Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6688562 | Applied Energy | 2014 | 9 Pages |
Abstract
Cattle slaughterhouses contain high strength waste and wastewater streams and are therefore strong candidates for treatment processes that recover energy and nutrients. Analysis of 6 Australian slaughterhouses showed the potential for renewable energy production from a production facility was up to 400Â GJ or 40Â MWh per day while the potential for recovery of renewable fertilizer was over 1Â ton per day as struvite. The composition of individual wastewater streams varied depending on the source within the slaughterhouses. Biochemical methane potential varied from 250 to 300Â LÂ kgâ1 VS for cattle yard and paunch wastewater to 500Â LÂ kgâ1 VS for slaughter floor wastewater and over 1000Â LÂ kgâ1 VS for rendering wastewater. Different anaerobic biodegradability and degradation rates between streams within a slaughterhouse suggests that conventional treatment processes such as anaerobic lagoons are not an optimized treatment strategy. Therefore separate and specialized treatment of red waste (rendering and slaughter floor) and green waste (paunch and offal waste) is recommended. Rendering and paunch wastewater were concentrated resource streams that contribute up to 75% of the methane potential, phosphorus and potassium loads, in only 20% of the volumetric flow. These concentrated streams provide opportunities to enhance the recovery of nutrients using crystallization technologies.
Keywords
Related Topics
Physical Sciences and Engineering
Energy
Energy Engineering and Power Technology
Authors
P.D. Jensen, T. Sullivan, C. Carney, D.J. Batstone,