| Presentation | 2007-04-25 A Simulation of Redox Flow Battery by Dynamical Model based on Chemical Reaction Minghua LI, Takashi HIKIHARA, |
|---|---|
| PDF Download Page |  PDF download Page Link |
| Abstract(in Japanese) | (See Japanese page) |
| Abstract(in English) | Redox flow battery is one of rechargeable batteries. It has an ability to average loads, and output of power sources, and restrict a sudden voltage drop. The transient characteristics is the remarkable feature of the battery. The dynamics is structurally governed by electrical circuit, chemical reaction, and fluid dynamics. It makes the analysis of transient dynamics difficult. In this paper, we focus on transient characteristics of Redox flow battery. A model is derived based on the chemical reaction with change concentration depending on the flow of electrolysis solution. The relation of is externally restricted through the electric circuit. Moreover the validity of the derived model is examined numerically and experimentally. |
| Keyword(in Japanese) | (See Japanese page) |
| Keyword(in English) | redox flow battery / rechargeable battery / dynamical model / chemical reaction rate / simulation |
| Paper # | NLP2007-8 |
| Date of Issue |
| Conference Information | |
| Committee | NLP |
|---|---|
| Conference Date | 2007/4/18(1days) |
| Place (in Japanese) | (See Japanese page) |
| Place (in English) | |
| Topics (in Japanese) | (See Japanese page) |
| Topics (in English) | |
| Chair | |
| Vice Chair | |
| Secretary | |
| Assistant | |
| Paper Information | |
| Registration To | Nonlinear Problems (NLP) |
|---|---|
| Language | JPN |
| Title (in Japanese) | (See Japanese page) |
| Sub Title (in Japanese) | (See Japanese page) |
| Title (in English) | A Simulation of Redox Flow Battery by Dynamical Model based on Chemical Reaction |
| Sub Title (in English) | |
| Keyword(1) | redox flow battery |
| Keyword(2) | rechargeable battery |
| Keyword(3) | dynamical model |
| Keyword(4) | chemical reaction rate |
| Keyword(5) | simulation |
| 1st Author's Name | Minghua LI |
| 1st Author's Affiliation | Kyoto University, Department of Electrical Engineering() |
| 2nd Author's Name | Takashi HIKIHARA |
| 2nd Author's Affiliation | Kyoto University, Department of Electrical Engineering |
| Date | 2007-04-25 |
| Paper # | NLP2007-8 |
| Volume (vol) | vol.107 |
| Number (no) | 21 |
| Page | pp.pp.- |
| #Pages | 5 |
| Date of Issue | |