TITLE:
Thermal Gasification of Rice Husks from Rice Growing Areas in Mwea, Embu County, Kenya
AUTHORS:
Paul Njogu, Robert Kinyua, Purity Muthoni, Yusuyuki Nemoto
KEYWORDS:
Carbonization, Climate Change, Gasification, Syngas
JOURNAL NAME:
Smart Grid and Renewable Energy,
Vol.6 No.5,
May
26,
2015
ABSTRACT: Thermal gasification of biomass provides a potential renewable energy resource in rural areas in
Kenya. Rice husks are a key byproduct of rice production that are not considered of economic
value to millers. Rice husks obtained from Mwea, Embu County, Kenya were converted into syngas
using a locally assembled modified updraft gasifier. The syngas production was produced at temperatures
between 450°C and 750°C with injection of limited supply of air and purified using series
of gas cleaning and cooling devices. Proximate analysis shows that rice husks have a mean content
of 21.9% ± 0.3% ash, 9.5% ± 3.3% moisture, 78.8% ± 0.3% volatiles and 91.8% ± 1.3% total
solids. Carbonized rice husks have mean contents of 37.8% ± 1.2% ash, 3.1% ± 0.4% moisture,
62.3% ± 1.2% volatiles and 96.5% ± 0.4% total solids. The study shows that feedstock is consumed
at a rate of 25 - 32 Kg/Hr with gas generation rate of 7.76 - 7.78 m3/hr; this translates to a gas yield
of 0.31 - 0.35 m3/Kg. Process water was re-circulated at a rate of 2.2 m3/hr within the plant. The total
electricity consumption per hour was 1.1 - 1.3 kWh. Carbon monoxide (CO) and temperature
were monitored in the working area to assess the safety of the workers and were found to be in
the range of 35 - 50 ppm and 24°C - 29.5°C respectively. The two were found to be within safe limits;
however, the CO concentrations increased when leakages occurred. Syngas was found to be composed
of 16.5% - 17.55% CO, 14.5% - 16.1% CO2, 4.1% - 4.5% H2, 6.8% - 7.2% CH4 and 17.9% -
45.7% N2 among others. The gas was used for direct heating applications and to run modified petrol
engines. Carbonized husks were used to make energy briquettes and partly applied to the rice
growing pads to improve soil properties. The technology provides energy solutions and aids in the
abatement of climate change mitigation and abatement since it provides a permanent carbon sink.
The technology provides a value addition chain for rice growers.