"Micro Algae: A Potential Source of Biodiesel"
written by Shalini Rajvanshi, Mahendra Pal Sharma,
published by Journal of Sustainable Bioenergy Systems, Vol.2 No.3, 2012
has been cited by the following article(s):
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[2] Materials Science for Energy Technologies
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[3] Effects of Process Parameters on Hydrothermal Liquefaction of Microalgae Biomass Grown in Municipal Wastewater
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[4] Caracterización fisicoquímica de proteínas procedentes de microalgas marinas. Aplicación como colorante.
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[5] Evaluation and Advantages of Algae as an Energy Source
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[6] New horizons in culture and valorization of red microalgae
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[7] Microalgae-Biomass to Biodiesel: A Review
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[8] An experimental investigations on combined effect of EGR and SCR for diesel engine fuelled with the addition of TiO2 nanoparticle to M. Elangi methyl ester …
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[9] Microalgae for Industrial Purposes
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[10] An experimental investigations on combined effect of EGR and SCR for diesel engine fuelled with the addition of TiO2 nanoparticle to M.Elangi methyl ester blend
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[11] Impact of Turbocharger and Exhaust Gas re-circulation on performance, Combustion and Emission Characteristics on Diesel Engine with Zirconia Coated Piston Fueled with Rape Seed oil Methyl Ester
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[12] Effect of Critical Parameters on Biomass Yield from Botryococcus Braunii by Response Surface Methodology
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[13] Production of bodiesel from microalgae via nanocatalyzed transesterification process: A review
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[14] Algae Biodiesel: A Futuristic Fuel for Power Generation and for Automobile Industries
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[15] Advances in culture and genetic modification approaches to lipid biosynthesis for biofuel production and in silico analysis of enzymatic dominions in proteins related …
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[16] Pixel Valued Adaptive Single Scale Center Surround Algorithm-An Innovative Approach for Illumination removal
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[17] Manual pressing of nannochloropsis oculata dried biomass for enhanced lipid extraction
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[18] 优化鸡粪微生态分解及添加降解液促进微藻过量合成生物油脂
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[19] Advances in culture and genetic modification approaches to lipid biosynthesis for biofuel production and in silico analysis of enzymatic dominions in proteins related to …
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[20] Potential reuse of kitchen food waste
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[21] Renewable Energy Source Algae Biodiesel as Alternative Fuel
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[22] Studies on influence of process parameters on hydrothermal catalytic liquefaction of microalgae (Chlorella vulgaris) biomass grown in wastewater
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[23] Microorganisms in Sustainable Agriculture, Food, and the Environment
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[24] Investigation of Flow Dynamics for a Microalgae Suspension in an Open Pond System
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[25] Microalgae: Antiquity to era of integrated technology
Renewable and Sustainable Energy Reviews, 2016
[26] Cultivation of micro-algae for Production of Biodiesel: An optimized Process
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[27] Developing an Algae Culturing System Using a Microcontroller Platform
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[28] Biofuel: A Scope for Reducing Global Warming
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[29] From Algae to Liquid Fuels
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[30] Selection of potential oils for biodiesel production
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[31] Optimization of Transesterification of Chlorella protothecoides Oil to Biodiesel Using Box-Behnken Design Method
Waste and Biomass Valorization, 2016
[32] The Evolution and Versatility of Microalgal Biotechnology: A Review
Comprehensive Reviews in Food Science and Food Safety, 2016
[33] Yosun Yağından Biyodizel Üretimi ve Bir Dizel Motorunda Alternatif Yakıt Olarak Kullanılması
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[34] Bio-diesel production from microalga Chlorella minutissima & FAME analysis by GC-MS
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[35] Purification and characterization of microalgae lipids: a value-addition to biodiesel production
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[36] Characterization and fatty acid profiling in two fresh water microalgae for biodiesel production: lipid enhancement methods and media optimization using response …
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[37] EXPLORING POLICY ALTERNATIVES FOR CONTROLLING NITRATE POLLUTION FROM NEW MEXICO'S DAIRIES
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[38] Algae Farming: A Way Towards Prosperity
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[39] Biodiesel production potential of mixed microalgal culture grown in domestic wastewater
Bioprocess and biosystems engineering, 2015
[40] Characterization and fatty acid profiling in two fresh water microalgae for biodiesel production: Lipid enhancement methods and media optimization using response surface methodology
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[41] Assessment of potential of oils for biodiesel production
Renewable and Sustainable Energy Reviews, 2015
[42] POLICY ALTERNATIVES FOR CONTROLLING NITRATE POLLUTION FROM NEW MEXICO'S DAIRIES
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[43] Statistical Review and Control System Design for Photo Bioreactor Based Production of Algae Biofuels in India
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[44] Scope of algae as third generation biofuels
Frontiers in bioengineering and biotechnology, 2014
[45] An assessment of the usefulness of the cyanobacterium Synechococcus subsalsus as a source of biomass for biofuel production
Latin American Journal of Aquatic Research. Escuela de Ciencias del Mar, 2014
[46] Microalgae for Bioenergy: Key Technology Nodes
The Scientific World Journal, 2014
[47] Microalgae for bioenergy; key technology nodes
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[48] Evaluación de la utilidad de la cianobacteria marina Synechococcus subsalsus como fuente de biomasa para la producción de biocombustibles
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[49] Environmental Factors Influencing Algal Biodiesel Production
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[50] Biomass Feedstock Availability for the Supply of Bioenergy in the Lerma Valley (Salta, Argentina): an Evaluation for Territorial Energy Planning
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[51] Status of biofuel production from microalgae in India
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[52] Rapid detection of neutral lipid in green microalgae by flow cytometry in combination with Nile red staining—an improved technique
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[53] Status of Algae as Vehicles for Commercial Production of Fuels and Chemicals
Algal Biorefineries, 2014
[54] Potential assessment of microalgal oils for biodiesel production: A review
J. Mater. Environ. Sci., 2014
[55] Microalgae: An Alternative Source of Renewable Energy
American Journal of Engineering Research (AJER), 2014
[56] An assessment of the usefulness of the cyanobacterium Synechococcus subsalsus as a source of biomass for biofuel production/Evaluación de la utilidad de la cianobacteria marina Synechococcus subsalsus como fuente de biomasa para la producción de biocombustibles
Latin American Journal of Aquatic Research, 2014
[57] The investigation of two stage cultivation on biomass, lipid content and FAME profiles composition capacity of microalgae: Desmodesmus sp. EJ 8-10 in anaerobic digestion wastewater
2014 Montreal, Quebec Canada July 13–July 16, 2014, 2014
[58] The investigation of two stage cultivation on biomass, lipid content and FAME profiles composition capacity of microalgae: Desmodesmus sp. EJ 8-10 in anaerobic …
2014
[59] An assessment of the usefulness of the cyanobacterium Synechococcus subsalsus as a source of biomass for biofuel production/Evaluación de la utilidad de la …
Submission article platform-Latin American Journal of Aquatic Research, 2014
[60] The investigation of two stage cultivation on biomass, lipid content and FAME profiles composition capacity of microalgae: Desmodesmus sp. EJ 8-10 in …
2014
[61] An assessment of the use fulness of the cyanobacterium Synechococcus subsalsus as a source of biomass for biofuel production
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[62] 以微藻為料源進行生質柴油之酵素法合成-從固定化生物觸媒之開發至生物製程之設計與模擬
成功大學化學工程學系學位論文, 2013
[63] 富含油脂微藻之收集與以此藻油合成生質柴油
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[64] Biomass–resource for sustainable development
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[65] Biomass-Resource for Sustainable Development
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[66] Algae Oil as Future Energy Source in Indian Perspective
International Journal of Renewable Energy Research (IJRER), 2013
[67] Production Methodology of Biodiesel from Microalgae
International Journal of Applied Engineering Research, 2013
[68] A techno-economic analysis of biodiesel production from microalgae.
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