Issue Papers
Faça o download dos Issue Papers do Projeto SUCRE e confira suas referências abaixo.
Issue Papers
Faça o download dos Issue Papers do Projeto SUCRE e confira suas referências abaixo.
Referências
Bonomi, A.; Cavalett, O.; CUNHA, M.; Lima, M. A., (2016). Virtual biorefinery. Cham:Springer International Publishing.
Cundall, A. P.; Strack, O. D. L. A. (1979). Discrete Numerical Model for Granular Assemblies. Geotechnique. v. 29, pp. 47-65.
Duft, D.G. et al. In revision. Exploring potential land for sugarcane expansion regarding conservation and environmental relevant areas in Brazil. Journal of Cleaner production.
Hassuani, S. J.; Leal, M. R. L. V.; Macedo, I. de C., (2005). Biomass Power Generation: Sugar Cane Bagasse and Trash. Série Caminhos para Sustentabilidade – 01. Piracicaba, São Paulo, Brasil : PNUD – Programa das Nações Unidas para o Desenvolvimento. CTC – Centro de Tecnologia Canavieira.
Hernandes, T.A.D. et al., (2018a). Assessment of impacts on basin stream flow derived from medium-term sugarcane expansion scenarios in Brazil. Agriculture, Ecosystems and Environment. 259:11-18. https://doi.org/10.1016/j.agee.2018.02.026.
Hernandes, T.A.D., et al., (2018b). Assessment of the recent land use change dynamics related to sugarcane expansion and the associated effects on water resources availability. Journal of Cleaner Production. 197: 1328-1341. https://doi.org/10.1016/j.jclepro.2018.06.297.
Leal, M. R. L. V. et al., (2013). Sugarcane straw availability, quality, recovery and energy use: A literature review. Biomass & Bioenergy. 53, 11-19.
Leal, M.R.L.V., Hernandes, T.A.D. and Mantelatto, P.E., (2019). Sugarcane agricultural residues: potential, bottlenecks and solutions. Proceedings of International Society of Sugar Cane Technologists ISSCT, 30. 1959-1968.
Neves, J. L. M. (2003) Avaliação de perdas invisíveis em colhedoras de cana-de-açúcar picada e alternativas para sua redução.Tese de Doutorado. Campinas, São Paulo, Brasil : Faculdade de Engenharia Agrícola (Feagri), Unicamp.
Neves, J. L. M. e et al., (2015). Estação de Limpeza a Seco de Cana de Açúcar Colhida com Palha. INPI 10 2015 001504-6 Brasil. Invenção.
Neves, J. L. M.; Cypriani, K.; Calori, N.C.T.; Pimenta, R.C.M.; Noleto, T.H.Y., (2015). Sugarcane Trash Shredding. Zukerindustrie. 3, 156-160.
Neves, J. L. M., et al. (2016). Trash Shredder Mounted on Chopped Sugarcane Harvester model John Deere 3520.Zuckerindustrie / Sugar Industry. 141, 713-719.
Neves, J. L. M.; Magalhães, P. S. G.; Moraes, E. E., (2006). Avaliação de perdas invisíveis na colheita mecânica em dois fluxos de cana-de-açúcar. Engenharia Agrícola, 26.
Okuno, F. M.; Cardoso, T. F.; Duft, D. G., et al., (2019). Technical and Economic Parameters of Sugarcane Straw Recovery: Baling and Integral Harvesting. BioEnergy Research. https://doi.org/10.1007/s12155-019-10039-0.
Okuno, F.M. et al., (2019). Technical and Economic Parameters of Sugarcane Straw Recovery: Baling and Integral Harvesting. Bioenergy Research. 12:930-943
Patwardhan, A. W. et al., (2005). Optimization of gas-liquid reactor using computacional fluid dynamics. Chemical Engineering Science, v. 60 n.11, pp. 3081-3089.
Pierossi, M. A. e Fagundes, S. A., (2013). Enfardamento da Palha. [A. do livro] F. Santos e A. Borém. Cana-de-Açúcar: do plantio à colheita. Viçosa, Minas Gerais, Brasil : UFV, pp. 245-257.
Rees, B., (2015). Evaluation of Systems to Harvest, Process and Transport Sugarcane Biomass. Msc Engineering degree. Pietermaritzburg, South Africa : Bioresources Engineering School of Engineering, University ok KwaZulu-Natal.
Rein, P., (2007). Sugar Cane Engineering. Verlag Dr. Albert Bartens KG, Berlin, Germany.
FIESP, CEPEA., (2016). PIB do Agronegócio do Estado de São Paulo. Departamento do Agronegócio da Fiesp (Deagro), Centro de Estudos Avançados em Economia Aplicada (Cepea). Available in: http://az545403.vo.msecnd.net/uploads/2017/05/pib-agro-sp-2016.pdf.
Sampaio, I.L. et al., (2019). Electricity Production from Sugarcane Straw Recovered Through Bale System: Assessment of Retrofit Projects. Bioenergy Research, 12: 865. https://doi.org/10.1007/s12155-019-10014-9.
Soares, C. C. S. P., et al. Comercial Sugarcane Dry Cleaning Systems in Brazil: Progress and Challenges. BioEnergy Research. https://doi.org/10.1007/s12155-019-10026-5, 2019.
Soares, C. C. S. P., et al. Sugarcane trash processing and burning alternatives. International Society of Sugar Cane Technologists Congress, 30. Reports and Abastracts of the Proceeding, edited by Peter G. Allsopp: Yhe ISSCT Congress Organising Committee, 2019, p.151, Tucumán, Argentina, 2019.
Soares, C. C. S. P.; Duft, D. G.; Carvalho, D. J.; Mantelatto, P. E.; Okuno, F. M.; Guizelini, P. C.; Trez, C. R.; Leal M. R. L. V., (2019). Sugarcane Trash Processing and Burning Alternatives. Proceedings of International Society of Sugar Cane Technologists ISSCT. 30, 157-164.
Soares, C. C. S. P.; Okuno, F. M.; Duft, D. G.; Carvalho, D. J.; Morandi, J.; Guizelini Jr., P. C.; Trez, C. R.; Mantelatto, P. E.; Leal, M. R. L. V., (2019). Commercial Sugarcane Dry Cleaning Systems in Brazil: Progress and Challenges. BioEnergy Research. 12, 920–929, https://doi.org/10.1007/s12155-019-10026-5
Souza, N.R.D. et al., (2019). Sugarcane straw recovery: potential for climate change mitigation in Brazil. Proceedings of the 27th European Biomass Conference. p.1714-1718.
SUCRE Project. (2020). Sustainable Bioelectricity. LNBR/CNPEM. Disponível em: https://lnbr.cnpem.br/wp-content/uploads/2020/05/Sustainable-Bioelectricity.pdf.
SUCRE Project., (2019). Processamento e Queima de Palha de Cana-de-açúcar. LNBR/CNPEM. Disponível em: https://lnbr.cnpem.br/pesquisa/desafios-tecnologicos/projeto-sucre/disseminacao/cartilhas/.
Watanabe, M.D.B. et al., (2020). Process simulation of renewable electricity from sugarcane straw: Techno-economic assessment of retrofit scenarios in Brazil. Journal of Cleaner Production, 254: 1-10 https://doi.org/10.1016/j.jclepro.2020.120081
Diretor Nacional do Projeto SUCRE
Manoel Regis L. V. Leal
Gerente do Projeto SUCRE
Thayse A. D. Hernandes
Fale Conosco
lnbr.dir@lnbr.cnpem.br