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Quantification of Lipid Content and Identification of the Main Lipid Classes Present in Microalgae Extracts Scenedesmus sp. for Obtaining Fatty Compounds for Biofuel Production
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作者 Carolina Vieira Viegas Leonardo Brantes Bacellar Mendes +3 位作者 Rafael Richard João gisel chenard díaz donato A. G. Aranda Yordanka Reyes Cruz 《Energy and Power Engineering》 2020年第6期273-287,共15页
Microalgae biomass has been reported in the literature as one of the most promising sources for obtaining different products of industrial interest such as lipids, fatty acids, carotenoids, proteins and fibers. The li... Microalgae biomass has been reported in the literature as one of the most promising sources for obtaining different products of industrial interest such as lipids, fatty acids, carotenoids, proteins and fibers. The lipid fraction of microalgae comprises neutral lipids, free fatty acids and polar lipids. It is of great importance to estimate the composition of the lipid fraction to define the potential for use, either as a raw material for the production of biofuels or for use for nutraceuticals and/or food purposes. The microalgae </span><i><span style="font-size:12px;font-family:Verdana;">Scenedesmus</span></i><span style="font-size:12px;font-family:Verdana;"> sp. cultivated in a photobioreactor</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">,</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;"> the sky open raceway type</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">,</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;"> was evaluated for lipid content, identification and quantification of lipid components obtained from different extracts. In the quantification of the lipid content, extraction methods were proposed without chemical treatment (use of solvents only) such as chloroform:methanol (2:1 v/v)—Bligh & Dyer, Ethanol, Ethyl acetate:Hexane (1:1 v/v) and others with chemical treatment such as J-Schmid-Bondzynski-Ratzlaff (acid) and saponification (basic). For the identification of the main lipid components present in the extracts, the Thin layer chromatography (TLC) technique was used. This made it possible, using a simple and inexpensive method, to identify the compounds extracted by different extraction methods, that is, it was possible to verify the selectivity of the different extraction methods. In addition, it has been shown that using these methods, widely described in the literature as methods of extracting lipids in practice, extract</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">s</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;"> a wide diversity of compounds. The levels of lipids obtained via solvent extraction were up to 50% higher than those obtained with chemical treatment. In lipid extracts, obtained via solvent extraction, the presence of polar compounds, glycerides, carotenoids, pigments and sterols was identified, with up to 53% being composed of an unsaponifiable fraction</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">, </span></span></span><span><span><span style="font-family:""><span style="font-size:12px;font-family:Verdana;">thus, presenting low selectivity for extracting fatty components. The acidic and basic treatments applied to the biomass of </span><i><span style="font-size:12px;font-family:Verdana;">Scenedesmus</span></i><span style="font-size:12px;font-family:Verdana;"> sp. showed greater selectivity for obtaining fat components of 71</span></span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">.</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">47</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">%</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;"> and 94</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">.</span></span></span><span style="font-size:12px;font-family:Verdana;"><span style="font-size:12px;font-family:Verdana;"><span style="font-family:Verdana;font-size:12px;">99%, respectively. The results showed that depending on the solvent/method used to quantify the lipids, the selectivity for obtaining the grease fraction, fundamental for conversion into biofuels, varies and the total lipid content may be overestimated. 展开更多
关键词 MICROALGAE LIPIDS Extraction Saponifiable Compounds Biofuels
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Characterization of the Lipid Components in <i>Desmodesmus</i>and <i>Scenedesmus</i>Strains: Lipid Content, Lipid Classes and Fatty Acid Profile
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作者 Carolina Vieira Viegas gisel chenard díaz +1 位作者 Yordanka Reyes Cruz Leonardo Brantes Bacellar Mendes 《American Journal of Plant Sciences》 2020年第12期2103-2121,共19页
The lipid composition in terms of the amount of neutral lipids, free fatty acids and polar lipid content is of great importance to make full use possible of this fraction and to define the suitability of its applicati... The lipid composition in terms of the amount of neutral lipids, free fatty acids and polar lipid content is of great importance to make full use possible of this fraction and to define the suitability of its application, either as a raw material for fuel production, nutraceutical purposes or feed. In addition to the fatty components present in the lipid extract, other components may be included, such as: carotenoids, pigments and sterols. The microalgae studied in this work, <i><span style="font-family:Verdana;">Scenedesmus</span></i><span style="font-family:Verdana;"> sp. and </span><i><span style="font-family:Verdana;">Desmodesmus</span></i><span style="font-family:Verdana;"> sp., were subjected to the same growth conditions and evaluated for lipid content, quantification and diversity of lipid components as well as its fatty acid profile. For lipid determination two extraction methods were compared: the </span><i><span style="font-family:Verdana;">J</span></i><span style="font-family:Verdana;">:</span><i><span style="font-family:;" "=""> </span></i><i><span style="font-family:Verdana;">Schmid-Bondzynski-Ratzlaff</span></i><span style="font-family:;" "=""><span style="font-family:Verdana;"> and </span><i><span style="font-family:Verdana;">Bligh</span></i><span style="font-family:Verdana;"> & </span><i><span style="font-family:Verdana;">Dyer</span></i><span style="font-family:Verdana;"> method. For </span><i><span style="font-family:Verdana;">Desmodesmus</span></i><span style="font-family:Verdana;"> sp. 5.43% ± 0.41% and 9.18% ± 0.33% of lipids were obtained on an ash-free dry weight basis and for </span><i><span style="font-family:Verdana;">Scenedesmus</span></i><span style="font-family:Verdana;"> sp. 12.46% ± 0.38% and 8.16% ± 0.42% of lipids were obtained on an ash-free dry weight basis using for both methods </span><i><span style="font-family:Verdana;">J</span></i><span style="font-family:Verdana;">:</span></span><i><span style="font-family:;" "=""> </span></i><i><span style="font-family:Verdana;">Schmid-Bondzynski-Ratzlaff</span></i><span style="font-family:;" "=""><span style="font-family:Verdana;"> and </span><i><span style="font-family:Verdana;">Bligh</span></i><span style="font-family:Verdana;"> & </span><i><span style="font-family:Verdana;">Dyer</span></i><span style="font-family:Verdana;">, respectively. For the identification of the main lipid components present in the extracts, the Thin layer chromatography (TLC) technique was used. This made it possible, using a simple and inexpensive method, to identify the compounds extracted by different extraction methods, that is, it was possible to verify the selectivity of the different extraction methods. In addition, it has been shown that using these methods, widely described in the literature as methods of extracting lipids in practice, extract</span></span><span style="font-family:Verdana;">s</span><span style="font-family:Verdana;"> a wide diversity of compounds. The major lipid class for both microalgae w</span><span style="font-family:Verdana;">as</span><span style="font-family:;" "=""><span style="font-family:Verdana;"> fatty acids with amounts between 23.62% - 38.02%. The triglycerides percentage in biomasses without chemical treatment did not exceed 18.26%. In the lipid extract obtained with </span><i><span style="font-family:Verdana;">Bligh</span></i><span style="font-family:Verdana;"> & </span><i><span style="font-family:Verdana;">Dyer</span></i><span style="font-family:Verdana;">, the microalgae </span><i><span style="font-family:Verdana;">Desmodesmus</span></i><span style="font-family:Verdana;"> sp. presented 55.26% of unsaponifiable material, higher than the amount present using the same extraction method for </span><i><span style="font-family:Verdana;">Scenedesmus</span></i><span style="font-family:Verdana;"> sp. 49.06%. Among the main unsaponifiables identified are hydrocarbons (carotenes) and sterols esters. The acid treatment of biomass, method </span><i><span style="font-family:Verdana;">J</span></i><span style="font-family:Verdana;">:</span></span><i><span style="font-family:;" "=""> </span></i><i><span style="font-family:Verdana;">Schmid-Bondzynski-Ratzlaff</span></i><span style="font-family:;" "=""><span style="font-family:Verdana;">, showed selectivity of 72.84% and 76.66% for obtaining fatty material from the microalgae </span><i><span style="font-family:Verdana;">Desmodesmus</span></i><span style="font-family:Verdana;"> sp. and </span><i><span style="font-family:Verdana;">Scenedesmus</span></i><span style="font-family:Verdana;"> sp., respectively. The results showed that depending on the method used for extraction, the lipid fraction will be different in relation to the percentage of fatty components.</span></span> 展开更多
关键词 MICROALGAE Desmodesmus sp. Scenedesmus sp.
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Hydrolysis - Hydrogenation of soybean oil and tallow 被引量:1
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作者 gisel chenard díaz Rodolfo Salazar Perez +2 位作者 Neyda de la C. Om Tapanes donato Alexandre Gomes Aranda Angel Almarales Arceo 《Natural Science》 2011年第7期530-534,共5页
Hydrolysis reactions are of major importance to the oleochemical industry in the production of fatty acid and their derivates. Hydrolysis of triglyceride from vegetable oil has been studied under various parameters su... Hydrolysis reactions are of major importance to the oleochemical industry in the production of fatty acid and their derivates. Hydrolysis of triglyceride from vegetable oil has been studied under various parameters such as: heterogeneous catalyst, temperature, reaction time and agitation speed. During the hydrolysis of soybean oil and tallow using nickel catalysts on alumina support was verified that the glycerol produced worked as hydrogen donor, allowing the hydrogenation of unsaturated fatty acids produced. Maximum conversion was achieved in 3 hours, catalysts 25% NiO/Al2O3, temperature of 250oC and 270oC and 250 rpm. 展开更多
关键词 HYDROLYSIS Soybean Oil TALLOW HYDROGENATION Saturated FATTY Acid SELECTIVITY
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Cultivation of Microalgae <i>Monoraphidium</i>sp., in the Plant Pilot the Grand Valle Bio Energy, for Biodiesel Production
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作者 gisel chenard díaz Yordanka Reyes Cruz +5 位作者 René González Carliz Rosa C. Vitorino de Paula donato A. Gomes Aranda Marcellus A. G. dario Gustavo Saraiva Marass Nelson C. Furtado 《Natural Science》 2015年第7期370-378,共9页
At present, Brazil imports approximately 11 billion liters/year of diesel. With the interruption of the works in the new Petrobras refineries, the projection is that by 2025 this volume will increase to 24.2 billion l... At present, Brazil imports approximately 11 billion liters/year of diesel. With the interruption of the works in the new Petrobras refineries, the projection is that by 2025 this volume will increase to 24.2 billion liters of diesel/year. In this sense, the biodiesel factory Grand Valle Bio Energy Ltda., located in the state of Rio de Janeiro, in conjunction with the FAPERJ makes some investments in technology development for the cultivation and use of microalgae as an alternative raw material in the production of biodiesel. Based on arguments previously said, this work presents the results of the microalgae cultivation Monoraphidium sp. in photobioreactors the pilot plant of the company. The installation with an area of 120 m2 is included with 2 open photobioreactors of type falling film (20 m × 1 m), with a cascade of 18mm and capacity of 4000 L. The lineage cultivated is selected from previous ecophysiological studies that are identified as promising for biodiesel production by having a high potential for the production of lipids. This lineage is maintained at collection of the stock of cultures Laboratory of Green Technologies of the School of Chemistry/ UFRJ. The cultivation was performed in means ASM-1 (Gorham et al., 1964), initial pH 8.0, with aeration and circulation average of 8 hours a day during 19 days. The culture was started with an inoculum of 1 × 107 cel/ml. The lipid production was determined in two phases of growth: on day 4 (exponential phase) and 15 day (stationary phase). For the determination and quantification of lipid content, two different methods were assessed for a sample of biomass, submitted to the same processes the separation and drying. The results showed the methodology of Bligh & Dyer with modifications as the most efficient in extracting lipids. The total lipid content of the biomass Monoraphidium sp. was 30.58%. The growth rate varied between 0.74 ± 0.01 and 0.68 ± 0.02. 展开更多
关键词 CULTIVATION PHOTOBIOREACTORS MICROALGAE Biodiesel
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Biodiesel Production Based in Microalgae: A Biorefinery Approach
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作者 Lauren Espinosa González gisel chenard díaz +2 位作者 donato Alexandre Gomes Aranda Yordanka Reyes Cruz Mariana Monteiro Fortes 《Natural Science》 2015年第7期358-369,共12页
It is of great knowledge nowadays that the use of fossil fuels is responsible for the emission of gases that intensify the greenhouse effect, which threatens the survival of the humankind. The gravity of this fact cou... It is of great knowledge nowadays that the use of fossil fuels is responsible for the emission of gases that intensify the greenhouse effect, which threatens the survival of the humankind. The gravity of this fact could be mitigated through the indirect use of solar energy for fuels derived from vegetable that can be planted and cultivated by the world of renewable and non-polisher. Microalgae play an important role in this regard, as they have promising characteristics as potential raw material for the production of biofuels, able to absorb large amounts of CO2. Chlorophyll organisms convert these simple substances in the atmosphere, absorbing sunlight into chemical energy stored, that is, compounds with high energy, biomass can also be used to obtain biocompounds human nutritional supplement and food animal, however, have been found an important number of difficulties to economically viable production like high cost of production of dry biomass and oil extraction. Here, we review the main approaches of biorefinery concept appearing as an alternative to achieve economic viability of the production of bio-diesel based on microalgae. The major points are the following: 1) use of re-residual water, 2) marketing of Carbon Credits, and 3) development of co-products resulting from high value added. 展开更多
关键词 BIODIESEL BIOREFINERY MICROALGAE
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Primary Separation of Antioxidants (Unsaponifiables) the Wet Biomass Microalgae <i>Chlamydomonas</i>sp. and Production of the Biodiesel
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作者 gisel chenard díaz Yordanka Reyes Cruz +4 位作者 Mariana Monteiro Fortes Carolina Vieira Viegas René González Carliz Nelson C. Furtado donato A. Gomes Aranda 《Natural Science》 2014年第15期1210-1218,共9页
This work studies the saponification which directs the wet biomass of algae Chlamydomonas sp. like a previous stage to production of biodiesel. This stage allows the obtainment of fatty acids to produce biodiesel, ins... This work studies the saponification which directs the wet biomass of algae Chlamydomonas sp. like a previous stage to production of biodiesel. This stage allows the obtainment of fatty acids to produce biodiesel, instead of the gross lipid fraction. In addition of the fatty acids, utilizing the same process one can also obtain the fraction unsaponifiable, these are soluble in apolar solvents and contain mainly carotenoids that can take action as antioxidants and photoprotectors, as they reduce the oxidation of unsaturated fatty acids. The saponification direct and extraction of fatty acids from biomass is faster and reduces the time and cost of operation. The separation of unsaponifiable matter from the biomass humid of microalgae Chlamydomonas sp., was held according to the method AOCS (Ca 6a-40), using extraction Liquid-liquid with hexane as solvent. Subsequently, phase hydroalcoholic or from soap, containing fatty acids, was acidified by addition of H2SO4 and the fatty acids were recovered by the addition of hexane. After acidulation of the soap, necessary for obtaining of the fatty acids was performed the stage of esterification for obtaining of biodiesel. The operating conditions were: molar ratio fatty acid:methanol (1:10), as catalyst 8% H2SO4 calculated in relation to the mass of fatty acid, 200℃ and reaction time of 90 minutes. The content of methyl esters was 96.8% determined by gas chromatography according to standard EN14103. The quality of biodiesel produced from wet biomass of Chlamydomonas sp. is according to the specification established by standard EN 14214 and RANP No. 14. For the identification of the composition the unsaponifiable fraction was used the method of High Performance Liquid Chromatography (HPLC). The composition of the material unsaponifiable found was of: Carotenoids total (0.76%);Lutein (0.45%);Zeaxanthin (0.07%);α-carotene (0.05%);β-carotene (0.11%);13 cisβ-carotene (0.05%) and 9-cisβ-carotene (0.03%). 展开更多
关键词 BIODIESEL Unsaponifiables ESTERIFICATION
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Photobioreactor of Microalgas for CO_(2) Biofixation
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作者 Yordanka Reyes Cruz gisel chenard díaz +5 位作者 Andreina Z. Figuera Leonett René Gonzalez Carliz Vinicius Rossa Luciano Basto Oliveira Maurílio Novais da Paixao donato Alexandre Gomes Aranda 《Journal of Power and Energy Engineering》 2019年第1期91-106,共16页
Microalgae are unicellular organisms capable of photosynthesis, turning sunlight and carbon dioxide (CO2) into rich biomass. Precisely because of this definition, in recent years various sectors have been targeting th... Microalgae are unicellular organisms capable of photosynthesis, turning sunlight and carbon dioxide (CO2) into rich biomass. Precisely because of this definition, in recent years various sectors have been targeting their ability to reduce CO2 emissions and the capacity of simultaneously synthesize biomass which can be later used to produce bio-fuels. Besides being considered fast-growth microorganisms, microalgae have a diverse biochemical composition with similar characteristics to traditional biomass. In this context, the present work aimed to evaluate the biofixation of CO2 by the microalgae Monoraphidium sp., cultivated in a closed-window type photobioreactor, as well as characterization of microalgal biomass produced in relation to the total lipid content (TL), lipids converted into biodiesel (LCB), carbohydrates and proteins. The results achieved showed that the best result was obtained after 24 h of cultivation, where for each gram of biomass produced approximately 1.2 g of CO2 were consumed. In the growth phase the average biomass productivity in the Janela photobioreactor was 58 mg&middot;L-1&middot;day-1 concluding that microalgae culture systems could be coupled to the chimneys of large industries emitters CO2 using this gas, resulting from combustion processes, in the process of photosynthesis. The biomass Monoraphidium sp. produced had a content of lipids converted into biodiesel of approximately 8.36% ± 2.69%, carbohydrates 32% ± 3.37% and proteins 34.26% ± 0.41%. 展开更多
关键词 BIOMASS CO_(2) Capture CULTIVATION MICROALGAE PHOTOBIOREACTOR
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