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Production of biofuel from seawage sludge

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Rajesh kumar Dash

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Production of biofuel from seawage sludge Presented by: Rajesh Kumar Dash Ph.D 1st year AEM-PA9-01 CENTRAL INSTITUTE OF FISHERIES EDUCATION Indian Council of Agricultural Research Panch Marg, Off Yari Road, Mumbai – 400 061
INTRODUCTION  The process of conversion of sludge to biofuels is quite complicated but economically viable.  It can be simplified with the biological means. Such, bio fuels are biodiesel, bio ethanol, biogas (bio H2, bio CNG, bio LNG) and bio solids.
BIO-DIESEL  Biodiesel is produced from an oil source which contains either triglycerides or fatty acids by the process of transesterification and is a liquid is similar to diesel.  Biodiesel is a renewable, biodegradable, less toxic, and safer for storage and handling has excellent lubricity and could provide similar energy density to diesel.  It burns much cleaner than petroleum diesel it contains oxygen and reduces most emissions (CO2, CO, and particulate, except No2).  Biodiesel is comprised of fatty acid alkyl esters (FAAEs) produced via base- and/or acid-catalyzed transesterification of lipids using alcohol.
CONTI…..  Fatty acid methyl ester (FAME) is the term for biodiesel made when methanol is the alcohol used in the transesterification process .  Lipids containing sewage sludge are majorly used to produce biodiesel and glyerol.  The municipal sewage sludge contains a significant amount of lipid fraction as characterized as oils, greases, fats and long chain fatty acid etc.  These chemical compounds originated from domestic and industrial sludge or from the phospholipids in the cell membranes of microorganisms, their metabolites and by- products.
Transesterification of triglycerides to alkyl esters (biodiesel)
CONTI…..
Pre-treatment of sludge  Pretreatment of sludge deals with fully the process involved in the preparation of sludge for biodiesel production .  Water is a hindrance for oil extraction, so collected sludge requires dewatering step and removal of the pathogen.  Sludge samples are collected from waste water treatment plant, includes primary and secondary sludge.  Researchers have claimed that the yield of fatty acid methyl esters from primary sludge is greater than activated sludge.  The lipid extraction from the raw sludge requires huge amount of organic solvent and large vessels with stirring and heating systems.
Lipid extraction and trans-esterification  First, the lipids containing fatty acids are usually extracted and then transesterified.  Pyrolysis is a method of conversion of one substance into another by mean of heat or by heat with the aid of the catalyst in the absence of air or oxygen.  A team of researchers in South Korea(Research Institute of Industrial Science and Technology) have developed a new process for converting the lipids in sewage sludge into biodiesel, at not only a lower cost than conventional biodiesel, but with much higher yields.  They found that the sewage sludge produced 2,200 times more lipids per gram than soybeans.
Conti….  the lipid extraction from dried sludge is feasible.  Centrifugation and filtration process can be used in pretreatment obtain the sludge and dried biomass.  The team continuously fed methanol and the extracted sludge lipids into a reactor containing porous activated alumina and heated the reactor to 380 °C.  Adding carbon dioxide to the reactor improved the reaction’s yield. The researchers’ method converted about 98% of the sludge lipids produce biodiesel.
BIOGAS  Biogas is a mixture of methane and carbon dioxide produced by the process of anaerobic digestion of organic material by anaerobes.  Biogas comprises of methane (55-75%), carbon dioxide (25-45%) and hydrogen (0-1%), with calorific value of 20(MJ/m3) .  It can be produced either from biodegradable waste materials or by the use of energy crops fed into anaerobic digesters to supplement gas yields.  Anaerobic digestion process is used to convert biomass to biogas with the help of microorganism.  Principle involved in the process is microorganism derived energy where microbes grow by metabolising the organic material in an oxygen-free environment resulting in the production of methane (CH4).
Conti….  The three main biogas production routes are:  (1) Direct recovery from landfill(or) passive methanisation  (2) Sewage water treatment  (3) Dedicated digestion plants  Anaerobic digestors convert organic waste into manure that can be used for enriching energy crops (or co- generation).  waste from the food-processing industry and household wastes are also extensively studied for biogas generation by various anaerobic digestion technologies.
mechanism of waste digestion 1. Hydrolysis : Conversion of non-soluble biopolymers to soluble organic compounds. 2. Acidogenesis : Conversion of soluble organic compounds to volatile fatty acids (VFA) and CO2. 3. Acetogenesis : Conversion of volatile fatty acids to acetate and H2 . 4. Methanogenesis : Conversion of acetate and CO2 plus H2 to methane gas .
Conti…
conti…  Higher yields were observed within the temperature range of 30-60°C and pH 5.5 – 8.5.  The major advantage of this anaerobic digestion method is that it can achieve 90 % conversion.  Produces biogas fuel rich in methane/hydrogen(60%) and carbon di oxide(40%).  Second route for producing biomethane is through thermochemical production process or gasterification.  Solid biomass (wood, plant crops) is converted into gas with relatively high methane content (approximately 95%).
Conti..  The bio SNG production process can be subdivided into 5 steps: 1. Biomass pre-treatment 2. Biomass gasification 3. Gas cleaning 4. Methanation 5. Raw-SNG upgrading
Conti..  Gasifiers used for gasification process is classified in to 1. High temperature gasifiers (1300-1500°C) for producing Syngas(methane). 2. low temperature gasifiers (typically 850°C)for producing Producer gas(hydrocarbons). . Syngas consists primarily of a mixture of carbon monoxide, carbon dioxide and hydrogen that may be used as a combustion fuel or may be converted to liquid fuels using a biological or chemical process.
Conti……  The waste sludge generated in wastewater treatment plants contains large quantities of carbohydrate and proteins which can be used for energy production such as methane or hydrogen gas.  Anaerobic digestion of excess sludge can be realized in two steps:  First step (acidogenic phase):Organic matter will be converted to organic acids.  Second step : organic acids will beused for hydrogen gas production .
Conti..  .Hydrogen gas is a product of the mixed acid fermentation of Escherichia coli, the butylene glycol fermentation of Aerobacter, and the butyric acid fermentations of Clostridium spp.  Two-step process achieved by combined dark and photo fermentation approach in biological hydrogen gas production and can produce relatively higher H2 yield.  A three step process scheme consisting of pretreatment- hydrolysis, dark fermentation and photofermentation could be used for this purpose
Conti.. a. pre-treatment: It includes grinding, acid hydrolysis, neutralization and nutrient balancing to produce carbohydrate solution from the biomass. b. Dark fermentation phase :Fermentable sugars were converted to organic acids, CO2 and hydrogen. c. Light fermentation :It is used for production of hydrogen from organic acids under anaerobic conditions in the presence of light.
Bioethanol  Bioethanol is an alcohol made by fermentation, mostly from carbohydrates produced in sugar or starch crops such as corn, sugarcane, or sweet sorghum.  Cellulosic biomass ,derived from non-food sources, such as trees and grasses, is also being developed as a feedstock for ethanol production.  Typically, bioethanol is formed by fermentation of simple sugars such as glucose and fructose under anaerobic conditions.  Many yeasts, such as Saccharomyces sp. and some bacteria such as Zymomonas sp., carry out this fermentation (Shuler and Kargi, 2002).
Conti…  .Municipal sewage sludge as the abundant, accessible, and cheaper as raw material was used for production of bioethanol.  Municipal sewage sludge contains high cellulosic carbohydrate wastes and paper wastes.  Sewage sludge can be used as a feedstock for hydrolysis to produce ethanol.  General equation of ethanol is given below C6H12O6 2C2H5OH + 2CO2
1. Fermentation of sewage sludge and Distillation  Microorganisms are the harvesting units of the substrate that converts biomass to valued product (biofuel).  Most commonly, fungal and bacterial cultures are widely used for bioethanol fermentation.  Fermentation setup started with fungi Saccharomyces cerevesiae traditionally, while the bacteria Zymomonas mobilis can be utilized to convert glucose into ethanol.  Most of the fermentation procedure involves the yeast as the biological agent converting the monosaccharide to ethanol in an anaerobic condition.
Conti……  In the recent days thermo tolerant organisms such as Cryptococcus tepidarius, Candida acidithermophilium, Candida brassicae, Saccharomyces uvarum and Kluveromycesspecies are reported as high yielding strains.  Saccharomyces cerevisiae and thermotolerant Saccharomyces cerevisiae TJ14 for the fermentation of cellulosic sludge.  The yield of ethanol increases dramatically for sludge when the time period for the fermentation operation is increased from 48 to 72 hours.
2. Distillation  Distillation is one of the steps of the purifications.  Distillation is the method to separate two liquid utilizing their different boiling points.  3. Dehydration  In the final dehydration step the quality of ethanol is determined by the operating conditions, the technology used and its benefits related to the quality and costs of ethanol.  water is a big problem for fuel ethanol because the presence of this amount of water enhances the molecular polarity of ethanol .
Biosolids  Biosolids are the nutrient-rich organic materials resulting from the treatment of domestic sewage in a wastewater treatment facility (i.e., treated sewage sludge).  Biosolids are a beneficial resource, containing essential plant nutrients and organic matter and are recycled as a fertilizer and soil amendment.  Biosolids can be applied as a fertilizer to improve and maintain productive soils and stimulate plant growth.  The final quality of the biosolids produced depends on the quality of the sewage entering the treatment plant and the treatment process .
Biofuel economy  India is one of the fastest growing economies in the world.  Energy is a critical input for socio-economic development.  The crude oil price has been fluctuating in the world market and has increased significantly in the recent past, reaching a level of more than $ 140 per barrel.  Biofuels are derived from renewable bio-mass resources and therefore, provide a strategic advantage to promote sustainable development and to supplement conventional energy sources in meeting the rapidly increasing requirements for transportation fuels associated with high economic growth, as well as in meeting the energy needs of India’s vast rural population.  Biofuels provide the prospect of new economic opportunities for people in rural areas in oil importer and developing countries
Summary  Conversion of waste to reusable products are gaining much importance in today’s world.  Alternative methods for obtaining biofuel products from sewage raw materials are also extensively being researched.  Detailed characterization of lipid and sugar fractions, carbon to nitrogen ratio, organic loading etc. of various sewage samples are to be done to get overall understanding of sewage to biofuel conversion.  . Advancements in bioprocess technologies and integration methods can bring fortunate improvements in biorefinery platform to restrict process expenditure thus making fuel production economical for renewable energy boosted buildingof safer world for future generations.
References  Bharathiraja B, Chakravarthy M, RanjithKumar R, Yuvaraj D, Jayamuthunagai J, PraveenKumar R, Palani S., Biodiesel production using chemical and biological methods – A review of process, catalyst, acyl acceptor, source and process variables, Renewable and Sustainable Energy Reviews, 2014, 38, 368– 382. .  Atadashi I.M, Aroua M.K , Abdul Aziz A.R, Sulaiman N.M.N., The effects of water on biodiesel production and refining technologies: A review, Renewable and Sustainable Energy Reviews, 2012, 16, 3456– 3470.  T.Z.D. de Mes, A.J.M. Stams, J.H. Reith and G. Zeeman, Methane production by anaerobic digestion of wastewater and solid wastes.  Van der Meijden, C.M., Rabou, L.P.L.M., Van der Drift, A., Vreugdenhil, B.J., Smit, R., ECN, Large scale production of bio methane from wood, October 2011, p.  Ayhan Demirbas, Biofuels sources, biofuel policy, biofuel economy and global biofuel projections, Energy Conversion and Management 2008,49, 2106–2116.
Conti..  Kohl, S. (2003, 2004) Technical Connections. Ethanol today.  McMillan J.D., Bioethanol production: status and prospects. Renewable Energy, 1997, 10, 295.  National Policy on Biofuels, Government of India Ministry of New & Renewable Energy,2009.  Perspectives for Biogas in Europe, ISBN 978-1-907555-63-3.

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Production of biofuel from seawage sludge

  • 1. Production of biofuel from seawage sludge Presented by: Rajesh Kumar Dash Ph.D 1st year AEM-PA9-01 CENTRAL INSTITUTE OF FISHERIES EDUCATION Indian Council of Agricultural Research Panch Marg, Off Yari Road, Mumbai – 400 061
  • 2. INTRODUCTION  The process of conversion of sludge to biofuels is quite complicated but economically viable.  It can be simplified with the biological means. Such, bio fuels are biodiesel, bio ethanol, biogas (bio H2, bio CNG, bio LNG) and bio solids.
  • 3. BIO-DIESEL  Biodiesel is produced from an oil source which contains either triglycerides or fatty acids by the process of transesterification and is a liquid is similar to diesel.  Biodiesel is a renewable, biodegradable, less toxic, and safer for storage and handling has excellent lubricity and could provide similar energy density to diesel.  It burns much cleaner than petroleum diesel it contains oxygen and reduces most emissions (CO2, CO, and particulate, except No2).  Biodiesel is comprised of fatty acid alkyl esters (FAAEs) produced via base- and/or acid-catalyzed transesterification of lipids using alcohol.
  • 4. CONTI…..  Fatty acid methyl ester (FAME) is the term for biodiesel made when methanol is the alcohol used in the transesterification process .  Lipids containing sewage sludge are majorly used to produce biodiesel and glyerol.  The municipal sewage sludge contains a significant amount of lipid fraction as characterized as oils, greases, fats and long chain fatty acid etc.  These chemical compounds originated from domestic and industrial sludge or from the phospholipids in the cell membranes of microorganisms, their metabolites and by- products.
  • 5. Transesterification of triglycerides to alkyl esters (biodiesel)
  • 7. Pre-treatment of sludge  Pretreatment of sludge deals with fully the process involved in the preparation of sludge for biodiesel production .  Water is a hindrance for oil extraction, so collected sludge requires dewatering step and removal of the pathogen.  Sludge samples are collected from waste water treatment plant, includes primary and secondary sludge.  Researchers have claimed that the yield of fatty acid methyl esters from primary sludge is greater than activated sludge.  The lipid extraction from the raw sludge requires huge amount of organic solvent and large vessels with stirring and heating systems.
  • 8. Lipid extraction and trans-esterification  First, the lipids containing fatty acids are usually extracted and then transesterified.  Pyrolysis is a method of conversion of one substance into another by mean of heat or by heat with the aid of the catalyst in the absence of air or oxygen.  A team of researchers in South Korea(Research Institute of Industrial Science and Technology) have developed a new process for converting the lipids in sewage sludge into biodiesel, at not only a lower cost than conventional biodiesel, but with much higher yields.  They found that the sewage sludge produced 2,200 times more lipids per gram than soybeans.
  • 9. Conti….  the lipid extraction from dried sludge is feasible.  Centrifugation and filtration process can be used in pretreatment obtain the sludge and dried biomass.  The team continuously fed methanol and the extracted sludge lipids into a reactor containing porous activated alumina and heated the reactor to 380 °C.  Adding carbon dioxide to the reactor improved the reaction’s yield. The researchers’ method converted about 98% of the sludge lipids produce biodiesel.
  • 10.
  • 11. BIOGAS  Biogas is a mixture of methane and carbon dioxide produced by the process of anaerobic digestion of organic material by anaerobes.  Biogas comprises of methane (55-75%), carbon dioxide (25-45%) and hydrogen (0-1%), with calorific value of 20(MJ/m3) .  It can be produced either from biodegradable waste materials or by the use of energy crops fed into anaerobic digesters to supplement gas yields.  Anaerobic digestion process is used to convert biomass to biogas with the help of microorganism.  Principle involved in the process is microorganism derived energy where microbes grow by metabolising the organic material in an oxygen-free environment resulting in the production of methane (CH4).
  • 12. Conti….  The three main biogas production routes are:  (1) Direct recovery from landfill(or) passive methanisation  (2) Sewage water treatment  (3) Dedicated digestion plants  Anaerobic digestors convert organic waste into manure that can be used for enriching energy crops (or co- generation).  waste from the food-processing industry and household wastes are also extensively studied for biogas generation by various anaerobic digestion technologies.
  • 13. mechanism of waste digestion 1. Hydrolysis : Conversion of non-soluble biopolymers to soluble organic compounds. 2. Acidogenesis : Conversion of soluble organic compounds to volatile fatty acids (VFA) and CO2. 3. Acetogenesis : Conversion of volatile fatty acids to acetate and H2 . 4. Methanogenesis : Conversion of acetate and CO2 plus H2 to methane gas .
  • 15. conti…  Higher yields were observed within the temperature range of 30-60°C and pH 5.5 – 8.5.  The major advantage of this anaerobic digestion method is that it can achieve 90 % conversion.  Produces biogas fuel rich in methane/hydrogen(60%) and carbon di oxide(40%).  Second route for producing biomethane is through thermochemical production process or gasterification.  Solid biomass (wood, plant crops) is converted into gas with relatively high methane content (approximately 95%).
  • 16. Conti..  The bio SNG production process can be subdivided into 5 steps: 1. Biomass pre-treatment 2. Biomass gasification 3. Gas cleaning 4. Methanation 5. Raw-SNG upgrading
  • 17. Conti..  Gasifiers used for gasification process is classified in to 1. High temperature gasifiers (1300-1500°C) for producing Syngas(methane). 2. low temperature gasifiers (typically 850°C)for producing Producer gas(hydrocarbons). . Syngas consists primarily of a mixture of carbon monoxide, carbon dioxide and hydrogen that may be used as a combustion fuel or may be converted to liquid fuels using a biological or chemical process.
  • 18. Conti……  The waste sludge generated in wastewater treatment plants contains large quantities of carbohydrate and proteins which can be used for energy production such as methane or hydrogen gas.  Anaerobic digestion of excess sludge can be realized in two steps:  First step (acidogenic phase):Organic matter will be converted to organic acids.  Second step : organic acids will beused for hydrogen gas production .
  • 19. Conti..  .Hydrogen gas is a product of the mixed acid fermentation of Escherichia coli, the butylene glycol fermentation of Aerobacter, and the butyric acid fermentations of Clostridium spp.  Two-step process achieved by combined dark and photo fermentation approach in biological hydrogen gas production and can produce relatively higher H2 yield.  A three step process scheme consisting of pretreatment- hydrolysis, dark fermentation and photofermentation could be used for this purpose
  • 20. Conti.. a. pre-treatment: It includes grinding, acid hydrolysis, neutralization and nutrient balancing to produce carbohydrate solution from the biomass. b. Dark fermentation phase :Fermentable sugars were converted to organic acids, CO2 and hydrogen. c. Light fermentation :It is used for production of hydrogen from organic acids under anaerobic conditions in the presence of light.
  • 21. Bioethanol  Bioethanol is an alcohol made by fermentation, mostly from carbohydrates produced in sugar or starch crops such as corn, sugarcane, or sweet sorghum.  Cellulosic biomass ,derived from non-food sources, such as trees and grasses, is also being developed as a feedstock for ethanol production.  Typically, bioethanol is formed by fermentation of simple sugars such as glucose and fructose under anaerobic conditions.  Many yeasts, such as Saccharomyces sp. and some bacteria such as Zymomonas sp., carry out this fermentation (Shuler and Kargi, 2002).
  • 22. Conti…  .Municipal sewage sludge as the abundant, accessible, and cheaper as raw material was used for production of bioethanol.  Municipal sewage sludge contains high cellulosic carbohydrate wastes and paper wastes.  Sewage sludge can be used as a feedstock for hydrolysis to produce ethanol.  General equation of ethanol is given below C6H12O6 2C2H5OH + 2CO2
  • 23. 1. Fermentation of sewage sludge and Distillation  Microorganisms are the harvesting units of the substrate that converts biomass to valued product (biofuel).  Most commonly, fungal and bacterial cultures are widely used for bioethanol fermentation.  Fermentation setup started with fungi Saccharomyces cerevesiae traditionally, while the bacteria Zymomonas mobilis can be utilized to convert glucose into ethanol.  Most of the fermentation procedure involves the yeast as the biological agent converting the monosaccharide to ethanol in an anaerobic condition.
  • 24. Conti……  In the recent days thermo tolerant organisms such as Cryptococcus tepidarius, Candida acidithermophilium, Candida brassicae, Saccharomyces uvarum and Kluveromycesspecies are reported as high yielding strains.  Saccharomyces cerevisiae and thermotolerant Saccharomyces cerevisiae TJ14 for the fermentation of cellulosic sludge.  The yield of ethanol increases dramatically for sludge when the time period for the fermentation operation is increased from 48 to 72 hours.
  • 25. 2. Distillation  Distillation is one of the steps of the purifications.  Distillation is the method to separate two liquid utilizing their different boiling points.  3. Dehydration  In the final dehydration step the quality of ethanol is determined by the operating conditions, the technology used and its benefits related to the quality and costs of ethanol.  water is a big problem for fuel ethanol because the presence of this amount of water enhances the molecular polarity of ethanol .
  • 26. Biosolids  Biosolids are the nutrient-rich organic materials resulting from the treatment of domestic sewage in a wastewater treatment facility (i.e., treated sewage sludge).  Biosolids are a beneficial resource, containing essential plant nutrients and organic matter and are recycled as a fertilizer and soil amendment.  Biosolids can be applied as a fertilizer to improve and maintain productive soils and stimulate plant growth.  The final quality of the biosolids produced depends on the quality of the sewage entering the treatment plant and the treatment process .
  • 27. Biofuel economy  India is one of the fastest growing economies in the world.  Energy is a critical input for socio-economic development.  The crude oil price has been fluctuating in the world market and has increased significantly in the recent past, reaching a level of more than $ 140 per barrel.  Biofuels are derived from renewable bio-mass resources and therefore, provide a strategic advantage to promote sustainable development and to supplement conventional energy sources in meeting the rapidly increasing requirements for transportation fuels associated with high economic growth, as well as in meeting the energy needs of India’s vast rural population.  Biofuels provide the prospect of new economic opportunities for people in rural areas in oil importer and developing countries
  • 28. Summary  Conversion of waste to reusable products are gaining much importance in today’s world.  Alternative methods for obtaining biofuel products from sewage raw materials are also extensively being researched.  Detailed characterization of lipid and sugar fractions, carbon to nitrogen ratio, organic loading etc. of various sewage samples are to be done to get overall understanding of sewage to biofuel conversion.  . Advancements in bioprocess technologies and integration methods can bring fortunate improvements in biorefinery platform to restrict process expenditure thus making fuel production economical for renewable energy boosted buildingof safer world for future generations.
  • 29. References  Bharathiraja B, Chakravarthy M, RanjithKumar R, Yuvaraj D, Jayamuthunagai J, PraveenKumar R, Palani S., Biodiesel production using chemical and biological methods – A review of process, catalyst, acyl acceptor, source and process variables, Renewable and Sustainable Energy Reviews, 2014, 38, 368– 382. .  Atadashi I.M, Aroua M.K , Abdul Aziz A.R, Sulaiman N.M.N., The effects of water on biodiesel production and refining technologies: A review, Renewable and Sustainable Energy Reviews, 2012, 16, 3456– 3470.  T.Z.D. de Mes, A.J.M. Stams, J.H. Reith and G. Zeeman, Methane production by anaerobic digestion of wastewater and solid wastes.  Van der Meijden, C.M., Rabou, L.P.L.M., Van der Drift, A., Vreugdenhil, B.J., Smit, R., ECN, Large scale production of bio methane from wood, October 2011, p.  Ayhan Demirbas, Biofuels sources, biofuel policy, biofuel economy and global biofuel projections, Energy Conversion and Management 2008,49, 2106–2116.
  • 30. Conti..  Kohl, S. (2003, 2004) Technical Connections. Ethanol today.  McMillan J.D., Bioethanol production: status and prospects. Renewable Energy, 1997, 10, 295.  National Policy on Biofuels, Government of India Ministry of New & Renewable Energy,2009.  Perspectives for Biogas in Europe, ISBN 978-1-907555-63-3.