fulltext.study @t Gmail

Recent developments in the anaerobic digestion of olive mill effluents

Paper ID Volume ID Publish Year Pages File Format Full-Text
34290 45016 2015 11 PDF Available
Recent developments in the anaerobic digestion of olive mill effluents

•Contains comprehensive summary on recent studies on anaerobic treatment of olive mill waste streams.•Characteristics of olive mill waste streams.•Comparison of pretreatment methods on biodegradability of olive mill waste streams.•Effects of operational parameters on the performance of different types of anaerobic reactors.•Scientific, technological and practical approaches for the operation of anaerobic reactors.

Liquid and solid olive mill effluents contain considerable quantities of organics, phenols and lipids. Comprehensive papers have been published on the treatment of olive mill effluents. Methane production and organic removal have been studied under varying environmental conditions. This paper reviews the recent reports on anaerobic reactors which have been published during the last 15 years. Olive mill effluents have high amounts of hardly biodegradable substances, with most of them being toxic to microorganisms. It has been proven that pretreatment with aerobic, advanced oxidation and heat methods are an efficient way of removing toxic materials and improving anaerobic treatment efficiency. The effects that organic loading, hydraulic retention time, and temperature have on suspended, biofilm, and granular reactors are discussed. Anaerobic treatment has been performed by feeding only olive mill effluents or co-digestion with other waste streams. Co-digestion enhances methane productivity by balancing nutrient and alkalinity levels. Furthermore, a comprehensive discussion of studies regarding pretreatment is carried out by comparing their performances.

OM, olive mill; OMWW, olive mill waste water; OMSR, olive mill solid residue; COD, chemical oxygen demand; BOD5, 5-day biochemical oxygen demand; LCFA, long chain fatty acids; SS, suspended solid; TKN, total Kjhedahl-nitrogen; OLR, organic loading rate; H
First Page Preview
Recent developments in the anaerobic digestion of olive mill effluents
Database: Elsevier - ScienceDirect
Journal: Process Biochemistry - Volume 50, Issue 11, November 2015, Pages 1893–1903
, ,
Physical Sciences and Engineering Chemical Engineering Bioengineering