Your search keyword '"DE SOUSA MENDES, JOCÉLIA"' showing total 8 results

1. Biochemical Characterization of Heat-Tolerant Recombinant l-Arabinose Isomerase from Enterococcus faecium DBFIQ E36 Strain with Feasible Applications in d-Tagatose Production

Author

Manzo, Ricardo Martín, Antunes, André Saraiva Leão Marcelo, de Sousa Mendes, Jocélia, Hissa, Denise Cavalcante, Gonҫalves, Luciana Rocha Barros, and Mammarella, Enrique José

Published

2019

2. Biohydrogen production from food industry waste by suspended and immobilized thermophylic bacteria

Author

De Sousa Mendes, Jocélia

Subjects

ING-IND/25 Impianti chimici, bacteria

Abstract

This work describes hydrogen production by anaerobic digestion of glucose, molasses and milk whey by 4 thermophilic Thermotoga strains. In the attached-cell tests, the biofilm support characterized by the highest specific surface resulted in the best H2 rate. All the Thermotoga strains examined (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) could produce H2 from glucose, molasses and milk whey, both in suspended- and attached-cell tests. With all the three substrates, the best performances were obtained with T. neapolitana. Some tests were conducted out to select the optimal carrier for the attached-cell conditions. 4 types of carrier were tested: 3 sintered glass carriers and a ceramic one; the chosen carrier was Biomax., Questo lavoro descrive la produzione di idrogeno per digestione anaerobica di siero di latte, glucosio e melasso utilizzando 4 ceppi Thermotoga termofili. Tutte i 4 ceppi di Thermotoga testati (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) sono stati in grado di produrre H2 dal siero di latte, glucosio e melasso, sia in prove con biomassa sospese che adesa. Con tutti i tre substrati, le migliori prestazioni sono state ottenute con T. neapolitana. Sono state condotte alcuni test per selezionare il supporto ottimale per le condizioni con biomassa adesa. Sono stati testati 4 tipi di supporti, 3 in vetro sinterizzato e uno in materiale ceramico; il supporto scelto è stato Biomax.

Published

2013

3. Batch and continuous-flow thermophilic hydrogen production from molasses and cheese whey by suspended and immobilized cells of Thermotoga neapolitana

Author

FRASCARI, DARIO, DE SOUSA MENDES, JOCÉLIA, ALBERINI, ANDREA, CAPPELLETTI, MARTINA, FEDI, STEFANO, PINELLI, DAVIDE, F. Scimonelli, C. Manfreda, D. Frascari, J. De Sousa Mende, A. Alberini, F. Scimonelli, C. Manfreda, M. Cappelletti, S. Fedi, and D. Pinelli

Subjects

BIOHYDROGEN, BIOFUELS, CHEESE WHEY

Abstract

BACKGROUND. Bio-hydrogen production from organic residues is an attractive process that combines energy generation with waste treatment. This work represents the continuation of a previous study of biological H2 production from food industry wastes (Cappelleti et al., J. Chem. Technol. Biotechnol. 87:1291-1301), where the comparison of four thermophilic Thermotoga strains and four carriers for biomass immobilization led to the identification of T. neapolitana as the best-performing strain and of a porous ceramic material named Biomax as the best-performing support for biofilm formation. AIMS. The goals of this work were: a) to develop and calibrate a kinetic model of H2 production from glucose, molasses and cheese whey by suspended and attached cells of T. neapolitana, and b) to set-up and optimize a continuous-flow process of H2 production from cheese whey by T. neapolitana in a 20-L stirred reactor. METHODS. The experimental H2 rates used to develop the kinetic model were obtained from suspended- and attached-cell batch tests conducted in 120-mL bioreactors, exposed to different initial concentrations of glucose, molasses or cheese whey (0.1-95 g L-1, as total sugars). The process was scaled-up in a 20-L fermentor, fed only with cheese whey in consideration of the significantly higher production of this waste in Northern Italy, in comparison with molasses. The fermentor was operated initially with suspended-cells, and subsequently with attached-cells. To immobilize T. neapolitana in the fermentor, 5 L of the previously selected carrier were introduced in pockets made with steel net and fixed to the top and bottom of the vessel. RESULTS. The H2 specific production rates obtained with suspended and attached cell tests of T. neapolitana are shown in Figure 1, together with the best fitting simulations performed with the Haldane substrate inhibition model. The corresponding values of the kinetic parameters are reported in Table 1. For all the substrates studied, a marked substrate inhibition was noticed. The attached-cell tests resulted in higher rates than the suspended-cell ones, in particular in the case of glucose and molasses. Further tests indicated the absence of oxygen inhibition (studied range: 0-1% in the headspace, or 0-0.21 mgdissolved O2 L-1) and of product (H2) inhibition (studied range: 0-60% in the headspace, or 0-0.73 mgdissolved H2 L-1). The batch tests of H2 production from cheese whey conducted in the 20-L fermentor led to a productivity of 6.8 mmolH2 L-1 day-1 with suspended cells, and 22.5 mmolH2 L-1 day-1 with attached cells. The fermentor was also operated with attached cells in continuous-flow mode, with hydraulic retention times (HRT) in the 0.8-2.9 day range. The resulting H2 productivity showed an increasing trend with decreasing HRT, with a maximum value of 125 mmolH2 L-1 day-1. CONCLUSIONS. The calibration of a model of thermophilic H2 production from different wastes and the successful scale-up of the process of cheese whey conversion into H2 in a continuous-flow 20-L bioreactor pose the basis for a model-based optimization of the attached-cell process, and for its further scale-up to a pilot plant.

Published

2013

4. produzione di bioidrogenio da rifiuti della industria alimentare con biomassa sospesa e adesa utizzando batteri thermofili

Author

De Sousa Mendes, Jocélia <1983>

Subjects

ING-IND/25 Impianti chimici, bacteria

Abstract

This work describes hydrogen production by anaerobic digestion of glucose, molasses and milk whey by 4 thermophilic Thermotoga strains. In the attached-cell tests, the biofilm support characterized by the highest specific surface resulted in the best H2 rate. All the Thermotoga strains examined (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) could produce H2 from glucose, molasses and milk whey, both in suspended- and attached-cell tests. With all the three substrates, the best performances were obtained with T. neapolitana. Some tests were conducted out to select the optimal carrier for the attached-cell conditions. 4 types of carrier were tested: 3 sintered glass carriers and a ceramic one; the chosen carrier was Biomax., Questo lavoro descrive la produzione di idrogeno per digestione anaerobica di siero di latte, glucosio e melasso utilizzando 4 ceppi Thermotoga termofili. Tutte i 4 ceppi di Thermotoga testati (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) sono stati in grado di produrre H2 dal siero di latte, glucosio e melasso, sia in prove con biomassa sospese che adesa. Con tutti i tre substrati, le migliori prestazioni sono state ottenute con T. neapolitana. Sono state condotte alcuni test per selezionare il supporto ottimale per le condizioni con biomassa adesa. Sono stati testati 4 tipi di supporti, 3 in vetro sinterizzato e uno in materiale ceramico; il supporto scelto è stato Biomax.

Published

2013

5. Biological hydrogen production from food industry wastes under thermophilic conditions

Author

PAGLIANTI, ALESSANDRO, FRASCARI, DARIO, BUCCHI, GIACOMO, DE SOUSA MENDES, JOCÉLIA, ALBERINI, ANDREA, CAPPELLETTI, MARTINA, FEDI, STEFANO, L. MORSELLI, F. PASSARINI, I. VASSURA, A. Paglianti, D. Frascari, G. Bucchi, J. De Sousa Mende, A. Alberini, M. Cappelletti, and S. Fedi

Subjects

THERMOPHILIC PROCESS, BIO-HYDROGEN, ANAEROBIC DIGESTION, BIOFILM

Abstract

Bio-hydrogen production from organic residues is an attractive process that combines energy generation with waste treatment. This work describes hydrogen production from glucose, molasses and cheese whey by 4 hyperthermophilic Thermotoga strains. In experiments with glucose-fed T. neapolitana, the best H2 rate was obtained with the biofilm support characterized by the highest specific surface. All the 4 Thermotoga strains examined (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) could produce H2 from glucose, molasses and cheese whey under both suspended- and attached-cell conditions. With all the three substrates, T. neapolitana resulted the best H2 producer. The best H2 production rate was higher on molasses (1.7 mmol H2 / L medium / h) than on cheese whey (0.94 mmol H2 / L medium / h), whereas the highest H2/substrate yields were similar between the two substrates.

Published

2012

6. Prove batch per la produzione di idrogeno tramite digestione anaerobica di scarti dell’industria alimentare utilizzando quattro ceppi batterici termofili del genere Thermotoga

Author

DE SOUSA MENDES, JOCÉLIA, ALBERINI, ANDREA, BUCCHI, GIACOMO, CAPPELLETTI, MARTINA, PINELLI, DAVIDE, FEDI, STEFANO, BERTIN, LORENZO, FRASCARI, DARIO, Manfreda C., De Sousa Mendes J., Alberini A., Bucchi G., Manfreda C., Cappelletti M., Pinelli D., Fedi S., Bertin L., and Frascari D.

Subjects

SCARTI DELL’INDUSTRIA ALIMENTARE, BIOIDROGENO, TRATTAMENTO DI RESIDUO, DIGESTIONE ANAEROBICA

Abstract

Questo lavoro descrive la produzione di idrogeno per digestione anaerobica di siero di latte, glucosio e melasso utilizzando 4 ceppi Thermotoga termofili. Tutte i 4 ceppi di Thermotoga testati (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) sono stati in grado di produrre H2 dal siero di latte, glucosio e melasso, sia in prove con biomassa sospese che adesa. Con tutti i tre substrati, le migliori prestazioni sono state ottenute con T. neapolitana. Sono state condotte alcuni test per selezionare il supporto ottimale per le condizioni con biomassa adesa. Sono stati testati 4 tipi di supporti, 3 in vetro sinterizzato e uno in materiale ceramico; il supporto scelto è stato Biomax.

Published

2012

7. CARACTERIZAÇÃO DA ATIVIDADE ENZIMÁTICA DA L-ARABINOSE ISOMERASE PRODUZIDA A PARTIR DE LACTOBACILUS PLANTARUM

Author

de Sousa Mendes, Jocélia, primary, Gonçalves, Luciana Rocha Barros, additional, Vasconcelos de Farias, Marcela Yara, additional, Sousa Cavalcante, Lucas, additional, Martins Ximenes, Júlio César, additional, and Maciel Melo, Vânia Maria, additional

Published

2015

8. Biohydrogen production from food industry waste by suspended and immobilized thermophylic bacteria

Author

Pinelli, Davide, De Sousa Mendes, Jocélia <1983>, Pinelli, Davide, and De Sousa Mendes, Jocélia <1983>

Abstract

This work describes hydrogen production by anaerobic digestion of glucose, molasses and milk whey by 4 thermophilic Thermotoga strains. In the attached-cell tests, the biofilm support characterized by the highest specific surface resulted in the best H2 rate. All the Thermotoga strains examined (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) could produce H2 from glucose, molasses and milk whey, both in suspended- and attached-cell tests. With all the three substrates, the best performances were obtained with T. neapolitana. Some tests were conducted out to select the optimal carrier for the attached-cell conditions. 4 types of carrier were tested: 3 sintered glass carriers and a ceramic one; the chosen carrier was Biomax., Questo lavoro descrive la produzione di idrogeno per digestione anaerobica di siero di latte, glucosio e melasso utilizzando 4 ceppi Thermotoga termofili. Tutte i 4 ceppi di Thermotoga testati (T. neapolitana, T. maritima, T. naphtophila, T. petrophila) sono stati in grado di produrre H2 dal siero di latte, glucosio e melasso, sia in prove con biomassa sospese che adesa. Con tutti i tre substrati, le migliori prestazioni sono state ottenute con T. neapolitana. Sono state condotte alcuni test per selezionare il supporto ottimale per le condizioni con biomassa adesa. Sono stati testati 4 tipi di supporti, 3 in vetro sinterizzato e uno in materiale ceramico; il supporto scelto è stato Biomax.

Published

2013