Characterization of olive mill wastewater in three climatic zones in the North of Jordan
Authors
Abstract
Purpose Olive mill wastewater (OMW) is annually generated in large amounts in Jordan without any treatment creating major environmental and public health issues. The objective of this study is to determine changes in OMW characteristics under three climatic zones in the North of Jordan during two harvest seasons.
Method OMW samples were obtained from 10 olive mills, representing three climatic zones (arid, semi-arid, and semi-arid to sub-humid) during November 2017 and November 2018. Physicochemical characterization and multivariate analysis were performed.
Results OMW is characterized by acidic conditions (pH< 5.0), high electrical conductivity (EC) (>7 dS/m), and high total phenols (2700 mg/L) and organic loads (chemical oxygen demand [COD] 41340 mg/L). OMW in the sub-humid climate contained higher total phenols, COD, EC, Ca, and K than other climates. Principal component analysis (PCA) showed that total phenols had high loadings in favour with Ca, and TSS in arid, total nitrogen in the semi-arid, and COD in the sub-humid climates.
Conclusion OMW properties were markedly affected by the climate. PCA showed that climate mainly affected the organic loading of extracted components. Overall, treatment of OMW is highly recommended before any use.
Highlights
- Olive mill wastewater (OMW) properties were markedly affected under the three studied climatic zones (arid, semi-arid, and sub-humid).
- OMW’s of arid climate had lower total phenols, COD, and EC as compared to sub-humid ones.
- Principal component analysis (PCA) revealed differences in extracted components under different climates
Keywords
Additional Information
Volume 11 (2022), IJROWA
Issue 2, June 2022
Page Numbers: 213228
Article views: 9
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