Results and discussion1) Exploratio

Results and discussion
1) Exploration, physical properties and
thermal values
(1) Palmyra palm fruit is only borne by
10-15 year-old female trees. Fruits are borne
on spathes; a single swathe typically produces
a cluster of inflorescences. Every year, 10-15
such clusters are produced. Generally, one
cluster has 13 palm inflorescences, each
yielding 1-29 young palm fruits. Each fruit
contains 2-4 seeds. The cultivated areas at
Wat Lai Temple, Kirimat district, Sukhothai
province include approximately 1,500 female
Palmyra palms. When ripe, each fruit weighs
1-3 kg, and contains 5% of brown to black
husk, 5% calyx, 25% fiber, 25% flesh, and
40% of seed by weight. During May to July,
from 2,000-3,000 ripe fruits fall from the trees
weekly. Accordingly, over 1 million shells are
deposited in the area every year.
(2) During the months of February to May,
young fruits are produced and can be harvested






Analysis of charcoal briquette efficiency
Cost of production
Procedures of compressed charcoal
briquettes from Palmyra palm husks, fruit
stems and calyx, and shells production
Drying husks, fruit stems and calyx, and shells
Carbonizing the materials
Crushing the carbonized materials in the
grinding machine
Mixing the charcoal powder with the binding
agent (starch flour and water)
Compressing the powder into briquettes in
the compressing machine
Leaving the briquettes to dry
Literature review
Proper ratios of components
Instruments and components of
compressed charcoal briquettes
Literature review
Proper ratios of components
Instruments and components of
compressed charcoal briquettes
34 App. Envi. Res. 36 (3): 29-38
2½ – 3 months after inflorescence. Each fruit
contains three seed sockets. One palm plant
produces an average of 10-13 bunches every
year. Each bunch yields 5–20 fruits, depending
on the flowering and fruit setting season. A
bunch of young fruits contains 60% fruit and
40% fruit stem and calyx. One fruit contains only
10% of edible seeds(Figure 5) and generates up
to 90% waste in the form of leftover stem, calyx
and husks. According to the exploration, there are
about 6,500 female-bearing palm trees in Ban
Thung Laung, Ban Ta Pang Ma Plup, and Ban
Ta Not in Kirimat district, Sukhothai province. It
can be seen that there are approximately 60,000 –
80,000 bunches of palm fruits and 600,000–
800,000 fruits every year.
(3) In terms of physical properties and
thermal value based on ASTM (American
Society for Testing and Material), it was found
that palm shells contain an average 1.37%
ash content, 16.80% moisture, 77.28% volatile
matter, and 21.35% fixed carbon, and had a
thermal value of 4,400 kcal/kg. On the other
hand, young fruit stems and calyx contained
2.23% ash content, 21.70% moisture, 76.76%
volatile matter and 21.01% fixed carbon, and
had a thermal value of 4,500 kcal/kg
2) Compressed charcoal briquettes
The study showed that charcoal briquettes
from husks, fruit stems and calyx (Table 2)
contained 5.70% moisture, 6.41 % ash, 21.91%
of volatile matter and 71.07% fixed carbon,
with a thermal value of 7,300 kcal/kg, whereas
charcoals from the shells contained 5.56%
moisture, 4.90% ash, 15.47% volatile matter
and 78.56% fixed carbon, with a thermal value
of 7,500 kcal/kg. The physical properties and
thermal value of both materials exceeded the
requirements of the Thai Community Product
Standard, which stipulates that any compressed
charcoal briquettes must contain no more
than 8% moisture, and possess a thermal
value no less than 5,000 cal/g.
According to the test of briquette properties
(Table 3), all 6 ratios of the briquettes from
husk – fruit calyx and shell mixed with starch
paste showed a higher thermal value than that
of Thai Community Product Standard (tcps
238/2004). However, the thermal value varied
from 5,281 to 6,702kcal/kg., depending on the
amount of shell charcoal used. As seen from
Table 3, ratio 2 using 100% of palm shells resulted
in the highest thermal value (6,702 kcal/kg),
whilst the ratio 1 with 100% of husks and fruit
calyx charcoals showed the lowest thermal value
of 5,281kcal/kg
Compared to coconut shell charcoal mixed
with cassava root with thermal values ranging
from 4,514.13–6,588.09 kcal/kg [9], and compared
to typical wood charcoals with thermal values
of 6,730 kcal/kg [10], the studied compressed
briquettes with thermal value of 5,281–6,702
kcal/kg had a relatively similar thermal value
to wood charcoals. Due to its high fixed carbon
content, palm shells allows the compressed
charcoals to achieve a high thermal value.
Regarding moisture, there were no significant
difference among the 6 ratios, with values
ranging from 8.04-11.96%. However, compared
with firewood with 8.0% moisture and typical
wood charcoals with 9.4 % moisture, the compressed
charcoal briquettes contained higher moisture
levels. To meet the requirements of the standard,
a longer period of sun