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Sustainable gas pathways for Brazil: from microcosm to macrocosm

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The Sustainable Gas Pathways for Brazil; from microcosm to macrocosm project will develop a range of data sets that may be on interest to other researchers and organizations across a variety of disciplines. The principal investigators are committed to contributing towards an academic knowledge-sharing environment and will endeavour to produce transparent and academically rigorous datasets and project outputs. The datasets that will arise from this project form two main categories, as follows. At the microcosm level, laboratory experiments and desktop process modelling will produce techno-economic data (process dynamics of bioethanol production, biochemical performances of dry anaerobic digester using sugarcane wastes, economic and environmental Impacts of integrated sugarcane-ethanol-biogas production processes), whilst a number of semi-structured interviews will be carried out to elicit key socio-economic impact around biogas industry. At the macrocosm level, a broader picture of the energy system in Brazil is created, covering potential pathways of gas infrastructure, the electricity system, and the broader national energy system (energy demand projections for residential, commercial, industry and transport sector, Infrastructure development pathways to serve future energy demands; model predictions for electricity and gas characteristics inducing seasonal variations; land use, carbon sequestration, water quality and drinking water and ecological impacts of biogas production). (AU)

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Publicações científicas (22)
(Referências obtidas automaticamente do Web of Science e do SciELO, por meio da informação sobre o financiamento pela FAPESP e o número do processo correspondente, incluída na publicação pelos autores)
FUESS, L. T.; CRUZ, R. B. C. M.; ZAIAT, M.; NASCIMENTO, C. A. O. Diversifying the portfolio of sugarcane biorefineries: Anaerobic digestion as the core process for enhanced resource recovery. RENEWABLE & SUSTAINABLE ENERGY REVIEWS, v. 147, SEP 2021. Citações Web of Science: 0.
FUESS, LUCAS TADEU; FUENTES, LAURA; BOVIO-WINKLER, PATRICIA; ENG, FELIPE; ETCHEBEHERE, CLAUDIA; ZAIAT, MARCELO; OLLER DO NASCIMENTO, CLAUDIO AUGUSTO. Full details on continuous biohydrogen production from sugarcane molasses are unraveled: Performance optimization, self-regulation, metabolic correlations and quanti-qualitative biomass characterization. CHEMICAL ENGINEERING JOURNAL, v. 414, JUN 15 2021. Citações Web of Science: 1.
PUENTES, J. A.; RIBEIRO, C. O.; RUELAS, E. A.; FIGUEROA, V. Ethanol Fuel Demand Forecasting in Brazil Using a LSTM Recurrent Neural Network Approach. IEEE Latin America Transactions, v. 19, n. 4, p. 551-558, APR 2021. Citações Web of Science: 0.
DE SOUZA, JULIANA RODRIGUES; GIUDICI, REINALDO. Effect of diffusional limitations on the kinetics of deacetylation of chitin/chitosan. Carbohydrate Polymers, v. 254, FEB 15 2021. Citações Web of Science: 0.
GARCIA, JESSICA M.; BERNARDINO, IGOR R. B.; CALASANS, VINICIUS; GIUDICI, REINALDO. Kinetics of the hydrolysis of acetic anhydride using reaction calorimetry: effects of strong acid catalyst and salts. CHEMICAL ENGINEERING RESEARCH & DESIGN, v. 166, p. 29-39, FEB 2021. Citações Web of Science: 0.
OLIVIERI, V, GUSTAVO; DE QUADROS JR, V, JACYR; GIUDICI, REINALDO. Epoxidation Reaction of Soybean Oil: Experimental Study and Comprehensive Kinetic Modeling. Industrial & Engineering Chemistry Research, v. 59, n. 42, p. 18808-18823, OCT 21 2020. Citações Web of Science: 1.
HUGHES, NICK; MUTRAN, VICTORIA MORGADO; TOMEI, JULIA; RIBEIRO, CELMA DE OLIVEIRA; OLLER DO NASCIMENTO, CLAUDIO AUGUSTO. Strength in diversity? Past dynamics and future drivers affecting demand for sugar, ethanol, biogas and bioelectricity from Brazil's sugarcane sector. BIOMASS & BIOENERGY, v. 141, OCT 2020. Citações Web of Science: 1.
TORRAGA, MARIA G. F.; GIUDICI, REINALDO. Mathematical Modeling of the Stabilizer-Free Dispersion Copolymerization of Styrene and Maleic Anhydride: Particle Growth. MACROMOLECULAR REACTION ENGINEERING, SEP 2020. Citações Web of Science: 0.
DE OLIVEIRA, LUCAS LYRIO; KERDAN, IVAN GARCIA; RIBEIRO, CELMA DE OLIVEIRA; OLLER DO NASCIMENTO, CLAUDIO AUGUSTO; REGO, ERIK EDUARDO; GIAROLA, SARA; HAWKES, ADAM. Modelling the technical potential of bioelectricity production under land use constraints: A multi-region Brazil case study. RENEWABLE & SUSTAINABLE ENERGY REVIEWS, v. 123, MAY 2020. Citações Web of Science: 0.
MUTRAN, VICTORIA M.; RIBEIRO, CELMA O.; NASCIMENTO, CLAUDIO A. O.; CHACHUAT, BENOIT. Risk-conscious optimization model to support bioenergy investments in the Brazilian sugarcane industry. APPLIED ENERGY, v. 258, JAN 15 2020. Citações Web of Science: 0.
TORRAGA, MARIA G. F.; COLMAN, MARIA M. E.; GIUDICI, REINALDO. Hydrolysis of acetic anhydride: In situ, real-time monitoring using NIR and UV-Vis spectroscopy. Chemical Engineering Science, v. 210, DEC 31 2019. Citações Web of Science: 0.
SANTOS, PRISCILLA SOARES; ZAIAT, MARCELO; OLLER DO NASCIMENTO, CLAUDIO AUGUSTO; FUESS, LUCAS TADEU. Does sugarcane vinasse composition variability affect the bioenergy yield in anaerobic systems? A dual kinetic-energetic assessment. JOURNAL OF CLEANER PRODUCTION, v. 240, DEC 10 2019. Citações Web of Science: 0.
FUESS, LUCAS TADEU; ZAIAT, MARCELO; OLLER DO NASCIMENTO, CLAUDIO AUGUSTO. Novel insights on the versatility of biohydrogen production from sugarcane vinasse via thermophilic dark fermentation: Impacts of pH-driven operating strategies on acidogenesis metabolite profiles. Bioresource Technology, v. 286, AUG 2019. Citações Web of Science: 3.
DUTENKEFER, RAPHAEL DE MORAES; RIBEIRO, CELMA DE OLIVEIRA; MUTRAN, VICTORIA MORGADO; REGO, ERIK EDUARDO. The insertion of biogas in the sugarcane mill product portfolio: A study using the robust optimization approach. RENEWABLE & SUSTAINABLE ENERGY REVIEWS, v. 91, p. 729-740, AUG 2018. Citações Web of Science: 3.
REGO, ERIK EDUARDO; RIBEIRO, CELMA DE OLIVEIRA; DO VALLE COSTA, OSWALDO LUIZ; HO, LINDA LEE. Thermoelectric dispatch: From utopian planning to reality. ENERGY POLICY, v. 106, p. 266-277, JUL 2017. Citações Web of Science: 2.

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