Abstract
Olive Mill Wastewater (OMWW) treatment is considered to be one of the main challenges that Mediterranean countries face. Although several procedures and technologies are mentioned in the literature, these techniques have several disadvantages or have been limited to laboratory pilot validation without posterior industrial projection. Recently, an advanced environmental friendly strategy for the recovery of OMWW was established involving the impregnation of OMWW on dry biomasses, drying of these impregnated samples, and finally green fuels and biochar production. This established strategy revealed that the drying step is crucial for the success of the entire recovery process. Hence, two impregnated samples were prepared through OMWW impregnation on sawdust (IS) and olive mill solid waste (ISW). The drying kinetics of OMWW and impregnated samples (IS and ISW) were examined in a convective dryer (air velocity range from 0.7–1.3 m/s and the temperature from 40–60 °C). The experimental results indicated that the drying of the impregnated samples occurred twice as fast as for the OMWW sample. Such behavior was attributed to the remaining thin layer of oil on the OMWW surface Furthermore, the Henderson and Pabis model showed the suitable fit of the drying curves with a determination coefficient R2 above 0.97. The drying rates were extracted from the mathematical models and the drying process was analyzed. The coefficient of effective diffusivity varied between 2.8 and 11.7 × 10−10 m2/s. In addition, the activation energy values ranged between 28.7 and 44.9 kJ/mol. These values were in the same range as those obtained during the drying of other agrifood byproducts. The final results could be very helpful to engineers aiming to improve and optimize the OMWW drying process.
Highlights
Olive oil production is considered as one of the oldest agricultural industries in the Mediterranean countries
The Olive Mill Wastewater (OMWW) and olive mill solid waste (OMSW) used in this study were collected from a typical 3-phase olive mill located in Tunisia
The obtained results indicated the drying of the impregnated samples is twice as fast as that of the OMWW sample
Summary
Olive oil production is considered as one of the oldest agricultural industries in the Mediterranean countries. It is estimated that some 1.8 × 106 t of olive oil are produced annually worldwide, where. 98% of this total quantity is extracted in the Mediterranean basin [1,2,3,4] with Spain, Italy, Greece being the three leading countries. The process of oil extraction generates large seasonal and centralized quantities of olive byproducts which needs significant attention. Its dark colour, high organic content and toxicity due to the presence of phenolic compounds may cause significant environmental issues [3,4,5,6,7,8]. Chemical Oxidation Demand (COD) values of OMWW may reach 150 g/L while suspended solids could reach up to 190 g/L [3,4,5,6,7].
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