82 results about "Carbonic acid gas" patented technology

To provide a beverage dispenser capable of appropriately and smoothly supplying a carbonated beverage as a supercooled beverage. According to the present invention, there is disclosed a beverage dispenser including a carbonator 51 for manufacturing carbonated water; a beverage supply circuit 7 for supplying a carbonated beverage manufactured by the carbonator 51 to the outside; a heat exchanger 16 for supercooling; and a primary cooling device 13, the carbonator 51 mixes a carbonic acid gas supplied from a gas regulator 54 which supplies a pressurized carbonic acid gas, syrup and diluting water to manufacture the carbonated beverage, and the heat exchanger 16 for supercooling cools the carbonated beverage flowing through the beverage supply circuit 7 into a supercooled state at a temperature of a solidifying point or less to release the supercooled state in the outside.

Apparatus and methods deliver vasoconstrictive agents simultaneously with capnic gases. The capnic gases can enhance the effectiveness of the vasoconstrictive agent, lower the dosage of drug or concentration of agent necessary to achieve a therapeutic result, or both. Exemplary capnic gases include carbon dioxide, nitric oxide, nitrous oxide, and dilute acid gases.

Disclosed are an automatic cocktail machine and an automatic cocktail making method. Water, a carbonic acid gas cylinder and a plurality of cocktail materials are inputted. After a user's cocktail request is received, the cocktail request is compared with a list to determine the requested cocktail and read the cocktail recipe correspondingly. A bartending module is provided for adjusting and mixing water and the carbonic acid gas according to the cocktail recipe to form a carbonated water, and adjusted to a recipe temperature. An output module is provided for mixing an appropriate quantity of cocktail materials with the carbonic acid gas cylinder to output the cocktail. With this simple and convenient automatic cocktail machine, the users can get various cocktails quickly and enjoy different delicious cocktails.

The invention provides a carbonic acid gas-containing foaming liquid dairy product and a method for producing the same, wherein the foaming liquid dairy product contains 0.15 to 1 percent of lactoprotein and 1.5 to 3.5 percent of grease substances, and each kilogram of the foaming liquid dairy product contains 0.5 to 1 grams of CO2 gas. The selected raw materials are mixed in a ratio to obtain mixed concentrated solution, and the concentrated solution is sterilized and then mixed with CO2-containing acid liquor to form the carbonic acid gas-containing foaming liquid dairy product, and the product has good foam forming property and persistent foaming property and can be preserved for 6 months.

The invention relates to a device used for indirectly burning biomass to separate carbon dioxide and a method which is a burning way of the biomass and a biomass burning process based on a cycle oxygen carrier. The device consists of a circulating fluidized bed, a cyclone separator and a fluidized bed, which is formed into a circulation loop; the method is characterized in that oxidation reaction happens to metal and air in the circulating fluidized bed to generate a metallic oxide which enters the fluidized bed after being separated by the cyclone separator; gasification reaction happens to the biomass in the fluidized bed and the carbon dioxide or water vapour; reduction reaction happens to fuel gas generated from the gasification reaction and the metal oxide to generate the metal, the carbon dioxide and the water vapour, wherein, the carbon dioxide and the water vapour are discharged from an air outlet of the fluidized bed and condensed to obtain pure carbon dioxide and the metal reduced returns to the circulating fluidized bed for carrying out oxidation reaction with the air to complete the regeneration process of the metallic oxide. The carbon dioxide can be separated from combustion products without extra energy consumption.

A manufacturing apparatus for a PDP includes a unit for forming a protective layer protecting a dielectric layer on a first plate, a unit for baking a phosphor layer applied on a second plate, a unit for sealing the first and second plates arranged so that the protective layer faces the phosphor layer, and a unit for baking the first and second plates while exhausting a space between them. The four units are placed in one or more closed chamber. When the apparatus is driven, spaces in and between the closed chambers each contain a gas atmosphere with vapor partial pressure of 10 mPa or lower, or with a pressure of 1 Pa or lower, where the protective layer and the phosphor layer exhibit less water-absorbing property, preventing degradation of the PDP performances. The protective layer does not contact with atmospheric carbonic acid gas, preventing alteration thereof.

The invention involves a refrigerator, the invention include filters for the water supply from outside sources into the refrigerator to internal water filter; its water supply source connected with the side of a supply pipe connection, connect the other side of the supply section 2; the adoption of two suppliers of water, and cooling water storage tanks; can be used to connect users from drinking water from the water dispenser and the water supply of 5; also include the provision in section 5 of supply, and water tanks nearby location, the additives used to add to flow through No. 5 in the water supply of the additive me. The rear tank additives me set up, the outflow of water distributor to add additives, can be provided to users of different flavor of drinking water; carbonate gas additive is to be set up by the additive me from the cold water, improve the solubility of the additive.

A method for processing a fish of red flesh includes a packing step of cutting a fish in such a shape as would fit immediate use by consumers, piling the cut fish orderly on a tray and stowing the cut fish on the tray into a pack, a vacuumizing step of filling the pack during the packing step with a vacuum atmosphere, a gas-filling step of filling the pack immediately after completion of the vacuumizing step with a mixed gas of carbonic acid gas and oxygen gas without exposing the interior of the pack to the ambient air, thereby exposing the fish to the mixed gas, a pack-sealing step of tightly closing the pack filled with the carabonic acid and the oxygen gas, and a freezing step of quickly freezing the fish contained in the pack and transforming the fish into a frozen fish.

The problem to be solved is the provision of a high-strength stainless steel pipe having a sufficient corrosion resistance in a high-temperature carbonic acid gas environment and having an excellent sulfide stress cracking resistance at normal temperature.

A high-strength stainless steel pipe consist of by mass %, C: 0.05% or less, Si: 1.0% or less, P: 0.05% or less, S: less than 0.002%, Cr: more than 16% and 18% or less, Mo: more than 2% and 3% or less, Cu: 1% to 3.5%, Ni: 3% or more and less than 5%, Al: 0.001% to 0.1% and O: 0.01% or less, Mn: 1% or less and N: 0.05% or less, and Mn and N in the above ranges satisfy formula (1), and the balance being Fe and impurities; and the metal micro-structure of the stainless steel pipe mainly includes a martensitic phase and comprises 10 to 40% of a ferritic phase by volume fraction and 10% or less of a retained γ-phase by volume fraction.

[Mn]×([N]−0.0045)≦0.001  (1)

wherein the symbols of elements in formula (1) respectively represent the contents (unit: mass %) of the elements in the steel.

The invention relates to a preparation method of lithium carbonate. The method comprises the following steps: mixing ammonia and carbon dioxide gas (carbonic acid gas) with a water solution containing lithium chloride to carry out carbonation reactions, and then recovering the generated solid through a solid/liquid separation method. The invention also relates to a preparation method of high purity lithium carbonate. The preparation method of lithium carbonate is capable of reducing transportation cost, and improving the purity of lithium carbonate through a simple washing operation.

The invention discloses a method for supercritically washing sea sand, river sand and hill sand, which mainly applies two-phase coexistence washing water formed by mixing gaseous ozone, carbonic acid gas and liquid water, overcomes the capillary phenomenon caused by physical characteristics viscosity and surface tension of water, and generates supercritical washing to remove substances on the surface of the sea sand which are harmful to cement, reinforcing steel bar and the like, such as chloride, sulfate, organic substances, algae and the like. The ozone as a strong oxidizing agent plays a role in decomposing the organic substances, so when high-concentration ozone water is used as washing water, the ozone water has high efficiency and low cost in removing harmful ions of the sea sand or the river sand, and has the characteristic of no harmful substance residue; and the washed sea sand does not have odor, and has low content of ash, and can become high quality sand for construction and engineering.

The invention relates to cola ginger chocolate coated and hung on cold drink. The cola ginger chocolate coated and hung on the cold drink consists of the following raw materials in part by weight: 270 to 310 parts of white sugar, 160 to 200 parts of milk powder, 80 to 120 parts of cocoa powder, 40 to 60 parts of cola ginger powder, 360 to 400 parts of oil and fat, a proper amount of vanillin, 1 to 4 parts of lecithin and 1 to 3 parts of polyglycerol polyricinoleate, wherein the cola ginger powder is the combination of cola nut powder and ginger powder. The cola ginger chocolate is provided with cola nut and ginger on the basis of the original formula of the common coating and hanging chocolate, so that the cola ginger chocolate has the taste of cola ginger, does not contain carbonic acid gas, and can meet the requirements of customers who like drinking cola beverages, but worry about that carbonated beverages are bad for teeth. The cola nut and the ginger are added into the cola ginger chocolate, so that the product categories are enriched and market gap is filled on the premise of not influencing the forming of the chocolate coating.

The invention provides a method and an appararutus for controlling a developer for photoresist by which practical effective developer concentration and effective dissolved resist concentration can be obtained accurately in real-time while considering effects of carbonate concentration. An apparent developer concentration (TM1) and an apparent dissolved resist concentration (PR1) are calculated from the correlation between conductivity and ultrasonic propagation rate of the developer. Carbonate concentration (TMAC1) is calculated from the peak wavelength difference ([delta]wl) obtained by spectral analysis for the absorbent of the developer and by using the correlation between the peak wavelength difference and the carbonate concentration of the developer. Effective dissolved resist concentration (PR2) and effective developer concentration (TM2) are calculated from the obtained carbonate concentration (TMAC1) while considering effects of the carbonate concentration on the dissolved resist concentration and on the developer concentration obtained, the effects which are preliminarily obtained by an experiment of blowing carbonic acid gas.

The invention relates to a white birch (carbonic acid) beverage and a preparation process thereof. The white birch (carbonic acid) beverage is characterized by comprising 1 to 99 percent by weight of white birch extraction liquid, 0.01 to 10 percent by weight of sweetening agent, 0 to 0.5 percent by weight of acid, 0 to 0.1 percent by weight of edible essence, 0.005 to 0.01 percent by weight of sodium benzoate or potassium sorbate and the rest of drinking purified water. The preparation process comprises the following steps of: (1) peeling of white birch lumber; (2) smashing of the white birch; (3) preparation of white birch extraction liquid; (4) preparation of white birch beverage; (5) sterilization; and (6) (inflation) filling. The white birch (carbonic acid) beverage is characterized in that white birch lumber (scrap) extraction liquid is adopted as a main raw material, so that a strong natural flavor of white birch is realized, taste is pure, and the stability is good; and the white birch (carbonic acid) beverage is rich in soluble sugar, amino acid, vitamins, minerals, aromatic substances and the like, and is a natural beverage which is beneficial to all ages.

Provided is a method for manufacturing a slurry for a positive electrode of a nonaqueous electrolyte secondary battery containing an alkali metal complex oxide, the method making it possible to reliably deaerate surplus carbonic acid gas after an alkali component of a slurry containing the alkali metal complex oxide is neutralized within a short period of time. The method for manufacturing a slurry for a positive electrode of a nonaqueous electrolyte secondary battery includes a step of manufacturing an electrode slurry including a step of performing a neutralization treatment on an alkali component in the slurry by using inorganic carbon dissolved in a solvent of the slurry and a step of deaerating the inorganic carbon in the slurry as carbonic acid gas by causing cavitation.

The oxalic acid aqueous solution filled in an electrolytic tank is electrolyzed with an electrolyzer to produce carbonic acid gas, while ultrasonic wave from an ultrasonic generator is applied to the produced carbonic acid gas bubbles, to form micro bubbles, which is dissolved in said oxalic acid aqueous solution, so as to easily produce carbonic acid gas solution with micro carbonic acid gas bubbles dissolved at a low cost; said carbonic acid gas solution can substitute carbonated spring.

The present invention provides a base oil that uses polyglycol lubricant or poly-alpha-olefin as lubricating oil in a compressor that uses carbon dioxide as a natural cooling medium to prevent abnormal wear of rollers and blades, Rotary compressor with high reliability. The method is to use carbon dioxide as a cooling medium, use polyglycol lubricants, or poly-alpha-olefins, or mineral oils as base oils in rotary compressors, and use them at the sliding contact between the blades and the rollers. Radius of curvature (Rv) (cm) of the blade expressed by the following formula (1): T

A first aqueous solution filled in an electrolytic cell (2) is electrolyzed by applying DC voltage between the electrodes 7a and 7b in said electrolytic cell 2, to form an oxidation field short of electrons in said aqueous solution; and then, a second aqueous solution with carboxylic acid dissolved in it is mixed into the first aqueous solution in oxidation field state, so that the first aqueous solution in oxidation field state obtains electrons and is deoxidized, and the carboxylic acid is oxidized, to produce carbonic acid gas in said aqueous solution. Therefore, the present invention can be used to produce carbonic acid gas solution at a low cost easily.

Provided are excellent coated lithium-nickel composite oxide particles which are capable of suppressing the occurrence of impurities produced by absorbing water and carbonic acid gas as a result of the high environmental stability thereof, have strong adhesion properties, do not result in easy coating layer detachment, and also exhibit lithium ion conductivity. The surfaces of the lithium-nickel composite oxide particles are coated with a polymer or copolymer comprising one or more types selected from a group consisting of a modified polyolefin resin, a polyester resin, a polyphenol resin, a polyurethane resin, an epoxy resin, a silane-modified polyether resin, a silane-modified polyester resin, a silane-modified polyphenol resin, a silane-modified polyurethane resin, a silane-modified epoxy resin, and a silane-modified polyamide resin. As a result, the coated lithium-nickel composite oxide particles exhibit conductivity, and said compound is capable of suppressing the transmission of water and carbonic acid gas. Consequently, it is possible to provide coated lithium-nickel composite oxide particles for use in a lithium-ion battery positive electrode active material which is excellent for use in a lithium-ion battery.