Navegando por Autor "Samanamud, Gisella Lamas"

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    Modeling and optimization of hybrid leachate treatment processes and scale-up of the process : review.
    (2021) Vaz, Carlos Alberto dos Santos; Samanamud, Gisella Lamas; Silva, Ricardo Soares da; França, Alexandre Bôscaro; Quintão, Cristiane Medina Finzi; Urzedo, Ana Paula; Silva, Messias Borges; Bosch Neto, Juan Canellas; Amaral, Mateus de Souza; Loures, Carla Cristina Almeida; Naves, Luzia Lima Rezende; Naves, Fabiano Luiz
    Optimized models of landfill leachate processes that could lead to the production of fuel oils from the pyrolysis of plastics and cultivation of microalgae, can be high-efficient and sustainable activities. Studies using advanced oxidation processes in combination with biological processes showed to be efficient in treating leachate. The complexity of this type of waste, as well as the continuous modification of its properties due to local seasonality, prevent kinetic and thermodynamic studies to predict the steady state at the final disposal. Environmental management system using Lean Six sigma accompanied with process modeling and optimization tools, whether statistical or computational, generate reliable models. These models can reproduce reductions on contaminants by confirming the initial conditions of each leachate enabling the scale-up of the process. This Review provides data survey, types of treatment and models linked to optimization tools in wastewater decontamination processes from municipal solid waste (MSW). This review includes the synthesis and proposal for treatment and man- agement from of the classification of the garbage until the generation of leachate, aiming to contributing to future researches in the leachate treatment.
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    Modeling and optimization of the pyrolysis oil production process from polypropylene for the production of aviation kerosene.
    (2022) Santos, Heraclito Alexandre dos; Santos, Igor José Boggione; Quintão, Cristiane Medina Finzi; Knupp, Vagner Fernandes; Lofrano, Renata Carolina Zanetti; Oliveira, Eliane Cristina de; Samanamud, Gisella Lamas; Amaral, Mateus de Souza; França, Alexandre Bôscaro; Pereira, Mariana Arruda; Silva, Matheus Teixeira Araújo; Loures, Carla Cristina Almeida; Carneiro, Mozart dos Santos; Ponciano, Jéssica Amaral Pereira; Naves, Luzia Lima Rezende; Naves, Fabiano Luiz
    One of the greatest challenges in the world is in the fnal disposal of plastics in order to reduce the efect of its polluting potential. Thus, the application of pyrolysis processes in generating products of interest such as fuel oils can be part of the solution. In addition to reducing greenhouse gas emissions to the atmosphere, oil can enter the supply chain after the cracking process in petrochemical industries. In this context, this work used statistical modeling of the response surface linked to the normal boundary intersection algorithm, aiming at a higher yield of oil production and major selectivity of recycled polypropylene pyrolysis. From the analysis of the mechanisms proposed in the literature with the modeling and optimization in this work, it was possible, from a kaolin mass of 9.12 g and a heating ramp of 19.37 °C/min, to obtain higher percentages of aviation kerosene as well as a satisfactory performance.