Biodigester Feedstocks: Difference between revisions
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*Table [http://www.seai.ie/Renewables/Bioenergy/Bioenergy_Technologies/Anaerobic_Digestion/The_Process_and_Techniques_of_Anaerobic_Digestion/Gas_Yields_Table.pdf]: | *Table [http://www.seai.ie/Renewables/Bioenergy/Bioenergy_Technologies/Anaerobic_Digestion/The_Process_and_Techniques_of_Anaerobic_Digestion/Gas_Yields_Table.pdf]: | ||
Notes: | |||
*This table is consistent with 1 cu m/24 hr yield from a Solar Cities biodigester. From table below, yields are generally 2 orders of magnitude (100x) greater than the feedstock volume - such as 1 cubic meter of material generates 100 cubic meters of gas (over its proper retention time). | |||
<html><embed src="http://www.seai.ie/Renewables/Bioenergy/Bioenergy_Technologies/Anaerobic_Digestion/The_Process_and_Techniques_of_Anaerobic_Digestion/Gas_Yields_Table.pdf" width="800px" height="2100px" /></html> | <html><embed src="http://www.seai.ie/Renewables/Bioenergy/Bioenergy_Technologies/Anaerobic_Digestion/The_Process_and_Techniques_of_Anaerobic_Digestion/Gas_Yields_Table.pdf" width="800px" height="2100px" /></html> | ||
Latest revision as of 22:57, 5 January 2017
Notes:
- This table is consistent with 1 cu m/24 hr yield from a Solar Cities biodigester. From table below, yields are generally 2 orders of magnitude (100x) greater than the feedstock volume - such as 1 cubic meter of material generates 100 cubic meters of gas (over its proper retention time).