Your search keyword '"sengon"' showing total 4 results

1. Dimensional Stability of Treated Sengon Wood by Nano-Silica of Betung Bamboo Leaves

Author

Istie Rahayu, Fitria Cita Dirna, Akhiruddin Maddu, Wayan Darmawan, Dodi Nandika, and Esti Prihatini

Subjects

betung bamboo, dimensional stability, impregnation, MEG, nano-silica, sengon, Plant ecology, QK900-989

Abstract

Sengon (Falcataria moluccana Miq.) is one of the fastest growing wood that is broadly planted in Indonesia. Sengon wood has inferior wood properties, such as a low density and dimensional stability. Therefore, sengon wood requires a method to improve its wood quality through wood modification. One type of wood modification is wood impregnation. On the other hand, Betung Bamboo leaves are considered as waste. Betung Bamboo leaves contain silica. Based on several researches, nano-SiO2 could improve fast-growing wood qualities. According to its perfect solubility in water, monoethylene glycol (MEG) is used in the study. The objectives are to evaluate the impregnation treatment (MEG and nano-silica originated from betung bamboo leaves) in regard to the dimensional stability and density of 5-year-old sengon wood and to characterize the treated sengon wood. MEG, MNano-Silica 0.5%, MNano-Silica 0.75%, and MNano-Silica 1% were used as impregnation solutions. The impregnation method was started with 0.5 bar of vacuum for 60 min, followed by 2.5 bar of pressure for 120 min. The dimensional stability, density, and characterization of the samples were studied through the use of scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy, X-ray diffraction (XRD), and Fourier transform infrared spectroscopy (FTIR). The results show that the treatment had a significant effect on the dimensional stability and density of sengon wood. Alterations in the morphology of treated sengon wood were observed through the full coverage of the pits on the vessel walls (SEM analysis results) and the detection of ethylene (FTIR analysis results) and silica (XRD and FTIR analysis results). Overall, the 0.75% MNano-Silica treatment was the most optimal treatment for increasing the dimensional stability and density of 5-year-old sengon wood.

Published

2021

2. Valorization of Indonesian Wood Wastes through Pyrolysis: A Review

Author

Agus Haryanto, Wahyu Hidayat, Udin Hasanudin, Dewi Agustina Iryani, Sangdo Kim, Sihyun Lee, and Jiho Yoo

Subjects

biochar, renewable energy, pyrolysis, sengon, meranti, rubberwood, Technology

Abstract

The wood processing industry produces a significant amount of wood waste. Biomass valorization through pyrolysis has the potential to increase the added value of wood wastes. Pyrolysis is an important thermochemical process that can produce solid, liquid, and gas products. This paper aims to review the pyrolysis of wood wastes from Indonesia, including teak wood (Tectona grandis), meranti (Shorea sp.), sengon (Paraserianthes falcataria (L) Nielsen), and rubberwood (Hevea brasiliensis). The review is based on an in-depth study of reliable literatures, statistical data from government agencies, and direct field observations. The results showed that pyrolysis could be a suitable process to increase the added value of wood waste. Currently, slow pyrolysis is the most feasible for Indonesia, with the main product of charcoal. The efficiency of the slow pyrolysis process can be increased by harvesting also liquid and gaseous products. The use of the main product of pyrolysis in the form of charcoal needs to be developed and diversified. Charcoal is not only used for fuel purposes but also as a potential soil improvement agent.

Published

2021

3. Valorization of Indonesian Wood Wastes through Pyrolysis: A Review

Author

Wahyu Hidayat, Jiho Yoo, Dewi Agustina Iryani, Udin Hasanudin, Sangdo Kim, Agus Haryanto, and Sihyun Lee

Subjects

Control and Optimization, rubberwood, 020209 energy, Energy Engineering and Power Technology, Biomass, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, lcsh:Technology, Wood processing, Biochar, 0202 electrical engineering, electronic engineering, information engineering, biochar, Electrical and Electronic Engineering, Rubberwood, Charcoal, Engineering (miscellaneous), 0105 earth and related environmental sciences, biology, Renewable Energy, Sustainability and the Environment, business.industry, sengon, lcsh:T, Building and Construction, Pulp and paper industry, biology.organism_classification, pyrolysis, renewable energy, Renewable energy, Tectona, meranti, visual_art, visual_art.visual_art_medium, Environmental science, business, Pyrolysis, Energy (miscellaneous)

Abstract

The wood processing industry produces a significant amount of wood waste. Biomass valorization through pyrolysis has the potential to increase the added value of wood wastes. Pyrolysis is an important thermochemical process that can produce solid, liquid, and gas products. This paper aims to review the pyrolysis of wood wastes from Indonesia, including teak wood (Tectona grandis), meranti (Shorea sp.), sengon (Paraserianthes falcataria (L) Nielsen), and rubberwood (Hevea brasiliensis). The review is based on an in-depth study of reliable literatures, statistical data from government agencies, and direct field observations. The results showed that pyrolysis could be a suitable process to increase the added value of wood waste. Currently, slow pyrolysis is the most feasible for Indonesia, with the main product of charcoal. The efficiency of the slow pyrolysis process can be increased by harvesting also liquid and gaseous products. The use of the main product of pyrolysis in the form of charcoal needs to be developed and diversified. Charcoal is not only used for fuel purposes but also as a potential soil improvement agent.

Published

2021

4. Assessment on the Suitability of Planting Non-Native Peatlands Species Falcataria moluccana (Miq.) Barneby & Grimes in Rewetted Peatlands

Author

Mawazin, Hesti Lestari Tata, Sonya Dewi, Endri Martini, and Hani Sitti Nuroniah

Subjects

Peat, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Falcataria moluccana, TJ807-830, rewetted, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, GE1-350, Soil treatment, Site suitability, 0105 earth and related environmental sciences, species suitability, Environmental effects of industries and plants, biology, sengon, Renewable Energy, Sustainability and the Environment, Sowing, Forestry, 04 agricultural and veterinary sciences, Building and Construction, biology.organism_classification, Environmental sciences, Seedling, Soil water, peat, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science

Abstract

Sengon (Falcataria moluccana), a fast-growing timber tree that naturally grows on mineral soils, is currently promoted in peatlands. This study aimed to (1) experimentally test the response of sengon seedlings in waterlogged conditions in the nursery; (2) describe and analyze the biophysical condition of a sengon plantation and its growth; (3) describe sengon farm practices on peatlands; and (4) identify key actor’s perception on planting sengon on peatlands. This study combined an experiment in nursery, field measurements, and key-informant interviews. The nursery experiment showed that peat soil affected seedling’s growth: survival rates decreased by 25–33% after 3 months of inundation. Sengon growth at age 1–5-years-old in peat soil was slower than that on mineral soils. Sengon growth in peatland was influenced by peat depth and peat maturity. Sengon plantation in Central Kalimantan was driven by market availability and industrial wood demand. Fourty-three percent of respondents thought sengon does not grow well in peat soils, but 57% of respondents thought that additional soil treatment will enhance site suitability. Based on key-informants’ experience, 64% disagree with sengon development in peatlands. Our study provides evidence that sengon is predominantly not suitable to be planted on peatlands. Therefore, cautions need to be taken when planting sengon on peatland areas.

Published

2021