anode is exactly to flow through capacitor space;
Lower positioning seal head assembly small diaphragm seal under, under small seal pipe, under small sealing ring, lower location sealing head is lower big close
Seal ring, lower big seal pipe, lower big diaphragm seal are constituted, and the upper surface of lower location sealing head, which has, puts down big seal pipe and lower big sealing ring
Big seal groove down, small seal pipe is put down below lower location sealing head, and small seal groove, lower positioning are close under small sealing ring under
Lower three-way connection is connect on the right of end socket, threeway C pipe connects the water inlet pipe of treated water, and threeway D pipe connects backwash water outlet pipe, under
There is lower free vent on the right side of small seal groove under below location sealing head, is shut lower free vent with bolt;
Under small sealing groove center and lower big seal groove central coaxial position, under small seal groove geometric dimension with pass through its
The lower joint pin of column anode matches;The geometric dimension of big seal groove is matched with the sleeve cathode end being put into slot down, depending on
The position gap of column anode and sleeve cathode;
8 self-tapping screw holes are uniformly distributed on big diaphragm seal down;
Lower positioning seal head assembly is made of insulating materials;
Sleeve electrode type flows through formula capacitive deionization equipment and assembles in the following order:
1) close from upper positioning across the upper big seal groove of upper location sealing head by the upper joint pin on the cylinder of column anode
The upper small seal groove of end socket is pierced by;
2) sequentially by upper small sealing ring, upper small seal pipe, upper small diaphragm seal is inserted in the upper joint pin on the cylinder of column anode,
Upper small sealing ring, upper small seal pipe is packed into upper small seal groove, by the upper joint pin on the cylinder of column anode, with standard fastening nut
Lock sealing;
3) it is sequentially inserted in sleeve cathode upper end, upper big diaphragm seal, upper big seal pipe, upper big sealing ring;
4) sleeve cathode is inserted in column anode;
5) sleeve cathode upper end is packed into the upper big seal groove of upper location sealing head, upper big sealing ring, upper big seal pipe
The upper big seal groove of location sealing head in loading;
6) upper big diaphragm seal, sealed tubular cathode upper end are compressed with self-tapping screw;
7) it is sequentially inserted in sleeve cathode lower end, lower big diaphragm seal, lower big seal pipe, lower big sealing ring is spare;
8) close from lower positioning across the lower big seal groove of lower location sealing head by the lower joint pin on the cylinder of column anode
Small seal groove is pierced by under end socket;Sleeve cathode lower end is packed into the lower big seal groove of lower location sealing head simultaneously, it is lower big close
Seal ring, lower big seal pipe are packed into the lower big seal groove of lower seal head;
9) big diaphragm seal, sealed tubular cathode lower end are compressed down with self-tapping screw;
10) sequentially will under small sealing ring, under small seal pipe, under small diaphragm seal be inserted on the cylinder of column anode under connect
Column, under small sealing ring, under small seal pipe be packed under small seal groove the lower joint pin on the cylinder of column anode is fastened with standard
Nut check sealing;
It is for example following that formula capacitive deionization equipment progress deionized technique from water is flowed through using above-mentioned sleeve electrode type:
1. accessing power cathode from sleeve cathode upper end, anode is accessed from the upper joint pin on the cylinder of column anode, is beaten
Switch power supply applies 1.5-15V DC voltage by technique requirement;
2. the threeway C pipe and the threeway A of upper location sealing head of opening lower location sealing head are managed, from the three of lower location sealing head
Logical C pipe is sent into treated water, after processing water flows through the capacitive field that sleeve cathode and column anode are constituted, from upper location sealing head
The outflow of threeway A pipe, water intermediate ion is adsorbed chloride ion synthesis free vent of the chlorine from upper location sealing head by electrode adsorption
Discharge, can fouling tendency calcium ions and magnesium ions be deposited on sleeve cathode inner surface;
3. the threeway C pipe and the threeway A of upper location sealing head for closing lower location sealing head are managed in the process requirement time;It beats
The threeway B pipe backwash water water inlet pipe of location sealing head is opened, high pressure backwash water is sent into, opens simultaneously the threeway of lower location sealing head
D pipe backwash water outlet pipe, backwash water take fouling tendency calcium ions and magnesium ions and go out outlet pipe;
4. closing the threeway B pipe backwash water water inlet pipe of upper location sealing head, the threeway D pipe backwash of lower location sealing head is closed
Water outlet pipe returns to program 2.
Detailed description of the invention
Attached drawing 1 is upper positioning seal head assembly structure schematic diagram, and attached drawing 2 is lower positioning seal head assembly structure schematic diagram, attached drawing 3
It is column anode structural schematic diagram, attached drawing 4 is sleeve cathode structural schematic diagram, and attached drawing 5 is general assembly structural schematic diagram.
Specific embodiment
A kind of sleeve electrode type flows through formula capacitive deionization equipment, by upper positioning seal head assembly (10), column anode (20),
Sleeve cathode (30), lower positioning seal head assembly (40) is constituted, it is characterized in that upper positioning seal head assembly (10) You Shang little diaphragm seal
(14), upper small seal pipe (13), upper small sealing ring (12), upper location sealing head (1), upper big sealing ring (15), upper big seal pipe
(16), upper big diaphragm seal (17) is constituted, and the upper surface of upper location sealing head (1) puts small seal pipe (13) and upper small sealing ring
(12) upper small seal groove (1-3) puts big seal pipe (16) and upper big sealing ring (15) below upper location sealing head (1)
Upper big seal groove (1-8), connect three-way connection (1-9) on the right of upper location sealing head (1), it is processed that threeway A manages (1-6) connection
The outlet pipe of water, threeway B manage (1-5) and connect backwash water water inlet pipe, the upper small seal groove (1-3) of the upper surface of upper location sealing head (1)
Right side has upper free vent (1-4);
The upper small seal groove center (1-3) and upper big seal groove (1-8) central coaxial position, upper small seal groove (1-3) it is several
What size is matched with the upper joint pin (23) for the column anode for passing through it;It goes up the geometric dimension of big seal groove (1-8) and is put into slot
Sleeve cathode (30) end matching, to located the gap of column anode (20) Yu sleeve cathode (30);
8 self-tapping screw holes (17-1) are uniformly distributed on upper big diaphragm seal (17);
Upper positioning seal head assembly (10) is made of insulating materials;
The cylinder (21) of column anode (20) uses coating titanium tube, in upper end (22) soldering and sealing titanium plate, and in upper cylindrical end
Face coaxial welding draws upper joint pin (23) of the titanium matter with spiral shell mosquito;In lower end (24) soldering and sealing titanium plate, and it is coaxial in lower cylinder end face
Lower joint pin (25) of the titanium matter with spiral shell mosquito is drawn in welding;
Sleeve cathode (30) uses 316L stainless steel tube, and the interior diameter of sleeve cathode (30) is outer more straight than column anode (20)
The big 4-12mm of diameter, the gap between sleeve cathode (30) and column anode (20) are exactly to flow through capacitor space;
Lower positioning seal head assembly (40) You Xia little diaphragm seal (44), under small seal pipe (43), under small sealing ring (42), it is lower fixed
Position seal head (4), lower big sealing ring (45), lower big seal pipe (46), lower big diaphragm seal (47) are constituted, lower location sealing head (4)
The upper surface of have a lower big seal groove (4-8) for putting down big seal pipe (46) Yu lower big sealing ring (45), under lower location sealing head (4)
Small seal pipe (43) small seal groove (4-3) under small sealing ring (42) under is put down in face, is connect on the right of lower location sealing head (4)
Lower three-way connection (4-9), threeway C manage the water inlet pipe of (4-6) connection treated water, and threeway D manages (4-5) connection backwash water water outlet
Pipe, below lower location sealing head (4) under have lower free vent (4-4) on the right side of small seal groove (4-3), with bolt by lower logical atmosphere
(4-4) is shut in hole;
Under the small seal groove center (4-3) and lower big seal groove (4-8) central coaxial position, under small seal groove (4-3) it is several
What size is matched with the lower joint pin (25) for the column anode for passing through it;It the geometric dimension of big seal groove (4-8) and is put into slot down
Sleeve cathode (30) end matching, to located the gap of column anode (20) Yu sleeve cathode (30);
8 self-tapping screw holes (47-1) are uniformly distributed on big diaphragm seal (47) down;
Lower positioning seal head assembly (4) is made of insulating materials;
Sleeve electrode type flows through formula capacitive deionization equipment and assembles in the following order:
11) by the upper joint pin (23) on the cylinder of column anode, across the upper big seal groove (1-8) of upper location sealing head,
It is pierced by from the upper small seal groove (1-3) of upper location sealing head;
12) sequentially by upper small sealing ring (12), upper small seal pipe (13), upper small diaphragm seal (14) is inserted in the column of column anode
Upper joint pin (23) on body, upper small sealing ring (12), small seal groove (1-3) in upper small seal pipe (13) loading, by column anode
Cylinder on upper joint pin (23), with standard fastening nut lock sealing;
13) in sleeve cathode (30), upper end is sequentially inserted in, upper big diaphragm seal (17), upper big seal pipe (16), upper big close
Seal ring (15);
14) sleeve cathode (30) is inserted in column anode (20);
15) sleeve cathode (30) upper end is packed into the upper big seal groove (1-8) of upper location sealing head, upper big sealing ring
(15), in upper big seal pipe (16) loading location sealing head upper big seal groove (1-8);
16) upper big diaphragm seal (17), sealed tubular cathode upper end are compressed with self-tapping screw;
17) lower big diaphragm seal (47), lower big seal pipe (46), lower big sealing are sequentially inserted in sleeve cathode (30) lower end
Ring (45) is spare;
18) by the lower joint pin (25) on the cylinder of column anode, across the lower big seal groove (4-8) of lower location sealing head,
Small seal groove (4-3) is pierced by under lower location sealing head;Sleeve cathode (30) lower end is packed into lower location sealing head simultaneously
Lower big seal groove (4-8), lower big sealing ring (45), lower big seal pipe (46) is packed into the lower big seal groove (4-8) of lower seal head;
19) it is compressed down big diaphragm seal (47) with self-tapping screw, sealed tubular cathode (30) lower end;
20) sequentially will under small sealing ring (42), under small seal pipe (43), under small diaphragm seal (44) be inserted in the column of column anode
Lower joint pin (25) on body, under small sealing ring (42), under small seal pipe (43) be packed under small seal groove (4-3), by column anode
Cylinder on lower joint pin (25) standard fastening nut lock sealing;
It is for example following that formula capacitive deionization equipment progress deionized technique from water is flowed through using above-mentioned sleeve electrode type:
5. power cathode is accessed from sleeve cathode (30) upper end, from upper joint pin (23) access on the cylinder of column anode
Anode opens power supply, applies 1.5-15V DC voltage by technique requirement;
6. the threeway A of the threeway C pipe (4-6) and upper location sealing head of opening lower location sealing head manages (1-6), from lower positioning
The threeway C pipe (4-6) of seal head is sent into treated water, and processing water flows through the electricity that sleeve cathode (30) and column anode (20) are constituted
After holding electric field, from the threeway A of upper location sealing head pipe (1-6) outflow, water intermediate ion is adsorbed chloride ion synthesis by electrode adsorption
Chlorine from the free vent (1-4) of upper location sealing head be discharged, can fouling tendency calcium ions and magnesium ions be deposited on sleeve cathode (30) interior table
Face;
7. closing the threeway A of threeway C pipe (4-6) and upper location sealing head of lower location sealing head in the process requirement time
It manages (1-6);The threeway B of location sealing head manages (1-5) backwash water water inlet pipe in opening, is sent into high pressure backwash water, opens simultaneously down
The threeway D of location sealing head manages (4-5) backwash water outlet pipe, and backwash water takes fouling tendency calcium ions and magnesium ions and goes out outlet pipe;
8. the threeway B for closing upper location sealing head manages (1-5) backwash water water inlet pipe, the threeway D of lower location sealing head is closed
(4-5) backwash water outlet pipe is managed, program 2 is returned to.
Claims (4)
1. a kind of sleeve electrode type flows through formula capacitive deionization equipment, by upper positioning seal head assembly (10), column anode (20), pipe
Shape cathode (30), lower positioning seal head assembly (40) is constituted, it is characterized in that upper positioning seal head assembly (10) You Shang little diaphragm seal (14),
Upper small seal pipe (13), upper small sealing ring (12), upper location sealing head (1), upper big sealing ring (15), upper big seal pipe (16),
Upper big diaphragm seal (17) is constituted, and the upper surface of upper location sealing head (1), which has, puts small seal pipe (13) and upper small sealing ring (12)
Upper small seal groove (1-3) has below upper location sealing head (1) and puts the upper big of big seal pipe (16) and upper big sealing ring (15)
Seal groove (1-8) connects three-way connection (1-9) on the right of upper location sealing head (1), and threeway A manages going out for (1-6) connection treated water
Water pipe, threeway B manage (1-5) and connect backwash water water inlet pipe, have on the right side of the upper small seal groove (1-3) of the upper surface of upper location sealing head (1)
Upper free vent (1-4);
The upper small seal groove center (1-3) and upper big seal groove (1-8) central coaxial position, the dimensioning of upper small seal groove (1-3)
The very little upper joint pin (23) with the column anode for passing through it matches;The geometric dimension of upper big seal groove (1-8) and the pipe being put into slot
Shape cathode (30) end matching, to located the gap of column anode (20) Yu sleeve cathode (30);
8 self-tapping screw holes (17-1) are uniformly distributed on upper big diaphragm seal (17);
Upper positioning seal head assembly (10) is made of insulating materials;
The cylinder (21) of column anode (20) uses coating titanium tube, in upper end (22) soldering and sealing titanium plate, and it is same in upper cylinder end face
Upper joint pin (23) of the titanium matter with spiral shell mosquito is drawn in axis welding;In lower end (24) soldering and sealing titanium plate, and in lower cylinder end face coaxial welding
Draw lower joint pin (25) of the titanium matter with spiral shell mosquito;
Sleeve cathode (30) uses 316L stainless steel tube, and the interior diameter of sleeve cathode (30) is bigger than the overall diameter of column anode (20)
4-12mm, the gap between sleeve cathode (30) and column anode (20) are exactly to flow through capacitor space;
Lower positioning seal head assembly (40) You Xia little diaphragm seal (44), under small seal pipe (43), under small sealing ring (42), it is lower positioning it is close
End socket (4), lower big sealing ring (45), lower big seal pipe (46), lower big diaphragm seal (47) are constituted, lower location sealing head (4) it is upper
There is the lower big seal groove (4-8) for putting down big seal pipe (46) Yu lower big sealing ring (45) in face, has below lower location sealing head (4)
Small seal pipe (43) small seal groove (4-3) under small sealing ring (42) under is put down, is connect down on the right of lower location sealing head (4)
Three-way connection (4-9), threeway C manage the water inlet pipe of (4-6) connection treated water, and threeway D manages (4-5) and connects backwash water outlet pipe,
There is lower free vent (4-4) on the right side of small seal groove (4-3) under below lower location sealing head (4), with bolt by lower free vent
(4-4) is shut;
Under the small seal groove center (4-3) and lower big seal groove (4-8) central coaxial position, under small seal groove (4-3) dimensioning
The very little lower joint pin (25) with the column anode for passing through it matches;The geometric dimension of big seal groove (4-8) and the pipe being put into slot down
Shape cathode (30) end matching, to located the gap of column anode (20) Yu sleeve cathode (30);
8 self-tapping screw holes (47-1) are uniformly distributed on big diaphragm seal (47) down;
Lower positioning seal head assembly (4) is made of insulating materials;
Sleeve electrode type flows through formula capacitive deionization equipment and assembles in the following order:
11) by the upper joint pin (23) on the cylinder of column anode, across the upper big seal groove (1-8) of upper location sealing head, from upper
The upper small seal groove (1-3) of location sealing head is pierced by;
12) sequentially by upper small sealing ring (12), upper small seal pipe (13), upper small diaphragm seal (14) is inserted on the cylinder of column anode
Upper joint pin (23), upper small sealing ring (12), small seal groove (1-3) in upper small seal pipe (13) loading, by the column of column anode
Upper joint pin (23) on body, with standard fastening nut lock sealing;
13) in sleeve cathode (30), upper end is sequentially inserted in, upper big diaphragm seal (17), upper big seal pipe (16), upper big sealing ring
(15);
14) sleeve cathode (30) is inserted in column anode (20);
15) sleeve cathode (30) upper end is packed into the upper big seal groove (1-8) of upper location sealing head, upper big sealing ring (15),
The upper big seal groove (1-8) of location sealing head in upper big seal pipe (16) loading;
16) upper big diaphragm seal (17), sealed tubular cathode upper end are compressed with self-tapping screw;
17) lower big diaphragm seal (47), lower big seal pipe (46), lower big sealing ring are sequentially inserted in sleeve cathode (30) lower end
(45) spare;
18) by the lower joint pin (25) on the cylinder of column anode, across the lower big seal groove (4-8) of lower location sealing head, under
Small seal groove (4-3) is pierced by under location sealing head;Sleeve cathode (30) lower end is packed under lower location sealing head simultaneously
Big seal groove (4-8), lower big sealing ring (45), lower big seal pipe (46) are packed into the lower big seal groove (4-8) of lower seal head;
19) it is compressed down big diaphragm seal (47) with self-tapping screw, sealed tubular cathode (30) lower end;
20) sequentially will under small sealing ring (42), under small seal pipe (43), under small diaphragm seal (44) be inserted on the cylinder of column anode
Lower joint pin (25), under small sealing ring (42), under small seal pipe (43) be packed under small seal groove (4-3), by the column of column anode
Lower joint pin (25) standard fastening nut lock sealing on body.
2. it is deionized from water that a kind of sleeve electrode type according to claim 1 flows through the progress of formula capacitive deionization equipment
Technique includes the following steps:
1) accesses power cathode from sleeve cathode (30) upper end, just from upper joint pin (23) access on the cylinder of column anode
Power supply is opened in pole, applies 1.5-15V DC voltage by technique requirement;
2) the threeway A for the threeway C pipe (4-6) and upper location sealing head that opens lower location sealing head manages (1-6), close from lower positioning
The threeway C pipe (4-6) of end socket is sent into treated water, and processing water flows through the capacitor that sleeve cathode (30) and column anode (20) are constituted
After electric field, from the threeway A of upper location sealing head pipe (1-6) outflow, water intermediate ion is adsorbed chloride ion synthesis chlorine by electrode adsorption
Gas from the free vent (1-4) of upper location sealing head be discharged, can fouling tendency calcium ions and magnesium ions be deposited on sleeve cathode (30) inner surface.
3. the threeway A of the threeway C pipe (4-6) and upper location sealing head of closing lower location sealing head manages (1- in the process requirement time
6);The threeway B of location sealing head manages (1-5) backwash water water inlet pipe in opening, is sent into high pressure backwash water, and it is close to open simultaneously lower positioning
The threeway D of end socket manages (4-5) backwash water outlet pipe, and backwash water takes fouling tendency calcium ions and magnesium ions and goes out outlet pipe.
4. the threeway B for closing upper location sealing head manages (1-5) backwash water water inlet pipe, the threeway D for closing lower location sealing head manages (4-
5) backwash water outlet pipe returns to program 2.
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CN201910095265.7A CN109851005A (en) | 2019-01-31 | 2019-01-31 | A kind of sleeve electrode type flows through formula capacitive deionization equipment and technology |
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4024047A (en) * | 1976-01-20 | 1977-05-17 | Progressive Equipment Corporation | Electrostatic water treatment apparatus |
US4073712A (en) * | 1976-11-19 | 1978-02-14 | Electrostatic Equipment Company | Electrostatic water treatment |
CN88219157U (en) * | 1988-06-30 | 1988-12-28 | 南京浦口水垢控制器厂 | Electrostatic scale breaker |
CN1190948A (en) * | 1996-03-11 | 1998-08-19 | 维托尔德·米哈伊洛维奇·巴希列 | Electrochemical cell |
CN205528155U (en) * | 2016-01-20 | 2016-08-31 | 郑银磊 | Water treatment ware is filtered in electrolysis |
CN206428117U (en) * | 2017-01-21 | 2017-08-22 | 广州诺马特斯环保设备有限公司 | Dynamic ion group's water process unit |
CN107098446A (en) * | 2017-06-09 | 2017-08-29 | 北京中创龙源环保科技有限公司 | A kind of magnetic adsorption type water treatment facilities |
CN207091071U (en) * | 2017-07-07 | 2018-03-13 | 芜湖佳泽利环境资源科技有限公司 | A kind of tubular type capacitive deionization desalter |
-
2019
- 2019-01-31 CN CN201910095265.7A patent/CN109851005A/en active Pending
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4024047A (en) * | 1976-01-20 | 1977-05-17 | Progressive Equipment Corporation | Electrostatic water treatment apparatus |
US4073712A (en) * | 1976-11-19 | 1978-02-14 | Electrostatic Equipment Company | Electrostatic water treatment |
CN88219157U (en) * | 1988-06-30 | 1988-12-28 | 南京浦口水垢控制器厂 | Electrostatic scale breaker |
CN1190948A (en) * | 1996-03-11 | 1998-08-19 | 维托尔德·米哈伊洛维奇·巴希列 | Electrochemical cell |
CN205528155U (en) * | 2016-01-20 | 2016-08-31 | 郑银磊 | Water treatment ware is filtered in electrolysis |
CN206428117U (en) * | 2017-01-21 | 2017-08-22 | 广州诺马特斯环保设备有限公司 | Dynamic ion group's water process unit |
CN107098446A (en) * | 2017-06-09 | 2017-08-29 | 北京中创龙源环保科技有限公司 | A kind of magnetic adsorption type water treatment facilities |
CN207091071U (en) * | 2017-07-07 | 2018-03-13 | 芜湖佳泽利环境资源科技有限公司 | A kind of tubular type capacitive deionization desalter |
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