Chemical Phosphorus Removal for Separated Flushed Dairy Manure

The objective of this study was to determine effective and economical dosages of chemicals to remove phosphorus (P) from liquid dairy manure, the corresponding chemical and polymer dosages to treat manure in a full-scale case study at the Virginia Tech dairy, and the cost of manure treatment and lan...

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Published inApplied engineering in agriculture Vol. 24; no. 4; pp. 499 - 506
Main Authors DeBusk, J.A, Arogo Ogejo, J, Knowlton, K.F, Love, N.G
Format Journal Article
LanguageEnglish
Published 2008
Subjects
aluminum chloride
aluminum sulfate
application rate
case studies
cations
chlorides
cost analysis
dairy manure
effluents
ferric chloride
ferric sulfate
land application
liquids
molecular weight
phosphorus
polyacrylamide
polymers
solids
technical chemicals
waste treatment
Virginia
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Summary:The objective of this study was to determine effective and economical dosages of chemicals to remove phosphorus (P) from liquid dairy manure, the corresponding chemical and polymer dosages to treat manure in a full-scale case study at the Virginia Tech dairy, and the cost of manure treatment and land application of P-rich sludge produced. Ferric chloride (FeCl 3 x 6H 2 O), ferric sulfate (Fe 2 [SO 4 ] 3 x 5H 2 O), aluminum chloride (AlCl 3 x 6H 2 O), aluminum sulfate (Al 2 [SO 4 ] 3 x 13H 2 O, alum), and five cationic polyacrylamides were evaluated at varying dosages using jar tests on liquid manure of approximately 0.87% and 1.5% total solids (TS) concentration. Treated manure settled in Imhoff cones and sludge volume was measured; supernatant was analyzed for total P, solids, and pH. FeCl 3 x 6H 2 O, alum, and Superfloc 4512 (an ultra-high molecular weight polyacrylamide) were selected for further testing. Polymer addition enhanced floc size and settleability of sludge and improved P removal. Jar tests using a combination of chemical and polymer provided more than 97% P removal from liquid dairy manure obtained from one of Virginia Tech's storage tanks showing the potential for high P removal. As a case study, a storage tank containing 1,860 m 3 of manure with 1.2% TS and 157 mg P/L was treated in batch using 200 mg/L AlCl 3 as Al and 100 mg/L of Superfloc 4512 polymer. Approximately 84% of the total P was sequestered in a P-rich sludge. A portion of the sludge (600 m 3 ) was transported off the farm for land application. The total cost of treating manure and transporting the P rich sludge was $4.09/m 3 ($0.02/gal). This study demonstrated the feasibility of using chemicals and polymer to treat large volumes of manure in batch for P-based nutrient management for a dairy.
Bibliography:http://asae.frymulti.com/toc.asp
ISSN:0883-8542
1943-7838
DOI:10.13031/2013.25142