Schröder, Daniel.
Analysis of Reaction and Transport Processes in Zinc Air Batteries [electronic resource] / by Daniel Schröder. - 1st ed. 2016. - XXXVII, 231 p. 57 illus. online resource.
Introduction on Zinc Air Batteries -- Characterizing Reaction and Transport Processes -- Identifying Factors for Long-Term Stable Operation.
This book contains a novel combination of experimental and model-based investigations, elucidating the complex processes inside zinc air batteries. The work presented helps to answer which battery composition and which air-composition should be adjusted to maintain stable and efficient charge/discharge cycling. In detail, electrochemical investigations and X-ray transmission tomography are applied on button cell zinc air batteries and in-house set-ups. Moreover, model-based investigations of the battery anode and the impact of relative humidity, active operation, carbon dioxide and oxygen on zinc air battery operation are presented. The techniques used in this work complement each other well and yield an unprecedented understanding of zinc air batteries. The methods applied are adaptable and can potentially be applied to gain further understanding of other metal air batteries. Contents Introduction on Zinc Air Batteries Characterizing Reaction and Transport Processes Identifying Factors for Long-Term Stable Operation Target Groups Teachers and students in the field of electrochemistry, energy technology and process engineering Engineers, natural scientists The Author Daniel Schröder works currently as research assistant at the Justus-Liebig-Universität Gießen, Physikalisch-Chemisches Institut, AG Janek and is group leader of the metal air battery research group, analyzing Li-, Na- and Zn-air batteries.
9783658122911
10.1007/978-3-658-12291-1 doi
Electric power production.
Engineering mathematics.
Engineering—Data processing.
Thermodynamics.
Heat engineering.
Heat transfer.
Mass transfer.
Electrical Power Engineering.
Mechanical Power Engineering.
Mathematical and Computational Engineering Applications.
Engineering Thermodynamics, Heat and Mass Transfer.
TK1001-1841
621.31
Analysis of Reaction and Transport Processes in Zinc Air Batteries [electronic resource] / by Daniel Schröder. - 1st ed. 2016. - XXXVII, 231 p. 57 illus. online resource.
Introduction on Zinc Air Batteries -- Characterizing Reaction and Transport Processes -- Identifying Factors for Long-Term Stable Operation.
This book contains a novel combination of experimental and model-based investigations, elucidating the complex processes inside zinc air batteries. The work presented helps to answer which battery composition and which air-composition should be adjusted to maintain stable and efficient charge/discharge cycling. In detail, electrochemical investigations and X-ray transmission tomography are applied on button cell zinc air batteries and in-house set-ups. Moreover, model-based investigations of the battery anode and the impact of relative humidity, active operation, carbon dioxide and oxygen on zinc air battery operation are presented. The techniques used in this work complement each other well and yield an unprecedented understanding of zinc air batteries. The methods applied are adaptable and can potentially be applied to gain further understanding of other metal air batteries. Contents Introduction on Zinc Air Batteries Characterizing Reaction and Transport Processes Identifying Factors for Long-Term Stable Operation Target Groups Teachers and students in the field of electrochemistry, energy technology and process engineering Engineers, natural scientists The Author Daniel Schröder works currently as research assistant at the Justus-Liebig-Universität Gießen, Physikalisch-Chemisches Institut, AG Janek and is group leader of the metal air battery research group, analyzing Li-, Na- and Zn-air batteries.
9783658122911
10.1007/978-3-658-12291-1 doi
Electric power production.
Engineering mathematics.
Engineering—Data processing.
Thermodynamics.
Heat engineering.
Heat transfer.
Mass transfer.
Electrical Power Engineering.
Mechanical Power Engineering.
Mathematical and Computational Engineering Applications.
Engineering Thermodynamics, Heat and Mass Transfer.
TK1001-1841
621.31