Luiz Guilherme Meira de Souza scite author profile

RESUMOEste artigo demonstrará uma possibilidade de fabricar um secador solar de exposição direta para a secagem de alimentos, a partir de material reciclável. Dentre os tipos de secador, o que possui exposição direta trabalha em regime de circulação natural de ar. A metodologia está detalhando cada parte do procedimento necessário para construção do secador solar utilizando material reciclável, no caso desse projeto, usou-se sucata de luminária pensando em uma destinação ambientalmente correta. As vantagens desse modelo de secador solar proposto são: baixo custo, de fácil manuseio, procedimento de montagem simples e colabora com o ciclo da reciclagem. Para a comprovação de eficiência do secador foram realizados testes para a secagem de uva no qual seus resultados confirmam a viabilidade térmica e econômica do sistema alternativo de secagem. Vale salientar a importância socioeconômica desse projeto diante da aplicabilidade social por parte da população de baixa renda, obtendo a oportunidade de agregar valor aos produtos alimentícios através da desidratação que representará uma boa opção de geração de renda, visto sua valorização comparada a fruta in natura. PALAVRAS-CHAVE:secador solar, desidratação, energia solar, material reciclável. SOLAR DRYER DEVELOPMENT BUILT FROM RECYCLED MATERIAL ABSTRACTThis article demonstrates a possibility of manufacturing a solar dryer for drying direct exposure of food, from recycled material. Among the types of dryer, which has direct exposure works in natural circulation system of air. The methodology is detailing each of the necessary procedure for the construction of solar dryer using recyclable material in the case of this project, he used lamp scrap thinking of an environmentally correct disposal. The advantages of this proposed solar dryer model are: low cost, easy to use, simple assembly procedure and collaborates with the recycling cycle. For the dryer efficiency verification tests were performed for grape drying in which their results confirm the thermal and economic feasibility of the alternative drying system. It is worth noting the socioeconomic importance of this project on the social applicability by the low-income population, getting the opportunity to add value to food products through dehydration which represent a good option for income generation, since its value compared to fresh fruit.

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Absorção de água e propriedades mecânicas de compósitos poliméricos utilizando resíduos de MDF

Gomes

Godoi

Souza

2017

Polímeros

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ResumoApresenta-se o estudo de viabilidade de utilização, como reforço em materiais compósitos poliméricos, de resíduos originados da manufatura dos painéis de MDF (Medium Density Fiberboard), avaliando seu potencial como alternativa em substituição a cargas minerais para aplicação industrial. A escolha da resina poliéster ortoftálica foi motivada pelas suas propriedades e principalmente pelo seu baixo custo e facilidade de aquisição. Diferentes frações mássicas (m) de adição de resíduo em resina poliéster ortoftálica foram estudadas: 0, 10, 15 e 20%. As propriedades analisadas foram: resistência mecânica, absorção de água e grau de cristalinidade. Os resultados mostram a diminuição das propriedades mecânicas em até 53%, no índice de cristalinidade em até 18% e aumento no índice de absorção de água em quase cinco vezes para o compósito de maior adição de resíduo (C20). Palavras-chave: compósitos poliméricos, resíduos de MDF, resina poliéster ortoftálica, resistência mecânica, índice de cristalinidade. AbstractThe study examines the feasibility of using MDF (Medium Density Fiberboard) waste as reinforcement in orthophthalic polyester resin, evaluating its potential as an alternative to mineral filler for industrial applications. The orthophthalic resin was chosen because it's good performance, low cost and easily obtainable. Three composite compositions were prepared containing different amount of waste MDF (10, 15 and 20%). The mechanical properties, degree of crystallinity and water absorption of the resin and its respective composites were evaluated. The results show a decrease in mechanical strength and crystallinity index followed by an increase in water absorption index caused by poor adhesion in the region of the polymer matrix fiber interface.

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Obtaining and characterization of a composite with polymer matrix and corn cob waste filler

Oliveira

Souza

Neto

et al. 2020

RSD

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It was studied the feasibility of using corn cob to obtain a polymer composite. It was used of the corn cob in Three-grain sizes, and some formulations of the composite of polyester resin and powders were used, and the most appropriate formulation was chosen. For the characterization of the composite thermal and mechanical properties were determined. The main advantage of the composite was the low density, about 1.06 kg/m³ for the thick powder formulation. The composite presented an inferior mechanical behavior concerning the resin for all the studied particle sizes and formulations. The composite presented better mechanicals results for the bending strength, reaching 25.3 MPa for the thick powder formulation. The composite also proved itself to be viable for thermal applications since it has average thermal conductivity inferior to 0.21 W/m, being classified as thermal insulation and can be used to manufacture structures that do not require significant mechanical strength, such as tables, chairs, benches, panels, works of art, crafts and solar prototypes, such as ovens and stoves.

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Materiais Compósitos À Base De Gesso E Isopor Para Construção De Casas Populares

Neto¹,

Souza²,

Gomes³

et al. 2011

HOLOS

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A utilização de novas tecnologias com o uso materiais alternativos, que são ecologicamente corretos, é uma inovação para indústria da construção civil não só pelas suas excelentes propriedades, mas também pelo barateamento na construção. Esse artigo visa expor um novo tipo de material compósito para construção de casas populares de baixo custo, à base de isopor (poliestireno) e gesso, que possui composições (1.5:1), (1:1),(1:1,5) gesso com isopor, a fim de substituir os tijolos tradicionais de cerâmicos convencionalmente utilizados. Dados relativos aos ensaios de condutividade térmica e de compressão foram realizados. Foi demonstrado que o custo de fabricação desses tijolos alternativos é inferior ao do tijolo convencionalmente utilizado além de apresentarem excelente resistência.

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Obtaining and Characterizing a Polyester Resin and Cement Powder Composites

Souza

Silva

2020

Mat. Res.

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The processes for obtaining and characterizing polyester resin (R) matrix and cement powder (C) load composites were studied. Four composites were defined by the cement-to-resin mass ratio: 1.0R+0.25C, 1.0R+0.50C, 1.0R+0.75C and 1.0R+1.0C. The selected manufacturing method was the wet compression molding. The composites were characterized by determining their tensile, flexural and impact strengths, density, water absorption levels, thermal and aging properties. The composite that presented the greater economic feasibility was 1.0R+1.0C. The cement was found to have a filler load function. All composites showed lower mechanical strength compared to the matrix, with proportional decrease to the increased cement powder, with 50% loss in tensile strength, 78% in flexural strength and 11.54% in impact strength for 1.0R+1.0C. In this study, a 1.5 m 2 table was manufactured by this composite (1.0R+1.0C). The cost for manufacturing the synthetic stone was lower than marble and granite stones, demonstrating the economic feasibility of the composites.

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Composite utilizing residues of marble and granite for building popular homes

Santos

Cavalcante

Souza

et al. 2017

Journal of Building Engineering

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Production and Characterization of Polymeric Composite Materials Using MDF Waste in Powder and Poliester Terephthalic Resin

et al. 2015

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