Yehoshua Aguilar Molina scite author profile

The production of biofuels has had a great impact on climate change and the reduction of the use of fossil fuels. There are different technologies used for the separation and production of biofuels, which allow having compounds such as ethanol, methane, oxygen, and hydrogen, one of these promising technologies is the Pressure Swing Adsorption process (PSA). The objectives of this article focus on the production and purification of compounds that achieve purities of 99.5% bioethanol, 94.85% biohydrogen, 95.00% medical oxygen, and 99.99% biomethane through the PSA process; also, a significant review is contemplated to identify the different natural and synthetic adsorbents that have greater adsorption capacity, the different configurations in which a PSA operates are studied and identified, and the different mathematical models that describe the dynamic behavior of all the variables are established that interact in this PSA process, parametric studies are carried out in order to identify the variables that have the greatest effect on the purity obtained. The results obtained in this review allow facilitating the calculation of parameters, the optimization of the process, the automatic control to manipulate certain variables and to achieve the rejection of disturbances to have a recovery and production of biofuels with a high degree of purity.

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Optimization and Recovery of a Pressure Swing Adsorption Process for the Purification and Production of Bioethanol

Núñez

Rumbo‐Morales

Villalobos

et al. 2022

Fermentation

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Today, there are new technologies to produce bioethanol: one of them is the Pressure Swing Adsorption (PSA) process. This process has displaced other separation technologies due to the use of natural adsorbents and its methodology to obtain high purities with a lower energy cost. The aim of this work focuses on the optimization of the PSA process (experimental case) to obtain a higher recovery and production of bioethanol using lower energy consumption. The results are favorable since the energy cost is reduced to a range of 60% and 62%, obtaining purities above 99% wt of ethanol and recovery between 75% and 77.41%. The bioethanol produced and purified in the different scenarios meets international standards to be used as a fuel or oxygenating additive.

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Silver Nanoparticles in Epoxy Resin Deposited on Silicon Substrates for Light Trapping

2015

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Design of a Progressive Web Application: Virtual Tourist Guide assisted by Geolocation in Guadalajara on Paseo Fray Antonio Alcalde

Vargas

Molina

Mora

et al. 2022

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Development of an intelligent platform for obtaining environmental data

Carlos-Mancilla

Rosas

Lozada-Munoz

et al. 2022

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