efficient ethanol production from dried oil palm trunk treated by hydrothermolysis
Efficient ethanol production from dried oil palm trunk
Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis efficient ethanol conversion process without any chemical use such as acids and bases or detoxification
Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis In-Yong Eom,Ju-Hyun Yu,Chan-Duck Jung,and Kyung-Sik Hong Center for Bio-based Chemistry, Green Chemistry & Engineering Division, Korea Research Institute of Chemical Technology, 141 Gajeong-ro, Yuseong-gu, Daejeon, 305
Efficient ethanol production from dried oil palm trunk
Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis. this treatment requires high capital and operational costs, and there could be a high probability of microbial contamination during starch processing. For comparison with the proposed efficient ethanol conversion
Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis . By In-Yong Eom, Ju-Hyun Yu, Chan-Duck Jung and Kyung-Sik Hong. Cite . BibTex; Full citation; Publisher: Springer Nature. Year: 2015. DOI
Efficient ethanol production from dried oil palm trunk
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Jan 01, 2024· Oil palm (Elaeis guineensis) trunk chips were processed by steam explosion under different steam conditions, followed by alkaline extraction and fermentation to produce efficient lignocellulosic ethanol as sustainable alternative energy resource.The optimum condition of steam explosion was attained at 210 °C for 4 min (α-cellulose: 58.83% and lignin: 27.12%).
Efficiency of blended polyhydric alcohols solution on
Efficiency of Blended Polyhydric Alcohols Solution on Liquefaction of Oil Palm Trunk (Elaeis guineensis Jacq.) Rattana Choowang, a,b Jian Lin, a, * and Guangjie Zhao a The oil palm tree is a monocotyledon, and the chemical composition varies relative to the part of its trunk.
Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis 2015/In-Yong Eom, Ju-Hyun Yu, Chan-Duck Jung, Kyung-Sik Hong Effects of bulking agents, load size or starter cultures in kitchen-waste composting
PRETREATMENT OF CELLULOSIC MATERIAL FROM OIL
Along with the growing of palm oil industry, it creates the availability of palm oil residue including oil palm trunk (OPT) waste which is considered as a great potential source of renewable energy. Oil palm trunk contains approximately 70% sugar and 30% (w/w) cellulosic residue. This indicates that OPT is a very promising material to be used
The efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis In-Yong Eom, Ju Hyun Yu, Chan-Duck Jung and Kyung-Sik Hong, Research Center for Biobased Chemistry, Korea Research Institute
The potential of oil palm trunk biomass as an alternative
“Characterization of the oil palm trunk as a material for bio-ethanol production,” Mokuzai Gakkashi 55, 346-355. Navi, P., and Girardet, F. (2000). “Effects of thermo-hydro-mechanical treatment on the structure and properties of wood,” Holzforschung 53, 287-293.
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Production of Biocrude from Biomass by Acidic Subcritical Water Followed by Alkaline Supercritical Water Two-Step Liquefaction. An efficient path forward for bioethanol production from bamboo. Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis.
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PDF Oil palm (Elaeis guineensis) trunk chips were processed by steam explosion under different steam conditions, followed by alkaline extraction and Find, read and cite all the research you
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A simple and cost-effective biochemical conversion process consisting of hydrothermal treatment, enzymatic hydrolysis and fermentation of pretreated whole slurry (PWS) was developed for producing l-lactic acid (L-LA) from oil palm trunk (OPT).When OPT was hydrothermally treated at optimal condition capable of achieving maximum yield of hemicellulosic sugars after enzymatic
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For efficient ethanol production, the trunk of oil palm needed to be separated into the PT and the VBs (Prawitwong et al., 2012). The distribution of VBs and PT in the trunk varies in both the
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production from dried oil palm trunk treated by hydrothermolysis and . Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and
Get PriceEfficiency of blended polyhydric alcohols solution on
Efficiency of Blended Polyhydric Alcohols Solution on Liquefaction of Oil Palm Trunk (Elaeis guineensis Jacq.) Rattana Choowang, a,b Jian Lin, a, * and Guangjie Zhao a The oil palm tree is a monocotyledon, and the chemical composition varies relative to the part of its trunk.
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Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis 2015/In-Yong Eom, Ju-Hyun Yu, Chan-Duck Jung, Kyung-Sik Hong Effects of bulking agents, load size or starter cultures in kitchen-waste composting
Get PriceHydrothermal Pretreatment of Switchgrass Industrial
Production of Biocrude from Biomass by Acidic Subcritical Water Followed by Alkaline Supercritical Water Two-Step Liquefaction. An efficient path forward for bioethanol production from bamboo. Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis.
Get PriceThe potential of oil palm trunk biomass as an alternative
“Characterization of the oil palm trunk as a material for bio-ethanol production,” Mokuzai Gakkashi 55, 346-355. Navi, P., and Girardet, F. (2000). “Effects of thermo-hydro-mechanical treatment on the structure and properties of wood,” Holzforschung 53, 287-293.
Get PricePRETREATMENT OF CELLULOSIC MATERIAL FROM OIL
Along with the growing of palm oil industry, it creates the availability of palm oil residue including oil palm trunk (OPT) waste which is considered as a great potential source of renewable energy. Oil palm trunk contains approximately 70% sugar and 30% (w/w) cellulosic residue. This indicates that OPT is a very promising material to be used
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products such as organic acids, bio-ethanol and so on. The present study has chosen oil palm trunk (OPT) biomass as the substrate candidate. This is due to limited research data that focused on oil palm trunk studies compared to other parts of oil palm such as oil palm frond, oil palm empty fruit bunch and palm kernel shell. [8]. In order to
Get PriceProduction of glucose from oil palm trunk and
The oil palm trunk (monocotyledon) resulted with a higher glucose yield compared to the rubberwood and mixed hardwood sawdust (dicotyledon). Using the same amount of 1 kg for each feedstock, oil palm trunk produced slightly higher of glucose (390 g) compared to rubberwood and mixed hardwood with the glucose yield of 375 g and 370 g, respectively.
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Palm oil has made impressive and sustained 2.3.2 Preparation of Dinitrosalicylic Acid (DNS) Calorimetric growth in the global market over the past four decades, and it is Reagent projected in the period 2016 2024, the average annual production of palm oil in Malaysia will reach 15.4 million There are two reagents prepared in order to carry
Get PriceOil Palm (Elaeis guineensis) Trunk as a Resource of Starch
This is the key difference between oil palm and non-monocotyledon species wood. Bakar et al. (2006) reported that the amount of available oil palm wood is estimated on 10.8 11.6 million m 3. Therefore, oil palm trunk seems to be a bioresource which can be entirely
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2. Oil palm industry. Traditionally the oil palm (Elaeis guineensis) was grown in semi-wild groves in tropical Africa. It was first introduced to Malaysia for planting in the Botanical Gardens in Singapore in 1870 [].Germination takes around 3 months, after which the seedlings are planted in small plastic bags where they are left in a so-called pre-nursery for several months.
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Eshtiaghi, 2010), sugarcane bagasse (Wong, & Sanggari, 2014), oil palm residue, and corn germ stover (Banerjee et al., 2012). Palm residue is the agro-industrial waste of the palm oil industry. Such waste is a renewable resource for the production of bioethanol. In the global market, Thailand is among the top three producers of oil palm.
Get PricePRETREATMENT OF CELLULOSIC MATERIAL FROM OIL
Along with the growing of palm oil industry, it creates the availability of palm oil residue including oil palm trunk (OPT) waste which is considered as a great potential source of renewable energy. Oil palm trunk contains approximately 70% sugar and 30% (w/w) cellulosic residue. This indicates that OPT is a very promising material to be used
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