AI Article Synopsis
- Researchers investigated the effects of hydrothermal modification on three types of industrial biowastes (penicillin mycelia waste, sewage sludge, and peat waste) to reduce nitrogen (N) and sulfur (S) emissions.
- The process significantly changed the structure of N- and S-containing components, leading to the enrichment of different nitrogen forms in the liquid phase, with organic nitrogen decomposing into ammonium (NH-N) at higher temperatures.
- Over 60% of sulfur was removed at 240 °C, with organic sulfur converting into thiophenes and inorganic sulfur, while the behavior of inorganic sulfur in hydrochars varied depending on its specific type.
Article Abstract
In attempt to decrease NO and SO emission from thermochemical utilization, three industrial biowastes (penicillin mycelia waste, sewage sludge and peat waste) contained high nitrogen (N) and sulfur (S) were chosen to investigate the denitrification and desulphurization of hydrothermal modification. The results demonstrated that hydrothermal modification destroyed the structure of N- and S-containing components, thereby altering their existed conformations. Inorganic-N (N-IN) and most of amino-N/polyamide-N (N-A) were enriched by liquid phase in the forms of NH-N and soluble organic-N (Org-N), respectively; subsequently, Org-N could further decompose to NH-N at higher temperature. Residual N in hydrochars was converted from N-A to heterocyclic-N (pyrrolic-N, pyridinic-N and quaternary-N) via hydrolysis and cyclization. Similarly, over 60% of S was remove form biowastes at 240 °C. In solid phase, part of organic-S was altered to thiophenes-S after modified, while the remainder was transformed to inorganic-S; but the variation of inorganic-S in hydrochars strongly affected by its specific species.
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| http://dx.doi.org/10.1016/j.biortech.2018.01.061 | DOI Listing |
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