da Silva, K.S.; Cortez, M.d.O.B.; Mazzini, L.F.M.; Favero, U.G.; Rodrigues, L.d.N.; da Silva, R.C.; Hespanhol, M.C.; Moreira, R.P.L.
Sustainable Hydrochar from Orange Peel and Bagasse: A Wet Pyrolysis Approach for Efficient Fe2+ and Mn2+ Removal from Water Using a Factorial Design. Processes 2025, 13, 2040.
https://doi.org/10.3390/pr13072040
AMA Style
da Silva KS, Cortez MdOB, Mazzini LFM, Favero UG, Rodrigues LdN, da Silva RC, Hespanhol MC, Moreira RPL.
Sustainable Hydrochar from Orange Peel and Bagasse: A Wet Pyrolysis Approach for Efficient Fe2+ and Mn2+ Removal from Water Using a Factorial Design. Processes. 2025; 13(7):2040.
https://doi.org/10.3390/pr13072040
Chicago/Turabian Style
da Silva, Karina Sampaio, Marcela de Oliveira Brahim Cortez, LuÃsa Faria Monteiro Mazzini, Ueslei G. Favero, Leonarde do Nascimento Rodrigues, Renê Chagas da Silva, Maria C. Hespanhol, and Renata Pereira Lopes Moreira.
2025. "Sustainable Hydrochar from Orange Peel and Bagasse: A Wet Pyrolysis Approach for Efficient Fe2+ and Mn2+ Removal from Water Using a Factorial Design" Processes 13, no. 7: 2040.
https://doi.org/10.3390/pr13072040
APA Style
da Silva, K. S., Cortez, M. d. O. B., Mazzini, L. F. M., Favero, U. G., Rodrigues, L. d. N., da Silva, R. C., Hespanhol, M. C., & Moreira, R. P. L.
(2025). Sustainable Hydrochar from Orange Peel and Bagasse: A Wet Pyrolysis Approach for Efficient Fe2+ and Mn2+ Removal from Water Using a Factorial Design. Processes, 13(7), 2040.
https://doi.org/10.3390/pr13072040
