Your search keyword '"Ma Lourdes Martínez-Cartas"' showing total 10 results

1. Optimisation of sugar and solid biofuel co-production from almond tree prunings by acid pretreatment and enzymatic hydrolysis

Author

Manuel Cuevas-Aranda, Mª Lourdes Martínez-Cartas, Fahd Mnasser, Adnan Asad Karim, and Sebastián Sánchez

Subjects

Almond tree prunings, Acid hydrolysis, Enzymatic hydrolysis, Monosaccharides, Response surface methodology, Technology, Chemical technology, TP1-1185, Biotechnology, TP248.13-248.65

Abstract

Abstract Almond pruning biomass is an important agricultural residue that has been scarcely studied for the co-production of sugars and solid biofuels. In this work, the production of monosaccharides from almond prunings was optimised by a two-step process scheme: pretreatment with dilute sulphuric acid (0.025 M, at 185.9–214.1 ℃ for 0.8–9.2 min) followed by enzyme saccharification of the pretreated cellulose. The application of a response surface methodology enabled the mathematical modelling of the process, establishing pretreatment conditions to maximise both the amount of sugar in the acid prehydrolysate (23.4 kg/100 kg raw material, at 195.7 ℃ for 3.5 min) and the enzymatic digestibility of the pretreated cellulose (45.4%, at 210.0 ℃ for 8.0 min). The highest overall sugar yield (36.8 kg/100 kg raw material, equivalent to 64.3% of all sugars in the feedstock) was obtained with a pretreatment carried out at 197.0 ℃ for 4.0 min. Under these conditions, moreover, the final solids showed better properties for thermochemical utilisation (22.0 MJ/kg heating value, 0.87% ash content, and 72.1 mg/g moisture adsorption capacity) compared to those of the original prunings. Graphical Abstract

Published

2024

2. Fermentation of Sugar by Thermotolerant Hansenula polymorpha Yeast for Ethanol Production

Author

Adnan Asad Karim, Mª Lourdes Martínez-Cartas, and Manuel Cuevas-Aranda

Subjects

Hansenula polymorpha, glucose, fructose, xylose, fermentation, bioethanol, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Hansenula polymorpha is a non-conventional and thermo-tolerant yeast that is well-known for its use in the industrial production of recombinant proteins. However, research to evaluate this yeast’s potential for the high-temperature fermentation of sugar to produce alcohols for biofuel applications is limited. The present work investigated a wild-type H. polymorpha strain (DSM 70277) for the production of ethanol at a temperature of 40 °C under limited oxygen presence by using a batch fermentation reactor. Fermentation experiments were performed using three types of sugar (glucose, fructose, xylose) as substrates with two initial inoculum concentrations (1.1 g·L−1 and 5.0 g·L−1). The maximum specific growth rates of H. polymorpha yeast were 0.121–0.159 h−1 for fructose, 0.140–0.175 h−1 for glucose, and 0.003–0.009 h−1 for xylose. The biomass volumetric productivity was 0.270–0.473 g·L−1h−1 (fructose), 0.185–0.483 g·L−1h−1 (glucose), and 0.001–0.069 g·L−1h−1 (xylose). The overall yield of ethanol from glucose (0.470 g·g−1) was higher than that from fructose (0.434 g·g−1) and xylose (0.071 g·g−1). The H. polymorpha yeast exhibited different behavior and efficacy regarding the use of glucose, fructose, and xylose as substrates for producing ethanol. The present knowledge could be applied to improve the fermentation process for valorization of waste biomass to produce bioethanol.

Published

2024

3. Upgrading almond-tree pruning as a biofuel via wet torrefaction

Author

Sebastián Sánchez, Luis Pérez-Villarejo, Roque Aguado, Ma Lourdes Martínez-Cartas, and Manuel Cuevas

Subjects

Materials science, 060102 archaeology, Moisture, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Batch reactor, Severity factor, 06 humanities and the arts, 02 engineering and technology, Torrefaction, Pulp and paper industry, Biofuel, 0202 electrical engineering, electronic engineering, information engineering, 0601 history and archaeology, Heat of combustion, Coal, business, Pruning

Abstract

Two series of six wet torrefaction tests were performed using a pressurized batch reactor in order to upgrade almond-tree pruning (a largely available agricultural waste in Mediterranean areas) as a fuel. The assayed maximum temperatures were in the range of 175–300 °C, held for either 10 or 60 min. Raw almond-tree pruning and wet-torrefied solid products were systematically characterized through a wide range of analytical procedures, such as bulk density, particle size, structural and elemental composition, ash content, heating values, moisture uptake, FTIR spectra and SEM micrographs. The effects of temperature and time on the wet torrefaction process of almond-tree pruning were simultaneously evaluated through the severity factor. Higher temperatures and longer holding times brought the fuel properties of wet-torrefied solid products closer to those of sub-bituminous coal. The most severe operating conditions (i.e., 300 °C held for 60 min, or a severity factor equal to 7.68) allowed achieving an energy densification ratio of 1.67. However, the optimal processing conditions in terms of energy yield, which were found at a severity factor of 5.78, led to 57.1 wt% solid yields, with a higher heating value of 24.0 MJ/kg and an energy densification ratio of 1.36.

Published

2020

4. Thermal characterization and pyrolysis kinetics of six types of tropical timber from Central Africa

Author

Ma Lourdes Martínez-Cartas, Sebastián Sánchez, and Manuel Cuevas

Subjects

biology, Chemistry, General Chemical Engineering, Organic Chemistry, Energy Engineering and Power Technology, Biomass, Pulp and paper industry, Pterocarpus soyauxii, biology.organism_classification, chemistry.chemical_compound, Fuel Technology, Biochar, Lignin, Heat of combustion, Hemicellulose, Cellulose, Pyrolysis

Abstract

This paper aims to study the compositions, energetic properties, combustion behaviours and pyrolysis kinetics of six tropical hardwoods species from which significant amounts of industrial lignocellulosic wastes are generated in West African countries. The composition of the biomass was studied by determining their percentages of biopolymers (cellulose, hemicelluloses and lignin) and applying FTIR analysis, proximate analysis and ultimate analysis. From the experimental data of the higher calorific value, equations based on the ultimate analysis have been selected since they allow estimating the parameter with a low Average Absolute Error (less than 5%). As regards the behaviour in combustion based in the comprehensive combustibility index (S), the best result was reached by Aucoumea klaineana (S = 3.50 × 10–6 min−2 °C−3), while the worst values were obtained by Alstonia boonei (S = 1.46 × 10–6 min−2 °C−3) and Pterocarpus soyauxii (S = 1.78 × 10–6 min−2 °C−3) which are, in addition, the biomasses with higher ash content. By the same token, Testulea gabonensis and Pterocarpus soyauxii were the species with the highest capacity to produce biochar through pyrolysis. With the mathematical modeling of pyrolysis, maximum activation energies were determined for cellulose (201.3–215.4 kJ/mol), intermediates for hemicellulose plus extractives (191.6–214.9 kJ/mol) and minimum for lignin (63.0–77.0 kJ/mol).

Published

2022

5. Effect of Short-Time Hydrothermal Carbonization on the Properties of Hydrochars Prepared from Olive-Fruit Endocarps

Author

Manuel Cuevas, Ma Lourdes Martínez Cartas, and Sebastián Sánchez

Subjects

Hydrothermal carbonization, Fuel Technology, 020401 chemical engineering, Chemistry, General Chemical Engineering, Energy Engineering and Power Technology, 02 engineering and technology, 0204 chemical engineering, 021001 nanoscience & nanotechnology, 0210 nano-technology, Pulp and paper industry, Holding time

Abstract

Endocarps of the olive fruit were subjected to short-time hydrothermal carbonization (SHTC) to study the effect of temperature and holding time on the properties of hydrochars. In general, the incr...

Published

2018

6. Production of bioalcohols and antioxidant compounds by acid hydrolysis of lignocellulosic wastes and fermentation of hydrolysates withHansenula polymorpha

Author

Sebastián Sánchez, Ma Lourdes Martínez-Cartas, and Mª Inmaculada Olivares

Subjects

0106 biological sciences, 0303 health sciences, Environmental Engineering, Bioengineering, Xylitol, 01 natural sciences, Yeast, Hydrolysate, 03 medical and health sciences, chemistry.chemical_compound, Hydrolysis, chemistry, 010608 biotechnology, Hemicellulose, Fermentation, Acid hydrolysis, Food science, Cellulose, 030304 developmental biology, Biotechnology

Abstract

The effect of the H2SO4 concentration in the hydrolysis of sunflower-stalk waste, at 95oC and using a liquid/solid relation of 20, was studied. In a later stage, the hydrolysates were fermented at different temperatures with the aim of ethanol and xylitol production. A total conversion of the hemicellulose at the acid concentration of 0.5 mol/L was achieved; whereas an acid concentration of 2.5 mol/L was needed to reach the maximum value in the conversion of the cellulose fraction. The analysis of the hydrolysis kinetics has enabled to determine the apparent reaction order, which was 1.3. The hydrolysates from hydrolysis process with H2SO4 0.5 mol/L, once detoxified, were fermented at pH 5.5, temperatures 30, 40, and 50oC with the yeast Hansenula polymorpha (ATCC 34438), resulting in a sequential uptake of sugars. In relation to ethanol and xylitol yields, the best results were observed at 50°C ( YE/sO = 0.11 g/g; YXy/sO = 0.12 g/g). Instantaneous xylitol yields were higher than in ethanol, at the three temperatures essayed. Different phenolic compounds were analyzed in the hydrolysates; hydroxytyrosol was the most abundant (3.79 mg/L). The recovery of these compounds entails the elimination of inhibitors in the fermentation process and the production of high value-added antioxidant products.

Published

2019

7. Production of bioalcohols and antioxidant compounds by acid hydrolysis of lignocellulosic wastes and fermentation of hydrolysates with

Author

Mª Lourdes, Martínez-Cartas, Mª Inmaculada, Olivares, and Sebastián, Sánchez

Subjects

Research Articles

Abstract

The effect of the H(2)SO(4) concentration in the hydrolysis of sunflower‐stalk waste, at 95ºC and using a liquid/solid relation of 20, was studied. In a later stage, the hydrolysates were fermented at different temperatures with the aim of ethanol and xylitol production. A total conversion of the hemicellulose at the acid concentration of 0.5 mol/L was achieved; whereas an acid concentration of 2.5 mol/L was needed to reach the maximum value in the conversion of the cellulose fraction. The analysis of the hydrolysis kinetics has enabled to determine the apparent reaction order, which was 1.3. The hydrolysates from hydrolysis process with H(2)SO(4) 0.5 mol/L, once detoxified, were fermented at pH 5.5, temperatures 30, 40, and 50ºC with the yeast Hansenula polymorpha (ATCC 34438), resulting in a sequential uptake of sugars. In relation to ethanol and xylitol yields, the best results were observed at 50°C ([Formula: see text] = 0.11 g/g; [Formula: see text] = 0.12 g/g). Instantaneous xylitol yields were higher than in ethanol, at the three temperatures essayed. Different phenolic compounds were analyzed in the hydrolysates; hydroxytyrosol was the most abundant (3.79 mg/L). The recovery of these compounds entails the elimination of inhibitors in the fermentation process and the production of high value‐added antioxidant products.

Published

2019

8. Using an improved virtual learning environment for engineering students

Author

Mª Lourdes Martínez Cartas and Carmen Martínez-García

Subjects

Cooperative learning, Multimedia, Computer science, Teaching method, General Engineering, Educational technology, computer.software_genre, Experiential learning, Education, Learning styles, Meaningful learning, Mathematics education, Virtual learning environment, computer, Cognitive style

Abstract

In recent years, e-learning has been used in a chemical engineering subject in the final course of a mining engineering degree, a subject concerned with fuel technology. The low results obtained by students in this subject have led the teacher to search for new strategies to increase grades. Such strategies have consisted of incorporating into the existing virtual environment a dynamics of work with conceptual maps and a consideration of the different learning styles in the classroom. In an attempt to adapt teaching to the individual methods of learning for each student, various activities aimed at strengthening different learning styles have been proposed and concept maps have been used to create meaningful learning experiences. In addition, different modalities of assessment have been proposed, which can be selected by each student according to his or her particular method of learning to avoid penalising one style preference in contrast to another. This combination of e-learning, use of concept maps and...

Published

2012

9. Raceway and bubble column photobioreactors for biomass production of Chlorella pyrenoidosa using secondarily treated sewage

Author

Sánchez, S., Órpez, R., Hodaifa, G., Valdivia, M., Patón, M. P., Mª Lourdes Martínez Cartas, Pacheco, R., and Martínez, M. E.

Subjects

Biomass

Abstract

Chlorella pyrenoidosa Chick 8H was cultivated in secondarily treated urban sewages in bubble column and raceway photobioreactors without a supply of additional nutrients. The uses of microalgae for CO2 elimination, bioremediation and biomass production for sustainable valuable sources like biofuels and fine chemicals is a feasible option with enormous industrial and economic potential. Biodiesel production from microalgae is a promising alternative, because microalgae improve characteristics in relation to crops of traditional plant sources. This study tries to evaluate essentially the parameter kinetics (maximum specific growth rate, µm, and volumetric biomass productivity, Pb) as well as the formation of lipids. In the bubble column photobioreactor and under natural conditions, the highest values of µm and Pb were 0.005 h-1 and 0.14 10-3 g dm-3 h-1, respectively, while in the raceway these parameters were higher, µm = 0.042 h-1 and Pb = 8.28 10-3 g dm-3 h-1 . In the bubble column the percentage of lipids based on dry weight of the biomass was close to 21%. From biomass generated the aim was to undertake the separation of lipids, and evaluate the possibility of transforming lipid fraction into fatty acid methyl esters., Proceedings of the 24th European Biomass Conference and Exhibition, 6-9 June 2016, Amsterdam, The Netherlands, pp. 300-304

10. Influence of the sulphuric acid concentration in the hydrolysis of sunflower stalks

Author

Sánchez, S., Bravo, V., Mª Lourdes Martínez Cartas, and Cotes, M. T.