Potensi Tiga Jenis Kayu Tanah Gambut Sumatera sebagai Bahan Baku Pulp dan Kertas (The Potential of Three Peat Land Woods of Sumatera as Pulp and Paper Raw Material)

The growth of pulp and paper industries has encouraged the expansion of the industrial plantation forests for pulp wood. The exotic species planted for pulp wood initially maintained a relatively high productivity, however it decreases in the following rotation cycles. The peat land wood species of Sumatera could be an alternative for exotic species. However, the insufficient information on the wood properties has brought about they are less considered. This paper examined the fiber quality of Sumatran local peat-wood and its possibility as a raw material of pulp and paper. For specific gravity, samples were selected based on three different diameter groups in each plot. Fiber properties (dimension and fiber derivative values) used to asses the suitability of the wood for pulp and paper raw material were determined in accordance with the method of the Forest Product Laboratory (FPL). The resulted data and information were compared to those of krasikarpa (Acacia crassicarpa Benth.). The results showed that the fiber quality of sekubung wood was classified into grade II, while gerunggang and mahang putih were classified into grade III. The specific gravity of gerunggang wood was higher than these of other woods and comparable to that of krasikarpa. Although the growth of Sumatran local peat-wood is still low, however, conformity with government regulations (Government Regulation Number 57-2016 and Ministry of Environment and Forestry Regulation Number 17-2017) and fiber quality, the local peat-wood could potentially substitute the exotic wood species.

Process and Environmental Benefit of Recycling of Waste Papers

Paper is a fundamental part of most aspects of society; worldwide a total of approximately three hundred million tons of paper are produced each day and approximately 90% of this paper is produced from mature pulp wood. In addition, the demand of paper is expected to increase. Today the finest of paper are produced all over the world. But one dismaying fact is that millions of trees are fell in a day to make paper. Increase demands of paper production and limited wood resources have directed researchers to look for appropriate additional resources of non-wood material (waste papers) for pulp and paper manufacturing. Setting up of handmade paper unit has the capability of recycling waste paper and cotton rags into fine quality handmade paper. Not only does this initiative conserve environmental resources but also helps in providing employment to pupil from the unskilled and marginalized strata of society.

Comparative studies of fibres of woody species selected in relation to their paper-making potentials

The wood fibre used by the paper industry originates primarily from forests. Apart from Gmelina arborea, there are other fast-growing plant species whose fibre characteristics are yet unknown. In order to relieve the pressure and demand on G. arborea, this work was aimed at characterizing and comparing the fibres of four tree species (Parkia biglobosa, Arzadirachta indica, Alstonia boonei and Cassia siamea) to G. arborea, with the intention of elucidating their suitability for the pulp and paper industry. The trunk wood samples used in this study were collected from the Botanical Garden of the University of Nigeria, Nsukka, while the study was conducted in the Plant Anatomy Laboratory in the Department of Plant Science and Biotechnology, University of Nigeria, Nsukka, Enugu State-Nigeria. The results showed that the mean fibre length ranged from 1.00 mm in P. biglobosa to 1.70 mm in A. boonei. The fibre lengths of G. arborea and A. booneidid do not vary significantly (P < 0.05). The Runkel ratio ranged from 0.624 to 3.227 across the species with G. arborea and A. boonei recording the lowest values. Conclusively, A. boonei is another pulp wood with good paper-making potential that could substitute the already known G. arborea.

Suitability of eight years kadam tree (Neolamarckia cadamba) in chemical pulping

Kadam is a fast growing tree species in Bangladesh. The main aim of this study is to observe the influence of tree age of kadam on chemical pulping. In this research 8, 18 and 30 years old kadam wood were pulped under different active alkali of 16, 18 and 19 % maintaining 25 % sulphidity and its effect on chemical composition, kappa number, pulp yield and delignification was investigated. The result shows that the content of extractive, lignin, alpha-cellulose and hemicellulose increase to different content along with the increase of tree age. There are also some differences of pulping properties with different tree age. Pulp yield of 8 years old kadam is higher than other ages of kadam trees. The hand sheets were made and the physical strength properties likely tear, tensile and burst were evaluated at two freeness level. The pulps produced from 8 year kadam tree obsessed reasonable strength properties. These could be used for producing moderate quality writing, printing and wrapping papers. Pulp wood of 8 years kadam is more suitable for pulping, compared to that 18 and 30 years.

Progress on genetic modifications of pulp wood tree species relevance to India -A review

The major tree species grown for pulp and paper industry in India are eucalypts, poplars, casuarinas, subabul and acacias. There is a growing demand for pulp and paper products with minimum adverse effect on natural forest and environment. Genetic transformation in these pulp woods are aimed at enhancing growth, wood characteristics and stress tolerance. However, genetic transformation of trees is a time consuming process because of long life cycle, recent domestication status and recalcitrance to <italic>in vitro</italic> procedures. Though various instances of incorporating desired trait by transformations in trees have been reported, the effect of genetically modified trees on surrounding ecosystems need further studies. Efforts towards making transgenic trees should take in to consideration of alleviation of public concerns on pollen dispersal, contamination of wild germplasm and biosafety.

Possibility of Using Wood Pulp in the Preparation of Cement Composites

Sustainable building materials are based on the use of renewable materials instead of non-renewable. Large group of renewable materials composes of plant fibres having high tensile strength are used as fillers into building material with reinforcement function of composite. This study aimed to establish the mechanical and physical properties of cement composites with organic fillers, such as wood pulp. Wood pulp cellulose is very interesting material as reinforcement in cement which contributes to a reduction of pollutants. Varying the producing technology (wood pulp and cement ratio in mixture) it is possible to obtain composites with density from 940 to 1260 kgm-3 and with compressive strength from 1.02 to 5.44 MPa after 28 days of hardening. Based on the experimental results, cement composites with using unbleached wood pulp reach higher values than composites based on bleached wood pulp. Volume ratio of unbleached wood pulp in composites influences water absorbability of cement composites