an overview of ops from oil palm industry as feedstock for bio-oil production

An overview of OPS from oil palm industry as feedstock

These biomass wastes possess a great energy potential to be converted into biofuels, particularly bio-oil. Among all, the OPS have favorable physicochemical characteristics to be converted into bio-oil. Therefore, this paper mainly focuses to review the suitability of OPS as feedstock for bio-oil production compared to other oil palm biomasses.

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Biomass Conversion and Biorefinery | Volume 9, issue 4

An overview of OPS from oil palm industry as feedstock for bio-oil production Authors (first, second and last of 6) Sundus Saeed Qureshi; Sabzoi Nizamuddin; G. J. Griffin; Content type: Review Article; Published: 07 February 2019; Pages: 827 – 841

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Upgrading of Oil Palm Biomass to Value-Added Products

An overview of OPS from oil palm industry as feedstock for bio-oil production this paper mainly focuses to review the suitability of OPS as feedstock for bio-oil production compared to other

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Sustainable oil palm industry: The possibilities – ScienceDirect

However, the oil palm industry is a million-dollar industry that ensures food security (oil and fat). There is increasing demand for palm oil due to population growth and for use as a biofuel feedstock. Significant higher production per hectare in comparison to other oil crops is the main advantage of oil palm.

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An overview of the oil palm industry in Malaysia and its

The bio-oil from PKS and oil palm fibers pyrolysis contains carboxylic acids, aldehyde, phenols and ketone. • The green material of microwave absorber reduces the power input thus make the microwave-induced pyrolysis is an energy efficient bio-oil production. Abnisa et al.

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‪MTH Siddiqui‬ – ‪Google Scholar‬

An overview of OPS from oil palm industry as feedstock for bio-oil production SS Qureshi, S Nizamuddin, HA Baloch, MTH Siddiqui, NM Mubarak, Biomass Conversion and Biorefinery, 1-15 , 2019

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Biochar from oil palm biomass: A review of its potential

With the rapid growth of palm oil production, the palm oil industry is increasingly dealing with the sustainability of the production stream to ensure a viable future for the whole industry. The industry needs to show continuous efforts in creating zero waste operations by utilizing its by-products for continuous sustainable growth.

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(PDF) Biochar from oil palm biomass: A review of its

Slow pyrolysis yields relatively bio-oil and energy production. For example, a collaboration more biochar but less bio-oil with about 35% of the feedstock between Genting Sanyen Bhd. and Biomass Technology Group carbon ending up as biochar, 30% as bio-oil and 35% as syngas [68].

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Biomass Wastes from Palm Oil Mills | BioEnergy Consult

Biomass Wastes from Palm Oil Mills. The Palm Oil industry generates large quantity of wastes whose disposal is a challenging task. In the Palm Oil mill, fresh fruit bunches are sterilized after which the oil fruits can be removed from the branches. The empty fruit bunches (are left as residues, and the fruits are pressed in oil mills.

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An Overview of Fast Pyrolysis – Progress in Thermochemical

An Overview of Fast Pyrolysis. AV Bridgwater. Bio‐Energy Research Group, Aston Universip, Birmingham B4 7ET, UK. Search for more papers by this author. S Czernik. NREL, 1617 Cole Boulevard, Golden, Colorado 80401, USA. Search for more papers by this author. J Piskorz. RTI Ltd, 110 Bafin Place, Unit 5, Waterloo, Ontario, N2V 127, Canada.

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Steam Biomass Gasification – an overview | ScienceDirect Topics

Steam biomass gasification has been receiving a lot of attentions as a green process to produce hydrogen rich fuels. In this process, biomass is converted into product gas, which consists of mainly H2, CO, CH 4, and other combustible gases, at elevated temperatures and under presence of air and steam as oxidizing agents.

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Optimizing Yield and Quality of Bio-Oil: A Comparative Study

Meanwhile, the acacia bio-oil‘s HHV values also compare well to HFO, though the SG is about 1.2 times more, tallying with the average value of bio-oil density (1200 kg/m 3) provided by . This means that the acacia heavy bio-oil at ES01 of 140 °C has 92% of the energy content in HFO on a weight basis, but has 113% on a volumetric basis.

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Effect of acid catalysts on hydrothermal carbonization

An overview of OPS from oil palm industry as feedstock for bio-oil production. 2019: p. 1–15. 20. Nizamuddin S (2018) et al, Advanced nanomaterials synthesis from pyrolysis and hydrothermal carbonization: a review. 22(5):446–461

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Investigation of physicochemical properties of oil palm

The objective of this work is to evaluate the potential of oil palm biomass (OPB) in terms of physicochemical properties for producing biofuels via pyrolysis processes. The OPB included oil palm trunk (OPT), oil palm fronds (OPF), oil palm shell (OPS), oil palm roots (OPR), oil palm decanter cake (OPDC), empty fruit bunches (EFB), oil palm fiber (OPFB), and oil palm sewage sludge (OPSS). Their

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Supply chain analysis, delivered cost, and life cycle

The oil palm seedling operations, oil palm tree plantation establishment and maintenance, transportation of the FFB and palm oil extraction activities were not included in the cost calculation of the delivered EFB since those costs are either accounted for in the purchase price or are allocated to the palm oil and not the waste EFB stream.

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Rice Husk and Its Pretreatments for Bio-oil Production via

Rice husk is a prospective bio-oil feedstock due to its plentiful supply, but its unfavorable characteristics like high moisture content, high ash content, and low energy density tend to jeopardize both the yield and quality of bio-oil produced by fast pyrolysis. Lately, various pretreatments, namely, washing, torrefaction (dry and wet), and their combined pretreatments, have been researched

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Catalytic co-liquefaction of sugarcane bagasse

An overview of empty fruit bunch from oil palm as feedstock for bio-oil production Biomass Bioenergy , 62 ( 2014 ) , pp. 174 – 181 Article Download PDF View Record in Scopus Google Scholar

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Hydrofaction™ Oil: A

• No need to dry feedstock – Hydrofaction™ processes wet feedstock, resulting in reduced energy consumption. • Petro-equivalency –Upgraded Hydrofaction™ Oil compatible with fossil-oil infrastructure. • High thermal efficiency –thermal efficiency (80 – 90%) superior to other bio-energy systems.

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Yield Optimization and Scaling of Fluidized Beds for Tar

A numerical study is performed in order to evaluate the performance and optimal operating conditions of fluidized bed pyrolysis reactors used for condensable tar production from biomass. For this purpose, a previously validated biomass particle pyrolysis model is coupled with a detailed hydrodynamic model for the binary gas particle mixture. The kinetics scheme is based on superimposed

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Lignin Ethanol Oil (LEO) – Advanced BioFuels USA

Biofuels Production and Consumption in Denmark: Status, Advances and Challenges by Sune Tjalfe Thomsen and Henning Jørgensen (IEA Bioenergy Task 39 Newsletter) 1. Status of transportation biofuel industry in Denmark — In Denmark, a considerable part of the total energy

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Expertise for export | The Star

Malaysia is not only exporting palm oil, but also all the expertise that goes into processing and refining the oil.

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