Jenniffer Andrea Tamayo Peña scite author profile

Jenniffer Andrea Tamayo Peña

2Publications

1Citation Statement Received

93Citation Statements Given

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Affiliations

Universidade Estadual de Campinas

Publications

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Bioenergy, Electricity, Biogas Production, and Emission Reduction Using the Anaerobic Digestion of Organic Municipal Solid Waste in Campinas, One of the Largest Brazilian Cities

et al. 2022

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Anaerobic digestion (AD) is an attractive process for bioenergy production and is considered to be an alternative way to reduce landfills. AD improves municipal solid waste (MSW) management, representing a profitable application of the circular economy and could reduce environmental impact. The methane (CH4) potential of four different organic fractions of MSW—paper (PFW), garden (GFW), food (FFW), and a mixture of these three (OFMSW)—via AD was used to investigate the energy potential and the economic and environmental impact of Campinas. Theoretical and experimental biochemical methane potential (BMP) and substrate biodegradability were determined using the Buswell and Müller equation and the VDI 4630 method. The Gompertz model was used to predict the kinetics of the biochemical processes. The highest experimental BMP (410.7 NmLCH4 gVS−1) and biodegradability (86.6%) were reached with OFMSW. OFMSW can avail an energetic potential of approximately 119 GWh year−1, with a biomethane production equivalent to diesel at 49.9 × 103 m3 year−1, hence, potentially curtailing the CO2 emissions of heavy-duty vehicles by almost 133 kt year−1. The electricity demand for approximately 11% of the households in Campinas could be met by the biogas produced by OFMSW, thus increasing local energy security. The replacement of fossil diesel with biomethane to fuel garbage trucks in Campinas could reduce 25% of the diesel demand.

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Estratégias para recuperação de xilooligossacarídeos do licor de resíduos de eucalipto para avaliação do seu efeito estimulante em Staphylococcus xylosus

Moreira

Peña

Franco

2023

Rev Inst Adolfo Lutz

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Xilooligossacarídeos (XOS) são reconhecidos pelo seu potencial prebiótico relevante para diversos setores industriais e foram obtidos após o pré-tratamento hidrotérmico da biomassa lignocelulósica residual de galhos de eucalipto. Subprodutos inibitórios são gerados durante o processo de solubilização dos oligossacarídeos e acabam comprometendo a utilização do licor em microrganismos. Neste trabalho, o processo de destoxificação, hidrólise enzimática e atividade estimulantes de crescimento da bactéria Staphylococcus xylosus foram estabelecidos. Os resultados mostraram que a adsorção com carvão ativado em pó removeu cerca de 55% do ácido acético e mais de 90% do ácido fórmico, compostos fenólicos, lignina solúvel, furfural e 5 hidroximetilfurfural, e que a soma dos oligossacarídeos xilobiose (X2) e xilotriose (X3) foram maximizadas de 0,57 g/L para 1,21 g/L com 110 U/gXOS da enzima endoxilanase e 6,3% do licor destoxificado na hidrólise enzimática. O consumo de cerca de 63% de X2 e de 46% de X3 pela bactéria em meio basal deficiente em fontes de carbono, mas acrescido com os oligômeros, proporcionou maior crescimento celular em relação aos meios basais com alta composição de carbono, com e sem XOS, revelando seu potencial prebiótico pelo efeito estimulante de crescimento.

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