TH75239B - Methods and equipment for the feeding of plasma particles to liquids and their use in water disinfection. - Google Patents

Abstract

DC60 (26/10/55) This invention provides a method and equipment for plasma particle generation and feeding. Plasma particles to the liquid The liquid feed material (eg water and / or hydrocarbons mixed with biomass) is pumped through a pipeline. Then the single phase current is transformed. It is a two-stage liquid and gas stream within the channel. The transformation will be done by changing the state. Of the current from the high pressure zone to the low pressure zone The pressure may drop as the current passes through the device for Injecting the fuzzy liquid further inside the cavity, an electric field that exceeds the starting level of the Voltage breakdown of the two-phase medium In addition, the invention will provide an energy efficient, scalable and highly flexible method and aqueous disinfectant device using plasma particles to inhibit biologic agents. Additives in water The invention provides a method and equipment for plasma particle generation and feeding. Plasma particles to the liquid The liquid feed material (eg water and / or hydrocarbons mixed with biomass) is pumped through a pipeline. Then the single phase current is transformed. It is a two-stage liquid and gas stream within the channel. The transformation will be done by changing the state. Of the current from the high pressure zone to the low pressure zone The pressure may drop as the current passes through the device for Injecting the fuzzy liquid further inside the cavity, an electric field that exceeds the starting level of the Voltage breakdown of the two-phase medium In addition, the invention will provide an energy efficient, scalable and highly flexible method and aqueous disinfectant device using plasma particles to inhibit biologic agents. Additives in water

Claims (9)

Disclaimer (all) which will not appear on the advertisement page. : ------ 25/05/2018 ------ (OCR) Page 1 of 2 pages Disclaimer 1. Method of introducing plasma particles to liquid, including the procedure of: The inlet flow of the liquid enters the chamber through the spray nozzle, where the pressure of the liquid before the said nozzle ranges from 1 to 100 atmospheres, where the pressure Inside the chamber is below the vapor pressure of the liquid, where the pressure inside the chamber ranges from 0.1 to 0.8 atmosphere; Exposure to bi-cyclic mixtures with gas-generated components by evaporation Adiabadic form of part thereof and where there is a drop of such liquid aerosol Sediment within the said gas section Inside such a room; The ignition of the plasma state in the gas section. Of the two cycle mixtures in the room by applying an electric field Its voltage is very Exceeding the threshold of the breakdown voltage of a medium with two currents, where the electric field is It is generated by applying at least 10,000 volts of electric current to the set of electrodes placed within the substance. A mixture of two such sectors; Maintaining the aforementioned plasma state in the mixture by Electric current with voltages between 500 volts and 4,000 volts; And condensation mixtures with The above two cycles follow the said ignition and the preservation of the aforementioned plasma state. To obtain the outlet of liquid, where the pressure of the liquid in the outlet flows behind the chamber The above conditions are in the range of 0.5 atmosphere to 4 atmospheres 2. Method of claim 1, whereby the aforementioned procedure of passing such inlet flow of the liquid, which is incorporated by means of the flow of the solution Water containing biologically active substances 3. Method of claim No. 1, whereby the aforementioned procedure of passing the said inlet of the liquid, which is further compounded by compressing the said inlet of the liquid 4. Method of claim 1, where the aforementioned procedure of obtaining the said outflow of the liquid is supplemented by the cooling of such ejection current. Include steps of: obtaining current with Two water cycles, consisting of the aforementioned flux at the inlet of the reactor through a nebulizer, where the two-cycle stream containing the aerosols of the water suspended sediment within the water vapor create By adiabatic evaporation of the water part. Where such a reactor has a 2-page apparatus of 2 pages inside it for inserting an electric field; Ignition of the plasma state in such a two-cycle current Inside the reactor by applying at least 10,000 volts of electrical discharge to the available current. Two cycles through such an apparatus for inserting such an electric field; Maintaining the plasma state As mentioned, in the aforementioned two-phase currents by inserting a voltage between 500 volts and 4,000 volts; And condensation of the aforementioned two-cycle currents of water as a liquid phase. At the outlet of such reactors. ------------ Correction 28/02/2017 1. Method of feeding plasma particles to liquid consists of the following steps: obtaining first current. Of liquid Obtaining a two-phase mixture with a gaseous and liquid part from the first current Of the liquid by passing one of the aforementioned current into a channel with an enlarged volume that makes the pressure around One such stream has decreased. Ignition and stabilization of the plasma by ionization of the gas element. As a result of the aforementioned two-stage mixtures and the second-stage flow of the liquid by condensation of the two-stage mixture after 2. The method described in claim 1, where the first stream of the said liquid is composed of aqueous solution 3. The method is specified in claim 1, where Of the said liquid, including Liquid hydrocarbons 4. Method as stated in claim 1 whereby the procedure for obtaining the first current of the liquid Consists of modifications to the pressure, temperature, composition, or any combination of these of the currents that 5. Method as stated in claim 1 whereby the procedure for receiving the two-stage mixture In addition, the first flow of the aforementioned current through a device for injecting the first current is fuzzy 6. The method is specified in claim 5 where the device for the injecting procedure is included. With a diaphragm spray nozzle or a hydrodynamic transducer 7. Method as specified in claim 1, whereby the procedure for obtaining a second stream of the said liquid 8. The method is specified in claim 1, whereby the procedure for obtaining the second stream of the said liquid is added. In addition, at least one gas is separated from the mixture. 9. The device for the feeding of plasma particles to quench the liquid includes: a mechanism for the raw material input process for the import of raw materials, the liquid phase. The atomization apparatus incorporates a reactor for the creation of two-cycle mixtures. Sectors from the raw materials used to feed the liquid phase processes. The size of the reactor has to be The manner in which the ingress of liquids causes the liquid to expand within the reactor, where the two-cycle mixtures are made up of a microstructured liquid and gas portions and a reactor with electrodes. For ignition and to maintain the plasma state by making The ionized portion of the gaseous portion of the aforementioned two-stage mixtures 1 0. The device is specified in claim 9 where the mechanism for importing the raw materials used to feed the process is assembled. Additional with at least one pump and at least one high-pressure hose. 1 1. Equipment as described in claim 9 where the aerosol atomizer is additionally equipped with a diaphragm spray nozzle or a nozzle. Hydrodynamic transducers 1 2. The equipment is described in claim 9, where the reactor is equipped with a number of detectors. Pressure and temperature measurement device 1 3. The device is described in claim 9 where the reactor is additionally equipped with a pipeline for Separation of at least one by-product from the reactor 1 4. The equipment is described in claim 9 where the reactor is equipped with an additional spray nozzle. For the addition of one or more compounds directly into the reactor 1 5. The device is described in claim 9 where the electrode is supplemented by a generating mechanism. High-frequency electric fields 1 6. The equipment described in claim 9 is supplemented with a liquid condenser for This causes the two-stage mixture to revert to the liquid state after being The aforementioned plasma plasmas 1. 7. As stated in claim 16, the condenser is supplemented by a refrigeration apparatus 1 8. Use of the methods described in claim 1 for water treatment 1 9. Feeding method. The plasma particles to the liquid are composed of the following steps: delivering an inlet stream of liquid into the chamber through a spray nozzle that injects the liquid with the pressure of the liquid before the spray nozzle. In the range of 1 to 100 atmospheres with the pressure Inside the chamber is lower than the vapor pressure of the said liquid. Two-stage exposure of a mixture containing a gas component inside the chamber, which is created by Adiabatic evaporation of a part of the liquid and containing fine droplets of the liquid Suspended within the gas section Where the two-phase mixture has a sudden breakdown voltage, the electric field is fed into the gaseous portion of the two-phase mixture. A set of electrodes placed in such a room where the field voltage exceeds the level. Start of replacement of voltage, sudden breakdown of the two-phase medium. Which caused the ignition to state that It is the plasma in that gas. Maintaining such a plasma state in the mixture by feeding an electric current with Undervoltages begin to change of voltage, a sudden breakage and condensation of the two-stage mixture after the ignition and treatment of the state. 2 0. The method is described in Clause 19, provided that the aforementioned procedure of the aforementioned inrush of The liquid consists in addition to the transmission of aqueous solutions containing biological substances. 2 1. Method as stated in claim 19, whereby the aforementioned procedure of the aforementioned inlet flow of The liquid composes of such inlet flow of the liquid. 2 2. Method as stated in Clause 19, whereby such procedure of obtaining the said outflow of The liquid is supplemented by cooling the water discharge stream. 2 3. Methods for treating water that include the following steps: a two-stage flow of water combined with water feed. As mentioned at the entrance of Reactor through atomization apparatus Where the two-cycle currents, which contain small droplets The water is suspended in the water vapor created by the adiabatic evaporation of that part of the water. Where such two-phase currents have an inertia of voltage, sudden breakdowns, and whereby the reactor includes the mechanism inside the reactor for electric field entry. Ignition of the plasma state in such a two-phase current inside the reactor. Such by the input of an excess of charge, the start of a sudden breakdown voltage. To the aforementioned two-phase current through the mechanism for entering the said electric field Maintaining the aforementioned plasma state in such a two-phase current by feeding An electric current with below-level voltage, a sudden breakdown of voltage, and a two-stage condensation of such water into a liquid phase at the outlet. Of the said reactor -------------------------- 1. Method of supplying plasma to liquid Which consists of the following steps Obtaining the first liquid stream; Two-phase exposure of a mixture with a gas and liquid part from a stream of One such liquid; The ignition of the plasma in the gaseous portion of the two-stage mixture; And obtaining a second liquid stream by condensing the aforementioned mixtures from The ignition of such a plasma state 2. Method as stated in claim 1 where the procedure for obtaining the first liquid stream It also consists of obtaining the flow of aqueous solution 3. Method as stated in claim 1, whereby the procedure for obtaining the first stream of liquid The hydrocarbon flow is also composed of 4. Method as stated in claim 1, whereby the procedure for obtaining the first liquid hydrocarbons. It also consists of compressing the first liquid stream. 5. Method as stated in claim 1, whereby the procedure for obtaining the first liquid stream It also consists of heating the first liquid stream 6. The method described in claim 5 also consists of heating the first liquid stream.7. Method as stated in claim 1 by At the procedure for obtaining one such stream of liquid It also consists of delivering the first flow through a spray nozzle 8. Method as stated in claim 1 where the procedure for obtaining the first liquid stream It also consists of the transmission of the first current through a device for injecting the first flow of the fuzz 9. The method is specified in claim 1 whereby the procedure for obtaining the first flow of the liquid. It also consists of a flow of one such current into an enlarged chamber which causes the pressure around the current. The first one is reduced by 1 0. The method is stated in claim 1, whereby the procedure for obtaining the first liquid stream. It also consists of feeding a high voltage current to a set of electrodes positioned within the form mixture. The above two phases 1 1. The method described in claim 10 also includes the maintenance of the aforementioned plasma status in the mixture 1 2. The method is stated in claim 1 where the procedure Obtaining one such stream of liquid It also consists of cooling the aforementioned second stream. 1 3. Method as stated in claim 1 whereby the procedure for obtaining the first liquid stream It also consists of separating one or more gases from the mixture. 1 4. A device for feeding plasma particles to liquids. It contains the following components: a mechanism for importing raw materials used to feed the process; A atomizer for the creation of two-stage mixtures from process feed ingredients. Liquid cycle Where the two-stage mixtures are in the form of small droplets and The gas part; A reactor with a pair of electrodes; And a liquid condenser to return the two-stage mixture to a liquid state. 1 5. The equipment is stated in claim 14 whereby the mechanism for importing the raw materials used to feed the process is not allowed. It also consists of at least one pump and at least one high-pressure hose. 1 6. The equipment specified in Clause 14, the aerosol dispenser also contains a spray nozzle. Clause 14 The aerosol apparatus also contains a diaphragm 1 8. The device is described in Clause 14, provided that the aerosol device also contains: Hydrodynamic transducers 1 9. The device is described in claim 14 where the reactor also contains an emergency valve 2.0. The equipment is described in claim 14, where the reactor also contains an emergency valve. 2 1. The equipment as described in claim 14, the reactor also contains several detectors. One for measuring pressure and temperature 2 2. The equipment specified in claim 14, provided that the reactor also includes a pipeline for Separation of at least one by-product gas from the reactor 2 3. Equipment as stated in claim 14 provided that the reactor is also equipped with a spray nozzle. For adding at least one compound directly into a reactor 2 4. The device as stated in claim 14, provided that the electrode is still connected to the field building mechanism. 2 high frequency power 5. Equipment as stated in claim 14, provided that the electrode also consists of a field building mechanism. 2 higher frequency power 6. The equipment as described in claim 14, provided that the reactor also consists of a microwave generator mechanism 2. 7. Equipment as stated in claim 14, provided that the condenser also consists of a chiller 2. 8. Methods for eliminating infection in water. Which consists of the following steps: Two phases of receiving water currents Which consists of entering such water at the inlet of the machine Reactor through the atomization apparatus Where the reactor has a discharge feed mechanism; Ignition of the plasma state in such a two-phase current inside the reactor. By entering such a discharge; And the condensation of the aforementioned two-phase streams into a liquid phase at the outlet of the machine Such reactor 2 9. A device that uses solar energy for disinfection in water. It contains the following components: a mechanism that receives solar energy and converts such solar energy into electrical energy; Such a storage mechanism; And a water treatment mechanism that is powered by such electrical energy It also consists of: The spray mechanism is used to create a two-stage mixture containing parts of the Liquefied and gaseous parts; The mechanism for feeding the plasma state of the two-stage mixture; And the mechanism for condensing the mixture into a liquid state