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United States Department of Agriculture

Agricultural Research Service

Research Project: INNOVATIVE BIORESOURCE MANAGEMENT TECHNOLOGIES FOR ENHANCED ENVIRONMENTAL QUALITY AND VALUE OPTIMIZATION

Location: Coastal Plain Soil, Water and Plant Conservation Research

Title: Co-pyrolyzing plastic mulch waste with animal manures

Authors
item Ro, Kyoung
item Hunt, Patrick
item Cantrell, Keri
item Yates, Scott
item Jackson, Michael
item Compton, David
item Szogi, Ariel

Submitted to: Meeting Proceedings
Publication Type: Abstract Only
Publication Acceptance Date: March 26, 2013
Publication Date: April 1, 2013
Citation: Ro, K.S., Hunt, P.G., Cantrell, K.B., Yates, S.R., Jackson, M.A., Compton, D.L., Szogi, A.A. 2013. Co-pyrolyzing plastic mulch waste with animal manures. Waste to Worth: Spreading Science and Solutions, 2013 Livestock and Poultry Environmental Learning Center National Conference, Denver, Colorado. extension.org/pages/67687.

Technical Abstract: Pyrolyzing various livestock and agricultural wastes produces power and value-added byproducts. It also substantially reduces ultimate waste volume to be disposed of and improves soil fertility and promotes carbon sequestration via soil application of biochar. Researchers found that manure-derived biochars containing high levels of nutrients can upgrade soil quality and remove contaminants in water and soil. However, the combustible gas produced from manure pyroysis does not provide enough energy to sustain the process. Spent agricultural plastics are usually disposed in landfills, which is not only expensive, but also not environmentally sustainable as the space for landfill is increasingly limited in the United States. Pyrolysis of spent agricultural plastic produces high energy combustible gas, oil and wax. Thus, co-pyrolyzing animal manures with plastic may achieve an energetically sustainable pyrolysis process. The objective of this work was to investigate the feasibility of co-pyrolyzing agricultural plastic mulch wastes with animal manures. Dried swine manure and spent fumigation plastic mulch were used as a hybrid feedstock for a batch pyrolysis reactor system. The reactor sample was heated to 500 °Celsius (C) at an approximate heating rate of 7 °C/minute (min) and stayed at 500 °C for 2 hours before cooled down to room temperature. Gaseous, liquid, and solid end products were analyzed for their chemical and thermal properties. Preliminary results indicated that pyrolysis of spent fumigant plastic alone produced fumigant-free combustible gases, liquid oil, and paraffin-like waxes. Results from thermogravimeteric analyses and chemical characteristics of end products will be presented at the meeting.

Last Modified: 7/28/2014
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