Xu, K.; Qi, Y.; Sun, C.; Ai, D.; Wang, J.; He, W.; Yang, F.; Ren, H.
Exergy Flow as a Unifying Physical Quantity in Applying Dissipative Lagrangian Fluid Mechanics to Integrated Energy Systems. Entropy 2024, 26, 791.
https://doi.org/10.3390/e26090791
AMA Style
Xu K, Qi Y, Sun C, Ai D, Wang J, He W, Yang F, Ren H.
Exergy Flow as a Unifying Physical Quantity in Applying Dissipative Lagrangian Fluid Mechanics to Integrated Energy Systems. Entropy. 2024; 26(9):791.
https://doi.org/10.3390/e26090791
Chicago/Turabian Style
Xu, Ke, Yan Qi, Changlong Sun, Dengxin Ai, Jiaojiao Wang, Wenxue He, Fan Yang, and Hechen Ren.
2024. "Exergy Flow as a Unifying Physical Quantity in Applying Dissipative Lagrangian Fluid Mechanics to Integrated Energy Systems" Entropy 26, no. 9: 791.
https://doi.org/10.3390/e26090791
APA Style
Xu, K., Qi, Y., Sun, C., Ai, D., Wang, J., He, W., Yang, F., & Ren, H.
(2024). Exergy Flow as a Unifying Physical Quantity in Applying Dissipative Lagrangian Fluid Mechanics to Integrated Energy Systems. Entropy, 26(9), 791.
https://doi.org/10.3390/e26090791