Abstract: In a method of controlling a flying object 1, from the flying object 1 that includes a flying object propulsion apparatus 16 and an energy storage apparatus 7, 8 having a plurality of energy storage devices 6 and configured to supply electricity to the flying object propulsion apparatus 16, one or a plurality of the energy storage devices 6 are separated.

Abstract: Disclosed herein are a bed of materials and use of it for removing contaminants not limiting to carbon monoxide, oxygen, carbon dioxide, acetylene, hydrogen, water, carbonyl sulfide and hydrogen sulfide from lower olefins without limiting ethylene.

Abstract: A method for acquiring information of a battery cell (11) includes a step (S101) of acquiring information pertaining to performance recovery accompanying the suspension of charging/discharging of the battery cell (11). Control pertaining to the battery cell (11) and estimation of a state of the battery cell (11) can be appropriately performed according to a type of battery cell (11).

Abstract: A development support device, a terminal device, a development support method, and a computer program are provided. A receiving unit that receives a simulation condition of a power storage device from a terminal device after user authentication of the terminal device, a simulation execution unit that simulates behavior of the power storage device based on the received simulation condition, and a transmission unit that transmits a simulation result by the simulation execution unit to the terminal device are included.

Abstract: Provided is a positive active material for a nonaqueous electrolyte secondary battery which contains a lithium transition metal composite oxide, the lithium transition metal composite oxide having an ?-NaFeO2 structure, containing Ni, Co and Mn as a transition metal (Me), and having an X-ray diffraction pattern attributable to a space group R3-m, in which a ratio of the full width at half maximum of a diffraction peak of the (003) plane to the full width at half maximum of a diffraction peak of the (104) plane, (003)/(104) at a Miller index hkl in X-ray diffraction measurement using a CuK? ray is 0.810 to 0.865, and a crystallite size is 410 ? or more.

Abstract: The present invention relates to a method for producing a dairy product using an enzyme having lactase activity.

Abstract: A nonaqueous electrolyte energy storage device according to one aspect of the present invention includes: a positive electrode including a lithium transition metal composite oxide containing a nickel element and a manganese element; and a negative electrode including solid graphite, the solid graphite has a porosity of 2% or less, and the content of the nickel element with respect to the transition metal element in the lithium transition metal composite oxide is 40 mol % or more.

Abstract: A negative electrode includes a negative active material layer containing a silicon-based negative active material, a rubber-based binder, and a carbon nanotube, wherein a content of the silicon-based negative active material in the negative active material layer is 68 mass % or more, a content of the rubber-based binder in the negative active material layer is 3.0 mass % or more, and a content of the carbon nanotube in the negative active material layer is 0.4×(n2+4n)/(2n+3) mass % or less where n is the number of layers of graphene forming the carbon nanotube.

Abstract: A reactor for the catalytic production of methanol having two or more reaction zones arranged and surrounded by a heat exchange fluid. The reaction zones are preferably reaction tubes, and each reaction zone has at least one cleaning layer and at least one catalyst layer, where the cleaning layer is arranged upstream, and the catalyst layer is arranged downstream. A method for the catalytic production of methanol from synthesis gas using the reactor is also described.

Abstract: An energy storage device includes a positive electrode terminal, an electrode assembly, and a positive electrode current collector connecting the positive electrode terminal and the electrode assembly, in which the positive electrode current collector has a terminal connecting portion connected to the positive electrode terminal, an electrode connecting portion connected to the electrode assembly in the first direction, and an intermediate portion connecting the terminal connecting portion and the electrode connecting portion, the intermediate portion is arranged at a position overlapping the terminal connecting portion when viewed in the first direction, and the electrode connecting portion and the terminal connecting portion are arranged on one side of the intermediate portion in the first direction.

Abstract: A protection circuit 60 is provided with: switches 61, 62 positioned on a power line PL of an electricity storage element 22 and a load 12; first protection elements 63, 64, 65 connected in parallel with the switches 61, 62 and absorbing surge caused when the switches 61, 62 open and cut off discharge current; and a second protection element 66 connected in parallel with the load and flowing, back to the load, the surge caused when the switches 61, 62 open and cut off the discharge current.

Abstract: When a non-aqueous electrolyte secondary battery in which a positive electrode active material comprising a layered lithium-composite oxide is used for a positive electrode is subjected to charge/discharge under a prescribed condition, in a graph showing the relationship between voltage “V” with discharge during 5th cycle and value dQ/dV from differentiation of battery capacity “Q” with discharge during 5th cycle by voltage “V”, peak intensity ratio “r” represented by the equation: r=|Ic|/(|Ia|+|Ib|+|Ic|) satisfies 0<r?0.25, in which |Ia| is absolute value dQ/dV for a peak top within a range of more than 3.9V to 4.4V or less, |Ib| is absolute value dQ/dV for a peak top within a range of more than 3.5V to 3.9V or less, and |Ic| is absolute value dQ/dV for a peak top within a range of 2.0V or more to 3.5V or less.

Abstract: An energy storage device includes: an electrode assembly formed by winding a plurality of plates; and a rectangular parallelepiped case housing the electrode assembly. The case is constructed by welding: a lid formed of a pair of short side surfaces of the case, which face each other in a winding-axis direction, and an other one surface of the case; and a case body formed of three surfaces, except for the pair of short side surfaces and the other one surface, of the case.

Abstract: The present invention relates to a fermented milk-based product comprising a combination of low levels of lactose and stable levels of galacto-oligosaccharides (GOS) produced in-situ and methods thereof.

Abstract: The present disclosure provides a signal transmission device for setting on a wall. The signal transmission device comprises a circuit board, an electrical signal connector, an optical signal connector, a photoelectric converter, and a power injector. The electrical signal connector is arranged on the circuit board and configured to transmit and receive an electrical signal. The optical signal connector is arranged on the circuit board and configured to transmit and receive an optical signal. The photoelectric converter is placed on the circuit board and coupled between the electrical and optical signal connectors. Selectively. The photoelectric converter selectively converts the electrical signal to the optical signal or the optical signal to the electrical signal. The power injector is arranged on the circuit board and configured to provide working power to the photoelectric converter.

Abstract: An energy storage device includes: an electrode assembly that is formed by stacking a plurality of plates and is elongated in a first direction; a container that accommodates the electrode assembly and is elongated in the first direction; and a first terminal that is electrically connected to the electrode assembly. The container includes a side surface portion at an end portion of the container in the first direction. The side surface portion includes: a first terminal mounting portion on which the first terminal is mounted; and a first recessed portion that is formed at a position different from a position where the first terminal mounting portion is disposed.

Abstract: An energy storage system used in a flight vehicle includes: a plurality of energy storage apparatuses; and a power transfer circuit that is connected to the plurality of energy storage apparatuses and transfer electric power between the plurality of energy storage apparatuses.

Abstract: An energy storage device includes: a case; an electrode terminal having a terminal body, a shaft, and a step disposed at the root of the shaft; and an upper insulating member disposed between the terminal body and the case. The upper insulating member has a terminal support part abutting on a terminal bottom surface of the step and a wall part facing the end face of the terminal body. On one of the terminal body and the upper insulating member, a convex part projecting toward the other of the terminal body and the upper insulating member is formed at a position between the step and the wall part. A gap is formed between the terminal body and the upper insulating member on the side of the convex part.

Abstract: A new cultivar of Senecio plant named ‘Sennova Mi RL’ that is characterized by its compact plant habit (20 cm in height and spread), its leaves that are silvery white and green in color and fading to green, and its leaves that are broadly ovate to broadly oblong in shape.