Mari ́a F. Contreras scite author profile

Mari ́a F. Contreras

2Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

Universidad de Los Andes, University of Cundinamarca

Publications

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Impact Performance of Natural Fique-Fiber Reinforced Composites

Maranon

Sanabria

Contreras

et al. 2008

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Laminated composites made of natural fiber and polymeric resins have a strong potential for engineering applications as they offer an attractive combination of mechanical and physical properties together with their environmental friendly character. Among structural applications, hybrid ballistic systems made of natural fiber composites have attracted the attention of engineers and scientists because of their excellent energy absorption compared to mild steel. In this paper, the impact and tensile properties of fique fibers (fucraea) reinforced composites are investigated. Plain woven fique-fabrics were embedded in polyester resin to produce five ply laminated panels. It was found that fique composites exhibited similar energy absorption than other natural composites reported in the literature.

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Comparison of Models Used to Predict the Gas Composition of Mixtures Produces by Gasification of Wax Palm Husk Using Air-Steam for Partial Oxidation

Contreras

Gordillo

2011

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There are eleven species of wax palm in South America which produce a great amount of biomass per year (∼590 ton/ha). This biomass has not any commercial value and can cause a negative impact on the environment if waste handling systems and storage and treatment structures are not accurately controlled. However, this biomass can serve as feedstock for thermal gasification (partial oxidation and pyrolysis) to produce gaseous and liquid fuels. The current paper presents results on modeling studies to predict the gas composition of mixtures produced by gasification of wax palm husk (WPH) using air–steam for partial oxidation. The parameters investigated by equilibrium model are equivalence ratio and steam-fuel ratio. With the predicted composition of gases, the high heating value was estimated. Atom model was used for comparison purposes. Also, a kinetics model of the pyrolysis of WPH is presented. Thermogravimetric analysis was used to estimate the activation energy and the pre-exponential factor of Arrhenius equation. The results suggest that it is possible to produce gaseous fuels with concentrations of H2 ranging from 5 to 30%, CO from 10 to 19%, and CH4 from 0 to 4%. The activation energy estimated with kinetics model was estimated to be 143.07 kJ mol−1.

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