Hasil untuk "physics.app-ph"

C. Orchard, J. Kentish

Ryo Kanzaki, Tomoya Hidaka, Shinji Tajima et al.

Haochen Wang, Shaopin Xiong

Abstract Lithium slurry batteries, as an electrochemical energy storage technology, have the advantages of high operating voltage, large energy density and flexible configuration, and have broad application prospects. Due to the high cost of experiment time, materials traditional experimental methods have low R&D efficiency and the internal reactions and physical fields of batteries are very complex, research on battery performance is difficult and the threshold is high. To overcome this challenge, A new dynamic three-dimensional multi physical field coupling model for lithium slurry flow batteries has been proposed. This model can study the fluid dynamics of slurry batteries, the electrochemistry of lithium electrode reactions, the transport of lithium in solid particles, and the mass balance in storage tanks. Based on this model, we develop model applications using Comsol’s built-in interface. This app has a simple interface and simple operation to reduce the threshold for researchers and improve their research efficiency.

D. Nordstrom, C. Alpers

A. Degen, M. Kosec

K. Straub, M. Benz, B. Schink

P. Snee, R. C. Somers, Gautham P Nair et al.

K. Kostikas, G. Papatheodorou, K. Ganas et al.

O. Pokrovsky, J. Schott

R. Buck, S. Rondinini, A. Covington et al.

Eun Seong Lee, Zhong-gao Gao, Dongin Kim et al.

A. Aggeli, M. Bell, L. Carrick et al.

Yan-Li Zhao, Zongxi Li, Sanaz Kabehie et al.

Ayşegül Kırca, M. Özkan, B. Cemeroǧlu

M. Lemmon

S. M. Alavi, J. Cosson

Xianju Wang, Dongsheng Zhu, Shuo Yang

D. Pelegrine, C. Gasparetto

Robert O. Miller, D. Kissel

L. Zhuang, Shungui Zhou, Yongtao Li et al.