Difference between revisions of "OPL Battery"

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(Created page with "'''Battery Cell''' is informatical and systemic. '''Cathode''' is informatical and systemic. '''Electrolyte''' is informatical and systemic. '''Separator''' is informatical an...")
 
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Back to [[Energy_Storage_via_Battery]].
'''Battery Cell''' is informatical and systemic.
'''Battery Cell''' is informatical and systemic.
'''Cathode''' is informatical and systemic.
'''Cathode''' is informatical and systemic.
'''Electrolyte''' is informatical and systemic.
'''Electrolyte''' is informatical and systemic.
'''Separator''' is informatical and systemic.
'''Separator''' is informatical and systemic.
'''Anode''' is informatical and systemic.
'''Anode''' is informatical and systemic.
'''Electrons''' is physical and systemic.
'''Electrons''' is physical and systemic.
'''Positive Electrode''' is informatical and systemic.
'''Positive Electrode''' is informatical and systemic.
'''Negative Electrode''' is informatical and systemic.
'''Negative Electrode''' is informatical and systemic.
'''External Conductor''' is physical and environmental.
'''External Conductor''' is physical and environmental.
'''Internal Conductors''' is informatical and systemic.
'''Internal Conductors''' is informatical and systemic.
'''Battery Pack''' is informatical and systemic.
'''Battery Pack''' is informatical and systemic.


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'''Current of Battery Pack''' and '''Battery Pack''' is physical and systemic.
'''Current of Battery Pack''' and '''Battery Pack''' is physical and systemic.
'''Current of Battery Pack''' and '''Battery Pack''' can be none or i.
'''Current of Battery Pack''' and '''Battery Pack''' can be none or i.
'''Power Capacity Density''' of '''Battery Cell''' is physical and systemic.
'''Power Capacity Density''' of '''Battery Cell''' is physical and systemic.
'''Specific Energy Density''' of '''Battery Cell''' is physical and systemic.
'''Specific Energy Density''' of '''Battery Cell''' is physical and systemic.
'''Energy Density''' of '''Battery Pack''' is physical and systemic.
'''Energy Density''' of '''Battery Pack''' is physical and systemic.
'''Energy Capacity Cost''' of '''Battery Pack''' is physical and systemic.
'''Energy Capacity Cost''' of '''Battery Pack''' is physical and systemic.
'''Power Capacity Cost''' of '''Battery Pack''' is physical and systemic.
'''Power Capacity Cost''' of '''Battery Pack''' is physical and systemic.
'''Cycle Life''' of '''Battery Pack''' is physical and systemic.
'''Cycle Life''' of '''Battery Pack''' is physical and systemic.
'''Energy Efficiency Rate''' of '''Battery Pack''' is physical and systemic.
'''Energy Efficiency Rate''' of '''Battery Pack''' is physical and systemic.
'''Max Depth Discharge''' of '''Battery Pack''' is physical and systemic.
'''Max Depth Discharge''' of '''Battery Pack''' is physical and systemic.


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'''Separating''' requires '''Separator'''.
'''Separating''' requires '''Separator'''.
'''Separating''' affects '''Anode''', '''Cathode''', and '''Electrons'''.
'''Separating''' affects '''Anode''', '''Cathode''', and '''Electrons'''.
Back to [[Energy_Storage_via_Battery]].

Latest revision as of 02:26, 27 November 2019

Back to Energy_Storage_via_Battery.


Battery Cell is informatical and systemic.

Cathode is informatical and systemic.

Electrolyte is informatical and systemic.

Separator is informatical and systemic.

Anode is informatical and systemic.

Electrons is physical and systemic.

Positive Electrode is informatical and systemic.

Negative Electrode is informatical and systemic.

External Conductor is physical and environmental.

Internal Conductors is informatical and systemic.

Battery Pack is informatical and systemic.

Voltage of Battery Pack is physical and systemic. Voltage of Battery Pack can be high or low. Current of Battery Pack and Battery Pack is physical and systemic. Current of Battery Pack and Battery Pack can be none or i.

Power Capacity Density of Battery Cell is physical and systemic.

Specific Energy Density of Battery Cell is physical and systemic.

Energy Density of Battery Pack is physical and systemic.

Energy Capacity Cost of Battery Pack is physical and systemic.

Power Capacity Cost of Battery Pack is physical and systemic.

Cycle Life of Battery Pack is physical and systemic.

Energy Efficiency Rate of Battery Pack is physical and systemic.

Max Depth Discharge of Battery Pack is physical and systemic.

Battery Cell consists of Anode, Cathode, Electrolyte, and Separator. Battery Pack consists of Battery Cell, Internal Conductors, Negative Electrode, and Positive Electrode.

Battery Cell exhibits Power Capacity Density and Specific Energy Density. Battery Pack exhibits Current, Cycle Life, Energy Efficiency, Energy Capacity Cost, Energy Density, Max Depth Discharge, Power Capacity Cost, and Voltage.

Reduction is physical and systemic. Reduction requires Cathode and Electrolyte. Reduction consumes Electrons.

Oxidation is physical and systemic. Oxidation requires Anode and Electrolyte. Oxidation yields Electrons.

Attracting is physical and systemic. Positive Electrode handles Attracting. Attracting affects Electrons.

Repulsing is physical and systemic. Negative Electrode handles Repulsing. Repulsing affects Electrons.

Conducting is physical and environmental. Conducting changes Voltage of Battery Pack from high to low. Conducting changes Current of Battery Pack and Battery Pack from none to i. Conducting requires External Conductor. Conducting affects Electrons.

Separating is physical and systemic. Separating requires Separator. Separating affects Anode, Cathode, and Electrons.


Back to Energy_Storage_via_Battery.