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30results about How to "Solve gas production" patented technology

Flexible water system zinc ion battery

The invention discloses a flexible water system zinc ion battery. The flexible water system zinc ion battery comprises a cathode layer, an anode layer, a current collection layer, a diaphragm and an aqueous electrolyte. The current collection layer comprises a breathable layer and a substrate layer, the substrate layer is provided with at least one opening holes. The perforated structure of the breathable layer and the substrate layer solves the problems of gas generation and electrolyte drying in the battery circulation process, so that the internal and external gaseous water of the battery reaches the states of circulation exchange and dynamic balance, and the circulation performance of the battery is greatly improved; and the assembled flexible water system zinc ion battery has the advantages of light weight, thin thickness, low cost, environmental friendliness, high safety, good rate capability, high power density and the like, and the excellent bending performance and flexibilityof the flexible water system zinc ion battery can meet the bending requirements of different angles, so that the flexible water system zinc ion battery is suitable for large-scale application and industrial production in the field of wearable electronic equipment.
Owner:SHENZHEN CITY THROUGH SCI & TECH OF NEW ENERGY CO LTD

Lithium titanate battery electrolyte film-forming additive doped with zirconium by gradients

The invention discloses a lithium titanate battery electrolyte film-forming additive doped with zirconium by gradients, which is used for solving the problems that an SEI (Solid Electrolyte Interface) membrane is not formed on a lithium ion battery which takes lithium titanate doped with the zirconium by gradients as a cathode, electrolyte is directly contacted with the surface of an electrode to generate gas at high temperature. According to the lithium titanate battery electrolyte film-forming additive doped with the zirconium by gradients, the electrolyte film-forming additive is composed of lithium bisoxalateborate and lithium difluoroborate. With the adoption of the film-forming additive, the stable SEI membrane is formed between the lithium titanate cathode doped with the zirconium by gradients and the electrolyte, so that the direct contact between the electrolyte and the surface of the electrode is prevented and the problem that the lithium battery generates the gas is solved.
Owner:四川兴能新材料有限公司

Preparation method of low-salt sauce

The invention discloses a method for preparing low cooking salt sauce, which comprises the following steps: 1) preparing a sauce yeast according to the conventional sauce yeast preparation method; 2) mixing 15 to 20 Be of salt water with the sauce yeast according to the weight ratio of 1:1-1:1.5 to obtain a soy sauce mash, and then performing normal temperature fermentation; 3) using fruits of gramineous plants as a raw material which is added with water to perform enzyme process liquefaction and is then mixed with a saccharification liquid and an amino acid polypeptide nutrient solution which are prepared through saccharification so as to prepare a liquid medium, and fermenting the yeast in the liquid medium to obtain a sauce composite fermentation broth; and 4) mixing the sauce composite fermentation broth with the soy sauce mash in the step 2) to perform low cooking salt liquid state fermentation at normal temperature, separation, heating, deposition, filtration and blending after the maturation of the fermentation so as to obtain the low cooking salt sauce. The method can obtain the low cooking salt sauce through fermentation directly at normal temperature, and can inhibit pollutions caused by other bacteria in the process of soy sauce mash fermentation so as to obtain the low cooking salt sauce with full aroma and delicious mouthfeel.
Owner:FOSHAN HAITIAN FLAVOURING & FOOD CO LTD +1

Simple culture method for effective microorganisms (EM)

The invention relates to a culture method of mixed bacteria, in particular to a culture method for EM. The simple culture method for EM comprises the following steps: A, preparing culture solution, and filling into a plastic square barrel with a ventilating cover; B, inoculating bacillus; C, culturing under a closed condition for 24 hours; D, inoculating composite lactic acid bacteria, saccharomycetes and photosynthetic bacteria; and E, culturing under a closed condition. In the invention, a cheap plastic square barrel which is common on market is used as an EM culture container; generally, culture can be performed at normal temperature; culture and use on site can be realize; and the method has the advantages of environment protection, flexible production operation, production and use cost conservation and the like.
Owner:DONGGUAN SHENGYUAN ENVIRONMENTAL PROTECTION TECH

Ternary single crystal positive electrode material as well as preparation method and application thereof

The invention discloses a ternary single crystal positive electrode material, and a preparation method and application thereof. The preparation method comprises the following steps: mixing ternary polycrystalline micro-powder, conducting heating, carrying out first sintering, and conducting cooling to obtain an intermediate; carrying out jet milling on the intermediate to obtain a single crystal material, conducting washing with water, and conducting centrifuging and drying to obtain a material of which the residual alkali content is lower than 1500ppm; and adding a coating agent into the material, conducting heating, conducting sintering for the second time, and conducting cooling to obtain the ternary single crystal positive electrode material. Polycrystalline materials are opened into single crystal small particles by utilizing airflow crushing equipment, so that the electrochemical performance of the materials is improved, and the energy density of the materials is improved.
Owner:GUANGDONG BRUNP RECYCLING TECH +3

Preparation method of gynecological inflammation clearing vaginal effervescent tablet

The invention belongs to the field of pharmacy, and particularly relates to a gynecological inflammation clearing vaginal effervescent tablet. The tablet is prepared from the following Chinese medicinal bulk pharmaceutical chemicals: 500g of sophora flavescens, 400g of quassia, 400g of common cnidium fruit, 100g of dried alum, 5g of pearl stratum powder, 10g of borneol, 4g of menthol, 40g of berberine hydrochloride and 60g of boric acid. The gynecological inflammation clearing vaginal effervescent tablet contains auxiliary components which comprise acid, alkali, a filler, a disintegrating agent, a lubricant and a coating agent.
Owner:JIANGXI JIMINKEXIN PHARMA

Electrolyte suitable for silicon-carbon negative electrode and lithium ion battery

The invention discloses an electrolyte suitable for a silicon-carbon negative electrode and a lithium ion battery. The electrolyte comprises an electrolyte lithium salt, a non-aqueous organic solventand an additive. The additive comprises a negative electrode film-forming additive, a fluorinated phenyl boron compound and a disilyl sulfate compound. Through the synergistic effect of the fluorophenyl boron compound additive, the disilane alkyl sulfate compound additive, the negative electrode film-forming additive and the novel lithium salt type additive, the electrolyte has excellent film-forming performance on the surface of the silicon-carbon negative electrode, and the formed SEI film is relatively small in impedance and relatively stable in component and structure. By using the electrolyte, the discharge capacity, the cycling stability and the high-temperature storage performance of the silicon-carbon negative electrode lithium ion battery can be effectively improved, gas production can be inhibited, the problems of volume expansion, particle breakage and the like in the battery cycling process can be effectively solved, and meanwhile, the electrolyte has good high-temperatureand low-temperature performance.
Owner:香河昆仑新能源材料股份有限公司

Preparation method of graphene low-temperature battery

ActiveCN105655652AOvercome the disadvantage of low conductivityGood charging performanceCell electrodesFinal product manufactureElectrical batteryInternal resistance
The invention discloses a preparation method of a graphene low-temperature battery. The preparation method is applied to batteries of lithium titanate negative pole systems. An existing rechargeable battery only can be charged to 50-70% the total battery capacity in a low-temperature environment. The preparation method includes the steps that slurry needed for coating a battery positive pole plate is prepared from a lithium manganate positive electrode, a binding agent and a conductive agent; homogenate of slurry needed for coating a battery negative pole plate is prepared from a conductive agent containing conductive graphene slurry; coating of the battery positive pole and the battery negative pole is carried out, and blank foil is reserved on the upper and lower sides of the positive pole and the negative pole; rolling and cutting of the battery positive pole plate and the battery negative pole plate are carried out; battery assembling is carried out; battery formation and aftertreatment are carried out. The preparation method has the advantages that the battery can be charged to 90% the total battery capacity within 6 min in an environment where the temperature is -40 DEG C, and meanwhile the battery has super-high cycle performance and low internal resistance.
Owner:张博

High energy density silicon-carbon battery non-expanding at high temperature

The present invention relates to the technical field of batteries, and discloses a high energy density silicon carbon battery non-expanding at a high temperature, wherein the electrolyte solvent comprises 20-30% of EC, 55-65% of EMC, 5-15% of DMC, and 3-5% of FEC, the additives comprise methylene methanedisulfonate, tris(trimethyl)silane borate and vinylene carbonate, and the silicon-carbon battery formation process comprises: respectively charging for 28-32 min at 0.01C, 0.02C and 0.05C; standing for 4-6 h after charging at 0.1 C to achieve a voltage of 3.37 V, and evacuating to removing gas;charging at 0.1C to achieve a voltage of 4.3 V, placing for three days, and carrying out first capacity sorting, wherein 0.1C discharging is firstly performed and then 0.5C charging-discharging capacity calibration is performed twice in the first capacity sorting, and charging is performed at 4.3 V to achieve a full state; and after the first capacity sorting, aging the battery, evacuating, standing at a room temperature, and carrying out second capacity sorting through 0.5C charging-discharging. According to the present invention, the silicon-carbon battery can be prevented from gas generation expanding at the high temperature.
Owner:WANXIANG 123 CO LTD

Paste mixing process of lithium titanate battery

The invention provides a paste mixing process of a lithium titanate battery, and relates to a manufacturing method of the lithium titanate battery. According to the technical scheme, activated carbon which is 2-20% by mass of active substances is doped into the active substances in a paste mixing process, the activated carbon can be doped only in the paste mixing process for an anode, the activated carbon can also be doped only in the paste mixing process for a cathode, or the activated carbon can be respectively doped in the paste mixing processes for both the anode and the cathode. According to the paste mixing process provided by the invention, the activated carbon material can absorb the gas generated in a circulating process of the lithium titanate battery by virtue of a porous structure, the problem of gas generation of the battery is effectively solved and the application performance of the battery is improved.
Owner:NANJING SHUANGDENG SCI TECH DEV RES INST

Lithium titanate composite material, preparation method and applications thereof

The invention discloses a lithium titanate composite material, a preparation method and uses thereof, wherein the lithium titanate composite material has a core-shell structure, lithium titanate particles or modified lithium titanate particles are used as the core, a silicon compound is used as the shell, the molecule general formula of the lithium titanate is Li4+xTi5O12, x is more than or equalto -1 and is less than or equal to 1, the molecule general formula of the silicon compound is SiOy, and y is more than or equal to 0 and is less than or equal to 2. The preparation method is a liquidphase coating method or a gas phase coating method. According to the present invention, the lithium titanate composite material can be used in electrode materials or capacitor devices; and the preparation method has advantages of simple process, simple operation, low cost and environment protection, and is suitable for large-scale industrial production.
Owner:BAOSHAN IRON & STEEL CO LTD

Method and device for analyzing internal gas production of cylindrical battery

The invention discloses a method and a device for analyzing the internal gas production of a cylindrical battery. The cylindrical battery to be tested is packaged by using a sealed container; gas generated in the battery in a gas production testing process is guided into the sealed container through a hole formed by punching a cover plate; on one hand, the mass change of the packaged cylindrical battery to be tested before and after gas production testing is monitored to simply and quickly measure the gas yields of the cylindrical battery in different states; and on the other hand, the gas inthe sealed container is extracted through a gas collecting nozzle, and the components of the gas are determined by an analysis instrument. The method disclosed by the invention is simple, easy to operate, capable of rapidly and accurately testing the gas yield of the cylindrical battery and the produced gas components, and high in reliability.
Owner:SHENZHEN BAK POWER BATTERY CO LTD

Encapsulated ternary positive electrode material, preparation method thereof and lithium ion battery

The invention discloses a coated ternary cathode material, a preparation method thereof and a lithium ion battery. The coated ternary positive electrode material includes a ternary positive electrode active material core co-doped with aluminum, zirconium and fluorine and a coating layer coated on the surface of the core core, and the coating layer includes zirconium hydrogen phosphate and a boron compound . In the coated ternary positive electrode material of the present invention, the ternary positive electrode material is co-doped with aluminum, zirconium and fluorine, and co-coated with zirconium hydrogen phosphate and boron compound, which can effectively solve the gas production problem of the positive electrode material. Improve safety performance; at the same time, it can ensure good conductivity and structural stability of the material, ensure the normal release of electrochemical properties, and have high discharge capacity, high first effect, good cycle stability and safety performance.
Owner:SVOLT ENERGY TECHNOLOGY CO LTD

Modified high-nickel ternary positive electrode material and preparation method thereof

The invention discloses a modified high-nickel ternary positive electrode material and a preparation method thereof. The modified high-nickel ternary positive electrode material is a cobalt element doped and cobalt element coated high-nickel ternary positive electrode material. Wherein the mass fraction of the doped cobalt element is 0.2-2%, and the thickness of the cobalt element coating layer is 20-200 nm. The cobalt element doped on the surface of the high-nickel ternary positive electrode material can improve the cycle performance of the high-nickel ternary positive electrode material, and cobalt hydroxide reacts with residual lithium on the surface of the material during microwave treatment of the coated cobalt element, so that the content of the residual lithium on the surface of the material can be reduced. Under the combined action of doping and coating, the performance of the high-nickel ternary positive electrode material is obviously improved. The preparation method disclosed by the invention is simple, low in cost, environment-friendly and suitable for large-scale industrial production.
Owner:GUANGDONG BRUNP RECYCLING TECH +2

Preparation method of lithium titanate negative electrode material and lithium titanate negative electrode material prepared by method

The invention belongs to the field of energy storage study, and particularly relates to a lithium titanate negative electrode material and a preparation method thereof. The lithium titanate negative electrode material comprises a core structure and a shell structure, wherein the shell structure uniformly coats the surface of the core structure; the thickness of the shell structure is h, and the h is smaller than or equal to 100nm. The preparation method of the lithium titanate negative electrode material comprises the following steps that 1, cladding layer slurry containing graphene is prepared; the slurry is sprayed into a cladding chamber; formed particles have electric charges, and the carried charge of each particle is Q1; 2, the core structure ingredients are sprayed into the cladding chamber, so that the surface of the core structure ingredients has the electric charges opposite to those of the particles in the step 1, and the carried charge of each particle is Q2; 3, cladding reaction is performed: the airflow in the cladding chamber is regulated, so that the particles in the step 1 uniformly coat the surface of the core structure in the step 2; 4, aftertreatment is performed to obtain a finished product of lithium titanate particles, so that the lithium titanate negative electrode material with excellent performance is prepared.
Owner:GUANGDONG ZHUGUANG NEW ENERGY TECH

Lithium titanate composite material, its preparation method and its application

The invention provides a lithium titanate composite material and a preparation method and application thereof. The lithium titanate composite material comprises lithium titanate particles and lithium phosphate glass coated on the surface of the lithium titanate particles. The preparation method comprises the following steps of: uniformly mixing the lithium titanate particles and the mixture of a lithium source and a phosphorus source in a liquid system solvent to obtain uniformly-mixed liquid; performing ball milling on the uniformly-mixed liquid to form slurry; taking out the slurry and drying to obtain the precursor powder of the composite material; calcining the precursor powder of the composite material; and cooling and breaking to obtain the lithium titanate composite material of which the lithium phosphate glass is coated by the lithium titanate on the surface. The lithium titanate composite material is used as an active substance of a lithium ion battery or an electrode material of a capacitor. The lithium titanate composite material can suppress expansion of a lithium ion battery when applied to the lithium ion battery, improves the high-temperature storage and cycle performance of the lithium ion battery, increases the diffusion coefficient of lithium ions in the active substance, and is favorable for improving the rate capability of lithium titanate.
Owner:NINGDE AMPEREX TECH

Preparation method of instant freshly cut potatoes

The invention discloses a preparation method of instant freshly cut potatoes. Freshly cut potatoes are soaked by 0.5 to 3.0 percent of white vinegar solution to be soaked for 0.5 to 2h and are then bleached by clean water; the freshly cut potatoes are put into seasoning liquid so that the seasoning solution soaks the potatoes for 1 to 3cm; vacuum soaking is performed; vacuum pumping packaging is performed; steam sterilization is performed for 1 to 5min; cooling is performed to obtain a finished product. By using the method, the browning of the freshly cut potatoes can be inhibited; the textureof the freshly cut potatoes can be well improved. Through vacuum soaking, the conventional soaking process is combined with vacuum treatment; the operation is simple; the seasoning effect is obvious;the soaking time is short; the breeding and growth of microbes in the soaking process can be reduced. Raw potatoes are subjected to steam sterilization after vacuum soaking packaging; during sterilization, the potatoes are cooked; the texture of the instant freshly cut potatoes can be maintained; the sterilization goal can also be achieved, so that the product storage quality is effectively improved; the product shelf life is prolonged.
Owner:贵州省生物技术研究所

Preparation method of cold-resistant lithium manganate-lithium titanate battery

A preparation method of a cold-resistant lithium manganate-lithium titanate battery. The invention is used in batteries of lithium titanate negative electrode system. Existing rechargeable batteries can only reach 50‑70% of the total battery capacity when charged in a low temperature environment. The invention includes: preparing the slurry required for coating the positive electrode sheet of the battery through the lithium manganate positive electrode, the binder and the conductive agent; preparing the slurry required for coating the negative electrode sheet of the battery through the conductive agent containing the conductive graphene slurry Homogenization of materials; coating of battery positive and negative electrodes, and leaving empty foils on both sides of the positive and negative electrodes; rolling and shearing of battery positive and negative electrodes; battery assembly; battery formation and post-treatment process. The invention has the advantages of being able to charge to 90% of the total battery capacity in six minutes under the environment of minus 40 degrees, and also has the advantages of ultra-high cycle performance and low internal resistance.
Owner:张博

Battery cell gas production detection device and detection method

The invention relates to the technical field of energy storage device production, in particular to a battery cell gas producing detection device and a detection method. The battery cell gas producing detection device comprises a gas carrying bottle, a vacuum mechanism, test equipment, a first pipeline and a second pipeline, wherein the two ends of the first pipeline respectively communicate with the gas carrying bottle and the test equipment; the first pipeline is provided with a first communication position; one end of the second pipeline is used for communicating with a first liquid injection hole of a battery cell; the other end of the second pipeline communicates with the first pipeline in the first communication position; the vacuum mechanism is used for performing vacuum pumping on the first pipeline and the second pipeline. The device and the method provided by the invention have the advantages that ingredients of produced gas can be accurately detected; further, a gas producing analysis result and real-time real degree can be improved, so that the gas produced by a lithium ion battery can be studied; the practical gas production problem of the lithium ion battery is solved; the service life of ten years of the battery cells is ensured.
Owner:CONTEMPORARY AMPEREX TECH CO

Preparation method of lithium titanate negative electrode material and lithium titanate negative electrode material prepared by the method

The invention belongs to the field of energy storage study, and particularly relates to a lithium titanate negative electrode material and a preparation method thereof. The lithium titanate negative electrode material comprises a core structure and a shell structure, wherein the shell structure uniformly coats the surface of the core structure; the thickness of the shell structure is h, and the h is smaller than or equal to 100nm. The preparation method of the lithium titanate negative electrode material comprises the following steps that 1, cladding layer slurry containing graphene is prepared; the slurry is sprayed into a cladding chamber; formed particles have electric charges, and the carried charge of each particle is Q1; 2, the core structure ingredients are sprayed into the cladding chamber, so that the surface of the core structure ingredients has the electric charges opposite to those of the particles in the step 1, and the carried charge of each particle is Q2; 3, cladding reaction is performed: the airflow in the cladding chamber is regulated, so that the particles in the step 1 uniformly coat the surface of the core structure in the step 2; 4, aftertreatment is performed to obtain a finished product of lithium titanate particles, so that the lithium titanate negative electrode material with excellent performance is prepared.
Owner:GUANGDONG ZHUGUANG NEW ENERGY TECH

Preparation method of low-salt sauce

The invention discloses a method for preparing low cooking salt sauce, which comprises the following steps: 1) preparing a sauce yeast according to the conventional sauce yeast preparation method; 2) mixing 15 to 20 Be of salt water with the sauce yeast according to the weight ratio of 1:1-1:1.5 to obtain a soy sauce mash, and then performing normal temperature fermentation; 3) using fruits of gramineous plants as a raw material which is added with water to perform enzyme process liquefaction and is then mixed with a saccharification liquid and an amino acid polypeptide nutrient solution which are prepared through saccharification so as to prepare a liquid medium, and fermenting the yeast in the liquid medium to obtain a sauce composite fermentation broth; and 4) mixing the sauce composite fermentation broth with the soy sauce mash in the step 2) to perform low cooking salt liquid state fermentation at normal temperature, separation, heating, deposition, filtration and blending after the maturation of the fermentation so as to obtain the low cooking salt sauce. The method can obtain the low cooking salt sauce through fermentation directly at normal temperature, and can inhibit pollutions caused by other bacteria in the process of soy sauce mash fermentation so as to obtain the low cooking salt sauce with full aroma and delicious mouthfeel.
Owner:FOSHAN HAITIAN FLAVOURING & FOOD CO LTD +1
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