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  1. Article ; Online: Study on the Operational Modes Using Both Growing and Resting Cells for Succinic Acid Production from Xylose Kinetic Modelling

    Escanciano, Itziar A. / Ripoll, Vanessa / Ladero, Miguel / Santos, Victoria E.

    Fermentation. 2023 July 14, v. 9, no. 7

    2023  

    Abstract: Succinic acid (SA) is one of the most prominent C4 biomass-based platform chemicals that can be biologically obtained. This article verifies, for the first time, the possibility of producing succinic acid with fed-batch or repeated batch operations with ... ...

    Abstract Succinic acid (SA) is one of the most prominent C4 biomass-based platform chemicals that can be biologically obtained. This article verifies, for the first time, the possibility of producing succinic acid with fed-batch or repeated batch operations with Actinobacillus succinogenes in a resting state, that is, in the absence of a nitrogen source. In this work it is possible to optimise separately the stages of cell growth and production in the fed-batch or repeated batch modes, minimising the costs associated with the nitrogen source and facilitating the subsequent purification of SA. These experiments were carried out with xylose, the most abundant monosaccharide in hemicelluloses, with the results subsequently being compared to those obtained in equivalent operations carried out with cells in a state of growth. First, a cost-effective synthetic growth medium was proposed and successfully employed for SA production. Biocatalysts’ reutilisation showed that the bioprocess can be carried out successfully in repeated batch and fed-batch modes. The best mode for growing cells is repeated batch, achieving a maximum productivity of 0.77 g‧L⁻¹‧h⁻¹, a selectivity of 53% and a yield of 51% with respect to xylose consumed. In contrast, the fed-batch mode was found to be the most convenient mode with resting cell biocatalyst, reaching a maximum productivity of 0.83 g‧L⁻¹‧h⁻¹, a selectivity of 0.78 g‧g⁻¹ and a yield of 68% with respect to the xylose consumed. In addition, by-product formation is significantly reduced when employing resting cells. An unstructured non-segregated kinetic model was developed for both biocatalysts, capable of simulating cell growth, xylose consumption, SA production and by-product generation, with successful estimation of kinetic parameters supported by statistical criteria.
    Keywords Actinobacillus succinogenes ; biocatalysts ; bioprocessing ; byproducts ; cell growth ; cost effectiveness ; culture media ; fermentation ; hemicellulose ; kinetics ; nitrogen ; succinic acid ; xylose
    Language English
    Dates of publication 2023-0714
    Publishing place Multidisciplinary Digital Publishing Institute
    Document type Article ; Online
    ZDB-ID 2813985-9
    ISSN 2311-5637
    ISSN 2311-5637
    DOI 10.3390/fermentation9070663
    Database NAL-Catalogue (AGRICOLA)

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  2. Article: Kinetic modelling of 2,3-butanediol production by Raoultella terrigena CECT 4519 resting cells: Effect of fluid dynamics conditions and initial glycerol concentration

    Ripoll, Vanessa / Ladero, Miguel / Santos, Victoria E.

    Biochemical engineering journal. 2021 Dec., v. 176

    2021  

    Abstract: Biodiesel-derived glycerol was biologically converted to 2,3-butanediol, an organic compound with multiple industrial applications. Recent studies showed that Raoultella terrigena CECT 4519 is an effective biocatalyst for the bioprocess under ... ...

    Abstract Biodiesel-derived glycerol was biologically converted to 2,3-butanediol, an organic compound with multiple industrial applications. Recent studies showed that Raoultella terrigena CECT 4519 is an effective biocatalyst for the bioprocess under conventional growing conditions. In the present work, a novel biocatalyst composed by R. terrigena resting cells was evaluated for the first time. Fluid dynamic conditions has been optimized to maximize 2,3-butanediol production in terms of titre, yield, and selectivity. Regarding the effect of initial glycerol concentration in batch runs, no substrate inhibition was detected in the studied conditions (concentrations between 45 and 250 g/L were used). Employing pure glycerol as carbon source, 82.0 g/L 2,3-butanediol titre was achieved, whereas 76.5 g/L were reached using raw glycerol. These numbers involve an achieved yield respect to maximal theoretic yield of 79% and 77%, respectively. A successful kinetic modelling of the bioprocess was developed and it is able to describe both the evolution of concentrations of relevant components with time and the rates calculated at experimental time values. Estimated specific 2,3-butanediol production rate was 0.034 g₂,₃₋BDO/gX·h, while the estimated empirical pseudo-stoichiometric coefficient glycerol/2,3-butanediol was 2.52 gGₗy/g₂,₃₋BDO. The obtained results showed that R. terrigena resting cells is a promising biocatalyst, which provides new opportunities for developing and scaling-up glycerol biorefineries.
    Keywords Raoultella terrigena ; biocatalysts ; bioprocessing ; biorefining ; carbon ; evolution ; fluid mechanics ; glycerol
    Language English
    Dates of publication 2021-12
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 2012139-8
    ISSN 1369-703X
    ISSN 1369-703X
    DOI 10.1016/j.bej.2021.108185
    Database NAL-Catalogue (AGRICOLA)

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  3. Article ; Online: Teaching Chemical Engineering to Biotechnology students in the time of COVID-19: assessment of the adaptation to digitalization

    Ripoll, Vanessa / Godino-Ojer, Marina / Calzada, Javier

    Abstract: With the global outbreak of COVID-19 in March 2020, there was an immediate shutdown of face-to-face classes and a sudden shift to on-line learning. Confinement required finding innovative approaches to teaching and student assessment. This paper aims to ... ...

    Abstract With the global outbreak of COVID-19 in March 2020, there was an immediate shutdown of face-to-face classes and a sudden shift to on-line learning. Confinement required finding innovative approaches to teaching and student assessment. This paper aims to share the experience of adapting the course in Biochemical Engineering, part of the Biotechnology program at Francisco de Vitoria University (Madrid, Spain), to remote learning. A sequence of collaborative learning activities, with active student participation, was designed to replace the traditional mid-term exam. Activities were carefully implemented, considering the range of learning styles. Engineering skills, transversal competences and higher-order thinking skills were fostered through these activities. The analysis of the teaching/learning experience was based on teacher observations, academic performance and student surveys. All indicators showed that the adopted methodology had a positive impact of student performance. Student participation, especially among those repeating the course, also improved. Furthermore, students gained a more accurate and positive perception of the link between Chemical Engineering and Biotechnology, which may have a favourable impact on the teaching of Bioreactors in the coming academic year.
    Keywords covid19
    Publisher Elsevier
    Document type Article ; Online
    DOI 10.1016/j.ece.2020.11.005
    Database COVID19

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  4. Article ; Online: Teaching Chemical Engineering to Biotechnology students in the time of COVID-19

    Ripoll, Vanessa / Godino-Ojer, Marina / Calzada, Javier

    Education for Chemical Engineers ; ISSN 1749-7728

    assessment of the adaptation to digitalization

    2020  

    Keywords General Chemical Engineering ; Education ; covid19
    Language English
    Publisher Elsevier BV
    Publishing country us
    Document type Article ; Online
    DOI 10.1016/j.ece.2020.11.001
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  5. Article: Improvement of biomethane potential of sewage sludge anaerobic co-digestion by addition of “sherry-wine” distillery wastewater

    Ripoll, Vanessa / Agabo-García, Cristina / Perez, Montserrat / Solera, Rosario

    Journal of cleaner production. 2020 Apr. 01, v. 251

    2020  

    Abstract: Co-digestion of sewage sludge (SS) with other unusually treated residues has been reported as an efficient method to improve biomethane production. In this work, Sherry-wine distillery wastewater (SW-DW) has been proposed as co-substrate in order to ... ...

    Abstract Co-digestion of sewage sludge (SS) with other unusually treated residues has been reported as an efficient method to improve biomethane production. In this work, Sherry-wine distillery wastewater (SW-DW) has been proposed as co-substrate in order to increase biomethane production and as a breakthrough solution in the management of both types of waste. In order to achieve this goal, different SS:SW-DW mixtures were employed as substrates in Biomethane Potential (BMP) tests. The biodegradability and biomethane potential of each mixture was determined selecting the optimal co-substrate ratio. Results showed that the addition of SW-DW as a co-substrate improves the anaerobic digestion of SS in a proportionally way in terms of CODs and biomethane production The optimal co-substrates ratio was 50:50 of SS:SW-DW obtaining %VSremoval = 54.5%; YCH4 = 225.1 L CH4/kgsv or 154 L CH4/kgCODt and microbial population of 5.5 times higher than sole SS. In this case, %VSremoval = 48.1%; YCH4 = 183 L CH4/kgsv or 135 L CH4/kgCODt. The modified Gompertz equation was used for the kinetic modelling of biogas production with successful fitting results (r2 = 0.99). In this sense, at optimal conditions, the maximum productivity reached at an infinite digestion time was (YCH4MAX) = 229 ± 5.0 NL/kgSV; the specific constant was K = 25.0 ± 2.3 NL/kgSV·d and the lag phase time constant was (λ) = 2.49 ± 0.19.
    Keywords anaerobic digestion ; biodegradability ; biogas ; chemical oxygen demand ; distillery effluents ; equations ; gas production (biological) ; methane ; models ; sewage sludge
    Language English
    Dates of publication 2020-0401
    Publishing place Elsevier Ltd
    Document type Article
    ISSN 0959-6526
    DOI 10.1016/j.jclepro.2019.119667
    Database NAL-Catalogue (AGRICOLA)

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  6. Article: High 2,3-butanediol production from glycerol by Raoultella terrigena CECT 4519

    Ripoll, Vanessa / Rodríguez, Alberto / Ladero, Miguel / Santos, Victoria E

    Bioprocess and biosystems engineering. 2020 Apr., v. 43, no. 4

    2020  

    Abstract: Bioconversion of biodiesel-derived glycerol into 2,3-butanediol has received recently much attention due to its increasing surplus and its multiple uses in industry as bulk chemical. The influence of initial glycerol concentration on 2,3-butanediol ... ...

    Abstract Bioconversion of biodiesel-derived glycerol into 2,3-butanediol has received recently much attention due to its increasing surplus and its multiple uses in industry as bulk chemical. The influence of initial glycerol concentration on 2,3-butanediol production in batch runs has been studied. A concentration higher than 140 g/L produces an inhibitory effect on the final 2,3-butanediol concentration and its production rate. In batch mode, the highest yield respect to the theoretical maximum yield (71%) was reached employing 140 g/L as initial concentration 140 g/L. Based on these results, a high 2,3-butanediol production has been achieved through a fed-batch strategy. The reached 2,3-butanediol concentration was 90.5 g/L from pure glycerol and 80.5 g/L from raw glycerol. The 2,3-butanediol yield respect to the theoretical maximum yield was also improved through the fed-batch operation (90%). To date, this concentration is the highest produced amount employing as biocatalyst a non-pathogenic bacterium (level 1).
    Keywords Raoultella terrigena ; bacteria ; biocatalysts ; biotransformation ; glycerol ; industry
    Language English
    Dates of publication 2020-04
    Size p. 685-692.
    Publishing place Springer Berlin Heidelberg
    Document type Article
    ZDB-ID 1476357-6
    ISSN 1432-0797 ; 1615-7605 ; 1615-7591
    ISSN (online) 1432-0797 ; 1615-7605
    ISSN 1615-7591
    DOI 10.1007/s00449-019-02266-8
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  7. Article ; Online: High 2,3-butanediol production from glycerol by Raoultella terrigena CECT 4519.

    Ripoll, Vanessa / Rodríguez, Alberto / Ladero, Miguel / Santos, Victoria E

    Bioprocess and biosystems engineering

    2019  Volume 43, Issue 4, Page(s) 685–692

    Abstract: Bioconversion of biodiesel-derived glycerol into 2,3-butanediol has received recently much attention due to its increasing surplus and its multiple uses in industry as bulk chemical. The influence of initial glycerol concentration on 2,3-butanediol ... ...

    Abstract Bioconversion of biodiesel-derived glycerol into 2,3-butanediol has received recently much attention due to its increasing surplus and its multiple uses in industry as bulk chemical. The influence of initial glycerol concentration on 2,3-butanediol production in batch runs has been studied. A concentration higher than 140 g/L produces an inhibitory effect on the final 2,3-butanediol concentration and its production rate. In batch mode, the highest yield respect to the theoretical maximum yield (71%) was reached employing 140 g/L as initial concentration 140 g/L. Based on these results, a high 2,3-butanediol production has been achieved through a fed-batch strategy. The reached 2,3-butanediol concentration was 90.5 g/L from pure glycerol and 80.5 g/L from raw glycerol. The 2,3-butanediol yield respect to the theoretical maximum yield was also improved through the fed-batch operation (90%). To date, this concentration is the highest produced amount employing as biocatalyst a non-pathogenic bacterium (level 1).
    MeSH term(s) Batch Cell Culture Techniques ; Bioreactors ; Butylene Glycols/metabolism ; Enterobacteriaceae/metabolism ; Glycerol/metabolism
    Chemical Substances Butylene Glycols ; 2,3-butylene glycol (45427ZB5IJ) ; Glycerol (PDC6A3C0OX)
    Language English
    Publishing date 2019-12-17
    Publishing country Germany
    Document type Journal Article
    ZDB-ID 1476357-6
    ISSN 1615-7605 ; 1432-0797 ; 1615-7591
    ISSN (online) 1615-7605 ; 1432-0797
    ISSN 1615-7591
    DOI 10.1007/s00449-019-02266-8
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  8. Article ; Online: 1,3-Propanediol production from glycerol with a novel biocatalyst Shimwellia blattae ATCC 33430: Operational conditions and kinetics in batch cultivations.

    Rodriguez, Alberto / Wojtusik, Mateusz / Ripoll, Vanessa / Santos, Victoria E / Garcia-Ochoa, F

    Bioresource technology

    2016  Volume 200, Page(s) 830–837

    Abstract: Shimwellia blattae ATCC 33430 as biocatalyst in the conversion of 1,3-propanediol from glycerol is herein evaluated. Several operational conditions in batch cultivations, employing pure and raw glycerol as sole carbon source, were studied. Temperature ... ...

    Abstract Shimwellia blattae ATCC 33430 as biocatalyst in the conversion of 1,3-propanediol from glycerol is herein evaluated. Several operational conditions in batch cultivations, employing pure and raw glycerol as sole carbon source, were studied. Temperature was studied at shaken bottle scale, while pH control strategy, together with the influence of raw glycerol and its impurities during fermentation were studied employing a 2L STBR. Thereafter, fluid dynamic conditions were considered by changing the stirring speed and the gas supply (air or nitrogen) in the same scale-up experiments. The best results were obtained at a temperature of 37°C, an agitation rate of 200rpm, with free pH evolution from 6.9 and subsequent control at 6.5 and no gas supply during the fermentation, employing an initial concentration of 30g/L of raw glycerol. Under these conditions, the biocatalyst is competitive, leading to results in line with other previous works in the literature in batch conditions, reaching a final concentration of 1,3-propanediol of 13.84g/L, with a yield of 0.45g/g and a productivity of 1.19g/(Lh) from raw glycerol.
    MeSH term(s) Aerobiosis ; Bacteria/growth & development ; Bacteria/metabolism ; Batch Cell Culture Techniques/methods ; Biocatalysis ; Biotechnology/methods ; Fermentation ; Glycerol/metabolism ; Hydrogen-Ion Concentration ; Kinetics ; Propylene Glycols/metabolism ; Temperature
    Chemical Substances Propylene Glycols ; 1,3-propanediol (5965N8W85T) ; Glycerol (PDC6A3C0OX)
    Language English
    Publishing date 2016-01
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1065195-0
    ISSN 1873-2976 ; 0960-8524
    ISSN (online) 1873-2976
    ISSN 0960-8524
    DOI 10.1016/j.biortech.2015.10.061
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  9. Article: 1,3-Propanediol production by

    Wojtusik, Mateusz / Rodríguez, Alberto / Ripoll, Vanessa / Santos, Victoria E / García, José L / García-Ochoa, Félix

    Biotechnology reports (Amsterdam, Netherlands)

    2015  Volume 6, Page(s) 100–107

    Abstract: Production of 1,3-propanediol from glycerol ... ...

    Abstract Production of 1,3-propanediol from glycerol using
    Language English
    Publishing date 2015-03-17
    Publishing country Netherlands
    Document type Journal Article
    ZDB-ID 2801018-8
    ISSN 2215-017X
    ISSN 2215-017X
    DOI 10.1016/j.btre.2014.12.010
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  10. Article: Novel biocatalysts for glycerol conversion into 2,3-butanediol

    Ripoll, Vanessa / Alejandro Montesinos / Antonia Rojas / Bruno Morán / Daniel Ramón / Gonzalo de Vicente / Marta Tortajada / Miguel Ladero / Silvia Segarra / Victoria E. Santos

    Process biochemistry. 2016 June, v. 51, no. 6

    2016  

    Abstract: Bioconversion of biodiesel-derived waste glycerol into high-value products is proposed as a solution to improve economic viability of biorefineries. Several microorganisms are able to metabolize glycerol into 2,3-butanediol (2,3-BD), a promising bulk ... ...

    Abstract Bioconversion of biodiesel-derived waste glycerol into high-value products is proposed as a solution to improve economic viability of biorefineries. Several microorganisms are able to metabolize glycerol into 2,3-butanediol (2,3-BD), a promising bulk chemical with wide applications: solvent, fuel additive, and feedstock for synthetic rubber production, among them. In the present work, a wide screening of microorganisms present both into the waste water treatment system in a biodiesel industry and in culture collections was carried out in order to evaluate their potential as new 2,3-BD producer biocatalysts. Two microorganisms for 2,3-BD production from glycerol as sole carbon source have been selected, namely Raoultella planticola CECT 843 and Raoultella terrigena CECT 4519. Raoultella strains belong to the non‐pathogenic bacteria class (biosafety level 1). This genus has not been previously described as biocatalyst for the studied process. The influence of operational temperature, organic acid addition, and yeast extract concentration on 2,3-BD yield and productivity have been studied through Taguchi design methodology as well as initial glycerol concentration. Based on these results, the feasibility of the process employing pure glycerol and different samples of raw glycerol has been demonstrated.
    Keywords bacteria ; biocatalysts ; biodiesel ; biosafety ; biotransformation ; carbon ; experimental design ; feedstocks ; glycerol ; Raoultella planticola ; Raoultella terrigena ; screening ; solvents ; synthetic rubber ; temperature ; wastewater treatment ; yeast extract
    Language English
    Dates of publication 2016-06
    Size p. 740-748.
    Publishing place Elsevier Ltd
    Document type Article
    ISSN 1359-5113
    DOI 10.1016/j.procbio.2016.03.006
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