Zhang, X.; Song, Z.; Jiang, D.; Xia, C.; Li, Z.; Li, W.; Zhang, Q.
Towards Higher Energy Conversion Efficiency by Bio-Hydrogen and Bio-Methane Co-Production: Effect of Enzyme Loading and Initial pH. Fermentation 2025, 11, 503.
https://doi.org/10.3390/fermentation11090503
AMA Style
Zhang X, Song Z, Jiang D, Xia C, Li Z, Li W, Zhang Q.
Towards Higher Energy Conversion Efficiency by Bio-Hydrogen and Bio-Methane Co-Production: Effect of Enzyme Loading and Initial pH. Fermentation. 2025; 11(9):503.
https://doi.org/10.3390/fermentation11090503
Chicago/Turabian Style
Zhang, Xueting, Zhipeng Song, Danping Jiang, Chenxi Xia, Zejie Li, Wenzhe Li, and Quanguo Zhang.
2025. "Towards Higher Energy Conversion Efficiency by Bio-Hydrogen and Bio-Methane Co-Production: Effect of Enzyme Loading and Initial pH" Fermentation 11, no. 9: 503.
https://doi.org/10.3390/fermentation11090503
APA Style
Zhang, X., Song, Z., Jiang, D., Xia, C., Li, Z., Li, W., & Zhang, Q.
(2025). Towards Higher Energy Conversion Efficiency by Bio-Hydrogen and Bio-Methane Co-Production: Effect of Enzyme Loading and Initial pH. Fermentation, 11(9), 503.
https://doi.org/10.3390/fermentation11090503
