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Journal of Sustainable Bioenergy Systems

Journal of Sustainable Bioenergy Systems

Journal of Sustainable Bioenergy Systems

ISSN Print: 2165-400X
ISSN Online: 2165-4018
www.scirp.org/journal/jsbs
E-mail: jsbs@scirp.org
"Biodiesel Production from Spirulina-Platensis Microalgae by In-Situ Transesterification Process"
written by H. I. El-Shimi, Nahed K. Attia, S. T. El-Sheltawy, G. I. El-Diwani,
published by Journal of Sustainable Bioenergy Systems, Vol.3 No.3, 2013
has been cited by the following article(s):
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[13] Extraction methods of algae oils for the production of third generation biofuels–A review
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[14] Room temperature esterification of high-free fatty acid feedstock into biodiesel
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[15] The effect of different drying methods and microalgae species on the quality parameters of biodiesel obtained by transesterification technique
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[16] Neural-network-inspired correlation (N2IC) model for estimating biodiesel conversion in algal biodiesel units
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[17] Enhancing growth environment for attached microalgae to populate onto spent coffee grounds in producing biodiesel
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[18] Waste rubber seeds as a renewable energy source: direct biodiesel production using a controlled crushing device
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[19] Usage of source separated urine for the biodiesel production from algal biomass
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[20] Microalgal Promise to the Next Generation: A Dual Potential Perspective as Cosmeceuticals and Biofuels
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[28] Case Study for Status and Exploration of Microalgae in Egypt
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[31] Catalytic performance of MgO/Fe2O3-SiO2 core-shell magnetic nanocatalyst for biodiesel production of Camelina sativa seed oil: Optimization by RSM-CCD method
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[32] 39 Microalgal Biodiesel
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[33] Variability of Omega-3/6 Fatty Acid Obtained Through Extraction-Transesterification Processes from Phaeodactylum tricornutum
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[35] Illumination system for growth and net energy ratio enhancement of Arthrospira (Spirulina) platensis outdoor cultivation in deep raceway pond
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[36] Microalgal Biodiesel Production
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[37] Sol–Gel Entrapped Lewis Acids as Catalysts for Biodiesel Production
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[39] Dynamic Thin Film-Intensified Direct Transesterification of Oleaginous Biomass to Biodiesel
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[41] Effect of variation in injector nozzle holes on the performance of preheated Spirulina methyl ester used in VCR engine
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[44] Microalgae growth in anaerobic digestate for high-value product recovery
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[46] Mutual effect of sodium and magnesium on the cultivation of microalgae Auxenochlorella protothecoides
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[49] Potential Alternative Marine Bio‐Resources for Biodiesel Production
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[50] Microalgae‐based biodiesel production in open raceway ponds using coal thermal flue gas: A case of West Bengal, India
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[51] Effect of iron and magnesium addition on population dynamics and high value product of microalgae grown in anaerobic liquid digestate
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[53] Optimization of Auxenochlorella protothecoides lipid content using response surface methodology for biofuel production
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[54] Effect of salinity on mixed microalgae grown in anaerobic liquid digestate
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[55] World Biodiesel Policies and Production
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[56] Techno-Economic Feasibility of Reactive Distillation for Biodiesel Production from Algal Oil: Comparing with a Conventional Multiunit System
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[57] Bismuth vanadate: an efficient photocatalyst for rupturing of microalgae cell wall
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[60] Biodiesel Potentiality of Microalgae Species: evaluation Using Various Nitrogen Sources
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[61] Influence of nutrient formulations on growth, lipid yield, carbon partitioning and biodiesel quality potential of Botryococcus sp. and Chlorella sp.
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[63] INTERNATIONAL JOURNAL OF RESEARCH IN PHARMACEUTICAL SCIENCES
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[64] Lipid Extraction from MicroalgaeSpirulina Platensisfor Raw Materials of Biodiesel
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[66] Effect of ozonation on Spirulina platensis filaments by dynamic imaging particle analysis
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[67] Effect of Light Intensity on Algal Growth in Designed Hybrid Photobioreactor and Biodiesel Production
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[73] Cultivation of microalgae for biodiesel production: a review on upstream and downstream processing
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[77] CO2 Capture and Utilization (CCU) in Coal-Fired Power Plants: Prospect of In Situ Algal Cultivation
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[80] Optimization of reaction variables in situ transesterification of Jatropha curcas seed oil for biodiesel production
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[81] Value added products from Spirulina, extraction, estimation and biotechnological application
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[82] Pembuatan Biodiesel Dari Mikroalga Chlorella Sp. Dengan Metode Microwave-Assisted Transesterification Secara In Situ
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[83] Current research and perspectives on microalgae-derived biodiesel
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[84] Biodiesel production from marine microalgae Nannochloropsis gaditana by in situ transesterification process
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[85] Obtaining biodiesel from microalgae oil using ultrasound-assisted in-situ alkaline transesterification
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[86] Biodiesel production from microalgae grown on domestic wastewater: Feasibility and Egyptian case study
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[89] Current Status of Biodiesel Production from Microalgae in India
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[107] Investigation of silicates as a catalyst in biodiesel production: A review
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[108] Investigation of Biodiesel Potential of Biomasses of Microalgaes Chlorella, Spirulina and Tetraselmis by NMR and GC-MS Techniques
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[112] Spirulina platensis is more efficient than Chlorella homosphaera in carbohydrate productivity
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[113] Biodiesel and biogas recovery from Spirulina platensis
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[117] Handbook of Marine Microalgae: Biotechnology Advances
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