Abstract:
According to geography and climatic conditions, Sri Lanka is blessed with several types of
renewable energy resources namely biomass, hydro, solar, and wind. Among them, in 2016,
biomass is the most common source of energy supply in the country and the largest use of
biomass is in the domestic sector for cooking purposes. In Sri Lanka, it has been revealed that
nearly 72% of industrial boilers which use biomass as fuel consumes fuel wood, 15% of paddy
husk and saw dust, and 13% of coconut shells. Also overall fuel wood demand in industries has
been increasing steadily in the recent past. Hence, industrial sector in Sri Lanka use fuel wood as
the major source of biomass energy. Current study was conducted with the objective of
evaluating fuel wood characteristics of Nataw (Xylopia parviflora) which is a wet zone lesser
known species. Selected individuals were categorized in to three Diameter (DBH) classes (i) 5
cm-14.99 cm, (ii) 15 cm- 24.99 cm, (iii) 25 cm-34.99 cm. From each class, 5 individuals were
measured and sample wood disk were extracted at 1.3 m height level. Moisture content, density,
specific gravity, ash content, volatile matter, fixed carbon, and biomass/ash ratio were measured
using standard methods. Certain characteristics including moisture content, density, specific
gravity, and ash content showed no significant difference at 0.05 level among three DBH classes.
Volatile matter of DBH class (iii) is significantly higher among other DBH classes. Fixed carbon
content is significantly lower than other two types of DBH classes. When compared the Xylopia
parviflora with Hevea brasiliensis which is a commonly used fuel wood species in biomass
boilers in industry, moisture content (31.22%), ash content (1.24%) of Xylopia parviflora is
lower than that of Hevea brasiliensis. Even though Calorific values of both species are very
close to each other Xylopia parviflora has highest calorific value of 18.92 kJ/g which is 18.74
kJ/g in Hevea brasiliensis. Fuel Value Index (FVI) of Xylopia parviflora is 3055 and while 1122
in Hevea brasiliensis. Study finding concluded that Xylopia parviflora performs better than the
Hevea brasiliensis as a fuel wood hence can be a good fuel source for biomass boilers in
industries.