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86results about "Heavy water" patented technology

Preparation of deuterium-depleted water, and application thereof

The invention relates to an apparatus system, wherein water electrolysis, hydrogen-oxygen recombination and a rectification technology are combined into the integration by the apparatus system, and deuterium-containing water in purified water and protium-containing water in purified water are separated by using the apparatus system. With adopting the apparatus system, the main protium-containing water can be effectively separated from the purified water, and the deuterium-containing water content in the purified water can be reduced to less than 100 ppm from 150 ppm after the separation. According to the present invention, the prepared deuterium-depleted water can be adopted for preparation of deuterium-depleted water wine, deuterium-depleted water beverages, deuterium-depleted water cosmetics and deuterium-depleted water physiological saline.
Owner:廖文加 +1

Method for preparing [F-18-]fluoride ion

The present invention provides a method for preparing [F-18]-fluoride ion which comprises the step of bringing [O-18]-enriched water containing [F-18]-fluoride ion formed by proton irradiation of [O-18]-enriched water into contact with a strongly acidic cation exchange resin to remove impurity cations, the step of then bringing the [O-18]-enriched water containing [F-18]-fluoride ion treated above into contact with a weakly basic anion exchange resin to make [F-18]-fluoride ion adsorbed to the resin and, along therewith, to recover the [O-18]-enriched water which has passed through the resin, and the step of eluting and collecting the [F-18]-fluoride ion adsorbed to the weakly basic anion exchange resin. According to the method for preparing [F-18]-fluoride ion of the present invention, [F-18]-fluoride ion can be collected at a high collection efficiency even from a larger amount (about 2 ml or more) of [O-18]-enriched water containing [F-18]-fluoride ion than the amount in prior method, and moreover expensive [O-18]-enriched water can be recovered and reused in the preparation of [F-18]-fluoride ion.
Owner:NIHON MEDI PHYSICS CO LTD

System and method for separating heavy isotopes of hydrogen oxide from water

An apparatus and method for separating heavy isotopes of hydrogen from contaminated water. The apparatus includes a treatment chamber with an elongated hollow core fiber (HCF) extending within the chamber. A reservoir holds contaminated water mixed with beads formed of an exchange resin, the mixture of contaminated water and beads forming a flowable slurry. The slurry is continuously circulated through the hollow core fiber and the reservoir preferably by a pulsating peristaltic pump. The beads absorb a portion of the heavy isotopes from the slurry by exchange with waters of hydration of the beads while the hollow core fiber allows permeation of only light water from said slurry outwardly through the HCF wall as a permeate.
Owner:PATTERSON LEGACY

Advanced Tritium System and Advanced Permeation System for Separation of Tritium from Radioactive Wastes and Reactor Water

Systems, methods, and apparatuses for separating tritium from radioactive waste materials and the water from nuclear reactors. Some embodiments involve the reaction of tritiated hydrogen gases with water in the presence of a catalyst in a catalytic exchange column, yielding a more concentrated and purified tritiated water product. Some embodiments involve the use of a permeation module, similar in some respects to a gas chromatography column, in which a palladium permeation layer is used to separate tritiated hydrogen gas from a mixture of gases.
Owner:KURION INC

Preparation method and zpplication of super light water

ActiveCN101117210APromote growthStopped or even reduced in numberHeavy waterCooling towerGas phase
The invention relates to the water treatment technical field, in particular to a preparing method and application of an ultra light water, wherein sulfureted hydrogen two-temperature exchange method or other alternative methods are adopted to produce ultra light water; sulfureted hydrogen two-temperature exchange method realizes separation of hydrogen isotopes through adopting multistage concatenation of cooling tower and thermal tower by use of isotope exchange reaction between sulfureted hydrogen and water; liquid raw material water enters from the top of the cooling tower and flows through the cooling tower and the thermal tower from above to below, while gas material sulfureted hydrogen is added from the part between the cooling tower and the thermal tower and circulates inside the cooling tower and the thermal tower from bottom to top inside; heavy components inside the cooling tower is transferred towards liquid phase through chemical exchange so as to be concentrated inside the liquid phase; liquid material with concentrated the heavy components completes chemical exchange with ascending gas during flowing through the thermal tower, thereby, the heavy components are transferred towards gas phase; finally, finished product with lower content of heavy hydrogen can be obtained after liquid phase material discharged from the thermal tower enters into a degassing column to removing sulfureted hydrogen. The invention has the health effects such as delaying aging, radiation resisting, resisting cell mutation, activating immunocyte, improving basal metabolism level of human body, improving sleep, enhancing physical function of male, beauty and body slimming.
Owner:丛峰松 +1

Electrolytic enrichment method for heavy water

ActiveUS20160368789A1Effectively enrichedEffectively fractionatedElectrolysis componentsIsotope separationElectrolytic agentAlkaline water
An electrolytic enrichment method for heavy water includes enriching heavy water by electrolysis using an alkaline water electrolysis cell including an anode chamber that holds an anode, a cathode chamber that holds a cathode, and a diaphragm. In the method, an electrolyte prepared by adding high-concentration alkaline water to raw material water containing heavy water is circularly supplied to the anode chamber and the cathode chamber from a circulation tank; an anode-side gas-liquid separator and an anode-side water-seal device are connected to the anode chamber, and a cathode-side gas-liquid separator and a cathode-side water-seal device are connected to the cathode chamber; and electrolysis is continued while the alkali concentration in the electrolyte supplied to both electrolysis chambers is maintained at a constant concentration by circularly supplying, to the circulation tank, the electrolyte from which the gas generated from the anode-side gas-liquid separator and the cathode-side gas-liquid separator is separated.
Owner:IND DE NORA SPA

Heat Driven Concentrator With Alternate Condensers

A device and method for concentrating contaminants in a solution comprising contaminated sorbate and clean sorbate wherein the contaminated sorbate freezes at a higher temperature than the clean sorbate. By maintaining the solution at a temperature between the freezing point of the contaminated sorbate and the freezing point of the clean sorbate, the clean sorbate may be evaporated off for processing through a sorbent / sorbate working pair adsorption / desorption cycle. Sensors in the adsorption chamber monitors for the presence of contaminated sorbate vapor. Sensors in the evaporator chamber monitor the temperature of the solution and partial pressure within the evaporator chamber. If contaminated sorbate vapor is detected in the adsorption chamber, or the temperature of the solution rises above the freezing point of the contaminated sorbate, or the partial pressure of the evaporator chamber deviates from the acceptable range of partial pressures, then during desorption, the sorbate vapor is directed to a contaminated condenser for recycling back to the solution. If contaminated sorbate vapor is not detected in the adsorption chamber, and the temperature of the solution did not rise above the freezing point of the contaminated sorbate, and the partial pressure of the evaporator chamber did not deviate from the acceptable range of partial pressures, then during desorption, the sorbate vapor is directed to a clean condenser where it is condensed and removed from the concentrator.
Owner:INDAL IDEA PARTNERS

Simultaneous upgrading and tritium removal process of heavy water

The invention discloses a simultaneous upgrading and tritium removal process of heavy water, and belongs to the technical fields of heavy water upgrading and tritium removal. The simultaneous upgrading and tritium removal process of heavy water uses Pt / C / PTFE or Pt-SDB as a catalyst, and employs D2 to conduct isotope exchange with HDO and DTO in heavy water. The process provided by the invention avoids disadvantages of two separate devices in the traditional process for protium and tritium removal in heavy water, achieves simultaneous removal of protium and tritium, effectively reduces production cost and risks in the treatment process; in addition, by identifying key process parameters, the reaction effect of the upgrading and tritium removal process is ensured, effect of each treatment process is improved, and the economic performance of the whole process is improved.
Owner:INST OF NUCLEAR PHYSICS & CHEM CHINA ACADEMY OF

Distributed pre-enrichment method and apparatus for production of heavy water

The present invention provides a process whereby pre-enrichment of water streams using a hydrogen source and a catalytic isotope exchange method at one or more remote sites to supply water with augmented deuterium concentration to a central heavy water. This central heavy water plant could be a Combined Electrolysis and Catalytic Exchange (“CECE”) heavy water production plant or a Girdler Sulfide heavy water plant. The deuterium content of water at the remote sites is increased and provides water stream(s) with augmented deuterium concentration to feed to the central heavy water production plant. This could be a first stage of the central CECE deuterium enrichment plant, increasing its capacity for heavy water production approximately in the ratio of its enrichment above natural deuterium concentrations. By relatively simple utilization of available deuterium enrichment capacity at the remote sites, advantages are achieved from a larger scale of heavy water production at the central production plant. The invention further provides systems and methods for adapting chlorate and chlorine dioxide systems which produce hydrogen to additionally produce deuterium-enriched water.
Owner:ISOWATER CORP

Apparatus, method for enrichment of the heavy isotopes of oxygen and production method for heavy oxygen water

An apparatus comprising first to third columns, wherein the outlet of a first column reboiler and the inlet of a second column condenser are connected by a first introduction conduit, and the outlet of a second distillation column reboiler and the inlet of a third column condenser are connected by a second introduction conduit, and additionally the outlet of the second column condenser and the inlet of the first column reboiler are connected by a first return conduit, and the outlet of the third column condenser and the inlet of the second column reboiler are connected by a second return conduit.
Owner:NIPPON SANSO CORP

Membrane cleaning and desalination with a membrane using acoustic pressure shock waves

Acoustic pressure shock waves are applied to a membrane in a fluid to prevent attachment of or dislodge biological or solid matter for membrane cleaning or desalination with a membrane.
Owner:SANUWAVE INC

Method for producing doubly labelled water by water distillation and distillation equipment for enrichment production of doubly labelled water

The invention relates to a production method and a production device of chemical products, in particular to the production method of doubly labeled water consisting of deuterium and heavy oxygen O<18> enriched by a water reification method as well as a water rectification device thereof. The rectification device provided by the invention consists of a rectification tower in multilevel series or in multilevel and parallel series; each level of the rectification tower are connected in phase transition way; the connection way is to transport the steam in tower bottom to the top of the lower tower by using pressure difference and the steam is condensed to be liquid phase to enter lower level tower; ascending steam of the lower tower top is condensed to be liquid phase and then flows into higher level tower top automatically. In the invention, as a reboiler at the tower bottom adopts falling film evaporation, the tower bottom is dry all the time without the retention of liquid to greatly save the balancing time. On the other hand, as no rotating parts such as a pump, etc. is adopted, the possible troubles caused by leakage, power failure, mechanical fault, etc. can be avoided to ensure constant and reliable operation of the system, which is important for isotope separation.
Owner:JIANGSU HUAYI TECH

Process for recovery of water isotopologues from impure water

InactiveUS20100021372A1Simpler and effective processEfficient strippingIsotope separationHeavy waterImpurityChemistry
Disclosed is a process and a system for recovery of isotopologues of water from an aqueous liquid stream containing dissolved impurities.
Owner:GE HEALTHCARE LTD

Systems and methods for separating heavy water from normal water using acoustic pressure shock waves

ActiveUS20170066663A1Enhancing of acoustic pressure shock wave effectImprove desalination efficiencyGeneral water supply conservationSeawater treatmentWater useShock wave
A method of separating heavy water from normal through application of acoustic pressure shock waves to a fluid including heavy water and normal water and recovering separated normal water.
Owner:SANUWAVE INC

Method and device for producing heavy water by utilizing solar energy

The invention relates to a method and equipment for producing heavy water by utilizing solar energy. The equipment consists of (N+1) containers which efficiently absorb sunlight, a steam collector and a heavy water collector. The method comprises the following steps that (N+1) level of distillation on natural water is carried out by using solar energy, wherein common water of the Nth level flows into the (N+1)th level, and steam formed by radiation and evaporation of sunlight of water in the (N+1)th level is guided to water of the Nth level; steam is collected in the first level, light water is condensed, and water in the (N+1)th level is collected to obtain high purity heavy water. The method and the device provided by the invention have the advantages that the equipment of extracting heavy water has the characteristics of simple structure, convenient construction and low cost; as heavy water is extracted by directly using solar energy, emission of carbon dioxide is reduced while the cost is saved.
Owner:魏捷 +1

Catalyst for catalytic oxidation of gaseous hydrogen tritide, and preparation method and application of catalyst

The invention discloses a catalyst for the catalytic oxidation of gaseous hydrogen tritide. The catalyst is obtained mainly by supporting platinum oxide by adopting the oxide of transition metal as a carrier, wherein the transition metal is Al, Ti, Mn, Co, Fe, Cu and Ni. Air serving as the catalyst is carried into a reactor to convert elementary tritium in the hydrogen tritide into water. The catalyst is subjected to hydrophobic modification, and is high in activity, long in service life and particularly applied to the catalytic oxidation recovery of tritium in the hydrogen tritide.
Owner:EAST CHINA UNIV OF SCI & TECH

In situ apparatus and method for providing deuterium oxide or tritium oxide in an industrial apparatus or method

An electrochemical hydrogen isotope recycling apparatus for recycling an isotope of hydrogen includes an electrochemical recycling unit, the unit comprising: an anode; a cathode; and an isotope-treated, proton exchange membrane operatively disposed between the anode and cathode, the isotope-treated, proton exchange membrane having heavy water containing the isotope of hydrogen therein, the device configured to receive a feedstream containing the isotope of hydrogen. A process by which high purity hydrogen isotope products are produced using an electrochemical membrane process in which all conventional water containing components are pre-processed using a heavy water containing the isotope of hydrogen.An industrial apparatus 10 and / or method, such as an electrochemical hydrogen isotope recycling apparatus and / or method, includes an apparatus 49 and / or process by which gaseous D2 is recovered in a reactor 3 from a gas stream via a reaction in the reactor with another molecule to form a useful chemical compound containing D.
Owner:SKYRE INC

Apparatus and method for concentrating hydrogen isotopes

An electrochemical hydrogen isotope concentrating apparatus is disclosed. The apparatus includes an inlet stream of the hydrogen isotope to be concentrated. The apparatus also includes an electrochemical cell that includes a hydron exchange membrane containing hydrons of the hydrogen isotope, an anode on a first side of the hydron exchange membrane in fluid communication with the inlet stream, a cathode on a second side of the hydron exchange membrane, and an electrical circuit connection between the anode and the cathode. The apparatus further includes two outlet streams: a first outlet stream of the hydrogen isotope in fluid communication with the cathode, and a second outlet stream depleted of the hydrogen isotope in fluid communication with the anode.
Owner:SKYRE INC

Composite catalyst based on conjugated microporous polymer, and preparation method and application thereof

The invention relates to a composite catalyst based on a conjugated microporous polymer, and a preparation method and an application thereof. The preparation method comprises the following steps: acidifying an inert carrier, and then reacting the acidified inert carrier with a silane coupling agent to obtain a carrier having an amino group-modified surface; reacting the carrier having the amino group-modified surface with halogenated benzaldehyde to obtain a halogenated carrier; carrying out a coupling reaction on the halogenated carrier, a first monomer and a second monomer under the action of a catalyst to obtain a conjugated microporous polymer-modified carrier; and contacting the conjugated microporous polymer-modified carrier with an organic solution of a noble metal salt, and carrying out a hydrogen reduction reaction to obtain the composite catalyst based on the conjugated microporous polymer. The conjugated microporous polymer with high radiation resistance and high hydrophobicity is loaded on the surface of the inert carrier to form a matrix for loading the noble metal in order to improve the catalytic performance and the restart performance of the noble metal catalyst, and the composite catalyst is used for catalytic oxidation of hydrogen and its isotopes.
Owner:SUZHOU UNIV

Using Heavy Water as a Contrast Agent for Hydrogen Magnetic Resonance Imaging

InactiveUS20130142724A1Generated image contrastLow densityNMR/MRI constrast preparationsHeavy waterHydrogen–deuterium exchangeImaging agent
An imaging contrast agent is provided for hydrogen magnetic resonance imaging (H MRI). The agent uses replacement and chemical exchange of hydrogen (H) and deuterium (D) on obtaining MRI images for comparison. An isotonic physiologic saline solution with deuterium oxide (D2O) is made. The solution is intravenously injected to obtain the intensity alterations on MRI images. The injected D2O is perfused into tissue and replace the original water. Exchanges between H and D occur and a solution of hydrogen deuterium oxide (HDO) is obtained. After such mechanisms, MRI images are compared for differences. Thus, a novel, non-radioactive, non-toxic and non-invasive MRI agent is provided for people who are allergic to general imaging agents.
Owner:NATIONAL TSING HUA UNIVERSITY

Tritiated water preparation apparatus and method

The invention relates to a tritiated water preparation apparatus and method, and belongs to the field of tritiated water preparation. The tritiated water preparation apparatus comprises a tritium storage metal tank, a first gas mass flow controller, an oxygen bottle, a second gas mass flow controller, a tritium and oxygen composite catalytic reactor, a cold trap, a tail gas collecting tank and a vacuum pump, the tritium storage metal tank communicates with the first gas mass flow controller, the oxygen bottle communicates with the second gas mass flow controller, the first gas mass flow controller and the second gas mass flow controller respectively communicate with the tritium and oxygen composite catalytic reactor, the tritium and oxygen composite catalytic reactor communicates with the cold trap, and the tail gas collecting tank and the vacuum pump respectively communicate with the cold trap. The tritiated water preparation method comprises working steps of the apparatus. The tritiated water preparation apparatus and the tritiated water preparation method realize rapid compounding of tritium and oxygen, recycling of tail gas tritium and obtaining of highly pure tritiated water, and have the characteristics of high preparation efficiency, low cost and high safety.
Owner:MATERIAL INST OF CHINA ACADEMY OF ENG PHYSICS

System and method for preparing deuterium-depleted water and deuterium-rich water by separating natural water

The invention discloses a system for preparing deuterium-depleted water and deuterium-rich water by separating natural water. A core of the system is provided with a closed loop, a plurality of separation columns are sequentially connected in an end-to-end manner to form the closed loop, the system further comprises a raw material water storage tank, a deuterium-rich water storage tank, a deuterium-depleted water storage tank, a metering pump, a carburetor, pipelines and valves, and the pipelines and the valves are connected with the devices. According to the system, separation is implementedby the aid of moving bed simulation principles, raw material water vapor circularly moves in the closed loop formed by the separation columns through sequentially heating and cooling of the separationcolumns and control of a one-way valve, a constantly increased deuterium concentration gradient is acquired along with increase of cycle number, the deuterium-rich water is extracted from the top ofthe separation column at the near end of a heating loop, and the deuterium-depleted water is extracted from the bottom of the separation column at the far end of the heating loop after certain times of heating and cooling circulation of the separation columns are implemented. The system is simple in structure, convenient to control, smaller in device size and lower in construction cost, fillers are low in cost, and the natural water can be directly separated by the aid of a semi-continuous mode to prepare the deuterium-depleted water and the deuterium-rich water.
Owner:MATERIAL INST OF CHINA ACADEMY OF ENG PHYSICS

Method for producing O18 water and deuterium deficient water

The invention relates to a method for simultaneously producing oxygen 18 water and poor deuterium oxide, which adopts a cascade distillation tower with 3600 pieces of tower tray levels to distill natural water, wherein, raw water is fed in the 39th-80th tower tray level (being counted from top to bottom), the feed rate is 20-80kg / h, an operating parameter is seen in table 1, the poor deuterium oxide produced on the tower top has a deuterium content of no higher than 50ppm, and the oxygen 18 water produced at the tower bottom has a oxygen 18 content of no less than 97.36 percent. The method of the invention utilizes a device used for producing the oxygen 18, which not only produces the oxygen 18 water without reducing yield, but also simultaneously produces the poor deuterium oxide with a yield of 120kg / h, thus greatly improving economic benefits.
Owner:JIANGSU HUAYI TECH

Extracting and zero-discharging method of seawater bittern multi-elements

The invention relates to an extracting and zero-discharging method of seawater bittern multi-elements. With the method, zero-discharging of seawater bittern can be realized, such that surrounding marine area ecological balance can be protected, and marine pollution can be avoided. Because economic benefits brought by traditional bittern utilization technologies are poor, the utilization rate of bittern is lower than 20%, and all of the rest of bittern is discharged into the sea. If the situation continues, marine environment will be polluted, and a variety of fishes will become extinct. With the method provided by the invention, energy can be saved with a high efficiency, cost can be saved, the bittern resource can be fully utilized, zero-discharging can be realized, bittern can be prevented from polluting the marine environment, and future sea salt production pressures on enterprises can be alleviated.
Owner:莱州诚源盐化有限公司

Platinum-charcoal/rare earth oxide composite-phase hydrophobic catalyst, and preparation method and application thereof

The invention discloses a platinum-charcoal/rare earth oxide composite-phase hydrophobic catalyst, and a preparation method and application thereof, and aims to solve the problem of low active metal utilization rate in the prior art. The platinum charcoal/rare earth oxide composite phase hydrophobic catalyst is characterized in that platinum charcoal is taken as a catalytic active component, a rare earth oxide is taken as a catalytic assistant, polytetrafluoroethylene is taken as a bonding agent and a hydrophobic medium, and metal fiber mat is taken as a support carrier; the platinum-charcoalcontains 0.1 to 20 percent by weight of platinum; the weight ratio of the addition amount of the rare earth oxide to the platinum charcoal is 1 : (1 to 10); the weight ratio of the platinum-charcoal/rare earth oxide composite-phase to the polytetrafluoroethylene is 1 : (1 to 4); in case that the mass of the catalyst is 100 percent, the content of the metal fiber mat is 30 to 70 percent by weight.The platinum-charcoal/rare earth oxide composite-phase hydrophobic catalyst has the advantages of scientific design and simple method, and the catalyst has superior catalyzing performance.
Owner:MATERIAL INST OF CHINA ACADEMY OF ENG PHYSICS

Wetproofed catalysts for hydrogen isotope exchange

A method to catalyze hydrogen isotope exchange between water and hydrogen in which the water and hydrogen are contacted with a wetproofed catalyst, the catalyst having a hydrophobic porous matrix which has dispersed therein catalytically active platinum and at least one other metal which is chromium or titanium.
Owner:ATOMIC ENERGY OF CANADA LIMITED +1

Method for producing deuterium depleted water, method for separating heavy water and light water, and method for producing deuterium concentrated water

Utilizing the fact that a predetermined adsorbent adsorbs light water at an initial desorption rate higher than heavy water and semi-heavy water, deuterium depleted water having a reduced concentration of heavy water and semi-heavy water is produced easily and in a short time.A method for producing deuterium depleted water by removing heavy water and semi-heavy water from water, the method including: a desorption process in which a relative pressure around a predetermined adsorbent with adsorbed water vapor is reduced, and in which water vapor desorbed from the adsorbent is recovered during a period of time when a desorption rate of light water>a desorption rate of the heavy water and semi-heavy water.
Owner:SHINSHU UNIVERSITY +1
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