Biocarvões, a partir de resíduos amazônicos, na esterificação do destilado de óleo de palma em biodiesel

Autores

  • Nathalia Lobato Moraes UFPA Autor
  • Maitê Thaís Barros Campos UFPA Autor
  • Luiz Augusto Barbosa Santos UFPA Autor
  • Klayton Francisco Pereira Oliveira UFPA Autor
  • Larissa Carla Pinheiro Gatti UFPA Autor
  • Marcos Jhony Almeida Costa UFPA Autor
  • Ana Alice Farias da Costa UFPA Autor
  • Rafael Luque Universidad ECOTEC Autor
  • Luiz Antônio Magalhães Pontes UFBA Autor
  • Geraldo Narciso da Rocha Filho UFPA Autor
  • Luís Adriano Santos do Nascimento UFPA Autor

Palavras-chave:

biochar, murumuru bark, açaí seed residue, DDOP, esterification, biodiesel

Resumo

The valorization of solid waste is fundamental for the development of new sustainable products in the area of biofuels and bioenergy (Rahul et al., 2024; Yogin Soodesh et al., 2024). In this work, Amazonian biochars were developed from murumuru husks and the alcoholic extraction residue of açaí seeds for biodiesel production, according to Laohapornchaiphan, Smith, and Smith (2017) method. The biomass was subjected to hydrothermal carbonization at 240 °C for 10 hours and functionalized with ρ-toluenesulfonic acid (PTSA) in a 1:2 ratio of residual biomass to PTSA for the synthesis of biocatalysts. Biodiesel was obtained by esterification of the deodorized palm oil distillate (DDOP) under conditions of 65 °C ± 5 °C for 2 and 4 hours. TGA and FT-IR analyses confirmed that PTSA functionalization was effective at 240 °C, highlighting aromatic C=C (~1573 and 1603 cm⁻¹) or NH2 (1590–1550 cm⁻¹) functional groups, characteristic of lignocellulosic biomass, and esters C–O (1300–1020 cm⁻¹) and S=O (1350–1040 cm⁻¹) indicative of PTSA, as described by Laohapornchaiphan et al. (2017) and Queiroz et al. (2020). The best biodiesel conversions with biocatalysts were 87.29% and 89.15%, with murumuru husk biochar at 2 hours and açaí seed residue biochar at 4 hours, respectively, while the control sample showed a conversion of 10.52%. Thus, the bioproducts show potential in esterification reactions and in promoting biorefinery by utilizing three residual raw materials derived from murumuru (Astrocaryum murumuru), açaí (Euterpe oleracea), and palm (Elaeis guineensis) for biofuel production.

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Referências

Laohapornchaiphan, J., Smith, C.B., Smith, S.M., 2017. One-step Preparation of Carbon-based Solid Acid Catalyst from Water Hyacinth Leaves for Esterification of Oleic Acid and Dehydration of Xylose. Chem. - An Asian J. 12, 3178–3186. https://doi.org/10.1002/asia.201701369

Queiroz, L.S., de Souza, L.K.C., Thomaz, K.T.C., Leite Lima, E.T., da Rocha Filho, G.N., do Nascimento, L.A.S., de Oliveira Pires, L.H., Faial, K. do C.F., da Costa, C.E.F., 2020. Activated carbon obtained from amazonian biomass tailings (acai seed): Modification, characterization, and use for removal of metal ions from water. J. Environ. Manage. 270, 110868. https://doi.org/10.1016/j.jenvman.2020.110868

Rahul, S., Dhanuprabha, D., Prabakaran, S., Arumugam, A., 2024. An integrated biorefinery of Madhuca indica for co-production of biodiesel, bio-oil, and biochar: Towards a sustainable circular bioeconomy. Ind. Crops Prod. 221. https://doi.org/10.1016/j.indcrop.2024.119409

Yogin Soodesh, C., Seriyala, A.K., Navjot, Chattopadhyay, P., Rozhkova, N., Michalkiewicz, B., Chatterjee, S., Roy, B., 2024. Carbonaceous catalysts (biochar and activated carbon) from agricultural residues and their application in production of biodiesel: A review. Chem. Eng. Res. Des. 203, 759–788. https://doi.org/10.1016/j.cherd.2024.02.002

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Publicado

15-11-2024

Edição

Seção

Catálise aplicada na produção de combustíveis, biocombustíveis, produtos químicos e energia.

Como Citar

MORAES, Nathalia Lobato et al. Biocarvões, a partir de resíduos amazônicos, na esterificação do destilado de óleo de palma em biodiesel. XIV Encontro de Catálise do Norte, Nordeste e Centro-Oeste, Brasil, 2024. Disponível em: https://submissao.sbcat.org/index.php/xivencat/article/view/93. Acesso em: 26 dez. 2024.

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