Literatura académica sobre el tema "Microalgal culture"
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Artículos de revistas sobre el tema "Microalgal culture"
Gonzalez, Luz E. y Yoav Bashan. "Increased Growth of the Microalga Chlorella vulgariswhen Coimmobilized and Cocultured in Alginate Beads with the Plant-Growth-Promoting Bacterium Azospirillum brasilense". Applied and Environmental Microbiology 66, n.º 4 (1 de abril de 2000): 1527–31. http://dx.doi.org/10.1128/aem.66.4.1527-1531.2000.
Texto completoWang, Hui, Haywood D. Laughinghouse, Matthew A. Anderson, Feng Chen, Ernest Willliams, Allen R. Place, Odi Zmora, Yonathan Zohar, Tianling Zheng y Russell T. Hill. "Novel Bacterial Isolate from Permian Groundwater, Capable of Aggregating Potential Biofuel-Producing Microalga Nannochloropsis oceanica IMET1". Applied and Environmental Microbiology 78, n.º 5 (22 de diciembre de 2011): 1445–53. http://dx.doi.org/10.1128/aem.06474-11.
Texto completoYu, Hyeonjung, Jaai Kim, Chaeyoung Rhee, Juhee Shin, Seung Gu Shin y Changsoo Lee. "Effects of Different pH Control Strategies on Microalgae Cultivation and Nutrient Removal from Anaerobic Digestion Effluent". Microorganisms 10, n.º 2 (3 de febrero de 2022): 357. http://dx.doi.org/10.3390/microorganisms10020357.
Texto completoPostaue, Najla, Leila Cristina Moraes y Rosa Maria Farias Asmus. "CHORUME COMO FONTE DE NUTRIENTE NA PRODUÇÃO DA BIOMASSA MICROALGAL". e-xacta 12, n.º 2 (9 de marzo de 2020): 11. http://dx.doi.org/10.18674/exacta.v12i2.2746.
Texto completoVan Anh, Le Thi, Tran Ngoc Anh Thu y Nguyen Thi Dong Phuong. "Investigation of microalgae culture by autoflocculation methodologies". Vietnam Journal of Biotechnology 20, n.º 3 (30 de septiembre de 2022): 487–94. http://dx.doi.org/10.15625/1811-4989/17059.
Texto completoSauvage, Justine, Gary H. Wikfors, Xiaoxu Li, Mark Gluis, Nancy Nevejan, Koen Sabbe y Alyssa Joyce. "Effect of pluronic block polymers and N-acetylcysteine culture media additives on growth rate and fatty acid composition of six marine microalgae species". Applied Microbiology and Biotechnology 105, n.º 5 (12 de febrero de 2021): 2139–56. http://dx.doi.org/10.1007/s00253-021-11147-8.
Texto completoZhang, Xin Ru, Ze Yi Jiang, Hao Yuan, Yuan Xiang Lu, Liang Chen, Ai Hui Chou, Hai Yan y Xin Xin Zhang. "Influence of Surface Zeta Potential on Adhesion of Chlorella sp. to Substratum Surfaces". Advanced Materials Research 690-693 (mayo de 2013): 1431–34. http://dx.doi.org/10.4028/www.scientific.net/amr.690-693.1431.
Texto completoJeevanandam, Jaison, Mohd Razif Harun, Sie Yon Lau, Divine D. Sewu y Michael K. Danquah. "Microalgal Biomass Generation via Electroflotation: A Cost-Effective Dewatering Technology". Applied Sciences 10, n.º 24 (18 de diciembre de 2020): 9053. http://dx.doi.org/10.3390/app10249053.
Texto completoGonzalez-Bashan, Luz E., Vladimir K. Lebsky, Juan P. Hernandez, Jose J. Bustillos y Yoav Bashan. "Changes in the metabolism of the microalga Chlorella vulgaris when coimmobilized in alginate with the nitrogen-fixing Phyllobacterium myrsinacearum". Canadian Journal of Microbiology 46, n.º 7 (1 de julio de 2000): 653–59. http://dx.doi.org/10.1139/w00-041.
Texto completoKhaw, Yam Sim, Hui Teng Tan, Arissara Sopawong, Noor Azmi Shaharuddin, Abdul Rahman Omar y Fatimah Md Yusoff. "A Recommendation for a Pre-Standardized Marine Microalgal Dry Weight Determination Protocol for Laboratory Scale Culture Using Ammonium Formate as a Washing Agent". Biology 10, n.º 8 (19 de agosto de 2021): 799. http://dx.doi.org/10.3390/biology10080799.
Texto completoTesis sobre el tema "Microalgal culture"
Chuka-ogwude, David. "Microalgal culture to treat food waste digestate". Thesis, Chuka-ogwude, David (2022) Microalgal culture to treat food waste digestate. PhD thesis, Murdoch University, 2022. https://researchrepository.murdoch.edu.au/id/eprint/65187/.
Texto completoJohnson, Michael Ben. "Microalgal Biodiesel Production through a Novel Attached Culture System and Conversion Parameters". Thesis, Virginia Tech, 2009. http://hdl.handle.net/10919/32034.
Texto completoMaster of Science
Elliott, Lee Garrett. "The establishment and characterization of a bioenergy-focused microalgal culture collection using high-throughput methodologies". Thesis, Colorado School of Mines, 2014. http://pqdtopen.proquest.com/#viewpdf?dispub=3602628.
Texto completoA promising renewable energy scenario involves utilizing microalgae as biological solar cells to capture the energy in sunlight and then harvesting the biomass for renewable energy production. Through photosynthesis photons are captured by light-sensitive pigment molecules and used to create a cellular chemical energy gradient. Microalgae ultimately use this energy gradient to drive their metabolism by reducing inorganic carbon into renewable, energy-rich organic hydrocarbon stores such as triacylglycerols (TAGs). These valuable molecules act as a cellular energy reserve, readily drawn from when required, often forming large oil-bodies within microalgal cells that can be abundant in certain oleaginous species. This is important for biofuel production because lipids can be extracted from biomass and then converted into a variety of biofuels such as renewable diesel and jet fuel. Thus, from a biofuels perspective, maximizing lipid productivity in selected microalgal feedstock strains is considered essential to the development of an economically viable algal biofuels industry. To achieve this, many current research and development efforts are directed towards genetically engineering well-characterized microalgae to optimize TAG production; however, this approach is a time-consuming, costly prospect and the number of well-characterized strains is relatively few, especially when compared to the number of known extant species. Alternatively, microalgal feedstock optimization could be more readily accomplished by taking advantage of the prodigious natural diversity of microalgae in the environment and identifying native strains of microalgae that, through natural selection, already possess key metabolic traits necessary for commercial feedstock development. Formulated on this premise, a collaborative project between the National Renewable Energy Laboratory (NREL) and the Colorado School of Mines (CSM) recently established and cryopreserved a clonal microalgal culture collection containing 360 unique strains with preliminary data regarding lipid accumulation and the growth potential of select isolates. The goal of this work has been to 1) perform a far more detailed characterization of the algal culture collection by developing high throughput screening procedures and tools for identifying fast-growing, oleaginous strains; and 2) gather further insight into the microalgal diversity found in the southwestern United States. Herein is described in detail the rationale, methods, results and conclusions of these efforts.
Portilla, Erazo Róbinson Gerardo Trindade [UNESP]. "Isolamento, seleção e cultivo em meio sintético e vinhaça de microalgas com potencial para a produção de biodiesel". Universidade Estadual Paulista (UNESP), 2017. http://hdl.handle.net/11449/151734.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
A biomassa derivada de microalgas apresenta um grande potencial devido a sua sustentabilidade e alta produtividade, sendo possível extrair lipídios para produção de biodiesel. Entretanto, desafios na cadeia de produção como um todo devem ser resolvidos para que o biodiesel de microalgas seja viável. Uma das etapas críticas é o cultivo, sendo o meio de cultura um elemento de alto custo. O objetivo principal deste trabalho é avaliar o crescimento de microalgas visando produção de lipídios para biodiesel, utilizando como fontes de nutrientes a vinhaça originada do processo produtivo de etanol no setor sucroalcooleiro. Foram isolados e indentificados três gêneros nativos de microalgas: uma cianobactéria Aphanocapsa sp., uma clorofícea Oocystis sp. e outra clorofícea Scenedesmus sp. O cultivo da microalga Scenedesmus sp. em fotobiorreator de placas planas com meio de cultivo MBM (Modified Bristol Medium) se mostrou modesta em termos de produtividade de biomassa (8 mg/l.dia) e em teor de lipídios na biomassa seca (1,5%). O cultivo dessa mesma microalga em tubos de ensaios com meio alternativo utilizando vinhaça (três diluições de 2%, 5% e 10% em volume) no meio de cultura mostrou desempenho comparável em relação ao meio sintético MBM, sendo que a partir do dia 6, os quatros cultivos se estabilizam em torno de uma concentração celular de 6×106 de células/ml, indicando que a vinhaça pode ser uma fonte de nutrientes de baixo custo para o cultivo de microalgas. Deste modo, é possível reduzir custos em uma importante etapa do processo global de produção de biodiesel de microalgas, viabilizando economicamente esta alternativa energética.
The biomass derived from microalgae presents great potential due to its sustainability and high productivity, it being possible to extract lipids to produce biodiesel. However, challenges in the production chain as a whole must be solved to make microalgae biodiesel viable. One of the critical steps is cultivation, with the culture medium being a costly element. The main purpose of this work is to evaluate the microalgae growth focusing in lipid production for biodiesel using as sources of nutrients the vinasse originated from the sugar-alcohol production process. Three natives microalgae genres have been isolated and identified: cyanobacteria Aphanocapsa sp., chlorophycea Oocystis sp. and other chlorophycea Scenedesmus sp. The cultivation of the microalgae Scenedesmus sp. in flat plate photobioreactor with Modified Bristol Medium (MBM) was modest in terms of biomass yield (8 mg/l.day) and lipid content in dry biomass (1.5%). The cultivation of this same microalga in test tubes in an alternative medium using vinasse (three dilutions of 2%, 5% and 10% in volume) in the culture medium showed a comparable performance in relation to the MBM, starting in the 6th day the stabilization of the cell concentration in 6×106 cells/ml for the four cultives, indicating that the vinasse can be a source of low cost nutrients for the cultivation of microalgae. In this way, it is possible to reduce costs at an important stage in the overall process of microalgae biodiesel production, making this energy alternative economically viable.
CAPES: 1420416
Padmaperuma, Gloria. "Microalgal co-cultures for biomanufacturing applications". Thesis, University of Sheffield, 2017. http://etheses.whiterose.ac.uk/20714/.
Texto completoNovaes, Junior Sidney de Oliveira. "Potencial de aproveitamento de microalgas Chlorella vulgaris e Scenedesmus subspicatus como matéria-prima para obtenção de biodiesel". Universidade Estadual do Oeste do Parana, 2013. http://tede.unioeste.br:8080/tede/handle/tede/1795.
Texto completoThis study aimed to assess the potential growth of two species of microalgae ( Chlorella vulgaris and Scenedesmus subspicatus ) in two types of effluents ( humans and pigs ) in order to obtain lipids that could be converted into biodiesel . Such compounds must meet the specifications contained in Resolution No. 07 / 2008 of ANP . The effluents were collected in human Station Wastewater Treatment III , located in the city of Foz do Iguaçu / PR and swine effluent in Granja São Jorge ( Colombari ) , located in the municipality of São Miguel do Iguaçu / PR . Both were sent to laboratories for analysis IAP and NUCLEOTEC constatassem that the presence of nitrogenous and phosphatic and oils and greases total , respectively. The effluents were diluted to previously autoclaved and which can serve as culture media for microorganisms . They were then inoculated samples of each type of microalgae in an effluent and evaluated their growth. In four vials was added the compound mineral Agrostemin ® to assess their influence on the results . Prepared growth curves after 60 days of cultivation samples were filtered under vacuum for further extraction of oils using ultrasound. The samples were sent for analysis of lipid content and composition in terms of fatty acids by gas chromatography , which demonstrated the presence of fatty acids that make up biodiesel . The physico-chemical characterization of the effluent showed the presence of small amounts of fats and greases in both the total effluent . The quantitative analysis of lipids showed the highest concentration in the cultivation of C. vulgaris in human effluent , with 50.12 % . With the addition of Agrostemin ®, the yield was better in the cultivation of S. subspicatus in swine wastewater , with 80% increase in the production of lipids , followed by the growth of C. vulgaris in human effluent , with 41 % . The acids were higher concentrations linoleic (C18 : 2) , the cultivation of C. vulgaris in human effluent with 35.17 % , followed by the arachidic ( 20:0 ) with the same microalgae , now in swine wastewater , with 37.29 % , the palmitoleic ( C16 : 1 ) arising from the cultivation of S. subspicatus in human effluent , with 28.85% and pentadecanoic ( C15 : 1 ), the culture of the same organism in swine wastewater , with 55.22 % . It was found that the latter is what gives the best results, but the viability of the remainder is also promising.
Este trabalho teve como objetivo avaliar o potencial de crescimento de duas espécies de microalgas (Chlorella vulgaris e Scenedesmus subspicatus) em dois tipos de efluentes (humanos e suínos) com a finalidade de se obter lipídios que pudessem ser convertidos em biodiesel. Tais compostos precisam atender às especificações contidas na Resolução nº 07/2008 da ANP. Os efluentes humanos foram coletados na Estação de Tratamento de Efluentes III, localizada na cidade de Foz do Iguaçu/PR e os efluentes suínos na Granja São Jorge (Colombari), localizada no município de São Miguel do Iguaçu/PR. Ambos foram enviados aos laboratórios do IAP e NUCLEOTEC para análises que constatassem a presença de componentes nitrogenados e fosfatados e de óleos e graxas totais, respectivamente. Os efluentes foram previamente autoclavados e diluídos para que pudessem servir de meios de cultura para os microrganismos. Foram, então, inoculadas amostras de cada microalga em um tipo de efluente e avaliado o seu crescimento. Em quatro frascos foi acrescentado o composto mineral Agrostemin® para avaliar sua influência nos resultados. Elaboradas as curvas de crescimento, após 60 dias de cultivo as amostras foram filtradas a vácuo para posterior extração dos óleos utilizando ultrassom. As amostras foram enviadas para análise do teor de lipídios e sua composição em termos de ácidos graxos por cromatografia gasosa, onde se constatou a presença de ácidos graxos que compõem o biodiesel. A caracterização físico-química dos efluentes constatou a presença de pequena quantidade de gorduras e graxas totais em ambos os efluentes. A análise quantitativa dos lipídios apontou a maior concentração no cultivo de C. vulgaris em efluentes humanos, com 50,12%. Com a adição do Agrostemin®, o melhor rendimento foi no cultivo de S. subspicatus em efluentes suínos, com aumento de 80% na produção de lipídios, seguido do cultivo de C. vulgaris em efluentes humanos, com 41%. Os ácidos com maiores concentrações foram o linoleico (C18:2), do cultivo de C. vulgaris em efluente humano com 35,17%, seguido do araquídico (20:0) com a mesma microalga, agora em efluente suíno, com 37,29%, o palmitoleico (C16:1) oriundo do cultivo de S. subspicatus em efluente humano, com 28,85% e o pentadecanoico (C15:1), da cultura do mesmo microrganismo em efluente suíno, com 55,22%. Constatou-se que este último é o que apresenta os melhores resultados, mas a viabilidade do restante é igualmente promissora.
Santos, Alexsandro Claudino dos. "Estudo ecofisiológico de Haematococcus pluvialis". Universidade Federal de São Carlos, 2015. https://repositorio.ufscar.br/handle/ufscar/1854.
Texto completoFinanciadora de Estudos e Projetos
The microalgae Haematococcus pluvialis has been studied as one of the main natural sources of astaxanthin carotenoid, potent antioxidant with applications in the nutraceutical and cosmetic industry. H. pluvialis is a microalgae Chlorophyceae whose life cycle includes a phase encystment with high pigment production. In recent years there has been increased activity, processes and applications involving the use of H. pluvialis and its biomass, however H. pluvialis culture do not achieve generally high biomass and species is considered delicate, a slow-growing. Thus, the production and use of the pigment depends on the microorganism and biological, physical and chemical interactions which result in high production of green cells which subsequently form red astaxanthin filled cysts. In this study we sought to optimize the vegetative growth of microalgae, increased the final biomass yield in crops. To this end we investigated the composition of the nutrient medium different pHs and culture methods (sealed vs continuous). Determination of photosynthetic efficiency and energy dissipation were used to infer the cellular health in green flagellates, evaluating the different experimental conditions on microalgae. Intracellular biochemical composition analyzes were performed by determining the concentration of proteins, lipids and carbohydrates in addition to the fatty acid composition. The study was initiated by investigating different nutrient media the growth and biomass production and the results showed that modified Oligo LC medium containing ammonium bicarbonate four times more concentrated nutrients and the remaining 2 times, resulting in improved production of biomass. A procedure then to study the influence of pH on vegetative growth, photosynthetic efficiency and biochemical composition of H. pluvialis. For this purpose we used pH buffers (MES, HEPES, and PIPES), and the results showed a higher germination cysts and higher growth rate in buffered at pH 6.3 cultures (growth rate 0.45 d-1; MES buffer). These findings that the production of H. pluvialis can proceed in the absence of a lag phase in cultures inoculated with cysts. Pigments and lipids related to cell wall dominated at pH 6.3 and palmitic acid (C16:0) and linoleic acid (C18:2n6c) were the most abundant fatty acids. PH in the 6.7 and 7.2 crops showed the highest content of polyunsaturated fatty acids, 6% higher than the control. Regarding the methods of cultivation, continuous were better. The biomass showed higher protein content and the larger culture growth rate and biomass of the sealed. The photosynthetic activity and its parameters suffered significant variations in continuous cultures. H. pluvialis responded better as the photosynthetic parameters in various light intensities when in continuous culture, despite the saturation irradiance was higher in batch cultures.
A microalga Haematococcus pluvialis tem sido estudada por ser uma das principais fontes naturais do carotenoide astaxantina, potente antioxidante com aplicações na indústria de nutracêuticos e cosméticos. H. pluvialis é uma microalga Chlorophyceae cujo ciclo de vida inclui uma fase de encistamento onde o pigmento é acumulado. Apesar de registrar-se um aumento de processos e aplicações envolvendo H. pluvialis, suas culturas dificilmente atingem elevada biomassa e a espécie é considerada sensível a variações ambientais, com crescimento lento. Assim, a produção e uso do pigmento e do microorganismo tornam-se dependentes do desenvolvimento de tecnologia relativas aos fatores biológicos, físicos e químicos, cujas interações resultem em alta produção de células verdes para que posteriormente formem cistos vermelhos repletos de astaxantina. Nesta pesquisa buscou-se otimizar o crescimento vegetativo da microalga, aumentado o rendimento de biomassa final nas culturas. Para isso investigouse a composição de meios nutritivos, diferentes pHs (controle, 6.0, 6.3, 6.7 e 7.2) e modalidades de cultivo (estanque vs contínua). Determinações de eficiência fotossintética e dissipação de energia foram usadas para inferir sobre a saúde celular nas células flageladas verdes, avaliando-se as diferentes condições experimentais. Foram feitas análises da composição bioquímica intracelular determinando-se a concentração de proteínas, lipídios e carboidratos, além da composição de ácidos graxos. O estudo foi iniciado investigando-se diferentes meios nutritivos no crescimento e produção de biomassa e, os resultados mostraram que o meio de cultura LC Oligo modificado contendo bicarbonato de amônio 4 vezes mais concentrado e o restante dos nutrientes 2 vezes, resultou no maior rendimento de biomassa. Procedeu-se então ao estudo da influência do pH no crescimento vegetativo, eficiência fotossintética e composição bioquímica da microalga. Os resultados mostraram maior germinação de cistos e maior taxa de crescimento em culturas tamponadas em pH 6.3 com tampão MES (taxa de crescimento 0,53 d-1). Lipídios relacionados a pigmentos e parede celular dominaram nesse pH e, ácido palmítico (C16:0) e linoleico (C18:2n6c) foram os ácidos graxos de maior abundância. Em relação às modalidades de cultivo, os contínuos foram melhores do que os estanques, que tiveram menor conteúdo proteico e taxa de crescimento. A atividade fotossintética e seus parâmetros sofreu menor variação nas culturas contínuas. H. pluvialis respondeu melhor quanto aos parâmetros fotossintéticos em várias intensidades luminosas quando em cultura contínua, apesar da irradiância de saturação ter sido maior em cultivos estanques.
Cartas, Liliana Carrillo. "Isolamento e cultivo de microalgas em resíduo líquido do processamento da mandioca: manipueira". Universidade Federal do Tocantins, 2017. http://hdl.handle.net/11612/1048.
Texto completoThe objective of this research was to evaluate the viability of the cassava waste water as a culture medium for microalgae and to determine the best conditions for cultivation. The strains evaluated were isolated from the stabilization lagoons of the company Podium Foods LTDA. of Paranavaí, being morphologically identified as Chlorella sp., Scenedesmus sp. Monoraphidium sp. and Golenkinia sp. The presence of amylolytic activity and determination of cyanide toxicity, a compound present in the residue, were evaluated for each of the isolated microalgae strains. The presence of amylase was identified in Monoraphidium sp, Golenkinia sp. and Scenedesmus sp. when inoculated in 0.2% agar-starch solid medium. The cyanide tolerance was evaluated by simulating the cyanogen environment with addition of KCN in the autotrophic culture medium. The microalgae Monoraphidium sp. and Scenedesmus sp. demonstrated the capacity to develop in medium containing up to 200ppm of KCN, while the microalgae Chlorella sp. and Golenkinia sp. have sustained maximum concentrations of 40 ppm. In order to evaluate the survival of microalgae when cultivated in the liquid cassava processing residue, non-sterile cassava waste water handling, sterile manipulative cassava waste water and pre-treated cassava waste water (anaerobic digestion) were used in different concentrations. The tests were carried out in 125 mL Erlenmeyer flasks, under 2500 Lux illumination, 12-hour light/dark photoperiod and 25 °C temperature. Initial inoculum concentrations were 0.2 g.L-1. In the experiments conducted with the non-sterilized raw cassava waste water, all microalgae showed development at concentrations of 10% v/v of the residue (cassava waste water/water). The microalga Monoraphidium sp. which reached a maximum productivity of 0.014 day-1, only 5% lower than that achieved when cultivated in an autotrophic medium. Already in the crops in sterile cassava waste water, the four microalgae strains tested showed a higher resistance to the medium of up to 30% of the residues. The highest productivity was observed with the microalga Monoraphidium sp. and Golenkinia sp. which was 0.078 day-1 and 0.018 day-1 respectively at the 10% v/v concentration of cassava waste water. In the experiments carried out in cassava waste water after anaerobic digestion, concentrations up to 100% of the residue were supported for the isolate of Monoraphidium sp., Golenkinia sp., and Scenedesmus sp., and up to 40% v/v for the microalga Chlorella sp. The highest specific growth rate was with the microalga Monoraphidium sp. in the concentration of 40% of cassava waste water (v/v) being 0.12 day-1. The microalgae Golenkinia sp. and Scenedesmus sp. also showed efficiency when cultivated in the digested effluent, and at concentrations of 20% v/v cassava waste water/water, presented growth similar to that obtained in the synthetic medium. The results showed that it is possible to cultivate microalgae in cassava waste water raw, treated and even digested cassava waste water. However, suitable treatments must be identified for increased microalgae productivity. The microalgae Monoraphidium sp. and Scenedesmus sp. demonstrated to be able to survive and grow better in anaerobically digested effluent cultivation, thus, the use of the digested cassava waste water as a culture medium is shown as an efficient way of producing large amounts of microalgae biomass.
Candido, Camila. "Cultivo de Chlorella vulgaris em vinhaça convencional e biodigerida tratadas : uma abordagem ecofisiológica". Universidade Federal de São Carlos, 2015. https://repositorio.ufscar.br/handle/ufscar/7088.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
Vinasse is a waste of sugarcane industry and, due to the presence of organic matter and mineral nutrients, it has been used for the irrigation of the sugarcane crops. However, its composition limits such application due to soil salinization. The anaerobic fermentation of vinasse generates biogas that is used as energy source in the sugarcane industry itself. The fermented vinasse results in biodigested vinasse. The development of techniques for residue use can contribute to cleaner production systems. In this research, we evaluated treated conventional and biodigested vinasses for the growth of Chlorella vulgaris. The treatment consisted of filtering the vinasses through smectite clay and activated carbon, or centrifugation. Concentrations of 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100% of treated vinasses were tested. Cell density, absorbance at 570 nm, pH and electrolyte conductivity were quantified daily in a six day experiment. Based in cell density, specific growth rates were calculated. Growth rates higher than the controls were obtained in 60% conventional filtered vinasse and 10% conventional centrifuged one, as well as in 80% biodigested filtered vinasse and 20% biodigested centrifuged vinasse. In general, the filtered vinasse was superior in relation to the centrifuged one regarding higher residue concentration that supported microalgae growth. After microalgae acclimation we evaluated the photosynthetic performance of C. vulgaris in the best vinasses conditions and the biochemical composition of the biomass present in the vinasse, which besides the microalgae contained other microorganisms, such as bacteria and fungi, since it was not sterilized. Specific growth rate for C. vulgaris in 60% filtered conventional vinasse was 1.6 d-1 and 1.5 d-1 in the 80% filtered biodigested vinasse, representing increases of up to 84 x in cell density compared to the initial. In the LC Oligo control the growth rate was ~ 0.9 d-1 and in the BG11 it was 1,1 d-1. Although the better C. vulgaris growth in the treated vinasses, photosynthetic efficiency and its related parameters were better in the control than in the vinasses. These results together with those of chlorophyll a concentration suggest that the microalgae have possibly used a mixotrophic metabolism while in the vinasses. We observed higher biomass accumulation in the vinasses than in the controls. A reduction of total dissolved organic carbon and dissolved mineral elements up to 50%, as well as bacteria and fungi, were detected in the vinasse after microalgae growth. This study is a contribution to the knowledge of microalgae physiology in a residue and to the development of cleaner ethanol production system.
A vinhaça é um resíduo da indústria sucroalcooleira que, devido à presença de matéria orgânica e nutrientes minerais, tem sido utilizada para fertirrigação das próprias culturas de cana-deaçúcar. Porém, a composição desse resíduo limita sua aplicação no solo, pois pode levá-lo à salinização. A fermentação anaeróbia da vinhaça gera biogás que é usado como fonte de energia para a própria usina. Essa fermentação resulta na vinhaça biodigerida. Técnicas que permitam utilizar as vinhaças, convencionais ou biodigeridas, contribuem para um sistema de produção mais limpo e rentável. Propusemos nesta pesquisa, avaliar o uso de vinhaça tratada. Para tanto usamos vinhaça convencional e biodigerida, filtradas em argila esmectita e carvão ativado, ou centrifugadas. Nelas cultivamos Chlorella vulgaris (BEYERINCK, 1890). As vinhaças tratadas foram testadas em concentrações de 10, 20, 30, 40, 50, 60, 70, 80, 90 e 100%. Avaliamos diariamente a densidade celular, absorbância em 570 nm, pH e condutividade eletrolítica ao longo de seis dias. Com os resultados de densidade celular, calculamos as taxas de crescimento para cada tratamento. Os melhores crescimentos se deram em vinhaça convencional filtrada 60% e centrifugada 10% e, em vinhaça biodigerida filtrada 80% e centrifugada 20%. Em geral, as vinhaças filtradas suportaram o crescimento das microalgas em concentrações superiores em relação às centrifugadas. A produção de biomassa foi maior nos filtrados em comparação com centrifugados. Após aclimatação da microalga em vinhaça avaliaram-se os parâmetros fotossintéticos e bioquímicos da biomassa produzida em vinhaça biodigerida filtrada 80% e em vinhaça convencional centrifugada 60%. Taxas de crescimento específicas de C. vulgaris de 1,6 d-1 foram obtidas na vinhaça filtrada convencional 60% e 1,5 d-1 na biodigerida filtrada 80%, representando aumentos de até 84 x nas densidades celulares em relação às iniciais. No controle LC Oligo esse valor foi de 0,9 d-1 e no BG11 foi de 1,1 d-1. Apesar do melhor crescimento algal nas vinhaças, a eficiência fotossintética e os parâmetros relacionados foram melhores no controle do que nas vinhaças. Esses resultados sugerem que a microalga na vinhaça possa ter utilizado a via mixotrófica como fonte de carbono. Observou-se que houve maior acúmulo de biomassa nos cultivos em vinhaça do que nos controles. Houve redução do conteúdo de carbono orgânico total dissolvido e de elementos minerais na vinhaça em até 50%, bem como da contaminação por fungos e bactérias ao final dos cultivos. Este estudo é uma contribuição para o conhecimento da fisiologia de microalgas em resíduos e para o desenvolvimento de uma produção de etanol mais sustentável.
TIBÚRCIO, Viviane Pereira. "Avaliação do teor de ácido graxo das microalgas Pediastrum tetras e Scenedesmus acuminatus sob fótico e térmico para produção de biodiesel". Universidade Federal de Campina Grande, 2014. http://dspace.sti.ufcg.edu.br:8080/jspui/handle/riufcg/530.
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A busca por alternativas energéticas viáveis, de baixo custo, sustentáveis e que possam substituir o uso de combustíveis fósseis tem aumentado. Neste contexto, os biocombustíveis derivados de microalgas torna-se uma opção promissora quer seja do ponto de vista econômico como do ponto de vista ambiental. Os cultivos de microalgas produzem elevada quantidade de biomassa em curto tempo e não requerem extensas áreas para sua produção como acontece com a cana de açúcar utilizada para a produção de etanol, ou a soja, no caso do biodiesel. Este trabalho teve o propósito de caracterizar o potencial de produção de ácidos graxos de microalgas isoladas da região semiárida do estado da Paraíba mantidas em cultivo monoespecífico no banco de culturas de microalgas do LARBIM/UFPB e selecionar espécies potencialmente produtoras desses compostos visando cultivá-las em diferentes condições de estresse com o propósito de incrementar o rendimento final dos ácidos graxos de interesse à produção de biodiesel. Os cultivos foram desenvolvidos utilizando os meios Zarrouk e WC em câmara de cultura a 25°C±1ºC dotada de sistema de iluminação, com fotoperíodo de 12 horas. Foram estudadas 12 cepas incluídas em 7 espécies representantes dos grupos das cianobactérias e clorofíceas. A quantificação de ácidos graxos de cada uma das microalgas estudadas, foi determinado por cromatografia a gás. Duas espécies Pediastrum tetras (D121WC) e Scenedesmus acuminatus (D115WC) apresentaram teores de ácidos graxos 802,1% em relação a soja 211,1% em relação a soja, respectivamente. Por essa razão essas espécies foram cultivadas em diferentes condições de estresse nas mesmas condições de temperatura e fotoperíodo, utilizando-se estresses fótico, térmico e nutricional. Ao final de cada experimento foram determinadas para cada condição testada, os teores de protrínas, lipídeos e carbiodratos. As curvas de crescimento foram acompanhas por medida de fluorescência in vivo, em triplicatas, e todos os parâmetros de crescimento foram analisados para cada espécie testada. Observou-se maior taxa de divisão celular por dia na espécie D112Z (0,71 divisão/dia). Os teores de ácidos graxos na cepa D121WC aumentaram mais do que o dobro sob a condição de estresse fótico. Já para a espécie D115WC ocorreu um aumento no rendimento de ácido graxo ao condiciona-la a estresse térmico de 590,8% em relação à soja. Apesar das duas espécies testadas (Pediastrum tetras e Scenedesmus acuminatus) serem potencialmente importantes para a produção de biodiesel, evidenciase que suas respostas fisiológicas às condições de estresse não são as mesmas.
The search for viable energy alternatives, low cost, sustainable and can replace the use of fossil fuels has increased. In this context, biofuels derived from microalgae become a promising option either from the economic point of view as from the environmental point of view. The cultivation of microalgae produce higher amount of biomass in a short time and require large areas for their production as with sugarcane used for ethanol production, or soybean in the case biodiesel. This study aimed to characterize the potential for production of fatty acids from microalgae isolated from the semiarid region of the state of Paraiba kept growing in monospecific cultures of microalgae bank of LARBIM / UFPB and select potentially producing species of these compounds in order to grow them different stress conditions in order to increase the final yield of the fatty acids of interest for biodiesel production. The cultures were developed using the means Zarrouk and toilet in a growth chamber at 25 ° C ± 1 ° C equipped with lighting system, with a photoperiod of 12 hours. 12 strains included representatives of groups of cyanobacteria and green algae were studied in seven species. The quantification of each fatty microalgae studied acids was determined by gas chromatography. Two species Pediastrum tetras (D121WC) and Scenedesmus acuminatus (D115WC) showed levels of fatty acids 802.1% compared to 211.1% in soybeans compared to soybean, respectively. Therefore these species were grown under different conditions of stress under the same conditions of temperature and photoperiod, using photic, thermal and nutritional stresses. At the end of each experiment were determined for each condition tested, the levels of proteins, lipids and carbohydrates. The growth curves were avidly by measuring in vivo fluorescence in triplicate, and all growth parameters were analyzed for each species tested. Observed a higher rate of cell division per day in D112Z (0.71 divisions / day) species. The levels of fatty acids in strain D121WC increased more than twice on condition of photic stress. As for the species D115WC was an increase in the yield of fatty acid to condition it to heat stress of 590.8% compared to soybean. Although the two potentially important for the production of biodiesel tested species (Pediastrum tetras and Scenedesmus acuminatus) are, it is evident that their physiological responses to stress conditions are not the same.
Libros sobre el tema "Microalgal culture"
Richmond, Amos, ed. Handbook of Microalgal Culture. Oxford, UK: Blackwell Publishing Ltd, 2003. http://dx.doi.org/10.1002/9780470995280.
Texto completoRichmond, Amos y Qiang Hu, eds. Handbook of Microalgal Culture. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.
Texto completoAmos, Richmond, ed. CRC Handbook of microalgal mass culture. Boca Raton, Fla: CRC Press, 1986.
Buscar texto completoAmos, Richmond, ed. Handbook of microalgal culture: Biotechnology and applied phycology. Oxford, UK: Blackwell Science, 2004.
Buscar texto completoKokuritsu Kankyō Kenkyūjo. Biseibutsu Keitō Hozon Shisetsu. NIES-Collection list of strains: Microalgae and Protozoa. 5a ed. Tsukuba, Ibaraki, Japan: National Institute for Environmental Studies, Environment Agency, 1997.
Buscar texto completoDilov, Khristo. Mikrovodorasli--masovo kultivirane i prilozhenie. Sofii͡a︡: Izd-vo na Bŭlgarskata akademii͡a︡ na naukite, 1985.
Buscar texto completoBraun, Linda. Algae culture and uses: Microalgae : January 1979-March 1990. Beltsville, Md: National Agricultural Library, 1990.
Buscar texto completoYoung, Ann Townsend. Aquaculture, spirulina and other microalgae : January 1986 - April 1994. Beltsville, Md: National Agricultural Library, 1994.
Buscar texto completoYoung, Ann Townsend. Aquaculture, spirulina and other microalgae : January 1986 - April 1994. Beltsville, Md: National Agricultural Library, 1994.
Buscar texto completoYoung, Ann Townsend. Aquaculture, spirulina and other microalgae : January 1986 - April 1994. Beltsville, Md: National Agricultural Library, 1994.
Buscar texto completoCapítulos de libros sobre el tema "Microalgal culture"
Andersen, Robert A. "The Microalgal Cell". En Handbook of Microalgal Culture, 1–20. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch1.
Texto completoShrestha, Roshan Prakash, Farzad Haerizadeh y Mark Hildebrand. "Molecular Genetic Manipulation of Microalgae: Principles and Applications". En Handbook of Microalgal Culture, 146–67. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch10.
Texto completoRichmond, Amos. "Biological Principles of Mass Cultivation of Photoautotrophic Microalgae". En Handbook of Microalgal Culture, 169–204. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch11.
Texto completoZarmi, Y., G. Bel y C. Aflalo. "Theoretical Analysis of Culture Growth in Flat-Plate Bioreactors: The Essential Role of Timescales". En Handbook of Microalgal Culture, 205–24. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch12.
Texto completoZittelli, Graziella C., Natascia Biondi, Liliana Rodolfi y Mario R. Tredici. "Photobioreactors for Mass Production of Microalgae". En Handbook of Microalgal Culture, 225–66. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch13.
Texto completoGrima, Emilio Molina, Francisco Gabriel Acién Fernández y Alfonso Robles Medina. "Downstream Processing of Cell Mass and Products". En Handbook of Microalgal Culture, 267–309. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch14.
Texto completoMeghan Downes, C. y Qiang Hu. "First Principles of Techno-Economic Analysis of Algal Mass Culture". En Handbook of Microalgal Culture, 310–26. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch15.
Texto completoLiu, Jin y Qiang Hu. "Chlorella: Industrial Production of Cell Mass and Chemicals". En Handbook of Microalgal Culture, 327–38. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch16.
Texto completoBelay, Amha. "Biology and Industrial Production ofArthrospira(Spirulina)". En Handbook of Microalgal Culture, 339–58. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch17.
Texto completoBorowitzka, Michael A. "Dunaliella: Biology, Production, and Markets". En Handbook of Microalgal Culture, 359–68. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118567166.ch18.
Texto completoActas de conferencias sobre el tema "Microalgal culture"
Ma, Jian y Oliver Hemmers. "Thermo-Economic Analysis of Microalgae Co-Firing Process for Fossil Fuel-Fired Power Plants". En ASME 2010 4th International Conference on Energy Sustainability. ASMEDC, 2010. http://dx.doi.org/10.1115/es2010-90186.
Texto completoSangregorio-Soto, Viyils, Claudia L. Garzon-Castro, Gianfranco Mazzanti, Manuel Figueredo y John A. Cortes-Romero. "Proportional-Integral Controller Assisted by GPI Observer for Microalgal Continuous Culture". En 2020 Argentine Conference on Automatic Control (AADECA). IEEE, 2020. http://dx.doi.org/10.23919/aadeca49780.2020.9301637.
Texto completoHANSEL, EZEQUIEL, Alice Costa Kiperstok, Rodrigo Gomes Guimaraes y Emerson Andrade Sales. "CLAY AS A SUBSTRATUM MATERIAL FOR MICROALGAE BIOFILM CULTIVATION". En I South Florida Congress of Development. CONGRESS PROCEEDINGS I South Florida Congress of Development - 2021, 2021. http://dx.doi.org/10.47172/sfcdv2021-0025.
Texto completoHANSEL, EZEQUIEL, Alice Costa Kiperstok, Rodrigo Gomes Guimaraes y Emerson Andrade Sales. "CLAY AS A SUBSTRATUM MATERIAL FOR MICROALGAE BIOFILM CULTIVATION". En I South Florida Congress of Development. CONGRESS PROCEEDINGS I South Florida Congress of Development - 2021, 2021. http://dx.doi.org/10.47172/sfcdv2021-0063.
Texto completoMohammed, K., Z. S. Ahammad, P. J. Sallis y C. R. Mota. "Optimisation of red light-emitting diodes irradiance for illuminating mixed microalgal culture to treat municipal wastewater". En WATER AND SOCIETY 2013. Southampton, UK: WIT Press, 2013. http://dx.doi.org/10.2495/ws130221.
Texto completo"Mitigate Air Emissions from Animal Feeding Operations and Recover Nutrients Using an Integrated Water Curtain-Microalgal Culture System". En 2015 ASABE International Meeting. American Society of Agricultural and Biological Engineers, 2015. http://dx.doi.org/10.13031/aim.20152189103.
Texto completoMaulana, Fadhlurrahman, Wisnu Wardhana, Nasruddin y Nining Betawati Prihantini. "The potency of microalgal biomass from agathis small lake, Universitas Indonesia as biofuel source: Study of dry season wild mix-culture". En THE 5TH INTERNATIONAL TROPICAL RENEWABLE ENERGY CONFERENCE (THE 5TH iTREC). AIP Publishing, 2021. http://dx.doi.org/10.1063/5.0064316.
Texto completoDias, Fernando G., Jose V. C. Vargas, Sam Yang, Vanessa M. Kava, Wellington Balmant, Andre B. Mariano y Juan C. Ordonez. "Experimental Calibration of a Biohydrogen Production Estimation Model". En ASME 2018 Verification and Validation Symposium. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/vvs2018-9341.
Texto completoPasqualinotto, Guilherme Léo, Jaqueline C. Da Silva y Ana T. Lombardi. "ESTUDO DA PRODUÇÃO DE PIGMENTOS E OUTRAS BIOMOLÉCULAS EM ANKISTRODESMUS DENSUS EXPOSTA A DIFERENTES QUALIDADES DE LUZ". En II Congresso Brasileiro de Biotecnologia On-line. Revista Multidisciplinar de Educação e Meio Ambiente, 2022. http://dx.doi.org/10.51189/conbiotec/51.
Texto completoFu, Wantao, Tianwei Feng, Yuan Liu, Shuqing Cao y Hongwen Liu. "Renewable culture of microalgae Isochrysis Galbana". En 2013 International Conference on Materials for Renewable Energy and Environment (ICMREE). IEEE, 2013. http://dx.doi.org/10.1109/icmree.2013.6893675.
Texto completoInformes sobre el tema "Microalgal culture"
Hildebrand, Mark, Juergen Polle y Michael Huesemann. A Systems Biology and Pond Culture-based Understanding and Improvement of Metabolic Processes Related to Productivity in Diverse Microalgal Classes for Viable Biofuel Production. Office of Scientific and Technical Information (OSTI), julio de 2018. http://dx.doi.org/10.2172/1458513.
Texto completoBarclay, W., J. Johansen, P. Chelf, N. Nagle, P. Roessler y P. Lemke. Microalgae culture collection, 1986-1987. Office of Scientific and Technical Information (OSTI), diciembre de 1986. http://dx.doi.org/10.2172/6953341.
Texto completoJohansen, J. R., P. Lemke, N. J. Nagle, P. Chelf, P. G. Roessler, R. Galloway y S. Toon. Addendum to Microalgae Culture Collection 1986-1987. Office of Scientific and Technical Information (OSTI), diciembre de 1987. http://dx.doi.org/10.2172/914655.
Texto completoMelis, Anastasios. Maximizing Light Utilization Efficiency and Hydrogen Production in Microalgal Cultures. Office of Scientific and Technical Information (OSTI), diciembre de 2014. http://dx.doi.org/10.2172/1225978.
Texto completoWeissman, Joseph C. y Juergen Polle. Comparison of Marine Microalgae Culture Systems for Fuels Production and Carbon Sequestration. Office of Scientific and Technical Information (OSTI), mayo de 2006. http://dx.doi.org/10.2172/882851.
Texto completoRadmer, R., P. Behrens y K. Arnett. Characterization of Photosynthetic Efficiency and Growth of Selected Microalgae in Dense Culture. Office of Scientific and Technical Information (OSTI), agosto de 1986. http://dx.doi.org/10.2172/1068592.
Texto completoWilson, L. G., K. L. Olson, M. G. Wallace y M. D. Osborn. Inventory of Sources of Available Saline Waters for Microalgae Mass Culture in the State of Arizona. Office of Scientific and Technical Information (OSTI), junio de 1986. http://dx.doi.org/10.2172/1068595.
Texto completoVakharia, Vikram, Shoshana Arad, Yonathan Zohar, Yacob Weinstein, Shamila Yusuff y Arun Ammayappan. Development of Fish Edible Vaccines on the Yeast and Redmicroalgae Platforms. United States Department of Agriculture, febrero de 2013. http://dx.doi.org/10.32747/2013.7699839.bard.
Texto completoMicroalgae Culture Collection, 1985-1986. Office of Scientific and Technical Information (OSTI), enero de 1986. http://dx.doi.org/10.2172/6261246.
Texto completoDesign, Fabrication, and Operation of Innovative Microalgae Culture Experiments for the Purpose of Producing Fuels: Final Report, Phase I. Office of Scientific and Technical Information (OSTI), enero de 1985. http://dx.doi.org/10.2172/1068594.
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