Biodiesel Production by Lipids From Indonesian strain of Microalgae Chlorella vulgaris

Purkan, Purkan; Nidianti, Ersalina; Abdulloh, Abdulloh; Safa, Abdillah; Retnowati, Wiwin; Soemarjati, Wiwie; Nurlaila, Hamida; Kim, Seung Wook

doi:10.1515/chem-2019-0102

Cited by 16 publications

(6 citation statements)

References 24 publications

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“…RRSE2. These observations are in agreement with an earlier report, which stated that the presence of 12% linolenic acid is acceptable for the quality biodiesel (Arroussi et al 2017;Purkan et al 2019). It has been reported that the components such as palmitic, oleic, stearic, linoleic and linolenic acid were considered as the most common fatty acids in biodiesel by Knothe (2008).…”

Section: The Fatty Acid Profile Of Nitzschia Sp Rrse2 Cultivated In Optimized F/2 Mediumsupporting

confidence: 93%

Enhanced production of lipid as biofuel feedstock from the marine diatom Nitzschia sp. by optimizing cultural conditions

Anandapadmanaban

Rajkumar

Takriff

2020

BioRes

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Microalgae were isolated, identified, and cultivated for enhanced biomass production and lipid accumulation. A marine microalgae was isolated from coastal rock pools of Tuticorin, Tamil Nadu, and identified as Nitzschia sp. RRSE2 upon microscopic examination and molecular sequence analysis. The experimental results showed that the maximum growth, biomass, and lipid content were obtained at pH 8 using the F/2 medium. These parameters revealed a notable difference when NaCl was added at 3% concentration. Meanwhile, the nutrients NaNO3 (18.75 mgL-1) and NaH2PO4 (3.48 mgL-1) were shown to be suitable nitrogen and phosphorus sources, respectively, for the production of lipids. On day 14, the maximum lipid concentration of 77.5 mgL-1 was produced using optimized culture conditions. Additionally, the maximum number of 17×105 cells mL-1 and the biomass concentration of 0.69 gL-1 were achieved on this same day. Finally, the fatty acid composition of the algal lipid was analyzed by gas chromatography/mass spectrometry (GC/MS) analysis.

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Section: The Fatty Acid Profile Of Nitzschia Sp Rrse2 Cultivated In Optimized F/2 Mediumsupporting

confidence: 93%

Enhanced production of lipid as biofuel feedstock from the marine diatom Nitzschia sp. by optimizing cultural conditions

Anandapadmanaban

Rajkumar

Takriff

2020

BioRes

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“…that are usually known as nonrenewable sources of energy. The acceptability of the green alga, Chlorella vulgaris, as a potential biofuel feedstock is found worldwide, as mentioned by Ru et al (2020), Varaprasad et al (2020), Purkan et al (2019), Ramírez-López et al (2019, Sakarika and Kornaros (2019), Papapolymerou et al (2018), Suthar and Verma (2018), Daliry et al, (2017), Lam et al (2017), Rajanren and Ismail (2016), Villagracia et al (2016), El-Sayed et al (2015), Safi et al (2014), Jasim and Maysam (2014), Mallick et al (2011), Phukan et al (2011, though the amount of biomass produced can vary due to the production scale, operational design, and optimum growth conditions taken under consideration.…”

Section: Production Of Chlamydomonas Noctigama Chlorella Vulgaris Anabaena Variabilis Andmentioning

confidence: 99%

Production of Microalgal Biomass at Different Growth Phases to Use as Biofuel Feedstock

Tarin

Ali²,

Chamon

et al. 2021

J. Asiat. Soc. Bangladesh, Sci.

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The growth of microalgae under optimized conditions was determined for assessing their growth rate and biomass production. In this study, the growth of both green algae (Chlamydomonas noctigama and Chlorella vulgaris) and cyanobacteria (Anabaena variabilis and Nostoc spongiaeforme) was measured as optical density. Chlamydomonas noctigama and Chlorella vulgaris showed the doubling time of 9.5 and 8.0 hours, respectively, whereas Anabaena variabilis and Nostoc spongiaeforme showed the doubling time of 14.8 and 16.6 hours, respectively. All the species exhibited the highest growth in terms of biomass at the phase in between stationary and death phases. J. Asiat. Soc. Bangladesh, Sci. 47(2): 161-171, December 2021

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“…Dilihat dari potensinya, perairan Indonesia sangat cocok untuk pengembangan dan budidaya mikroalga. Mikroalga Chlorella vulgaris dan Spirulina platensis merupakan jenis mikroalga yang banyak ditemukan di perairan Indonesia, namun budidaya secara masif dan dalam skala ekonomis belum dilakukan (Purkan et al 2019). Alasan pasti belum berkembangnya budidaya Chlorella vulgaris dan Spirulina platensis secara komersial di Indonesia tidak diketahui secara detail, namun permasalahan terkait tingginya biaya investasi dan terbatasnya penguasaaan teknologi merupakan faktor yang dapat menjadi kendala pengembangan kedua mikroalga tersebut di Indonesia.…”

Section: Peluang Pengembangan Dan Pemanfaatan Chlorella Vulgaris Dan unclassified

Chlorella vulgaris and Spirulina platensis: Their Nutrient Contents and Bioactive Compounds for Improving Poultry Productivity

Sugiharto

2020

WARTAZOA

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Poultry industry are facing many challenges and osbtacles especially on the supply of feed ingredients, medicines, feed supplements and additives. The high price of protein source-feed ingredients has encouraged nutritionists to explore and utilize alternative protein source-feed ingredients for poultry. This review provides an overview of their nutritional and bioactive contents and the use of microalgae, Chlorella vulgaris and Spirulina platensis in poultry feed based on recent literature studies and their potential development and utilization in Indonesia. The microalgae Chlorella vulgaris dan Spirulina platensis have very high protein content that are potential as a protein source in poultry rations. In addition, Chlorella vulgaris and Spirulina platensis also contain several bioactive compounds that can be used as alternatives to antibiotics growth promoter and synthetic antioxidants for poultry. Indonesia has a great potential for the production of Chlorella vulgaris and Spirulina platensis, however massive cultivation and economies of scale have not yet been carried out. Such conditions make Chlorella vulgaris and Spirulina platensis less profitable as protein sources, but more likely as growth-promoting additives or antioxidants for poultry in Indonesia.

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Biodiesel Production by Lipids From Indonesian strain of Microalgae Chlorella vulgaris

Cited by 16 publications

References 24 publications

Enhanced production of lipid as biofuel feedstock from the marine diatom Nitzschia sp. by optimizing cultural conditions

Enhanced production of lipid as biofuel feedstock from the marine diatom Nitzschia sp. by optimizing cultural conditions

Production of Microalgal Biomass at Different Growth Phases to Use as Biofuel Feedstock

Chlorella vulgaris and Spirulina platensis: Their Nutrient Contents and Bioactive Compounds for Improving Poultry Productivity

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