Third generation biodiesel production from microalgae

O objetivo do estudo foi avaliar o biodiesel de 3 a geração produzido a partir do cultivo heterotrófico da microalga Phormidium sp., empregando amido de mandioca como fonte de carbono orgânico. Um planejamento experimental foi realizado para determinar as condições ótimas de temperatura e razão C/N. A partir da obtenção das melhores condições de cultivo desenvolveram-se cultivos em batelada e batelada alimentada em biorreator e avaliaram-se as características do biodiesel produzido. Os resultados indicaram que a temperatura de 30ºC e a razão C/N de 68 são as condições ideais do processo. As maiores produtividades em biomassa (50,41mgL-1h-1) e lipídica (7,49mgL-1h-1) foram obtidas no cultivo em batelada. Os ácidos graxos com maior representatividade foram os ácidos caproico (65,29%) e oleico (23,88%). As propriedades de combustão do biodiesel: conteúdo de ésteres (99,9%), número de cetano (54,88), índice de iodo (21,47gI2100g-1), grau de instauração (23,88%) e ponto de entupimento de filtro a frio (39,21ºC) se mostraram adequadas às principais normativas nacionais e internacionais452349355FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPsem informaçãoThe aim of the study was to evaluate the third generation biodiesel produced from heterotrophic cultivation of the microalgae Phormidium sp. employing cassava starch as source of organic carbon. An experimental design was performed to determine the optimal conditions of temperature and C/N ratio. From the best growing conditions, was developed cultivations in batch and fed-batch in a bioreactor and evaluated the biodiesel quality. The results indicate that the temperature of 30ºC and the C/N ratio of 68 are the ideal conditions of the process. The highest biomass productivity (50.41mgL-1h-1) and lipid productivity (7.49mgL-1h-1) were obtained in batch cultivations. The fatty acids most representative were caproic acid (65.29%) and oleic acid (23.88%). The fuel properties of biodiesel: ester content of 99.9%, cetane number of 54.88, iodine value of 21.47gI100g-1, unsaturation degree of 23.88% and a cold filter plugging point of 39.21ºC, comply with the main international and national standard

Chlorophyll Oxidative Metabolism During the Phototrophic and Heterotrophic Growth of Scenedesmus obliquus

Different cultivation strategies have been developed with the aim of increasing the production rate of microalgal pigments. Specifically, biotechnological approaches are designed to increase antioxidant metabolites as chlorophyll and carotenoids. However, although significant advances have been built up, available information regarding both the chlorophyll metabolism and their oxidative reactions in photobioreactors is scarce. To unravel such processes, the detailed chlorophyll and carotenoid fraction of Scenedesmus obliquus has been studied by HPLC-ESI/APCI-hrTOF-MS from phototrophic and heterotrophic cultures. Scenedesmus is provided with a controlled strategy of interconversion between chlorophyll a and b to avoid the formation of reactive oxygen species (ROS) at high irradiances in addition to the photoacclimation of carotenoids. Indeed, precise kinetics of 132-hydroxy- and 151-hydroxy-lactone chlorophyll metabolites shows the existence of a chlorophyll oxidative metabolism as a tool to manage the excess of energy at high light conditions. Unexpectedly, the oxidation under phototrophy favored chlorophyll b metabolites over the chlorophyll a series, while the heterotrophic conditions exclusively induced the formation of 132-hydroxy-chlorophyll a. In parallel, during the first 48 h of growth in the dark, the chlorophyll fraction maintained a promising steady state. Although future studies are required to resolve the biochemical reactions implied in the chlorophyll oxidative metabolism, the present results agree with phytoplankton metabolism

Esterified carotenoids as new food components in cyanobacteria

27 Páginas.-- 3 Figuras.-- 2 TablasAmong the nutritional properties of microalgae, this study is focused in the presence of carotenoid esters in prokaryote microalgae, an event that has not been shown so far. Three carotenoid esters that accumulate in non-stressful culture conditions are identified in Aphanotece microscopica Nägeli and Phormidum autumnale Gomont, what may provide an extra value to the quality attributes of the carotenoid profile in cyanobacteria as functional foods. In addition, new data on the carotenoid characterization added quality criteria for the identification of the esterified metabolites, enabling the monitoring of these food components. Specifically, the metabolomic approach applied to the food composition analysis, has allowed to differentiate between the esters of zeinoxanthin and β-cryptoxanthin, which were undifferentiated to date during the MS characterization of carotenoids in other food sources. We propose a new qualifier product ion specific for zeinoxanthin ester, which it is not present in the MS2 spectrum of β-cryptoxanthin esters.This work was supported by the Comisión Interministerial de Ciencia y Tecnología (CICYT-EU, Spanish and European Government, grant number AGL 2015-63890-R). MM was supported with a fellowship from CAPES.Peer reviewe

Chlorophyll Oxidative Metabolism During the Phototrophic and Heterotrophic Growth of Scenedesmus obliquus

15 Páginas.-- 5 Tablas.-- 4 FigurasDifferent cultivation strategies have been developed with the aim of increasing the production rate of microalgal pigments. Specifically, biotechnological approaches are designed to increase antioxidant metabolites as chlorophyll and carotenoids. However, although significant advances have been built up, available information regarding both the chlorophyll metabolism and their oxidative reactions in photobioreactors is scarce. To unravel such processes, the detailed chlorophyll and carotenoid fraction of Scenedesmus obliquus has been studied by HPLC-ESI/APCI-hrTOF-MS from phototrophic and heterotrophic cultures. Scenedesmus is provided with a controlled strategy of interconversion between chlorophyll a and b to avoid the formation of reactive oxygen species (ROS) at high irradiances in addition to the photoacclimation of carotenoids. Indeed, precise kinetics of 132-hydroxy- and 151-hydroxy-lactone chlorophyll metabolites shows the existence of a chlorophyll oxidative metabolism as a tool to manage the excess of energy at high light conditions. Unexpectedly, the oxidation under phototrophy favored chlorophyll b metabolites over the chlorophyll a series, while the heterotrophic conditions exclusively induced the formation of 132-hydroxy-chlorophyll a. In parallel, during the first 48 h of growth in the dark, the chlorophyll fraction maintained a promising steady state. Although future studies are required to resolve the biochemical reactions implied in the chlorophyll oxidative metabolism, the present results agree with phytoplankton metabolism.This work was supported by the Ministerio de Ciencia, Investigación y Universidades, Agencia Estatal de Investigación y Fondo Europeo de Desarrollo Regional (FEDER), grant number RTI2018-095415-B-I00. MM was supported with a fellowship from the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brasil (CAPES) - Finance Code 001 and the Brazilian Funding Agency FAPERGS (Fundação de Amparo a pesquisa do estado do Rio Grande do Sul). The APC was partially funded by CSIC.Peer reviewe

A tecnologia de remoção de fósforo: gerenciamento do elemento em resíduos industriais

As elevadas concentrações de fósforo em águas residuárias industriais é uma das principais causas da eutrofização de corpos hídricos receptores, havendo em virtude disto, uma crescente preocupação com o gerenciamento das cargas de fósforo dos efluentes industriais. Além dos aspectos de contenção ambiental, é estrategicamente desejável que os processos de tratamento permitam a recuperação e o reúso deste elemento que é considerado de elevada demanda biológica. Neste sentido, esta revisão objetiva descrever e analisar criticamente o estado atual das tecnologias de gerenciamento de fósforo em águas residuais industriais, com ênfase no reúso do elemento. As tecnologias consideradas incluem abordagens químicas (precipitação química e adsorção), biológicas (sistemas bacterianos, uso macroalgas e microalgas) além de técnicas de fertirrigação

Produção de biodiesel de terceira geração a partir de microalgas

O objetivo do estudo foi avaliar o biodiesel de 3 a geração produzido a partir do cultivo heterotrófico da microalga Phormidium sp., empregando amido de mandioca como fonte de carbono orgânico. Um planejamento experimental foi realizado para determinar as condições ótimas de temperatura e razão C/N. A partir da obtenção das melhores condições de cultivo desenvolveram-se cultivos em batelada e batelada alimentada em biorreator e avaliaram-se as características do biodiesel produzido. Os resultados indicaram que a temperatura de 30ºC e a razão C/N de 68 são as condições ideais do processo. As maiores produtividades em biomassa (50,41mgL-1h-1) e lipídica (7,49mgL-1h-1) foram obtidas no cultivo em batelada. Os ácidos graxos com maior representatividade foram os ácidos caproico (65,29%) e oleico (23,88%). As propriedades de combustão do biodiesel: conteúdo de ésteres (99,9%), número de cetano (54,88), índice de iodo (21,47gI2100g-1), grau de instauração (23,88%) e ponto de entupimento de filtro a frio (39,21ºC) se mostraram adequadas às principais normativas nacionais e internacionai

Treatment of cattle-slaughterhouse wastewater and the reuse of sludge for biodiesel production by microalgal heterotrophic bioreactors

Microalgal heterotrophic bioreactors are a potential technological development that can convert organic matter, nitrogen and phosphorus of wastewaters into a biomass suitable for energy production. The aim of this work was to evaluate the performance of microalgal heterotrophic bioreactors in the secondary treatment of cattle-slaughterhouse wastewater and the reuse of microalgal sludge for biodiesel production. The experiments were performed in a bubble column bioreactor using the microalgae Phormidium sp. Heterotrophic microalgal bioreactors removed 90 % of the chemical oxygen demand, 57 % of total nitrogen and 52 % of total phosphorus. Substantial microalgal sludge is produced in the process (substrate yield coefficient of 0.43 mg sludge mg chemical oxygen demand−¹), resulting in a biomass with high potential for producing biodiesel (ester content of more than 99 %, cetane number of 55, iodine value of 73.5 g iodine 100 g−¹, unsaturation degree of ~75 % and a cold filter plugging point of 5 ºC)