Water Science & Technology Vol 49 No 9 pp 171–178 © IWA Publishing 2004
Compost odor control using high carbon wood ash
P.E. Rosenfeld*, M.A. Grey** and I.H. Suffet***
*Komex H2O Science, 11040 Santa Monica Blvd, Los Angeles, California, and UCLA Institute of the Environment (E-mail: prosenfeld@losangeles.komex.com)
**Synagro Technologies
***Department of Environmental Health, University of California, CHS 10833, LeConte Avenue, Los Angeles, California, 90095-1772, USA
ABSTRACT
A pilot study on the feasibility of using high carbon wood ash to control composting odor emissions was conducted at a green material composting facility. The study's treatments consisted of adding 0%, 12.5%, and 25% high carbon wood ash by volume to green material compost feedstock in three separate windrows. The wood ash has properties similar to activated carbon with an active surface area of 105 square metres per gram on a dry weight basis. The odorant emission data suggest that the higher percentage wood ash treatment results in the most effective control of most compost odors and that wood ash provides effective treatment of volatile fatty acids and some aldehydes and ketones. The 25% wood ash treatment resulted in more effective treatment of odors for a longer time period than the 12.5% treatment. Acetaldehyde had the highest concentration in the control (14,000 times its odor threshold concentration), was reduced by high carbon ash by over 97% but remained 386 times its reported odor threshold concentration after 14 days. Ethyl mecaptan and ammonia were produced in the process and were also over their reported human detection limits.
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