CN202226928U - Tritium in water electrolysis thickening device - Google Patents

Abstract

A tritium in water electrolysis thickening device includes a backflow condensation tube, a sample bottle and an SPE (solid polymer electrolyte) electrolysis bath, which are arranged in a temperature reduction device from top to bottom, as well as a direct current and constant current power source which is used for supplying electricity for the electrolysis bath, and a control circuit, wherein the anode and the cathode of the SPE electrolysis bath are connected with the anode and the cathode of the direct current and constant current power source; an oxygen outlet and a hydrogen outlet of the electrolysis bath are connected with the backflow condensation tube respectively after passing through the sample bottle and then connected to the outer part of the temperature reduction device respectively through an oxygen exhaust tube and a hydrogen exhaust tube; the oxygen exhaust tube and the hydrogen exhaust tube are sampling openings simultaneously; a sample bottle outlet connected to the oxygen and a sample bottle outlet connected to the hydrogen are connected to an injection port of the electrolysis bath respectively through pipelines; the tritium in water electrolysis thickening device also includes a laser transmitter and a laser receiver; the laser transmitter and the laser receiver are oppositely arranged on the two sides of a longitudinal pipeline of either of two branching pipelines connected to the sample bottle outlet connected to the oxygen and the sample bottle outlet connected to the hydrogen; the part of the longitudinal pipeline positioned between the laser transmitter and the laser receiver is transparent; and the laser receiver outputs liquid level signals to the control circuit. The tritium in water electrolysis thickening device is efficient, stable and reliable.

Description

Tritium electrolytic enrichment device in the water

Technical field

The utility model belongs to the activity measurement technical field of tritium in the water, is specifically related to a kind of device that can tritium in the water of low-level sample be carried out electrolytic enrichment.

Background technology

Electrolytic enrichment to tritium in the water of low-level sample among the GB 12375-1990 " analytical procedure of tritium in the water " is through alkali formula electrolytic process; Need use alkali formula electrolyzer, vacuum condensation distillation, liquid nitrogen etc., the main drawback of this method is: operation and complex disposal process, to the skilled operation degree require high, electrolysis time is long (generally need 150～200h), tool corrodibility, enrichment factor is limited.At present existing bibliographical information utilizes SPE (Solid polymer Electrolyte) solid polymerization film ionogen to carry out the spissated technology of electrolysis; This technology has the following advantages: (1) ionogen need not any reagent; Simple to operate; Owing to there is not any solute residue, there is not the limit in the volume enrichment factor of water.(2) oxygen that produces and hydrogen are isolated by semipermeable partition respectively can not produce detonation gas, safe.(3) SPE cationic exchange membrane resistance is minimum, and the contact surface of electrode and film can be because of bubble stop up, and is difficult to saturatedly through electric current, can carry out large-current electric and separate, and shortens electrolysis time.

Summary of the invention

The purpose of the utility model is the technical requirements to tritium measurement in the low-level activity water, and tritium electrolytic enrichment device in a kind of efficient, stable, reliable water is provided.

For realizing above-mentioned purpose; Tritium electrolytic enrichment device in the utility model water; Comprise and be located in the heat sink and the reflux condensing tube, sample bottle and the SPE electrolyzer that are provided with from top to bottom; Also be included as the dc current stabilized power supply of electrolyzer with electricity and the pilot circuit of control electrolyzer power source and the start and stop of heat sink power supply; The positive and negative electrode of said SPE electrolyzer connects the positive and negative electrode of dc current stabilized power supply, and the oxygen of electrolyzer and hydrogen outlet are distinguished ventilatory assistance and hydrogen vapor pipe to heat sink more respectively through taking back the stream prolong behind the sample bottle; This oxygen and hydrogen vapor pipe also are the application of sample mouth simultaneously; The sample bottle outlet that connects oxygen and the sample bottle outlet that is connected hydrogen are connected to the injection port of electrolyzer respectively through pipeline, also comprise laser transmitter and laser pickoff, are located at the pipe tunnel both sides in connecting the outlet of oxygen sample bottle and being connected one of two laterals that the hydrogen sample bottle exports relatively; The pipe tunnel position that is between laser transmitter and the laser pickoff is transparent, and this laser pickoff output liquid level signal is to pilot circuit.

The sample bottle outlet of above-mentioned connection oxygen is connected to the injection port of being located at bottom of electrolytic tank with the sample bottle outlet that is connected hydrogen through three-way pipeline, and this injection port also is a nesting port simultaneously, and this nesting port is provided with drainage switch.

In one embodiment, above-mentioned heat sink is a refrigerator.

In another embodiment, above-mentioned heat sink comprises refrigerator and places cooling bottle, recycle pump and the water-cooled head in the refrigerator that said sample bottle and reflux condensing tube all place in the cooling bottle; There is the quench liquid inlet cooling bottle upper end; Be full of quench liquid in the cooling bottle, cooling bottle upper end is tightly connected with the reflux condensing tube upper end, and the lower end of reflux condensing tube is connected with the sample bottle upper end; The sample bottle lower end is tightly connected with cooling bottle lower end; Cooling bottle lower end has the import and export of quench liquid respectively, and said water-cooled head is located at electrolyzer, and quench liquid import and export, recycle pump and the water-cooled head of said cooling bottle lower end is communicated with into quench liquid circulation loop through the pipeline circulation successively.Also can comprise the wind-cooling heat dissipating case that places on the refrigerator inwall, this wind-cooling heat dissipating case is located between recycle pump and the water-cooled head.Quench liquid reaches cooling purpose in cooling bottle and water-cooled head, constantly circulating under the effect of recycle pump, and the wind-cooling heat dissipating case is discharged heat that quench liquid is with.

Above-mentioned water-cooled head the best is provided with two, is located at the tow sides of electrolyzer respectively.

Above-mentioned electrolyzer can be equipped with electronic thermometer probe, and this electronic thermometer probe output temperature transducing signal is to pilot circuit.

Above-mentioned laser transmitter is located at the pipe tunnel both sides in the lateral that is connected the outlet of oxygen sample bottle relatively with laser pickoff the best.

The laser transmitter of the utility model, laser pickoff and the transparent tube that is between relative laser transmitter and the laser pickoff have constituted the laser LLC; When the liquid level in the transparent tube was lower than the position of relative laser transmitter and laser pickoff, laser pickoff sent and stops electrolytic signal to pilot circuit.The relative laser transmitter and the position of laser pickoff are the setting liquid level of laser LLC just.

Pilot circuit is responsible for electrolytic beginning, end and to the protection of power supply and refrigerator circuit.The liquid level of water surpasses the setting liquid level of laser LLC in sample bottle; The laser LLC sends electrolyzable signal to pilot circuit; The power supply that pilot circuit is at first connected refrigerator, recycle pump and wind-cooling heat dissipating case begins refrigeration and cooling, freezes about 1 hour, and temperature is less than after 10 ℃ in the refrigerator; Connect dc current stabilized power supply again and give electrolyzer with electricity, the beginning electrolysis.Behind the electrolysis certain hour, the liquid level of water is lower than the setting liquid level of laser LLC in the sample bottle, laser LLC pilot circuit to the back-end sends and finishes electrolytic signal, closes all power supplys, and electrolysis finishes.

Practice shows that the volume that the utility model is worked as sample bottle is 1250ml, when the deionized water sample that once adds 500ml carries out electrolysis; Need 48 hours time; Sample volume concentrated and is that 20ml, the volume multiple that concentrates is 25 times after electrolysis was accomplished, and the concentration multiple that concentrates can reach 8 times; When once adding 1250ml, need 108 hours time, the concentration multiple that concentrates can reach 20 times.

Because the laser LLC of the utility model can accurately be controlled liquid level in desired location, can guarantee so each electrolysis accomplish after the residual volume of sample be the same; In whole electrolytic process, electrolyzer keeps stable cooling performance with the cooling bottle under the effect of refrigerator, recycle pump, wind-cooling heat dissipating case, water-cooled head; In electrolytic process, dc current stabilized power supply remains supplies with the stable electric current of electrolyzer simultaneously, thereby, guaranteed the stable and repeated of the utility model work.

The utility model utilizes tritiated water (HTO) than water (H ₂O) difficult electrolytic characteristics, through the sample bottle of SPE (Solid polymer Electrolyte) electrolyzer, laser LLC, dc current stabilized power supply, heat sink and comparatively large vol, can be more than 8 times with tritium concentration in the water.Whole device is through the system integration, and is rational in infrastructure, easy to operate, stability and good reproducibility, and the efficient that concentrates height is the treatment unit that concentrates that tritium is measured in the low-level activity water of a kind of ideal.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment.

Among the figure: 1. anodal 6. electrolyzer oxygen outlet 7. direct current adjustable constant current power supplys, 8. pilot circuit 9. refrigerators, 10. oxygen vapor pipes of electronic thermometer probe 2. nesting ports 3. water-cooleds 4.SPE electrolyzer 5. electrolyzer and application of sample mouth 11. hydrogen vapor pipes and application of sample mouth 12. quench liquid liquid adding holes 13. reflux condensing tubes 14. sample bottles 15. cool off bottle 16. laser transmitters and laser pickoff 17. electrolyzer negative poles 18. electrolyzer hydrogen outlets 19. recycle pumps 20. wind-cooling heat dissipating casees

Embodiment

Below in conjunction with accompanying drawing the utility model embodiment is described in detail.

As shown in Figure 1; The utility model embodiment comprises reflux condensing tube 13, sample bottle 14 and the SPE electrolyzer 4 of being located in the heat sink and being provided with from top to bottom; Also be included as the 0-30A direct current adjustable constant current power supply 7 of electrolyzer with electricity and the pilot circuit 8 of control electrolyzer power source and the start and stop of heat sink power supply; Heat sink comprises refrigerator 9 and places cooling bottle 15 in the refrigerator 9, recycle pump 19, water-cooled 3 and place the wind-cooling heat dissipating case 20 on refrigerator 9 inwalls that sample bottle 14 all places in the cooling bottle 15 with reflux condensing tube 13, and there is quench liquid inlet 12 cooling bottle 15 upper ends; Be full of quench liquid in the cooling bottle 15; Cooling bottle 15 upper ends and reflux condensing tube 13 upper ends are tightly connected, and the lower end of reflux condensing tube 13 is connected with sample bottle 14 upper ends, and sample bottle 14 lower ends are tightly connected with cooling bottle 15 lower ends; Cooling bottle 15 lower ends have the import and export of quench liquid respectively; Water-cooled 3 is provided with two, is located at the tow sides of electrolyzer 4 respectively, and quench liquid import and export, recycle pump 19, wind-cooling heat dissipating case 20 and the water-cooled of cooling bottle 15 lower ends 3 is communicated with into the quench liquid loop that circulates through the pipeline circulation successively.Positive 5 negative 17 utmost points of SPE electrolyzer 4 connect the positive and negative electrode of the direct current adjustable constant current power supply 7 of 0-30A; The oxygen 6 of electrolyzer flows prolong 13 through taking back behind the sample bottle 14 respectively with hydrogen 18 outlets; Distinguish outside ventilatory assistance vapor pipe 10 and hydrogen vapor pipe 11 to the refrigerator 9 again; This oxygen vapor pipe 10 also is the application of sample mouth with hydrogen vapor pipe 11 simultaneously; Sample bottle 14 outlets that connect oxygen 6 export with the sample bottle that is connected hydrogen 18 14 and are connected to the injection port 2 of being located at electrolyzer 4 bottoms through three-way pipeline, and this injection port 2 also is a nesting port simultaneously, and this nesting port 2 is provided with drainage switch.Also comprise laser transmitter and laser pickoff 16; Be located at the pipe tunnel both sides in the lateral that connects the outlet of oxygen 6 sample bottles relatively; The pipe tunnel position that is between relative laser transmitter and the laser pickoff 16 is transparent; Be transparent glass tube, laser pickoff output liquid level signal is to pilot circuit.Electrolyzer 4 is equipped with electronic thermometer probe 1, this electronic thermometer probe 1 output temperature transducing signal to pilot circuit 8.

Laser transmitter, laser pickoff and the transparent glass tube that is between relative laser transmitter and the laser pickoff constitute the laser LLC, and the position of laser transmitter and laser pickoff is the setting liquid level of laser LLC just relatively.The laser LLC is a kind of device that utilizes laser to have the principle of different refraction angles to carry out tank level control at different transparent mediums; The liquid level of water can constantly descend because of electrolysis; When dropping to the setting liquid level, the laser LLC can send and stop electrolytic signal.Sample through electrolytic enrichment is accomplished is collected through the drainage switch of electrolyzer nesting port 2.Whole device all is positioned in the refrigerator 9 except direct current adjustable constant current power supply 7 and rear end pilot circuit 8.The rear end pilot circuit is responsible for electrolytic beginning, end and to the protection of direct current adjustable constant current power supply, refrigerator circuit.

When operating; At first be cleaning process: fill it up with sample bottle less than the deionized water of 1mS/m (as far as possible little) through application of sample mouth 10 with specific conductivity; The power supply of connection refrigerator 9 begins to freeze after about 1 hour (the refrigerator temperature is less than 10 ℃); The power supply of connecting recycle pump 19 and wind-cooling heat dissipating case 20 flows quench liquid in water-cooled 3 and cooling bottle 15, and then electrolyzer 4, sample bottle 14 and reflux condensing tube 13 are cooled off, and connects the direct supply of direct current adjustable constant current power supply 7 to electrolyzer 4 supply 20A; Beginning electrolytic cleaning 0.5 hour is discharged deionized water through electrolyzer nesting port 2 fully; Then be sample electrolytic enrichment process: specific conductivity is joined sample bottle less than the 500-1250ml sample of 1mS/m (as far as possible little); After connection refrigerator 9, recycle pump 19 and wind-cooling heat dissipating case 20 begin refrigeration and cool off 1 hour (the refrigerator temperature is less than 10 ℃); Connect direct current adjustable constant current power supply 7 and supply with the direct supply of 20A to electrolyzer 4; The beginning electrolytic enrichment, start-of-record electrolysis time and electrolyzer temperature; Behind the electrolysis certain hour, the liquid level of water is lower than the setting liquid level of laser LLC in the sample bottle, and laser LLC pilot circuit 8 to the back-end sends the electrolytic signal of end, closes all power supplys, and electrolysis finishes.Through electrolyzer nesting port 2 sample in electrolyzer, sample bottle and the pipeline is discharged fully, record remaining liq volume or weight, the sample that electrolysis is accomplished and the scintillation solution of certain volume are mixed and made into the sample of liquid flashing counting.

Claims (10)

1. tritium electrolytic enrichment device in the water; It is characterized in that: comprise and be located in the heat sink and the reflux condensing tube (13), sample bottle (14) and the SPE electrolyzer (4) that are provided with from top to bottom; Also be included as the dc current stabilized power supply (7) of electrolyzer with electricity and the pilot circuit (8) of control electrolyzer power source and the start and stop of heat sink power supply; Negative (17) utmost point in just (5) of said SPE electrolyzer (4) connects the positive and negative electrode of dc current stabilized power supply (7); Oxygen of electrolyzer (6) and hydrogen (18) outlet are respectively through taking back stream prolong (13) behind the sample bottle (14); Distinguish ventilatory assistance and hydrogen vapor pipe (10,11) again to heat sink; This oxygen and hydrogen vapor pipe (10,11) also are the application of sample mouth simultaneously; Outlet is connected to the injection port of electrolyzer (4) respectively through pipeline with the sample bottle that is connected hydrogen (18) (14) in sample bottle (14) outlet that connects oxygen (6), also comprises laser transmitter and laser pickoff (16), be located at relatively connect oxygen (6) sample bottle export be connected one of two laterals that hydrogen (18) sample bottle exports in the pipe tunnel both sides; The pipe tunnel position that is between laser transmitter and the laser pickoff (16) is transparent, and this laser pickoff output liquid level signal is to pilot circuit.

2. the device that concentrates according to claim 1; It is characterized in that: sample bottle (14) outlet of said connection oxygen (6) is connected to the injection port (2) of being located at electrolyzer (4) bottom with the sample bottle that is connected hydrogen (18) (14) outlet through three-way pipeline; This injection port (2) also is a nesting port simultaneously, and this nesting port (2) is provided with drainage switch.

3. the device that concentrates according to claim 1 is characterized in that: said heat sink is refrigerator (9).

4. the device that concentrates according to claim 1; It is characterized in that: said heat sink comprises refrigerator (9) and places cooling bottle (15), recycle pump (19) and the water-cooled head (3) in the refrigerator (9); Said sample bottle (14) and reflux condensing tube (13) all place in the cooling bottle (15); There is quench liquid inlet (12) cooling bottle (15) upper end; Be full of quench liquid in the cooling bottle (15), cooling bottle (15) upper end is tightly connected with reflux condensing tube (13) upper end, and the lower end of reflux condensing tube (13) is connected with sample bottle (14) upper end; Sample bottle (14) lower end is tightly connected with cooling bottle (15) lower end; Cooling bottle (15) lower end has the import and export of quench liquid respectively, and said water-cooled head is located at electrolyzer, and the quench liquid of said cooling bottle (15) lower end is imported and exported, recycle pump (19) is communicated with into quench liquid circulation loop through the pipeline circulation successively with water-cooled head (3).

5. the device that concentrates according to claim 4 is characterized in that: said heat sink also comprises the wind-cooling heat dissipating case (20) that places on refrigerator (9) inwall, and this wind-cooling heat dissipating case (20) is located between recycle pump (19) and the water-cooled head (3).

6. the device that concentrates according to claim 5 is characterized in that: said water-cooled head (3) is provided with two, is located at the tow sides of electrolyzer (4) respectively.

7. the device that concentrates according to claim 4 is characterized in that: said water-cooled head (3) is provided with two, is located at the tow sides of electrolyzer (4) respectively.

8. according to each described device that concentrates of claim 1 to 7, it is characterized in that: said electrolyzer (4) is equipped with electronic thermometer probe (1), and this electronic thermometer probe (1) output temperature transducing signal is to pilot circuit (8).

9. according to each described device that concentrates of claim 1 to 7, it is characterized in that: said laser transmitter is located at the pipe tunnel both sides in the lateral that is connected the outlet of oxygen (6) sample bottle relatively with laser pickoff (16).

10. the device that concentrates according to claim 9 is characterized in that: said electrolyzer is equipped with electronic thermometer probe (1), and this electronic thermometer probe (1) output temperature transducing signal is to pilot circuit (8).