Abstract: The present invention provides a simulation method, a simulation device, and a simulation program. A method for simulating a cell in which the electrolyte is a molten salt, the simulation method involving simulating the behavior of the cell and including a process for raising the temperature of the molten salt.

Abstract: An energy storage apparatus includes an energy storage device and a management unit. The management unit: lowers an SOC of the energy storage device by discharge of the energy storage device; acquires current and voltage of the energy storage device while the SOC of the energy storage device is within a predetermined SOC range in a process of raising the SOC of the energy storage device by charge of the energy storage device; and calculates an internal resistance of the energy storage device based on the acquired current and voltage. The SOC range is a range in which a change in voltage of the energy storage device with respect to a change in SOC of the energy storage device is larger than a range in which a value of the SOC is larger than the SOC range.

Abstract: The invention relates to the use of a supported, platinum-containing and sulfur-containing shell catalyst for the partial or complete dehydrogenation of perhydrogenated or partially hydrogenated cyclic hydrocarbons. The present invention also relates to a method for producing a platinum-containing and sulfur-containing shell catalyst and to a platinum-containing and sulfur-containing shell catalyst. The present invention further relates to a method for the partial or complete dehydrogenation of perhydrogenated or partially hydrogenated cyclic hydrocarbons.

Abstract: A calculation device 20 is linked with an electric power system 1 and optimizes energy utilization efficiency of a grid S1 including a power storage device 15. The calculation device 20 determines the range of a final charge state of a prediction target section of the power storage device 15 on the basis of power demand prediction for the next and following sections, and assesses, through the optimization calculation for the prediction target section, whether or not the final charge state of the section falls within the range.

Abstract: A nonaqueous electrolyte secondary battery including a positive electrode, a negative electrode, and a nonaqueous electrolyte, the positive electrode containing, as a positive active material, a lithium transition metal composite oxide having an ?-NaFeO2 type crystal structure, a molar ratio of Li to Me, Li/Me of more than 1, Me representing transition metal elements including Ni and Mn or including Ni, Mn, and Co, and a molar ratio of Mn to Me, Mn/Me of 0.40 or more and 0.65 or less, and the nonaqueous electrolyte containing, as an electrolyte salt, LiPF6 and a lithium imide salt.

Abstract: The present disclosure relates to methods, compositions, and kits for concentrating and purifying at least one target analyte from a clinical biological sample. In some embodiments, the methods involve one or more aqueous two-phase system (ATPS) compositions and at least one solid phase medium. Some embodiments provide a kit comprising one or more ATPS compositions, a binding buffer; and a solid phase medium. Other embodiments provide methods of treating cancers or infectious diseases in a patient in need thereof.

Abstract: A maintenance method for a power storage system wherein: in a bank in which multiple modules, each comprising multiple lithium-ion battery cells connected to each other, are serially connected, a voltage sensor measures voltage values of the cells; a module containing a cell having the lowest voltage value in the hank is identified; and the capacity of the identified module or of the cell having the lowest voltage value is measured.

Abstract: The present invention generally relates to the field of dietary therapies for treating disorders associated with mitochondrial dysfunction, including epilepsy.

Abstract: A storage battery monitoring device according to an aspect of the present invention includes: a plurality of monitoring units attached to a plurality of storage batteries connected in series and/or in parallel; and a management unit capable of wirelessly communicating with the plurality of monitoring units. The management unit sequentially selects identification information about the plurality of monitoring units stored previously, and transmits a connection request message including identification information about a selected monitoring unit to the plurality of monitoring units through wireless communication in order to establish communication with the selected monitoring unit. The management unit further updates identification information about another monitoring unit to identification information about one monitoring unit through the wireless communication when the another monitoring unit is replaced with the one monitoring unit.

Abstract: Disclosed herein is a pigment preparation including at least one organic and/or inorganic pigment and/or filler. The pigment preparation further includes at least one anionic copolymer as dispersant, containing 40 to 95 mol % of structural units of an anionic monomer selected from the group consisting of acrylic acid, methacrylic acid, itaconic acid, 2-carboxyethylacrylic acid, maleic acid, mixtures thereof and their respective salts, and further containing 5 to 60 mol % of structural units of a monomer having repeat units of formula (B1) where R11, R12 and R13 are, independently, selected from the group consisting of H, methyl and ethyl; R4 is H or an alkyl group having 1 to 4 carbon atoms; X is selected from the group consisting of O, COO, CONH, CH2O and CH2CH2O; Y is an ethylene group; Z is a propylene group, a butylene group or a phenylethylene group; m is an integer from 0 to 100; n is an integer from 1 to 100; and m+n is greater than 5.

Abstract: A device attaches an animal carrier to a bicycle. The device includes an adjustable arm having a first end and a second end. The adjustable arm includes a bicycle coupling at the first end, for securing the arm to the bicycle. The adjustable arm further includes a carrier mount at the second end, for mounting the animal carrier to the arm. The arm is adjustable such that the carrier mount is rotatable relative to the bicycle coupling.

Abstract: The present invention relates to a method for improving the detection and diagnosis targeting biomarkers using an aqueous two-phase system (ATPS). In one embodiment, the present invention provides a method for improving a diagnostic procedure involving the detection or quantification of one or more biomarkers in liquid biopsy, the method comprises contacting a porous material embedded with ATPS components with a liquid biopsy containing the biomarkers, purifying and concentrating the target biomarkers, and providing a product comprising the target biomarkers for performing the diagnostic procedure.

Abstract: Provided is a method for an unmanned aerial vehicle to handle goods in cooperation with an autonomous vehicle. The method performed by the unmanned aerial vehicle includes at least: capturing an image of the autonomous vehicle having a goods storage box; recognizing a marker displayed in the goods storage box by analyzing the captured image; identifying a region occupied by the marker on the captured image; adjusting a relative position of the unmanned aerial vehicle and the autonomous vehicle. The marker displayed in the goods storage box is covered by a lid of the goods storage box and placed in a state that cannot be captured by the unmanned aerial vehicle. The marker is exposed in a state that can be captured by the unmanned aerial vehicle only when the lid of the storage box is opened by communication between the unmanned aerial vehicle and the autonomous vehicle.

Abstract: A core wire set comprising a first core wire, a second core wire arranged in parallel to the first core wire, a first covering layer covering the first core wire and the second core wire, a second covering layer, and a bare metal wire is provided. Wherein the second covering layer covers the first covering layer and a wire placement space is formed between the first covering layer and the second covering layer. Wherein the bare metal wire is arranged in the wire placement space.

Abstract: The invention provides pharmaceutical compositions comprising human immature dental pulp stem cells (hIDPSCs) wherein the hIDPSCs express CD44 and CD13. The invention also provides methods of treating a neurological disease or condition comprising systemically administering to a subject a pharmaceutical composition comprising hIDPSCs wherein the hIDPSCs express CD44 and CD13. For example, for treating neurological diseases or conditions including supporting the neuro-protective mechanism in subjects diagnosed with early HD or repairing lost DA neurons in subjects diagnosed with PD.

Abstract: An estimation device includes: a derivation unit deriving a derivation history based on a current, a voltage and a temperature of a lead-acid battery; a first specifying unit specifying a specific gravity of an electrolyte solution; a second specifying unit specifying at least one of: a first degree of softening of a positive electrode material; a second degree of corrosion of a positive electrode grid; a third degree of sulfation of a negative electrode; and a fourth degree of shrinkage of a negative electrode material based on the specified specific gravity, the derived derivation history, and at least one of respective first-third relationships between the specific gravity, respective first-third histories and the respective first-third degrees, and a fourth relationship between a fourth history and the fourth degree; and an estimation unit configured to estimate a degree of deterioration of the battery based on the specified degree.

Abstract: An estimation device includes: an acquisition unit that acquires a voltage, a current, and a temperature of a lead-acid battery; a first deriving unit that derives a first SOC and a second SOC that are SOCs of a start point and an end point of an estimation period; a second deriving unit that derives a total amount of an overcharge amount in the estimation period; a third deriving unit that derives an actual measurement error based on a difference between the first SOC and the second SOC and the total amount of the overcharge amount; a first specification unit that specifies an estimation error based on the first SOC, the second SOC, and the temperature, and a relationship between the first SOC, the second SOC, and the temperature of the lead-acid battery, and the estimation error; a second specification unit that specifies an abnormality degree of the actual measurement error based on the derived actual measurement error and the specified estimation error; and an estimation unit that estimates generation of

Abstract: A transport structure (1) for a lead-acid battery (10) includes: a packing box (20) in which a lead-acid battery (10) is packed, in which an upper wall portion (23) is formed by two flaps (24) extending from two first side wall portions (21) facing each other of the packing box (20), and in which a distal end portion (26) of at least one of the flaps (24) is bent and inserted into the packing box (20); and an upper buffer body (42A) disposed outside the upper wall portion (23), the upper buffer body (42A) including an upper wall portion (51) facing the upper wall portion (23).