Faecal-wood biomass co-combustion and ash composition analysis

•Co-combustion analysis was investigated using a bench-scale combustor test rig.•Raw human faeces (FC) contained 73.9±4.4wt% moisture as received basis.•Blending with wood dust (WD) in a 50:50 ratio reduced moisture levels by ∼40%.•Minimum acceptable blend for combustion without prior drying is 30:7...

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Bibliographic Details
Published in:Fuel (Guildford) 2017-09, Vol.203, p.781-791
Main Authors: Somorin, Tosin Onabanjo, Kolios, Athanasios J., Parker, Alison, McAdam, Ewan, Williams, Leon, Tyrrel, Sean
Format: Article
Language:English
Subjects:
Air flow
Aluminum
Biomass
Biomass burning
Blending
Calcium
Calorific value
Combustion
Combustion chambers
Combustion temperature
Conversion
Drying
Dust
Faecal ash
Feces
Flame propagation
Flow rates
Flow velocity
Fly ash
Fuel blending
Fuels
Full Length
Iron
Mixtures
Moisture
Moisture content
Nano-membrane toilet
Nickel
Non-sewered sanitary systems
Physiochemistry
Potassium
Pretreatment
Sanitation
Soil conditioner
Soil conditioners
Soil conditions
Soil moisture
Spontaneous combustion
Studies
Temperature requirements
Water content
Wood
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Summary:•Co-combustion analysis was investigated using a bench-scale combustor test rig.•Raw human faeces (FC) contained 73.9±4.4wt% moisture as received basis.•Blending with wood dust (WD) in a 50:50 ratio reduced moisture levels by ∼40%.•Minimum acceptable blend for combustion without prior drying is 30:70 WD:FC.•Fuel burn rates are 3.18–4.49g/min for all the blends at air flow of 12–18L/min.•Oxygen, potassium and calcium are the most abundant elements in faecal ash. Fuel blending is a widely used approach in biomass combustion, particularly for feedstocks with low calorific value and high moisture content. In on-site sanitation technologies, fuel blending is proposed as a pre-treatment requirement to reduce moisture levels and improve the physiochemical properties of raw faeces prior to drying. This study investigates the co-combustion performance of wood dust: raw human faeces blends at varying air-to-fuel ratios in a bench-scale combustor test rig. It concludes with ash composition analyses and discusses their potential application and related problems. The study shows that a 50:50 wood dust (WD): raw human faeces (FC) can reduce moisture levels in raw human faeces by ∼40% prior to drying. The minimum acceptable blend for treating moist faeces without prior drying at a combustion air flow rate of 14–18L/min is 30:70 WD: FC. For self-sustained ignition and flame propagation, the minimum combustion temperature required for conversion of the fuel to ash is ∼400°C. The most abundant elements in faecal ash are potassium and calcium, while elements such as nickel, aluminium and iron are in trace quantities. This suggests the potential use of faecal ash as a soil conditioner, but increases the tendency for fly ash formation and sintering problems.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2017.05.038