Abstract
The different processes for recovering energy from agricultural wastes are either aqueous biological systems or dry thermochemical methods. Of the first type, anaerobic digestion has the most potential for large-scale adoption, while direct combustion is the dry technique most likely to be used in the near term. Descriptions of the various processes point out the factors affecting their conversion efficiencies.
Citation Formats
Radhika, L G, Seshadri, S K, and Mohandas, P N.
Energy from agricultural wastes.
India: N. p.,
1984.
Web.
Radhika, L G, Seshadri, S K, & Mohandas, P N.
Energy from agricultural wastes.
India.
Radhika, L G, Seshadri, S K, and Mohandas, P N.
1984.
"Energy from agricultural wastes."
India.
@misc{etde_5846556,
title = {Energy from agricultural wastes}
author = {Radhika, L G, Seshadri, S K, and Mohandas, P N}
abstractNote = {The different processes for recovering energy from agricultural wastes are either aqueous biological systems or dry thermochemical methods. Of the first type, anaerobic digestion has the most potential for large-scale adoption, while direct combustion is the dry technique most likely to be used in the near term. Descriptions of the various processes point out the factors affecting their conversion efficiencies.}
journal = []
volume = {43}
journal type = {AC}
place = {India}
year = {1984}
month = {Jan}
}
title = {Energy from agricultural wastes}
author = {Radhika, L G, Seshadri, S K, and Mohandas, P N}
abstractNote = {The different processes for recovering energy from agricultural wastes are either aqueous biological systems or dry thermochemical methods. Of the first type, anaerobic digestion has the most potential for large-scale adoption, while direct combustion is the dry technique most likely to be used in the near term. Descriptions of the various processes point out the factors affecting their conversion efficiencies.}
journal = []
volume = {43}
journal type = {AC}
place = {India}
year = {1984}
month = {Jan}
}