![NH"3, N"2O and CH"4 emissions during passively aerated composting of straw-rich pig manure [An article from: Bioresource Technology]](https://www.ebooknetworking.net/books/B00/0PD/bigB000PDYRTC.jpg)
NH"3, N"2O and CH"4 emissions during passively aerated composting of straw-rich pig manure [An article from: Bioresource Technology]
Description
This digital document is a journal article from Bioresource Technology, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
Straw-rich manure from organic pig farming systems was composted in passively aerated static piles to estimate the effect of monthly turning on organic matter degradation and NH"3, N"2O and CH"4 emissions. Turning enhanced the rate of drying and degradation. The four-month treatment degraded 57+/-3% of the initial organic matter in the turned piles, while only 40+/-5% in the static piles. The turned piles showed low ammonia and N"2O emissions, 3.9+/-0.2% and 2.5+/-0.1% of total initial nitrogen, respectively. Static piles gave low ammonia (2.4+/-0.1% N"i"n"i"t"i"a"l), but high (9.9+/-0.5% N"i"n"i"t"i"a"l) N"2O emissions. Prevalence of anaerobic regions in the static system was supported by the higher CH"4 emissions, 12.6+/-0.6% VS"d"e"g"r"a"d"e"d for the static vs. 0.4+/-0.0% VS"d"e"g"r"a"d"e"d for the turned system. It was shown, that straw-rich pig manure with very low C/N ratios could be composted directly without significant NH"3 and N"2O emissions if turned on a monthly basis.
Description:
Straw-rich manure from organic pig farming systems was composted in passively aerated static piles to estimate the effect of monthly turning on organic matter degradation and NH"3, N"2O and CH"4 emissions. Turning enhanced the rate of drying and degradation. The four-month treatment degraded 57+/-3% of the initial organic matter in the turned piles, while only 40+/-5% in the static piles. The turned piles showed low ammonia and N"2O emissions, 3.9+/-0.2% and 2.5+/-0.1% of total initial nitrogen, respectively. Static piles gave low ammonia (2.4+/-0.1% N"i"n"i"t"i"a"l), but high (9.9+/-0.5% N"i"n"i"t"i"a"l) N"2O emissions. Prevalence of anaerobic regions in the static system was supported by the higher CH"4 emissions, 12.6+/-0.6% VS"d"e"g"r"a"d"e"d for the static vs. 0.4+/-0.0% VS"d"e"g"r"a"d"e"d for the turned system. It was shown, that straw-rich pig manure with very low C/N ratios could be composted directly without significant NH"3 and N"2O emissions if turned on a monthly basis.
