Almacenamiento en baterías

VERFAHREN ZUM ENTSORGEN VON BATTERIEN UND BATTERIEBEHANDLUNGSSYSTEM

Resumen de: DE102024138925A1

Ein Hauptziel der vorliegenden Offenbarung ist es, ein Verfahren zur Entsorgung einer Batterie bereitzustellen, mit dem die Batterie gut deaktiviert werden kann. Die vorliegende Offenbarung erreicht das Ziel, indem sie ein Verfahren zur Entsorgung einer Batterie bereitstellt, wobei das Verfahren beinhaltet: einen Einweichschritt des Einweichens einer Batterie, beinhaltend einen Al-Anschluss, in einer Behandlungsflüssigkeit, um eine Spannung der Batterie durch Verursachung äußerer Kurzschlüsse durch die Behandlungsflüssigkeit zu verringern, wobei die Behandlungsflüssigkeit Wasser, ein Hilfssalz, und ein Additiv, das verhindert, dass der Al-Anschluss eluiert, enthält; und eine Konzentration des Additivs in der Behandlungsflüssigkeit eine Minimalkonzentration CMINoder mehr ist, die in der Lage ist, zu verhindern, dass der Al-Anschluss eluiert.

FÄNGER FÜR ENTFLAMMBAREN ELEKTROLYTDAMPF UND BATTERIEPACK MIT FÄNGER FÜR ENTFLAMMBAREN ELEKTROLYTDAMPF

Resumen de: DE102024103896A1

Ein verbesserter Batteriepack des Typs, der ein Gehäuse umfasst, das eine Vielzahl von Batteriezellen enthält, die eine entflammbare flüchtige Elektrolytkomponente aufweisen. Die Verbesserung umfasst ein Fängermaterial, das die flüchtige entflammbare Elektrolytkomponente absorbiert, die innerhalb des Gehäuses des Batteriepacks angeordnet ist, um die entflammbare flüchtige Elektrolytkomponente zu absorbieren, die aus den Zellen in dem Gehäuse ausläuft.

LITHIUM IRON PHOSPHATE POSITIVE ELECTRODE MATERIAL AND PREPARATION METHOD THEREFOR, AND LITHIUM-ION BATTERY

Resumen de: WO2025137961A1

The present invention relates to the technical field of the preparation of lithium-ion positive electrode materials, and discloses a lithium iron phosphate positive electrode material and a preparation method therefor, and a lithium-ion battery. According to an XRD test, the lithium iron phosphate positive electrode material has characteristic diffraction peaks at 2θA1 of 29.4-29.6°, 2θA2 of 29.8-30° and 2θA3 of 43.8-43.9°. The lithium iron phosphate positive electrode material has specific characteristic diffraction peaks according to an XRD test, and therefore the lithium iron phosphate positive electrode material has a high compaction density, thereby significantly improving the capacity and electrochemical properties such as the cycle performance of a lithium-ion battery assembled from the lithium iron phosphate positive electrode material.

POSITIVE ELECTRODE MATERIAL HAVING OLIVINE STRUCTURE, PREPARATION METHOD THEREFOR, AND LITHIUM ION BATTERY

Resumen de: WO2025137857A1

The present invention relates to the technical field of lithium ion batteries, and in particular to a positive electrode material having an olivine structure, a preparation method therefor, and a lithium ion battery. The positive electrode material comprises a base and a carbon coating layer; in a Raman spectrum, the positive electrode material has Raman responses in the wave number ranges of 940-950 cm-1, 1330-1350 cm-1 and 1580-1610 cm-1, and the Raman responses respectively correspond to three characteristic peaks A, B and C; and the positive electrode material satisfies: 0.01≤the average value of I(A)/I(C)≤0.3 and 0.01≤the average value of I(A)/I(B)≤0.3. The positive electrode material has a uniform carbon coating, so that the positive electrode material has high stability, low specific surface area, low volume resistance and high compacted density; in addition, the positive electrode material is used in the lithium ion battery, achieving excellent electrochemical performance.

FLUORIERTE LITHIUMREICHE UND MANGANBASIERTE OXIDISCHE MATERIALIEN FÜR DIE POSITIVE ELEKTRODE FÜR BATTERIEN, DIE LITHIUM-IONEN ZYKLISIEREN, UND VERFAHREN ZU DEREN HERSTELLUNG

Resumen de: DE102024104357A1

Eine positive Elektrode für eine Batterie, die Lithium-Ionen zyklisiert, enthält ein fluoriertes lithiumreiches manganbasiertes Oxid- (LMR-) Material. Das fluorierte LMR-Material hat die Formel: Li1+xMe1-xO2-yFy, wobei: Me ein Übergangsmetall ist, das aus der Gruppe ausgewählt ist, die aus Co, Ni, Mn, Fe, Al, V, Mo, Nb, Zr, Zn, Mg, Cu, Ti und W besteht; Me auf atomarer Basis mehr als oder gleich 50 % Mn enthält; x größer als 0 und kleiner als oder gleich 0,33 ist; und y größer als 0 und kleiner als oder gleich 0,1 ist.

SYSTEM FOR CONDITIONING A BATTERY PACK AND A POWER INVERTER AND SYSTEM FOR SUPPLYING POWER TO A TELECOMMUNICATIONS SYSTEM

Resumen de: WO2025144066A1

The present invention relates to a system for conditioning a set of batteries (18) and a power inverter (19) for supplying power to a telecommunications system comprising a conditioning chamber (25) for the power inverter (19), a water tank (13) for the set of batteries (18), wherein the walls of the conditioning chamber (25) are made of a composite material, obtained after hardening a cementitious composition comprising a hydraulic binder, cellulose or keratin-based fibres and an adjuvant. The system also includes a water circulation pipe (21) and a pump (20), which moistens the walls of the conditioning chamber (25). The system is weather-resistant, fireproof and contributes to the evaporative cooling of the conditioning chamber (25).

SEPARATOR CO-COATED WITH ANODE AND CATHODE ACTIVE MATERIALS

Resumen de: WO2025144585A1

Systems and methods are provided herein for generating wave pair segments for use in an electrode assembly. For example, a web of ionically permeable and electrically isolating separator material may be coated on a first side with anodically active material. The web may then be coated on a second side, opposite the first side, with cathodically active material. The web may then be cut into equally sized wave-pair segments. A web of cathode current collector material may be cut into a plurality of cathode current collectors and a web of anode current collector material may be cut into a plurality of anode current collectors. The wave-pair segments and current collectors may be interleaved to form an electrode assembly where the alignment between the anode and cathode is fixed.

LITHIUM-RICH MANGANESE-BASED POSITIVE ELECTRODE MATERIAL AND PREPARATION METHOD THEREFOR, POSITIVE ELECTRODE SHEET, BATTERY AND ELECTRONIC EQUIPMENT

Resumen de: WO2025139414A1

A lithium-rich manganese-based positive electrode material and a preparation method therefor, a positive electrode sheet, a battery and electronic equipment. The lithium-rich manganese-based positive electrode material comprises first particles and second particles, wherein the first particles satisfy chemical formula (1), and the second particles satisfy chemical formula (2): aLi2O·bLi2MnO3·cLiXαX'βO2 (1)，and xLi2O·yLi2MnO3·zLiYγY'δO2 (2); in formula (1), -0.1≤a≤0, 00, and b+c-a=1; in formula (2), 0≤x≤0.1, 0.4

LITHIUM MANGANESE IRON PHOSPHATE POSITIVE ELECTRODE MATERIAL, PREPARATION METHOD THEREFOR, AND LITHIUM-ION BATTERY

Resumen de: WO2025138510A1

A lithium manganese iron phosphate positive electrode material, a preparation method therefor, and a lithium-ion battery. The crystallite size Dx at a characteristic peak (020) of the positive electrode material measured by means of XRD and the single particle size Ds of the positive electrode material measured by means of an SEM electron microscope satisfy: 2.0≤Ds/Dx≤4.0. The lithium manganese iron phosphate positive electrode material can solve technical problems such as poor dynamic diffusion capabilities and poor high-rate charging and discharging capabilities, which occur for existing lithium manganese iron phosphate.

ERKENNUNG UND ABSCHWÄCHUNG ANOMALER ZUSTÄNDEIN BATTERIEMODULEN UNTER VERWENDUNG VONDÜNNFILM-DRUCKSENSOREN

Resumen de: DE102024103880A1

Einige der hier beschriebenen Ausführungsformen beziehen sich auf Batteriemanagementsysteme, die Dünnfilm-Drucksensoren verwenden, um anomale Zustände in Verbindung mit Batteriemodulen festzustellen. Einige Ausführungsformen können das Empfangen einer Druckmessung von dem Dünnfilm-Drucksensor, der zwischen zwei Batteriezellen in einem Batteriemodul angeordnet ist, und das Bestimmen eines anormalen Zustands des Batteriemoduls auf der Grundlage der Druckmessung des Dünnfilm-Drucksensors umfassen. Andere Ausführungsformen können offenbart oder beansprucht werden.

METHYLENMETHANDISULFONAT ALS ELEKTROLYTADDITIV FÜR LITHIUM-MANGAN-REICHE ELEKTRODEN

Resumen de: DE102024139827A1

Es wird eine Batteriezelle dargelegt, die eine negative Elektrode, eine Lithium-Mangan-reiche positive Elektrode und einen Elektrolyten mit einem Methylenmethandisulfonat-Additiv umfasst. Der Elektrolyt mit dem Methylenmethandisulfonat-Additiv sättigt die negative und die Lithium-Mangan-reiche positive Elektrode, sodass sich während eines Zyklierens der Batterie eine positive Elektrolytgrenzfläche an einer Oberfläche der Lithium-Mangan-reichen positiven Elektrode bildet. Die positive Elektrolytgrenzfläche führt dazu, dass eine Gleichstromimpedanz der Batteriezelle für einen gegebenen Ladezustand geringer ist als eine Gleichstromimpedanz einer ansonsten gleichen Batteriezelle ohne das Methylenmethandisulfonat-Additiv.

VERFAHREN ZUM ENTSORGEN EINER BATTERIE UND EINE BATTERIE

Resumen de: DE102024138923A1

Ein Hauptziel der vorliegenden Offenbarung ist es, ein Verfahren zum Entsorgen einer Batterie bereitzustellen, mit dem die Batterie gut deaktiviert werden kann. Die vorliegende Offenbarung erreicht das Ziel, indem sie ein Verfahren zum Entsorgen einer Batterie bereitstellt, wobei das Verfahren folgendes umfasst: den Schritt des Eintauchens einer Batterie, die einen Al-Anschluss enthält, in eine Behandlungsflüssigkeit, um eine Spannung der Batterie zu verringern, indem ein äußerer Kurzschluss durch die Behandlungsflüssigkeit verursacht wird, wobei die Behandlungsflüssigkeit Wasser und ein Trägersalz enthält; und der Al-Anschluss an wenigstens einem Teil seiner Oberfläche eine Schutzschicht hat, die verhindert, dass der Al-Anschluss in die Behandlungsflüssigkeit eluiert.

VERBUNDSTOFF-QUERTRÄGER FÜR BATTERIEPACKS VON ELEKTROFAHRZEUGEN

Resumen de: DE102024104354A1

Ein Träger zum Tragen einer Vielzahl von prismatischen Batteriezellen in einem wiederaufladbaren Energiespeichersystem (RESS) eines Elektrofahrzeugs umfasst eine Basis mit einem unteren länglichen horizontalen Flansch und einem oberen länglichen horizontalen Flansch, der schmaler als der untere längliche horizontale Flansch ist und über dem unteren länglichen horizontalen Flansch durch einen vertikalen Steg beabstandet ist. Ein Stegelement kann auf dem oberen länglichen horizontalen Flansch der Basis angeordnet sein und umfasst erste und zweite längliche vertikale Außenwandelemente. Mindestens zwei längliche Blecheinsätze sind zwischen den vertikalen Außenwandelementen angeordnet und so konfiguriert sind, dass sie zumindest teilweise mindestens einen sich in Längsrichtung erstreckenden Kanal zwischen sich bilden. Die länglichen Blecheinsätze können aus Metall hergestellt sein, und der sich in Längsrichtung erstreckende Kanal stellt einen Durchgang für Kühlfluid bereit. Eine Kappe kann in die Oberkanten der vertikalen Wandelemente eingreifen und die Blecheinsätze in dem Raum zwischen dem ersten und dem zweiten vertikalen Wandelement einschließen.

ELECTRODE ACTIVE MATERIAL, ELECTRODE MIXTURE, BATTERY, AND METHOD FOR PRODUCING THESE

Resumen de: US2025219066A1

A main object of the present disclosure is to provide an electrode active material of which volume change due to charge and discharge is small. The present disclosure achieves the object by providing an electrode active material including Si, wherein a Si—H bond is present on a surface of the electrode active material; and a rate of a hydrogen amount (weight %) with respect to a BET specific surface area (m2/g) is more than 0.0034.

SECONDARY BATTERY AND ELECTRONIC APPARATUS

Resumen de: US2025219062A1

An electrode assembly includes a positive electrode plate, a negative electrode plate, and a separator disposed between the positive electrode plate and the negative electrode plate; and the positive electrode plate, the negative electrode plate, and the separator are stacked. An outermost electrode plate of the electrode assembly is a single-sided positive electrode plate. The single-sided positive electrode plate includes a positive electrode current collector, a first positive electrode material layer, and a second positive electrode material layer stacked sequentially. The first positive electrode material layer is located between the positive electrode current collector and the second positive electrode material layer. The second positive electrode material layer is adjacent to the separator. The first positive electrode material layer includes a first positive electrode active substance, a first binder, and a first conductive agent.

POSITIVE ELECTRODE INCLUDING LiFexMn1-xPO4-BASED POSITIVE ELECTRODE ACTIVE MATERIAL AND LITHIUM SECONDARY BATTERY INCLUDING THE SAME

Resumen de: US2025219078A1

The present invention relates to an LFMP-based positive electrode active material for a lithium secondary battery, provided with excellent capacity and lifetime characteristics, and a secondary battery including the same, and specifically, relates to an LFMP-based positive electrode active material for a lithium secondary battery, provided with excellent capacity and long life characteristics due to the composition of the LFMP-based positive electrode active material and structural characteristics of a positive electrode including the same, and a lithium secondary battery including the same.

EXPLOSION-PROOF STRUCTURE, BATTERY AND BATTERY PACK

Resumen de: US2025219237A1

An explosion-proof structure, a battery, and a battery pack are provided. The explosion-proof structure includes a cover plate and an explosion-proof groove including a first sub-groove and a second sub-groove. H1

ELECTRICAL APPARATUS AND CASE

Resumen de: US2025219232A1

An electrical apparatus disclosed herein may include a first tray unit, a second tray unit, and a case body including a tray attachment portion configured to have selectively one of the first tray unit and the second tray unit attached thereto. The first tray unit may include a plurality of first battery attachment portions. The second tray unit may include a plurality of second battery attachment portions. An arrangement of the second battery attachment portions may be different from an arrangement of the first battery attachment portions, and/or a number of the second battery attachment portions may be different from a number of the first battery attachment portions, and/or an attachment structure of each of the second battery attachment portions for attaching the second battery may be different from an attachment structure of each of the first battery attachment portions for attaching the first battery.

A SYSTEM OF FASTENING A BATTERY PACK

Resumen de: US2025219227A1

A battery pack includes: a lever on a front portion of the battery pack; and a latching unit operably connected to the lever. The lever actuates engagement and disengagement of the battery pack with an enclosure. The latching unit is disposed at a rear portion of the battery pack and is configured to engage and disengage the battery pack from the enclosure.

ENERGY STORAGE DEVICE

Resumen de: US2025219255A1

An energy storage device includes an electrode body in which an electrode plate and a separator are stacked, an electrolyte solution, a container to accommodate the electrode body and the electrolyte solution, and a sheet-shaped porous body provided with an insulating property and between the electrode body and the container. A through hole is provided in the electrode plate.

COMPOSITE CROSS-BEAM FOR ELECTRIC VEHICLE BATTERY PACKS

Resumen de: US2025219224A1

A beam for supporting a plurality of prismatic batteries in battery enclosure of an electric vehicle includes a base, having a lower elongate horizontal flange, and an upper elongate horizontal flange, narrower than the lower elongate horizontal flange, spaced above the lower elongate horizontal flange by a vertical web. A web member can be disposed on the upper elongate horizontal flange of the base, and includes first and second elongate exterior vertical wall members. At least two elongate inserts disposed between the vertical exterior wall members, and configured to at least in part form at least one longitudinally extending channel between them. The elongate inserts can be made of metal and the longitudinally extending channel provides a pathway for cooling fluid. A cap can engage the upper edges of the vertical wall members and enclose the metal inserts in the space between the first and second vertical wall members.

POSITIVE ELECTRODE COMPOSITE ACTIVE MATERIAL AND METHOD FOR PRODUCING POSITIVE ELECTRODE COMPOSITE ACTIVE MATERIAL

Resumen de: US2025219060A1

The present invention provides a positive electrode composite active substance which includes a uniform coating layer as compared with the related art and can suppress generation of gas due to decomposition of a nonaqueous electrolytic solution, and a method of manufacturing the positive electrode composite active substance. An oxide active substance, and a coating layer covering a surface of the oxide active substance are provided, the oxide active substance includes a lithium manganese-based oxide having a spinel-type crystal structure, the coating layer includes a phosphate-based compound represented by Formula (1), and the coating layer has a thickness of 5 nm or more and 20 nm or less,LiaAbDcPO4  (1)where a, b, and c satisfy 0.9

STEEL FOIL FOR CURRENT COLLECTOR, AND ALL-SOLID-STATE SECONDARY CELL

Resumen de: US2025219104A1

The steel foil for a current collector according to the present disclosure includes a ferritic stainless steel foil. In an X-ray diffraction profile with CoKα rays of the ferritic stainless steel foil according to the present disclosure, the half width Fw of the peak for the {110} plane is 0.40 to 0.52°.

CYLINDRICAL SECONDARY BATTERY

Resumen de: US2025219079A1

This cylindrical secondary battery comprises: an electrode body having a positive electrode and a negative electrode; a bottomed cylindrical exterior body, having an outer diameter of 25 mm or more; and a sealing body. The positive electrode includes a positive-electrode current collector, and a positive-electrode mixture layer, the positive-electrode mixture layer containing a positive-electrode active material and a sulfonic acid compound represented by general formula (I). The positive-electrode active material includes a lithium-containing composite oxide having a layered rock-salt structure. The weight per unit area of the positive-electrode mixture layer is 250 g/m2 or more. In the electrode body, three or more positive-electrode leads are led out.(In the formula, A is a group 1 element or a group 2 element, R is a hydrocarbon group, and n is 1 or 2.)

SOLID-STATE SECONDARY BATTERY

Nº publicación: US2025219161A1 03/07/2025

Solicitante:

HONDA MOTOR CO LTD [JP]
HONDA MOTOR CO., LTD

Resumen de: US2025219161A1

The present invention addresses the problem of providing a solid-state secondary battery capable of suppressing the uneven depositing of metal in a negative electrode interface in the solid-state secondary battery, and capable of improving cycling characteristics. The means for solving the problem is a solid-state secondary battery having a positive electrode layer, a negative electrode layer including at least a negative electrode current collector, a solid electrolyte layer containing a solid electrolyte material, and an intermediate layer provided between the negative electrode layer and the solid electrolyte layer. The voidage of the intermediate layer is greater than the voidage of the solid electrolyte layer.