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Biogas

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Kashmeera N.A.
Kashmeera N.A.
Education
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KASHMEERA N.A. IV SEM MSc ZOOLOGY ROLL No: 37 03/13/13
03/13/13
03/13/13
Mystery unveiled…. Alessandro volta 03/13/13
BIOGAS • Mixture of gases. • Produced by anaerobic digestion of organic matter. • Consist of CH4 ,CO2 ,traces of H2 & other gases. 03/13/13
Composition of Biogas 03/13/13
03/13/13
BENEFITS FROM BIOGAS PLANTS • Used mainly for cooking & lighting purposes. • Used in internal combustion engines to power water pumps & electric generators. 03/13/13
• Used as fuel in fuel type refridgerators. • Sludge - fertilizer. • ↓ envt. pollution 03/13/13
03/13/13
SUBSTRATE • Plant & animal biomass. • Plant biomass – • Animal biomass – cattle dung,manure from poultry,goats & sheep slaughter house & fishery wastes. • Agricultural wastes also used 03/13/13
03/13/13
Parts of biogas plant • Digester • Gas holder • Inlet • Outlet 03/13/13
Inlet chamber • To supply cow dung to the digester • It is made at the ground level so that the cow dung can be poured easily. • made up of bricks, cement and sand. • The outlet wall of the inlet chamber is made inclined so that the cow dung easily flows to the digester. 03/13/13
Digester • Most important part of biogas plant • Fermentation takes place - fermentation tank. • Built underground – insulated,airtight • Made up of bricks, sand and cement. 03/13/13
• Almost at the middle of the height of digester, two openings are provided on the opposite sides for inflow of fresh cow dung and outflow of used cow dung. 03/13/13
Gas holder • Cylindrical container • Above digester • Collect gas • The gas pipe carries the biogas to the place where it is consumed. 03/13/13
Outlet Chamber • Digested slurry from which the biogas has been generated is removed from the biogas plant. • The outlet chamber is also at the ground level. 03/13/13
03/13/13
Types • GAS HOLDER • Fixed dome type • Floating drum type FREQUENCY OF FILLING SUBSTRATE Batch type Continuous type 03/13/13
Fixed dome type • A fixed-dome plant consists of a digester with a fixed, non-movable gas holder, which sits on top of the digester. 03/13/13
Floating-drum type • Consist of an underground digester and a moving gas-holder. • Gas-holder floats either directly on the fermentation slurry or in a separate water jacket. • The gas is collected in the gas drum, which rises or moves down, according to the amount of gas stored 03/13/13
Floating-drum type 03/13/13
• Batch type • Filled once,sealed. • Emptied when raw materials stop producing gas. • Continuous type • Fed with a definite quantity of wastes at regular intervals • Gas production continuous & regular 03/13/13
03/13/13
MICROBIOLOGY OF BIOGAS •4 steps •Hydrolysis •Acidogenesis •Acetogenesis •Methanogenesis 03/13/13
Hydrolysis • Biomass is made up of large organic polymers • Complex polymers hydrolysed to monomers • complex organic molecules → simple sugars, amino acids, and fatty acids. • Done by hydrolytic fermentative bacteria 03/13/13
Acidogenesis • Results in further breakdown of the remaining components by acidogenic bacteria. • Ammonia, H2, CO2, H2S, shorter volatile fatty acids, carbonic acids, alcohols, as well as trace amounts of other byproducts produced 03/13/13
Acetogenesis • Simple molecules created through the acidogenesis phase further digested to acetic acid, carbon dioxide and hydrogen. • Acetogenic bacteria 03/13/13
Methanogenesis • The terminal stage • Intermediate products of the preceding stages converted to methane, carbon dioxide, and water. • These components make up the majority of the biogas emitted from the system. • Methanogenic bacteria 03/13/13
MICRO ORGANISMS • Hydrolytic & fermentative bacteria. • Acidogenic bacteria. • Acetogenic bacteria. • Methanogenic bacteria. 03/13/13
03/13/13
Methanogenic bacteria. • Create methane from the final products of acetogenesis as well as from some of the intermediate products from hydrolysis and acidogenesis . • Archaebacteria 03/13/13
MAJOR GENERA OF METHANOGENIC BACTERIA 03/13/13
• Cocci • Spirilli • Bacilli Cocci forming colonies in cubical packets of • sarcina eight or more are called sarcina 03/13/13
• Methanogens are a diverse group of organisms that can live in a wide range of environments. • They have been found in a range of salinity from freshwater to hypersaline. 03/13/13
• Biogas plant – Methanosarcina barkeri, Methanobacterium omelianskii 03/13/13
03/13/13
Factors affecting methane formation. • pH • Temperature • Nitrogen concentration • C:N ratio • Creation of anaerobic conditions 03/13/13
pH • 6-8 • Acidic medium lowers methane formation. • Temperature • Fluctuation ↓ methane formation – inhibit growth of methanogens. • 30-40oC 03/13/13
Nitrogen concentration • ↑ N2 - ↓ growth of bacteria - ↓ CH4 C:N ratio • Micro organisms in a biogas plant needs both N nitrogen and C carbon. • Research has shown that the methanogenic bacteria work best with a C/N ratio 30:1. 03/13/13
Creation of anaerobic conditions • CH4 production takeplace in strictly anaerobic condition. • Digesters – airtight, burried under soil. 03/13/13
03/13/13

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Biogas

  • 1. KASHMEERA N.A. IV SEM MSc ZOOLOGY ROLL No: 37 03/13/13
  • 4. Mystery unveiled…. Alessandro volta 03/13/13
  • 5. BIOGAS • Mixture of gases. • Produced by anaerobic digestion of organic matter. • Consist of CH4 ,CO2 ,traces of H2 & other gases. 03/13/13
  • 8. BENEFITS FROM BIOGAS PLANTS • Used mainly for cooking & lighting purposes. • Used in internal combustion engines to power water pumps & electric generators. 03/13/13
  • 9. Used as fuel in fuel type refridgerators. • Sludge - fertilizer. • ↓ envt. pollution 03/13/13
  • 11. SUBSTRATE • Plant & animal biomass. • Plant biomass – • Animal biomass – cattle dung,manure from poultry,goats & sheep slaughter house & fishery wastes. • Agricultural wastes also used 03/13/13
  • 13. Parts of biogas plant • Digester • Gas holder • Inlet • Outlet 03/13/13
  • 14. Inlet chamber • To supply cow dung to the digester • It is made at the ground level so that the cow dung can be poured easily. • made up of bricks, cement and sand. • The outlet wall of the inlet chamber is made inclined so that the cow dung easily flows to the digester. 03/13/13
  • 15. Digester • Most important part of biogas plant • Fermentation takes place - fermentation tank. • Built underground – insulated,airtight • Made up of bricks, sand and cement. 03/13/13
  • 16. Almost at the middle of the height of digester, two openings are provided on the opposite sides for inflow of fresh cow dung and outflow of used cow dung. 03/13/13
  • 17. Gas holder • Cylindrical container • Above digester • Collect gas • The gas pipe carries the biogas to the place where it is consumed. 03/13/13
  • 18. Outlet Chamber • Digested slurry from which the biogas has been generated is removed from the biogas plant. • The outlet chamber is also at the ground level. 03/13/13
  • 20. Types • GAS HOLDER • Fixed dome type • Floating drum type FREQUENCY OF FILLING SUBSTRATE Batch type Continuous type 03/13/13
  • 21. Fixed dome type • A fixed-dome plant consists of a digester with a fixed, non-movable gas holder, which sits on top of the digester. 03/13/13
  • 22. Floating-drum type • Consist of an underground digester and a moving gas-holder. • Gas-holder floats either directly on the fermentation slurry or in a separate water jacket. • The gas is collected in the gas drum, which rises or moves down, according to the amount of gas stored 03/13/13
  • 24. Batch type • Filled once,sealed. • Emptied when raw materials stop producing gas. • Continuous type • Fed with a definite quantity of wastes at regular intervals • Gas production continuous & regular 03/13/13
  • 26. MICROBIOLOGY OF BIOGAS •4 steps •Hydrolysis •Acidogenesis •Acetogenesis •Methanogenesis 03/13/13
  • 27. Hydrolysis • Biomass is made up of large organic polymers • Complex polymers hydrolysed to monomers • complex organic molecules → simple sugars, amino acids, and fatty acids. • Done by hydrolytic fermentative bacteria 03/13/13
  • 28. Acidogenesis • Results in further breakdown of the remaining components by acidogenic bacteria. • Ammonia, H2, CO2, H2S, shorter volatile fatty acids, carbonic acids, alcohols, as well as trace amounts of other byproducts produced 03/13/13
  • 29. Acetogenesis • Simple molecules created through the acidogenesis phase further digested to acetic acid, carbon dioxide and hydrogen. • Acetogenic bacteria 03/13/13
  • 30. Methanogenesis • The terminal stage • Intermediate products of the preceding stages converted to methane, carbon dioxide, and water. • These components make up the majority of the biogas emitted from the system. • Methanogenic bacteria 03/13/13
  • 31. MICRO ORGANISMS • Hydrolytic & fermentative bacteria. • Acidogenic bacteria. • Acetogenic bacteria. • Methanogenic bacteria. 03/13/13
  • 33. Methanogenic bacteria. • Create methane from the final products of acetogenesis as well as from some of the intermediate products from hydrolysis and acidogenesis . • Archaebacteria 03/13/13
  • 34. MAJOR GENERA OF METHANOGENIC BACTERIA 03/13/13
  • 35. Cocci • Spirilli • Bacilli Cocci forming colonies in cubical packets of • sarcina eight or more are called sarcina 03/13/13
  • 36. Methanogens are a diverse group of organisms that can live in a wide range of environments. • They have been found in a range of salinity from freshwater to hypersaline. 03/13/13
  • 37. Biogas plant – Methanosarcina barkeri, Methanobacterium omelianskii 03/13/13
  • 39. Factors affecting methane formation. • pH • Temperature • Nitrogen concentration • C:N ratio • Creation of anaerobic conditions 03/13/13
  • 40. pH • 6-8 • Acidic medium lowers methane formation. • Temperature • Fluctuation ↓ methane formation – inhibit growth of methanogens. • 30-40oC 03/13/13
  • 41. Nitrogen concentration • ↑ N2 - ↓ growth of bacteria - ↓ CH4 C:N ratio • Micro organisms in a biogas plant needs both N nitrogen and C carbon. • Research has shown that the methanogenic bacteria work best with a C/N ratio 30:1. 03/13/13
  • 42. Creation of anaerobic conditions • CH4 production takeplace in strictly anaerobic condition. • Digesters – airtight, burried under soil. 03/13/13