Duan, Y.; Wang, L.; Hong, Y.; Zhang, D.; Zhou, W.; Xie, L.; Zhao, W.; Huo, L.; Yan, S.; Ren, X.
Temperature-Dependent Crystallization Optimization for Upcycling Purified Ash from the Calcium Carbide Industry: A Sustainable Approach for Mg(OH)2/Aragonite Coproduction. Processes 2025, 13, 1370.
https://doi.org/10.3390/pr13051370
AMA Style
Duan Y, Wang L, Hong Y, Zhang D, Zhou W, Xie L, Zhao W, Huo L, Yan S, Ren X.
Temperature-Dependent Crystallization Optimization for Upcycling Purified Ash from the Calcium Carbide Industry: A Sustainable Approach for Mg(OH)2/Aragonite Coproduction. Processes. 2025; 13(5):1370.
https://doi.org/10.3390/pr13051370
Chicago/Turabian Style
Duan, Yingfeng, Lu Wang, Yanyun Hong, Deliang Zhang, Wenwu Zhou, Liangbin Xie, Weiqin Zhao, Lianjie Huo, Shaobang Yan, and Xiubin Ren.
2025. "Temperature-Dependent Crystallization Optimization for Upcycling Purified Ash from the Calcium Carbide Industry: A Sustainable Approach for Mg(OH)2/Aragonite Coproduction" Processes 13, no. 5: 1370.
https://doi.org/10.3390/pr13051370
APA Style
Duan, Y., Wang, L., Hong, Y., Zhang, D., Zhou, W., Xie, L., Zhao, W., Huo, L., Yan, S., & Ren, X.
(2025). Temperature-Dependent Crystallization Optimization for Upcycling Purified Ash from the Calcium Carbide Industry: A Sustainable Approach for Mg(OH)2/Aragonite Coproduction. Processes, 13(5), 1370.
https://doi.org/10.3390/pr13051370
