�ݺ�ߣshows by User: archanagautam2

�ݺ�ߣshows by User: archanagautam2 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: archanagautam2 / Mon, 16 Mar 2015 12:05:20 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: archanagautam2 Photobioreactor /slideshow/photobioreactor/45898430 photobioreactor-150316120520-conversion-gate01
A bioreactor is an installation for the production of microorganisms outside their natural but inside an artificial environment. The prefix “photo” particularly describes the bio-reactor's property to cultivate phototrophic microorganisms, or organisms which grow on by utilizing light energy. These organisms use the process of photosynthesis to build their own biomass from light and carbon dioxide. Members of this group are Plants, Mosses, Microalgae, Cyanobacteria and Purple Bacteria. Photobioreactor or PBR, is the controlled supply of specific environmental conditions for respective species. Photobioreactor allows much higher growth rates and purity levels than anywhere in natural or habitats similar to nature. The function of the bioreactor is to provide a suitable environment in which an organism can efficiently produce a target product—the target product might be. Cell biomass Metabolite Bioconversion Product The performance of any bioreactor depends on the following key factors: Agitation rate Oxygen transfer pH Temperature There is no universal bioreactor. The general requirements of the bioreactor are as follows: The design and construction of bioreactors must keep sterility from the start point to end of the process. Optimal mixing with low, uniform shear. Adequate mass transfer, oxygen. Clearly defined flow conditions. Feeding substrate with prevention of under or overdosing. Suspension of solids. Gentle heat transfer. Compliance with design requirements such as: ability to be sterilized; simple construction; simple measuring, control, regulating techniques; scale-up; flexibility; long term stability; compatibility with up- downstream processes; antifoaming measures.]]>
A bioreactor is an installation for the production of microorganisms outside their natural but inside an artificial environment. The prefix “photo” particularly describes the bio-reactor's property to cultivate phototrophic microorganisms, or organisms which grow on by utilizing light energy. These organisms use the process of photosynthesis to build their own biomass from light and carbon dioxide. Members of this group are Plants, Mosses, Microalgae, Cyanobacteria and Purple Bacteria. Photobioreactor or PBR, is the controlled supply of specific environmental conditions for respective species. Photobioreactor allows much higher growth rates and purity levels than anywhere in natural or habitats similar to nature. The function of the bioreactor is to provide a suitable environment in which an organism can efficiently produce a target product—the target product might be. Cell biomass Metabolite Bioconversion Product The performance of any bioreactor depends on the following key factors: Agitation rate Oxygen transfer pH Temperature There is no universal bioreactor. The general requirements of the bioreactor are as follows: The design and construction of bioreactors must keep sterility from the start point to end of the process. Optimal mixing with low, uniform shear. Adequate mass transfer, oxygen. Clearly defined flow conditions. Feeding substrate with prevention of under or overdosing. Suspension of solids. Gentle heat transfer. Compliance with design requirements such as: ability to be sterilized; simple construction; simple measuring, control, regulating techniques; scale-up; flexibility; long term stability; compatibility with up- downstream processes; antifoaming measures.]]> Mon, 16 Mar 2015 12:05:20 GMT /slideshow/photobioreactor/45898430 archanagautam2@slideshare.net(archanagautam2) Photobioreactor archanagautam2 A bioreactor is an installation for the production of microorganisms outside their natural but inside an artificial environment. The prefix “photo” particularly describes the bio-reactor's property to cultivate phototrophic microorganisms, or organisms which grow on by utilizing light energy. These organisms use the process of photosynthesis to build their own biomass from light and carbon dioxide. Members of this group are Plants, Mosses, Microalgae, Cyanobacteria and Purple Bacteria. Photobioreactor or PBR, is the controlled supply of specific environmental conditions for respective species. Photobioreactor allows much higher growth rates and purity levels than anywhere in natural or habitats similar to nature. The function of the bioreactor is to provide a suitable environment in which an organism can efficiently produce a target product—the target product might be. Cell biomass Metabolite Bioconversion Product The performance of any bioreactor depends on the following key factors: Agitation rate Oxygen transfer pH Temperature There is no universal bioreactor. The general requirements of the bioreactor are as follows: The design and construction of bioreactors must keep sterility from the start point to end of the process. Optimal mixing with low, uniform shear. Adequate mass transfer, oxygen. Clearly defined flow conditions. Feeding substrate with prevention of under or overdosing. Suspension of solids. Gentle heat transfer. Compliance with design requirements such as: ability to be sterilized; simple construction; simple measuring, control, regulating techniques; scale-up; flexibility; long term stability; compatibility with up- downstream processes; antifoaming measures. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/photobioreactor-150316120520-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> A bioreactor is an installation for the production of microorganisms outside their natural but inside an artificial environment. The prefix “photo” particularly describes the bio-reactor's property to cultivate phototrophic microorganisms, or organisms which grow on by utilizing light energy. These organisms use the process of photosynthesis to build their own biomass from light and carbon dioxide. Members of this group are Plants, Mosses, Microalgae, Cyanobacteria and Purple Bacteria. Photobioreactor or PBR, is the controlled supply of specific environmental conditions for respective species. Photobioreactor allows much higher growth rates and purity levels than anywhere in natural or habitats similar to nature. The function of the bioreactor is to provide a suitable environment in which an organism can efficiently produce a target product—the target product might be. Cell biomass Metabolite Bioconversion Product The performance of any bioreactor depends on the following key factors: Agitation rate Oxygen transfer pH Temperature There is no universal bioreactor. The general requirements of the bioreactor are as follows: The design and construction of bioreactors must keep sterility from the start point to end of the process. Optimal mixing with low, uniform shear. Adequate mass transfer, oxygen. Clearly defined flow conditions. Feeding substrate with prevention of under or overdosing. Suspension of solids. Gentle heat transfer. Compliance with design requirements such as: ability to be sterilized; simple construction; simple measuring, control, regulating techniques; scale-up; flexibility; long term stability; compatibility with up- downstream processes; antifoaming measures.

Photobioreactor from archana gautam

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0 Atibody engineering /slideshow/atibody-engineering/45896923 atibodyengineering-150316113246-conversion-gate01
In recent years, antibodies have become increasingly accepted as therapeutics for human diseases, particularly for cancer, viral infection and autoimmune disorders. Monoclonal antibodies (Mabs) have been used as diagnostic and analytical reagents since hybridoma technology was invented in 1975. “man-made antibodies.” was named by Cesar Milstein, who was one of the inventors of monoclonal antibody technology. Until the late 1980’s, antibody technology relied primarily on animal immunization and the expression of engineered antibodies.]]>
In recent years, antibodies have become increasingly accepted as therapeutics for human diseases, particularly for cancer, viral infection and autoimmune disorders. Monoclonal antibodies (Mabs) have been used as diagnostic and analytical reagents since hybridoma technology was invented in 1975. “man-made antibodies.” was named by Cesar Milstein, who was one of the inventors of monoclonal antibody technology. Until the late 1980’s, antibody technology relied primarily on animal immunization and the expression of engineered antibodies.]]> Mon, 16 Mar 2015 11:32:45 GMT /slideshow/atibody-engineering/45896923 archanagautam2@slideshare.net(archanagautam2) Atibody engineering archanagautam2 In recent years, antibodies have become increasingly accepted as therapeutics for human diseases, particularly for cancer, viral infection and autoimmune disorders. Monoclonal antibodies (Mabs) have been used as diagnostic and analytical reagents since hybridoma technology was invented in 1975. “man-made antibodies.” was named by Cesar Milstein, who was one of the inventors of monoclonal antibody technology. Until the late 1980’s, antibody technology relied primarily on animal immunization and the expression of engineered antibodies. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/atibodyengineering-150316113246-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> In recent years, antibodies have become increasingly accepted as therapeutics for human diseases, particularly for cancer, viral infection and autoimmune disorders. Monoclonal antibodies (Mabs) have been used as diagnostic and analytical reagents since hybridoma technology was invented in 1975. “man-made antibodies.” was named by Cesar Milstein, who was one of the inventors of monoclonal antibody technology. Until the late 1980’s, antibody technology relied primarily on animal immunization and the expression of engineered antibodies.

Atibody engineering from archana gautam

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0 Algal biofuel /slideshow/algal-biofuel-45882368/45882368 algalbiofuel-150316055749-conversion-gate01
Bio-fuel are the fuel of biological origin these constitute renewable from of energy.Energy crisis Based on the current consumption of about 11.6 million tons of crude oil per day, it is expected that the entire resources can only suffice for a rather short time period. Global warming and global climate changes The use of oil can cause the risks of the rise of greenhouse effect, which can result in all kinds of disasters to our planet Earth and its inhabitants]]>
Bio-fuel are the fuel of biological origin these constitute renewable from of energy.Energy crisis Based on the current consumption of about 11.6 million tons of crude oil per day, it is expected that the entire resources can only suffice for a rather short time period. Global warming and global climate changes The use of oil can cause the risks of the rise of greenhouse effect, which can result in all kinds of disasters to our planet Earth and its inhabitants]]> Mon, 16 Mar 2015 05:57:49 GMT /slideshow/algal-biofuel-45882368/45882368 archanagautam2@slideshare.net(archanagautam2) Algal biofuel archanagautam2 Bio-fuel are the fuel of biological origin these constitute renewable from of energy.Energy crisis Based on the current consumption of about 11.6 million tons of crude oil per day, it is expected that the entire resources can only suffice for a rather short time period. Global warming and global climate changes The use of oil can cause the risks of the rise of greenhouse effect, which can result in all kinds of disasters to our planet Earth and its inhabitants <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/algalbiofuel-150316055749-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Bio-fuel are the fuel of biological origin these constitute renewable from of energy.Energy crisis Based on the current consumption of about 11.6 million tons of crude oil per day, it is expected that the entire resources can only suffice for a rather short time period. Global warming and global climate changes The use of oil can cause the risks of the rise of greenhouse effect, which can result in all kinds of disasters to our planet Earth and its inhabitants

Algal biofuel from archana gautam

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0 Mycobacterium tuberculosis /archanagautam2/mycobacterium-tuberculosis-45878399 mycobacteriumtuberculosis-150316041823-conversion-gate01
Basic knowledge about MTB Mycobacterium tuberculosis, a small, aerobic, non-motile bacillus. "Gram-positive“ Tuberculosis typically spread through the air when people who have an active TB infection cough, sneeze etc. symptoms The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss. Diagnosis Radiology (commonly chest X-rays) microbiological culture. tuberculin skin test (TST) etc]]>
Basic knowledge about MTB Mycobacterium tuberculosis, a small, aerobic, non-motile bacillus. "Gram-positive“ Tuberculosis typically spread through the air when people who have an active TB infection cough, sneeze etc. symptoms The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss. Diagnosis Radiology (commonly chest X-rays) microbiological culture. tuberculin skin test (TST) etc]]> Mon, 16 Mar 2015 04:18:23 GMT /archanagautam2/mycobacterium-tuberculosis-45878399 archanagautam2@slideshare.net(archanagautam2) Mycobacterium tuberculosis archanagautam2 Basic knowledge about MTB Mycobacterium tuberculosis, a small, aerobic, non-motile bacillus. "Gram-positive“ Tuberculosis typically spread through the air when people who have an active TB infection cough, sneeze etc. symptoms The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss. Diagnosis Radiology (commonly chest X-rays) microbiological culture. tuberculin skin test (TST) etc <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/mycobacteriumtuberculosis-150316041823-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Basic knowledge about MTB Mycobacterium tuberculosis, a small, aerobic, non-motile bacillus. "Gram-positive“ Tuberculosis typically spread through the air when people who have an active TB infection cough, sneeze etc. symptoms The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss. Diagnosis Radiology (commonly chest X-rays) microbiological culture. tuberculin skin test (TST) etc

Mycobacterium tuberculosis from archana gautam

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0 Dairy waste water treatmentby arhana gautam /slideshow/dairy-waste-water-treatmentby-arhana-gautam/45877706 dairywastewatertreatmentbyarhanagautam-150316035802-conversion-gate01
The dairy industry involves processing raw milk into products such as consumer milk, butter, cheese, yogurt, condensed milk, dried milk (milk powder), and ice cream, using processes such as chilling, pasteurization, and homogenization. Typical by-products include buttermilk, whey, and their derivatives. Dairy industries have shown tremendous growth in size and number inmost countries of the world . These industries discharge wastewater which is characterized by high chemical oxygen demand, biological oxygen demand, nutrients, and organic and inorganic contents. Such wastewaters, if discharged without proper treatment, severely pollute receiving water bodies. Dairy processing plants can be divided into two categories: Fluid milk processing involving the pasteurization and processing of raw milk into liquid milk for direct consumption, as well as cream, flavored milk, and fermented products such as buttermilk and yogurt. Industrial milk processing involving the pasteurization and processing of raw milk into value-added dairy products such as cheese and casein, butter and other milk fats, milk powder and condensed milk, whey powder and other dairy ingredients, and ice cream and other frozen dairy products.]]>
The dairy industry involves processing raw milk into products such as consumer milk, butter, cheese, yogurt, condensed milk, dried milk (milk powder), and ice cream, using processes such as chilling, pasteurization, and homogenization. Typical by-products include buttermilk, whey, and their derivatives. Dairy industries have shown tremendous growth in size and number inmost countries of the world . These industries discharge wastewater which is characterized by high chemical oxygen demand, biological oxygen demand, nutrients, and organic and inorganic contents. Such wastewaters, if discharged without proper treatment, severely pollute receiving water bodies. Dairy processing plants can be divided into two categories: Fluid milk processing involving the pasteurization and processing of raw milk into liquid milk for direct consumption, as well as cream, flavored milk, and fermented products such as buttermilk and yogurt. Industrial milk processing involving the pasteurization and processing of raw milk into value-added dairy products such as cheese and casein, butter and other milk fats, milk powder and condensed milk, whey powder and other dairy ingredients, and ice cream and other frozen dairy products.]]> Mon, 16 Mar 2015 03:58:02 GMT /slideshow/dairy-waste-water-treatmentby-arhana-gautam/45877706 archanagautam2@slideshare.net(archanagautam2) Dairy waste water treatmentby arhana gautam archanagautam2 The dairy industry involves processing raw milk into products such as consumer milk, butter, cheese, yogurt, condensed milk, dried milk (milk powder), and ice cream, using processes such as chilling, pasteurization, and homogenization. Typical by-products include buttermilk, whey, and their derivatives. Dairy industries have shown tremendous growth in size and number inmost countries of the world . These industries discharge wastewater which is characterized by high chemical oxygen demand, biological oxygen demand, nutrients, and organic and inorganic contents. Such wastewaters, if discharged without proper treatment, severely pollute receiving water bodies. Dairy processing plants can be divided into two categories: Fluid milk processing involving the pasteurization and processing of raw milk into liquid milk for direct consumption, as well as cream, flavored milk, and fermented products such as buttermilk and yogurt. Industrial milk processing involving the pasteurization and processing of raw milk into value-added dairy products such as cheese and casein, butter and other milk fats, milk powder and condensed milk, whey powder and other dairy ingredients, and ice cream and other frozen dairy products. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/dairywastewatertreatmentbyarhanagautam-150316035802-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> The dairy industry involves processing raw milk into products such as consumer milk, butter, cheese, yogurt, condensed milk, dried milk (milk powder), and ice cream, using processes such as chilling, pasteurization, and homogenization. Typical by-products include buttermilk, whey, and their derivatives. Dairy industries have shown tremendous growth in size and number inmost countries of the world . These industries discharge wastewater which is characterized by high chemical oxygen demand, biological oxygen demand, nutrients, and organic and inorganic contents. Such wastewaters, if discharged without proper treatment, severely pollute receiving water bodies. Dairy processing plants can be divided into two categories: Fluid milk processing involving the pasteurization and processing of raw milk into liquid milk for direct consumption, as well as cream, flavored milk, and fermented products such as buttermilk and yogurt. Industrial milk processing involving the pasteurization and processing of raw milk into value-added dairy products such as cheese and casein, butter and other milk fats, milk powder and condensed milk, whey powder and other dairy ingredients, and ice cream and other frozen dairy products.

Dairy waste water treatmentby arhana gautam from archana gautam

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/photobioreactor-150316120520-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/photobioreactor/45898430 Photobioreactor https://cdn.slidesharecdn.com/ss_thumbnails/atibodyengineering-150316113246-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/atibody-engineering/45896923 Atibody engineering https://cdn.slidesharecdn.com/ss_thumbnails/algalbiofuel-150316055749-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/algal-biofuel-45882368/45882368 Algal biofuel