Phosphorus, copper and zinc in solid and liquid fractions from full-scale and laboratory-separated pig slurry

Pig slurry separation is a slurry treatment technique that can reduce excess loads of P, Cu and Zn to the arable land. This study investigated the effects of different commercial and laboratory separation treatments for pig slurry on P, Cu and Zn distribution into solid and liquid fractions. Solid a...

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Bibliographic Details
Published in:Environmental technology 2012-09, Vol.33 (18), p.2119-2131
Main Authors: Popovic, Olga, Hjorth, Maibritt, Stoumann Jensen, Lars
Format: Article
Language:English
Subjects:
Animals
Applied sciences
arable soils
centrifugation
Chemical engineering
coagulants
coagulation
Copper
Copper - analysis
drainage
environmental technology
Exact sciences and technology
farms
Fertilizers
Fertilizing
flocculants
Flocculating
flocculation
fractionation
Fractions
Liquid-liquid and fluid-solid mechanical separations
Liquids
Manure - analysis
nitrogen fertilizers
ozonation
Particle Size
particle size distribution
phosphorus
Phosphorus - analysis
phosphorus fertilizers
pig manure
pig slurry separation
piglets
Pollution
polymers
Raw
Screening
Separation
separators
Settling
sieving
Slurries
Solid-solid systems
sows
suckling
sulfates
Swine
Waste Management
Zinc
Zinc - analysis
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Summary:Pig slurry separation is a slurry treatment technique that can reduce excess loads of P, Cu and Zn to the arable land. This study investigated the effects of different commercial and laboratory separation treatments for pig slurry on P, Cu and Zn distribution into solid and liquid fractions. Solid and liquid separation fractions were collected from two commercial separators installed on the farm. Five different separation treatments were performed (polymer flocculation and drainage; coagulation with iron sulphate addition and polymer flocculation and drainage; ozonation and centrifugation; centrifugation only; and natural sedimentation) on sow and suckling piglet raw slurry. Particle size fractionation was performed on raw slurry and all separation fractions by sequential wet sieving and P, Cu and Zn concentrations were then measured in the particle size classes. Dry matter and total P, Cu and Zn were separated with higher efficiency when chemical pretreatments with flocculants and coagulants were introduced before mechanical separation at both commercial and laboratory scale. When solid fractions are utilized as crop fertilizer (primarily as P fertilizer), the loads of Cu and Zn to the soils are not markedly different than the loads applied with raw slurry. When liquid fractions are used as crop fertilizer (primarily as N fertilizer), the loads of Cu and Zn are markedly lower than those supplied with raw slurry. The loads of Cu and Zn introduced to the soil were lowest on application of the liquid fraction produced by optimized separation treatments that included flocculation and coagulation.
ISSN:1479-487X
0959-3330
1479-487X
DOI:10.1080/09593330.2012.660649