Litter generated ammonia captured by activated carbon derived from broiler litter

Authors: BRISOLARA, K - Louisiana State University; Miles, Dana; Lima, Isabel

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 12/4/2012
Publication Date: 4/1/2013
Citation: Brisolara, K.F., Miles, D.M., Lima, I.M. 2013. Litter generated ammonia captured by activated carbon derived from broiler litter [abstract]. Waste to Worth: "Spreading" Science and Solutions, April 1-5, 2013, Denver, CO. http://www.extension.org/pages/67575/litter-generated-ammonia-captured-by-activated-carbon-derived-ffrom-broiler-litter.

Interpretive Summary:

Technical Abstract: In 2011, the production rate of broilers was 8.6 billion with a value of $23.2 billion (USDA 2012). Both CERCLA and EPCRA have reporting requirements for ammonia (NH3) of 100 lb of NH3/d or 18.3 tons/yr, a level that may affect large animal production facilities (NRC 2003). Although USEPA (2009) has provided an exemption for animal waste producing farms under CERCLA for reporting hazardous air emissions, it is expected that this exemption will be revoked once valid methodologies are established for monitoring. Two of the 24 sites in the NAEMS monitoring study reported similar NH3 emissions of 3.6 – 5.3 tons of NH3 per house per year (Burns et al. 2009, Heber 2010). Emissions of this level indicate a need for developing technologies that can reduce the NH3 levels produced by broiler operations. This research is focused on the use of broiler litter as activated carbon (BAC) to reduce aerial NH3 generated by litter, an opportunity to not only reuse the manure, but also treat the emissions from or within broiler houses. The objective of this study was to evaluate the efficacy of BAC to remove NH3 volatilized from litter samples in a laboratory acid-trap system. Preliminary studies using NH3/air mixture indicated that the BAC capacity to adsorb NH3 was approximately double that of Vapure 612, a commercial carbon. In the litter emission study, the BAC and Vapure performance was comparable. Breakthrough for both carbons occurred within 14 hours of the test start. At the end of the 3 day test, the NH3 emission for BAC was 75% of the litter only control, whereas, the Vapure emission was 64% of the control. The results of the study demonstrate the potential for a cyclical waste utilization strategy in using broiler litter activated carbon to capture NH3 volatilized from litter.