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Acacias were established and found that the Acacia auriculiformis Acacia mangium and
Acacia hybrid were promising species in respect to survival and growth performance in
Bangladesh. Therefore, these three species were introduced in the social forestry program in
Bangladesh. Variation of anatomical, morphological and chemical characteristics with annual
growth ring from first and second generation Acacia auriculiformis were investigated. The
fiber length and wall thickness increased and proportion of ray cells decreased with
increasing annual growth ring. First generation Acacia auriculiformis had higher proportion
of fibre, longer fiber length than second generation Acacia auriculiformis. The average
percentage of fibres, vessels and rays were 77.56%, 15.14% and 7.31% for first generation
Acacia auriculiformis and 77.19%, 15.64% and 7.16%, for second generation Acacia
auriculiformis, respectively. The holocellolose, α-cellulose and pentosan content increased
and lignin and extractives content decreased with increasing annual growth ring.
Hollocellolose, α-cellulose, pentosan and lignin content in first generation Acacia
auriculiformis were higher than second generation Acacia auriculiformis.
The physical, chemical and fibre characteristics of 6, 8 and 10 years old Acacia
auriculiformis wood from second generation seed and their suitability for pulping were
assessed and compared with the wood of 10 years old from first generation seed. Acacia
auriculiformis of 8 years old had the highest α-cellulose and lower lignin than 6 and 10 years
old, which are similar to first generation wood. This study also evaluated the effect of
cooking time, temperature and active alkali on Kraft pulping. The most influence factors for
pulp yield and kappa number were active alkali charge and time. The highest screened rejects
were observed for young tree. Delignification degree of first generation was faster than
second generation Acacia auriculiformis.
In this study, the chemical, physical and morphological characteristics of plantation Acacia
hybrid and Acacia mangium wood grown in Bangladesh were assessed for their suitability in
papermaking. The α-cellulose content in Acacia hybrid was 45.5%, which was 1.3% lower
than Acacia mangium and 2.1% higher than Acacia auriculiformis. Kraft pulping of AcaciaAbstract
III
Department of Applied Chemistry and Chemical Engineering, University of Dhaka and BCSIR, Dhaka
hybrid was carried out with varying active alkali charge and cooking time. Acacia hybrid
required drastic chemical charge to cook properly. At the cooking conditions of 18% active
alkali charge in 120 min of cooking, kappa number reached to 27.6 with pulp yield of 45.9%
and no reject. But pulp yield was quite high as compared to Acacia auriculiformis and Acacia
mangium. Both Acacia hybrid and Acacia auriculiformis pulps showed almost similar
papermaking properties. But the maximum tear index of Acacia hybrid was at a tensile index
of 76.3 N.m/g while it for 61.9 N.m/g for Acacia auriculiformis and 57.2 N.m/g for Acacia
mangium. At these peak levels tear index values are almost similar (10 mN.m2/g) for Acacia
auriculiformis and Acacia hybrid. In respect to pulp yield and papermaking properties,
Acacia auriculiformis produced the better pulpwood than Acacia mangium. Laboratory and
semi-pilot scale pulping of A. auriculiformis were also assessed and compared with Acacia
hybrid and A. mangium grown in the same forest. Higher pulp yield and lower kappa number
than the laboratory scale cooked were showed by 8 years Acacia auriculiformis and A.
mangium and pulp yield and kappa number lower for Acacia hybrid.
Kraft pulps from Acacia hybrid, Acacia mangium of 8 years old and Acacia auriculiformis of
6, 8 and 10 years old were pre-treated with oxygen, peroxyformic acid and acid treatment
prior to bleaching. The kappa number reduction was 52-63% by oxygen delignification, 31-
35% by peroxyformic acid (PFA) pre-treatment and 11-13% by acid pre-treatment. Oxygen
delignified pulp required less chlorine dioxide charge to reach target brightness. At the
consumption of 30 kg ClO2/ton of pulp, the pulp brightness reached to 65-71% for the
untreated pulp, 81-85% for the oxygen delignified pulp, 81-82% for the PFA treatment and
79- 80% for acid pre-treated pulp. COD load in bleached effluent was much lower in oxygen
delignified pulp. Cold alkali extraction of unbleached and oxygen delignified pulps was also
carried out with varying alkali charge to remove hexenuronic acid (HexA) from the pulp.
Xylan removal from the pulp was insignificant and resulted in no removal of HexA. Acid
pretreatment removed 55.7% to 17.8% HexA from Acacia hybrid, 57.5% to 16.3% from
Acacia auriculiformis of 10 years and 58.6% to 20.1% from Acacia auriculiformis of 6 years
old, resulting in improved final pulp brightness. |
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