Hipólito Romero-Tehuitzil scite author profile

The feasibility of using photovoltaic modules to power a continuous 14 L electrochemical reactor applied to remove an azo dye with an efficiency of 70% is reported. The photovoltaic modules were directly connected, and the system efficiency was observed properly maintained when currents were applied in the range of 2.5 to 7.9 A. This value depends on solar radiation. Likewise, it was found that the efficiency depends mainly on the current density and the flow rate prevailing in the reactor.

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Pre-Operational Analysis of a Prototype Downdraft Gasifier Fueled by Bamboo

Salovaara¹,

Romero-Tehuitzil²,

Vaca³

et al. 2015

JSBS

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Biomass gasification is a thermochemical conversion process that dates back to the 19th century. Nevertheless, designing and operating a gasifier system is not an easy task. Every biomass feedstock has different characteristics and the gasifier needs to be designed according to those qualities. Hence, many laboratory analyses on bamboo were carried out for this study. This study also concentrates on finding the best possible process variables for a bamboo fueled downdraft gasifier through a sensitivity analysis. A software program called Thermoflex was used for this purpose and the effect of gasifier temperature, air-fuel-ratio, moisture content of the fuel and temperature of pre-heated air on the syngas composition were simulated. The results show that bamboo is a decent gasification feedstock because of its low ash and sulfur content and satisfactory energy value. The simulations reveal that the best gas quality is obtained with the gasifier temperature between 700˚C and 800˚C, A/F-ratio of 1.25 -1.75 and dry basis moisture content between 10% and 15%.

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Effect of Biopolymers on the Formation, Drying Kinetics, and Flavor Retention of Tamarind (Tamarindus indica) Foam-Mats

Romero-Tehuitzil¹,

Vernon‐Carter²,

Vizcarra-Mendoza³

et al. 1999

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