Abstract

This study is a contribution to the optimization of organic fraction of municipal waste bioconversion into biomethane, by activated sludge production as inoculum for digesters. The wastewater (WW) and cow dung (CD) samples were taken from the slaughterhouse of Ouagadougou town, Burkina Faso. Different mixtures were made, enriched with mineral solution and cellulose at 5% (w/v) as: 10% CD + 90% WW (C7), 30% CD + 70% WW (C6), 50% CD + 50% WW (C5), 70% CD + 30% WW (C4), 90% CD + 10% WW (C3), 100% CD (C2) and 100% WW (C1). The pH evolution and biogas (CH4 and CO2) production were followed for 25 days. Cultures tend to acidify with increase in cow dung proportion. Biogas production was significantly higher (p < 0.05) in C5 (880.0 mL), C6 (862.0 10 mL) and C7 (772.0 mL). Mixture C5 had a highest level of CO2 production (40%). Also C7 and C6 retained in the experiment contained respectively organic matter, volatile fatty acids (VFA) and total alkalinity (TAC) as 41.06%, 47.02%, 1320 mg acetic acid/L, 3036 mg Acetic acid/L and 520 mg CaCO3/L, 1310 mg CaCO3/L. Mixture C6 was the best medium for microorganism proliferation stability with 3.5 × 105 UFC/ml of methanogens bacteria. It also possessed buffering capacity, which prevents acidification of medium during VFAs production.

Highlights

  • Demographic and economic growth, rapid urbanization and rising living standards lead to an increase in quantity and quality of solid waste production [1] [2] [3]

  • This study is a contribution to the optimization of organic fraction of municipal waste bioconversion into biomethane, by activated sludge production as inoculum for digesters

  • According to Bechir [51], wastewaters from the slaughterhouse of Ouagadougou are loaded with solid waste, organic material and concentrated by blood, flesh, fat, haires, excrement and urine of slaughtered animals

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Summary

Introduction

Demographic and economic growth, rapid urbanization and rising living standards lead to an increase in quantity and quality of solid waste production [1] [2] [3]. This phenomenon creates enormous risks to the environment and to population health [4] [5]. Biogas containing methane was recognized as a new renewable energy source according European Directive 2001/77/EC. The aim of this study was to develop activated sludge to inoculate municipal organic solid waste digesters

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