Author
Listed:
- Marcela M. Marcelino
(Programa de Engenharia Industrial, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil)
- Gary A. Leeke
(School of Chemical Engineering, University of Birmingham, Birmingham B15 2TT, UK)
- Guozhan Jiang
(School of Chemical Engineering, University of Birmingham, Birmingham B15 2TT, UK)
- Jude A. Onwudili
(Energy & Bioproducts Research Institute, School of Infrastructure & Sustainable Engineering, Aston University, Birmingham B4 7ET, UK)
- Carine T. Alves
(Programa de Engenharia Industrial, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil
Departamento de Engenharia de Energia, Centro de Ciência e Tecnologia em Energia e Sustentabilidade, Universidade Federal do Recôncavo da Bahia (UFRB), Feira de Santana 44085-132, Brazil
Centro Interdisciplinar em Energia e Ambiente (CIENAM), Campus Universitário Federação/Ondina, Universidade Federal da Bahia (UFBA), Salvador 40170-115, Brazil)
- Ana Luiza F. de Sousa
(Departamento de Engenharia Química, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil)
- Delano M. de Santana
(Programa de Engenharia Industrial, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil
Centro Interdisciplinar em Energia e Ambiente (CIENAM), Campus Universitário Federação/Ondina, Universidade Federal da Bahia (UFBA), Salvador 40170-115, Brazil)
- Felipe A. Torres
(Programa de Engenharia Industrial, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil
Centro Interdisciplinar em Energia e Ambiente (CIENAM), Campus Universitário Federação/Ondina, Universidade Federal da Bahia (UFBA), Salvador 40170-115, Brazil
Departamento de Sistemas Mecânicos, Centro de Ciências Exatas e Tecnológicas, Universidade Federal do Recôncavo da Bahia, Cruz das Almas 44380-000, Brazil)
- Silvio A. B. Vieira de Melo
(Programa de Engenharia Industrial, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil
Centro Interdisciplinar em Energia e Ambiente (CIENAM), Campus Universitário Federação/Ondina, Universidade Federal da Bahia (UFBA), Salvador 40170-115, Brazil)
- Ednildo A. Torres
(Programa de Engenharia Industrial, Escola Politécnica, Universidade Federal da Bahia, Rua Prof. Aristides Novis, 2, 6° Andar, Federação, Salvador 40210-630, Brazil
Centro Interdisciplinar em Energia e Ambiente (CIENAM), Campus Universitário Federação/Ondina, Universidade Federal da Bahia (UFBA), Salvador 40170-115, Brazil)
Abstract
Impregnation of metal catalysts into biomass before thermochemical conversion may provide benefits of increased selective reactivity to obtain desirable products. In this work, coconut shells impregnated with increasing loadings of nickel were successfully prepared using a room-temperature impregnation method using a nickel salt solution at 1 and 2 molar (M) concentrations. The physicochemical characterization of the 2 M impregnated sample revealed the presence of 5.6 wt% of nickel with a particle size of 13.5 nm. The nickel-impregnated samples’ supercritical water gasification (SCWG) was conducted with biomass loading ranging from 20 wt% to 30 wt%, at temperatures between 400 °C and 500 °C, and residence times from 20 to 60 min. Higher nickel loading, higher temperatures and longer reaction times promoted the production of H 2 and CO 2 up to 15 and 79 mol%. Higher nickel loading also led to an increased Hydrogen Gasification Efficiency value of up to 133%. The analysis of hydrochars suggested that increasing nickel loading enhanced the reduction in nickel ions to the Ni 0 nanoparticles, leading to higher H 2 . Additionally, the chemical composition of the liquid product showed the significant ability of nickel to promote lignin decomposition into phenol, facilitating the phenol hydrogenation reaction and subsequent gas production.
Suggested Citation
Marcela M. Marcelino & Gary A. Leeke & Guozhan Jiang & Jude A. Onwudili & Carine T. Alves & Ana Luiza F. de Sousa & Delano M. de Santana & Felipe A. Torres & Silvio A. B. Vieira de Melo & Ednildo A. T, 2024.
"Effect of Nickel Nanocatalyst Loading on Supercritical Water Gasification of Coconut Shell,"
Energies, MDPI, vol. 17(4), pages 1-26, February.
Handle:
RePEc:gam:jeners:v:17:y:2024:i:4:p:872-:d:1338296
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