Seasonal characterization of sugarcane vinasse: Assessing environmental impacts from fertirrigation and the bioenergy recovery potential through biodigestion

Sugarcane vinasse has been widely used as a soil fertilizer in the Brazilian sucro-alcohol industry for recycling potassium and water. However, the potential negative effects from long-term soil fertirrigation represent a major drawback regarding this practice, whereas the application of biodigestio...

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Bibliographic Details
Published in:The Science of the total environment 2018-09, Vol.634, p.29-40
Main Authors: Fuess, Lucas Tadeu, Garcia, Marcelo Loureiro, Zaiat, Marcelo
Format: Article
Language:English
Subjects:
Anaerobic digestion
Bioenergy recovery
Environmental impacts
Fertirrigation
Sugarcane biorefinery
Vinasse management
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Summary:Sugarcane vinasse has been widely used as a soil fertilizer in the Brazilian sucro-alcohol industry for recycling potassium and water. However, the potential negative effects from long-term soil fertirrigation represent a major drawback regarding this practice, whereas the application of biodigestion represents an efficient method for reducing the polluting organic load and recovering bioenergy from vinasse. Regardless of the predicted use for vinasse, an understanding of the potential of each option is imperative, as the seasonal alterations in the inorganic/organic fractions of vinasse directly affect its management. In this context, this study presents a detailed compositional characterization of sugarcane vinasse from a large-scale Brazilian biorefinery throughout the 2014/2015 harvest to assess the environmental effects (due to fertirrigation) and to estimate the biogas energetic potential. Calculated inputs of organic matter into soils due to vinasse land application were equivalent to the polluting load of populations (117–257inhabha−1) at least 2-fold greater than the largest Brazilian capital cities (78–70inhabha−1). Two-phase biodigestion could efficiently reduce the polluting load of vinasse (23–52inhabha−1) and eliminate the negative effects from direct sulfide emissions in the environment. However, a high risk of soil sodification could result from using high doses of Na-based alkalizing compounds in biodigestion plants. Finally, the optimized recovery of bioenergy through biogas (13.3–26.7MW as electricity) could supply populations as large as 305 thousand inhabitants, so that over 30% of the surplus electricity produced by the studied biorefinery could be obtained from biogas. Overall, applying biodigestion in the treatment of vinasse provides important environmental and energetic gains. However, the benefits of reducing the polluting organic load of vinasse through bioenergy recovery may lose their effect depending on the alkalizing strategy, indicating that the proper use of chemicals in full-scale biodigestion plants is imperative to attain process sustainability. [Display omitted] •Vinasse streams were characterized throughout the sugarcane harvest period.•The fate of vinasse through fertirrigation and anaerobic digestion was assessed.•The organic polluting load could be reduced by 80% through two-phase biodigestion.•Over 300 thousand inhabitants could be supplied with biogas electricity.•Sodium accumulation would severely limit the land
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2018.03.326