Your search keyword '"Fernández-Lambert G"' showing total 7 results

1. Evaluation of the performance of vertical partially saturated constructed wetlands for sewage treatment swine,Evaluación del desempeño de humedales construidos verticales parcialmente saturados para el tratamiento de aguas residuales porcinas

Author

Luis Carlos Sandoval-Herazo, Nani, G., Sandoval, L., Rivera, S., Fernández-Lambert, G., and Alvarado-Lassman, A.

2. Innovation in Cassava Bagasse Valorization: Efficiency of Convective Drying Enhanced with Ultrasound and Pulsed Electric Fields.

Author

Serpa-Fajardo JG, Hernández-Ramos EJ, Andrade-Pizarro RD, Aguilar-Lasserre AA, and Fernández-Lambert G

Abstract

This research proposes an efficient alternative for dehydrating cassava bagasse to address the inherent challenges in the handling, transportation, storage, and preservation of this agro-industrial residue generated in cassava starch production plants. This residue is characterized by high moisture retention, considerable volume, and hydrophilic nature, complicating conventional drying methods. This study evaluates the impact of emerging ultrasound (US) and pulsed electric field (PEF) technologies prior to convective drying to enhance the dehydration efficiency of cassava bagasse, aiming at its valorization and contributing to the sustainability of the cassava starch industry. The findings reveal that pretreatment with ultrasound (US) and pulsed electric fields (PEF) significantly reduces the drying time of cassava bagasse compared to convective drying alone. With probe ultrasound at 26 kHz for 30 min, the drying time is reduced by 72% (3.83 h vs. 14.0 h); with bath ultrasound at 37 kHz for 30 min, it is reduced by 56.0% (6.16 h vs. 14.0 h); and with PEF at 7.5 kV/cm for 30 min, it is reduced by 52.4% (6.66 h vs. 14.0 h). These emerging technologies increased the effective diffusivity and modified the molecular structure of the bagasse, thereby improving mass transfer and drying process efficiency. These results are particularly useful for developing more efficient and sustainable strategies for drying agricultural by-products, with direct implications for the post-industrial treatment of agro-industrial residues with high water content.

Published

2024

3. Post-industrial context of cassava bagasse and trend of studies towards a sustainable industry: A scoping review - Part I.

Author

Serpa-Fajardo JG, Hernández-Ramos EJ, Fernández-Lambert G, Sandoval-Herazo LC, and Andrade-Pizarro RD

Subjects

Animals, Humans, Dehydration, Cellulose chemistry, Vegetables, Manihot chemistry

Abstract

Background: The cassava starch industry is recognized as a source of negative externalities caused by the agroindustrial waste 'cassava bagasse'. Even though options for bioconversion of cassava bagasse have been introduced, it is also true that hundreds of tons of this waste are produced annually with the consequent negative environmental impact. This agroindustrial context highlights the need for further research in technological proposals aimed at lowering the water contained in cassava bagasse. Methods: We report a scoping review of studies from 2010-2021 that mention the uses of cassava bagasse, as well as the technological options that have become effective for drying fruits and vegetables. The method used for selecting articles was based on the Preferred Reporting Items for Systematic Review and Meta-Analyses extension for Scoping Reviews (PRISMA-ScR) method. Articles selected were taken from the databases of ScienceDirect, Google Scholar, Scopus and Springer. Results : This review highlights fruit and vegetable osmotic dehydration and drying studies assisted by the combination of emerging technologies of osmotic pressure, ultrasound, and electrical pulses. Studies that take advantage of cassava bagasse have focused on biotechnological products, animal and human food industry, and development of biofilms and biomaterials. Conclusions: In this review, we found 60 studies out of 124 that show the advantages of the residual components of cassava bagasse for the development of new products. These studies do not mention any potential use of bagasse fiber for post-industrial purposes, leaving this end products' final use/disposal unaddressed. A viable solution is osmotic dehydration and drying assisted with electrical pulse and ultrasound that have been shown to improve the drying efficiency of fruits, vegetables and tubers. This greatly improves the drying efficiency of agro-industrial residues such as husks and bagasse, which in turn, directly impacts its post-industrial use., Competing Interests: No competing interests were disclosed., (Copyright: © 2022 Serpa-Fajardo JG et al.)

Published

2022

4. Effect of Spathiphyllum blandum on the removal of ibuprofen and conventional pollutants from polluted river water, in fully saturated constructed wetlands at mesocosm level.

Author

Sandoval L, Marín-Muñíz JL, Adame-García J, Fernández-Lambert G, and Zurita F

Subjects

Ammonium Compounds, Biological Oxygen Demand Analysis, Nitrogen, Phosphorus, Waste Disposal, Fluid, Wastewater, Water Pollution, Ibuprofen isolation & purification, Rivers chemistry, Water Pollutants, Chemical isolation & purification, Water Purification, Wetlands

Abstract

In this study, the effect of Spathiphyllum blandum on the removal of ibuprofen (IB) and conventional pollutants such as chemical oxygen demand (COD), total nitrogen (TN), ammonium (NH 4 + -N), total phosphorus (TP), and total suspended solids (TSS) is reported; this, through its use as an emergent vegetation in fully saturated (FS) constructed wetlands (CWs) at mesocosm level treating polluted river water. With the exception of TP and COD, it was found that for TN (12%), NH 4 + -N (11%), TSS (19%), and IB (23%), the removals in systems with vegetation were superior to systems without vegetation (p < 0.05). These findings demonstrate the importance of the species S. blandum, in particular, for the removal of ibuprofen, which is an anti-inflammatory drug commonly found in effluents of wastewater treatment plants. Thus, the results obtained provide information that can be used for the design of future efficient large-scale systems using a new ornamental species, mainly under tropical climatic conditions.

Published

2020

5. Decision support system for NPK fertilization: a solution method for minimizing the impact on human health, climate change, ecosystem quality and resources.

Author

Meza-Palacios R, Aguilar-Lasserre AA, Morales-Mendoza LF, Rico-Contreras JO, Sánchez-Medel LH, and Fernández-Lambert G

Subjects

Climate Change, Ecosystem, Fertilizers analysis, Humans, Nitrogen adverse effects, Nitrogen analysis, Phosphorus adverse effects, Phosphorus analysis, Potassium adverse effects, Potassium analysis, Risk Assessment, Soil chemistry, Agriculture methods, Decision Support Techniques, Fertilizers adverse effects, Saccharum growth & development

Abstract

Sugarcane cultivation requires correct fertilizer rates. However, when nutrients are not available, or there is over-fertilization, the yields are significantly reduced and the environmental burden increase. In this study, it is proposed a decision support system (DSS) for the correct NPK (nitrogen, phosphorus and potassium) fertilization. The DSS consists of two fuzzy models; the edaphic condition model (EDC-M) and the NPK fertilization model (NPK-M). The DSS using parameters from soil analysis and is based on the experience of two groups of experts to avoid the bias to the reality of a single group of professionals. The results of the DSS are compared with the results of soil analysis and those of the group of experts. One hundred and sixty tests were developed in the NPK-M. The N rate shows R 2 =0.981 for the DSS and R 2 =0.963 for soil analyzes. The P rate shows R 2 =0.9702 for the DSS and R 2 =0.9183 for the soil analyzes. The K rate shows R 2 =0.9691 for the DSS and R 2 =0.9663 for the soil analyzes. Environmental results indicate that the estimated rates with the DSS do reduce the environmental impact on the tests performed.

Published

2020

6. Nitrogen Removal from Domestic Wastewater and the Development of Tropical Ornamental Plants in Partially Saturated Mesocosm-Scale Constructed Wetlands.

Author

Nakase C, Zurita F, Nani G, Reyes G, Fernández-Lambert G, Cabrera-Hernández A, and Sandoval L

Subjects

Biomass, Tropical Climate, Zantedeschia metabolism, Zingiberales metabolism, Denitrification, Nitrogen analysis, Waste Disposal, Fluid, Wastewater analysis, Water Pollutants, Chemical analysis, Wetlands

Abstract

Vertical partially saturated (VPS) constructed wetlands (CWs) are a novel wastewater treatment system for which little information is known about its design parameters and performance under tropical climates. The objective of this study is to evaluate the nitrogen removal process from domestic wastewater and the production of tropical ornamental plants ( Canna hybrids and Zantedeschia aethiopica ) in VPS CWs at a mesocosms scale. Nine VPS CWs, with a free-flow zone of 16 cm and a saturated zone of 16 cm, were used as experimental units. Three units were planted with Canna hybrids., and three, with Zantedeschia aethiopica (one plant per unit); the remaining three units were established as controls without vegetation. They were fed with domestic wastewater intermittently and evaluated for the elimination of COD, N-NH 4 , N-NO 3 , Norg, NT, and PT. The results showed an increase in the removal for some pollutants in the vegetated systems, i.e., N-NH 4 (35%), Norg (16%), TN (25%), and TP (47%) in comparison to the unvegetated systems. While N-NO 3 removal showed better removal in 10% of the systems without vegetation, no significant differences were found ( p > 0.05) for COD removal. The aerobic and anaerobic conditions in the VPS CWs favor the elimination of pollutants in the systems, and also the development of the tropical species evaluated in this study; good development was exhibited by a high growth rate and biomass production.

Published

2019

7. Analysis of the behavior for operation parameters in the anaerobic digestion process with thermal pretreatment, using fuzzy logic.

Author

Flores-Asis R, Méndez-Contreras JM, Alvarado-Lassman A, Fernández-Lambert G, Villanueva-Vásquez D, and Aguilar-Lasserre AA

Subjects

Anaerobiosis, Fuzzy Logic, Methane biosynthesis, Research Design, Temperature, Biofuels analysis, Bioreactors microbiology, Methane analysis, Models, Theoretical, Sewage chemistry, Sewage microbiology, Water Purification methods

Abstract

This article presents a study that identifies the variables with greatest impact on the biogas and methane production over a process with thermal pretreatment, to accelerate anaerobic digestion process in sewage sludge in a water treatment plant, for a poultry processing factory, by using fuzzy logic. The designed fuzzy logic model includes 688 inference rules, with a correlation of 99.3% between prediction data against experimental data, for the biogas variable; and 97% for the methane variable. The predictions of the fuzzy logic model were analyzed with response surface models, and it is concluded that the temperature and operating time variables are mutually determining in the biogas and methane production. Likewise, this research provides a methodology for the design of an expert decision support system that allows to evaluate and optimize a mesophilic anaerobic digestion process through a previous thermal treatment in order to improve the yields of biogas and methane in the treatment of effluent sludge from agroindustry. These results propose to diffuse logic as a reliable tool to make comparisons, and predictions for operation variables management on the treatment of residual sludge with thermal pretreatment on anaerobic digestion.

Published

2019