Flue gas mitigation technology that will aid in alleviating our emissions from point sources (i.e. power plants) by supplementing growth of ALGAE to produces our transportation sector fuels.
Microbes, or microscopic organisms, are widely used in large-scale industrial processes. Microbes can be used to create biofertilizers or to reduce metal pollutants. Microbes can also be used to produce certain non-microbial products, such as the diabetes medication insulin, vaccines, etc. These slides will give insights into uses of microbes in production of enzymes, antibiotics, beverages, vitamins, vaccines, probiotics, etc
Algal biotechnology Biotechnological approaches for production of important ...pratik mahadwala
Algal biotechnology Biotechnological approaches for production of important microalgae Indoor & mass culture methods of microalgae SCP – Spirulina single cell protein
Microbes, or microscopic organisms, are widely used in large-scale industrial processes. Microbes can be used to create biofertilizers or to reduce metal pollutants. Microbes can also be used to produce certain non-microbial products, such as the diabetes medication insulin, vaccines, etc. These slides will give insights into uses of microbes in production of enzymes, antibiotics, beverages, vitamins, vaccines, probiotics, etc
Algal biotechnology Biotechnological approaches for production of important ...pratik mahadwala
Algal biotechnology Biotechnological approaches for production of important microalgae Indoor & mass culture methods of microalgae SCP – Spirulina single cell protein
The genetic diversity that abounds in the microbial world represents a vast, untapped of medically and industrially important molecules. Industrial microbiology harnesses the capacity of microbes to synthesis compound that have important application in medicine, food preparation, and other industrial process. These compounds are commonly called natural products. Industrial Microbiology deals with the uses of microorganism to assist in the manufacture of product used in treating or preventing disease. Today many industrial and pharmaceutical processes make us of genetic engineering.
it include the following:
Fermentation Medium
Fermentor & Fermentation Process
Sterilization of culture media and fermenter
Microorganisms used in industrial microbiology
Genetic Manipulation of Microorganisms
Protoplast Fusion
Preservation of Microorganisms
Natural Genetic Engineering
Growth of microorganisms in an industrial setting
Major products of industrial microbiology
Primary metabolites
Secondary metabolites
Microbial biomass
Recombinant products
Important microbial products
Waste disposal and treatment of waste in industry
Systems for the treatment of wastes
Waste water disposal in the pharmaceutical industry
Industrial biotechnology, past, present, and future Swedish-African partnershipsSIANI
Presented at the workshop "Moving Africa Towards a Knowledge based Bio-economy: How can Sweden assist?" organised by the SIANI Bio-economy Expert Group. More at: http://www.siani.se/news/siani-bioeconomy-expert-group-business
this ppt deals with the production, processing and harvesting of spirulina as SCP. it also describes about the benefits of using spirulina as the protein supplement for enriching one's health when there is nutritional deprivation.
The genetic diversity that abounds in the microbial world represents a vast, untapped of medically and industrially important molecules. Industrial microbiology harnesses the capacity of microbes to synthesis compound that have important application in medicine, food preparation, and other industrial process. These compounds are commonly called natural products. Industrial Microbiology deals with the uses of microorganism to assist in the manufacture of product used in treating or preventing disease. Today many industrial and pharmaceutical processes make us of genetic engineering.
it include the following:
Fermentation Medium
Fermentor & Fermentation Process
Sterilization of culture media and fermenter
Microorganisms used in industrial microbiology
Genetic Manipulation of Microorganisms
Protoplast Fusion
Preservation of Microorganisms
Natural Genetic Engineering
Growth of microorganisms in an industrial setting
Major products of industrial microbiology
Primary metabolites
Secondary metabolites
Microbial biomass
Recombinant products
Important microbial products
Waste disposal and treatment of waste in industry
Systems for the treatment of wastes
Waste water disposal in the pharmaceutical industry
Industrial biotechnology, past, present, and future Swedish-African partnershipsSIANI
Presented at the workshop "Moving Africa Towards a Knowledge based Bio-economy: How can Sweden assist?" organised by the SIANI Bio-economy Expert Group. More at: http://www.siani.se/news/siani-bioeconomy-expert-group-business
this ppt deals with the production, processing and harvesting of spirulina as SCP. it also describes about the benefits of using spirulina as the protein supplement for enriching one's health when there is nutritional deprivation.
Recent talks on biofuels have outlined their un-sustainability in the production phase; commodities such as corn, rapeseed, palm oil and soya are being grown and harvested in a way that could have negative economic, social and environmental effects, and have a global impact on land use, food security, water resources, deforestation and global markets.
Production of Cellulase from Trichoderma Reesei rut30Kutaibaa Akraa
Production of Cellulase from
Trichoderma Reesei Rut-30
Chris Velander, Dillon Gushard, Phillip Power, Xin Gao and Yasar Demirel*
Department of Chemical & Biomolecular Engineering
University of Nebraska-Lincoln, Lincoln, NE68588
In this world of concerns regarding depletion of fossil fuels, pollution control and other factors leading to threat of man kind survival a way of producing biodiesel from algae which can be a source of alternative fuel. Lots of methods and sources being used for producing biodiesel but from algae one can produce high amount of biodiesel depending on the type of species or strain selected and this way this is a viable and feasible method to produce biodiesel.....
A brief discussion over the classifications of Biofuels and their advantages and disadvantages that should be considered for energy solution in the future.