Hazard mitigation within a battery pack using metal-air cells
First Claim
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1. A battery pack with an integrated hazard mitigation system, comprising:
- a battery pack enclosure;
a plurality of metal-air cells contained within said battery pack enclosure;
a plurality of non-metal-air cells contained within said battery pack enclosure;
a first air inlet providing a first air flow pathway into and out of said battery pack enclosure, wherein air entering said first air inlet flows through said plurality of non-metal air cells prior to flowing through said plurality of metal-air cells;
a second air inlet providing a second air flow pathway into and out of said battery pack enclosure, wherein air entering said second air inlet flows through said plurality of metal-air cells without first flowing through said plurality of non-metal air cells;
a first valve coupled to said first air inlet, wherein said first valve controls air flow through said first air inlet;
at least one pressure sensor within said battery pack enclosure;
a system controller coupled to said first valve and to said at least one pressure sensor, wherein said system controller is programmed to determine if a pressure monitored by said at least one pressure sensor is indicative of at least one of said plurality of non-metal-air cells entering into thermal runaway, and wherein if said pressure monitored by said at least one pressure sensor is indicative of at least one of said plurality of non-metal-air cells entering into thermal runaway said system controller is further programmed to close said first valve, wherein closing said first valve closes said first air inlet and forces effluent generated during said thermal runaway of at least one of said plurality of non-metal-air cells to pass through said plurality of metal-air cells before being expelled through said second air inlet.
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Abstract
A system and method for mitigating the effects of a thermal event within a battery pack is provided in which the hot gas and material generated during the thermal runaway of at least one non-metal-air cell of a plurality of non-metal-air cells is directed through one or more metal-air cells, the metal-air cells absorbing at least a portion of the thermal energy generated during the event before it is released to the ambient environment. As a result, the risks to vehicle passengers, bystanders, first responders and property are limited.
4 Citations
4 Claims
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1. A battery pack with an integrated hazard mitigation system, comprising:
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a battery pack enclosure; a plurality of metal-air cells contained within said battery pack enclosure; a plurality of non-metal-air cells contained within said battery pack enclosure; a first air inlet providing a first air flow pathway into and out of said battery pack enclosure, wherein air entering said first air inlet flows through said plurality of non-metal air cells prior to flowing through said plurality of metal-air cells; a second air inlet providing a second air flow pathway into and out of said battery pack enclosure, wherein air entering said second air inlet flows through said plurality of metal-air cells without first flowing through said plurality of non-metal air cells; a first valve coupled to said first air inlet, wherein said first valve controls air flow through said first air inlet; at least one pressure sensor within said battery pack enclosure; a system controller coupled to said first valve and to said at least one pressure sensor, wherein said system controller is programmed to determine if a pressure monitored by said at least one pressure sensor is indicative of at least one of said plurality of non-metal-air cells entering into thermal runaway, and wherein if said pressure monitored by said at least one pressure sensor is indicative of at least one of said plurality of non-metal-air cells entering into thermal runaway said system controller is further programmed to close said first valve, wherein closing said first valve closes said first air inlet and forces effluent generated during said thermal runaway of at least one of said plurality of non-metal-air cells to pass through said plurality of metal-air cells before being expelled through said second air inlet. - View Dependent Claims (2, 3, 4)
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Specification