utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production
Utilization of palm oil sludge through pyrolysis for bio
Request PDF On Sep 22, 2014, Suchithra Thangalazhy-Gopakumar and others published Utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production Find, read and cite all
Request PDF Utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production In this study, pyrolysis technique was utilized for converting palm oil sludge to value added
Utilization of palm oil sludge through pyrolysis
In this study, pyrolysis technique was utilized for converting palm oil sludge to value added materials: bio-oil (liquid fuel) and bio-char (soil amendment). The bio-oil yield obtained was 27.4 +/- 1.7 wt.% having a heating value of 22.2 +/- 3.7
In this study, pyrolysis technique was utilized for converting palm oil sludge to value added materials: bio-oil (liquid fuel) and bio-char (soil amendment). The bio-oil yield obtained was 27.4 +/- 1.7 wt. having a heating value of 22.2 +/- 3.7 MJ/kg and a negligible ash content of 0.23 +/- 0.01 wt.. The pH of bio-oil was in alkaline region.
PREPARATION OF BIOCHAR WITH PALM OIL MILL SLUDGE BY
This study aims to prepare the bio-char from residues of palm oil mill sludge (POMS) after anaerobic digestion system through microwave pyrolysis method to remove copper. The two main parameters i.e. temperature, and holding time for the bio-char production were investigated to produce the bio-char. Results obtained were
Abstract Pyrolysis of palm oil is one of the most potential methods to obtain bio-oil. In this study, pyrolysis of palm oil was carried out by using zeolites as a catalyst. The use of HCl and NaOH as activating agents of the zeolites prior to its use in the pyrolysis process was investigated. The result showed that a 1 M concentration of either HCl or NaOH gave an optimum result when the
Utilization of palm oil sludge through pyrolysis CORE
In this study, pyrolysis technique was utilized for converting palm oil sludge to value added materials: bio-oil (liquid fuel) and bio-char (soil amendment). The bio-oil yield obtained was 27.4 +/- 1.7 wt. having a heating value of 22.2 +/- 3.7 MJ/kg and a negligible ash content of 0.23 +/- 0.01 wt.. The pH of bio-oil was in alkaline region.
This study aims to prepare the bio-char from residues of palm oil mill sludge (POMS) after anaerobic digestion system through microwave pyrolysis method to remove copper. The two main parameters i.e. temperature, and holding time for the bio-char production were investigated to produce the bio-char. Results obtained were
Evaluation of Oil Palm Biomass Potential for Bio-oil
to evaluate the potentiality of oil palm biomass, including oil palm trunk (OPT), oil palm fronds (OPF), oil palm decanter (DC), and oil palm root (OPR) for producing bio-oil via pyrolysis processes. The potentiality of oil palm biomass was considered in terms of proximate analysis, ultimate analysis, higher heating value, potential use as
Utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production. Bioresource Technology, 178: 65 69. 39. Jing-Biao, Y. and Ning-Sheng, C. (2006). A TG-FTIR study on catalytic pyrolysis of coal. Journal of Fuel Chemistry and Technology, 34(6): 650 654.
Thermoliquefaction of palm oil fiber (Elaeis sp.) using
Jan 16, 2024· Utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production. Thangalazhy-Gopakumar S, Al-Nadheri WMA, Jegarajan D, Sahu JN, Mubarak NM, Nizamuddin S. Bioresour Technol, 178:65-69, 22 Sep 2014 Cited by 9 articles PMID: 25278112
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Potential Application of Oil Palm Wastes Charcoal
3.5. Pyrolysis products yield. The biochar, bio-oil and gas yields obtained from the pyrolysis of oil palm wastes at a temperature of 400°C, a heating rate of 10°C min −1 and for 120 min holding time are shown in Figure 9 for EFB, MF, and PKS. Jahirul et al. reported that the decomposition of lignocellulosic components relies on temperature
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Structural evolution mechanisms of biochar from solid
The biomass fast pyrolysis technology is a new biomass energy utilization technology that converts low energy density biomass into high energy density products (non-condensable gas, bio-oil, and biochar) (Chen et al. 2016). It is known that the non-condensable gas can be used for power generation and heating, the bio-oil can be used
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Suchithra Thangalazhy Gopakumar The University of Nottingham
Co-pyrolysis of Palm Empty Fruit Bunch and Palm Kernel Shell with Palm Oil Mill Effluent (POME) Sludge International Journal of Biomass and Renewables. 9(1), 1-9 PAU LOKE SHOW, SUCHITHRA THANGALAZHY-GOPAKUMAR and DOMINIC C Y FOO, 2024.
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A Comparative Analysis of Physical and Scientific.Net
The fundamental objectives of this study is to analyzed and compare the physical and chemical properties of pyrolysis products (biochar and bio-oil) derived from two oil palm wastes. Empty fruit bunch (EFB) and mesocarp fibre (MF) were subjected to pyrolysis at a temperature of 400 °C for 2 hours holding time at 10 °C/min heating rate and with nitrogen flow rate of 2 L/min.
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Influence of EFB-based biochar on complete removal of TSS
References. M.F. Awalludin, O. Sulaiman, R. Hashim, W.N.A.W. Nadhari, An overview of the oil palm industry in Malaysia and its waste utilization through
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PREPARATION OF BIOCHAR WITH PALM OIL MILL SLUDGE
This study aims to prepare the bio-char from residues of palm oil mill sludge (POMS) after anaerobic digestion system through microwave pyrolysis method to remove copper. The two main parameters i.e. temperature, and holding time for the bio-char production were investigated to produce the bio-char. Results obtained were
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Bio-Oil Production by Pyrolysis of Oil Palm Empty Fruit
Palm, [2]),the massive oil palm empty fruit bunch has a potential to be used in many applications such as natural fiber synthesis, and oleo-chemical [3,4]. Of particular in- terest is its use as an energy source for electricity pro- duction and bio-oil synthesis. Pyrolysis is the decomposition of biomolecules at ele-
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Mechanism of Palm Oil Waste Pyrolysis in a Packed Bed
To better understand the process mechanism, pyrolysis of palm oil wastes was investigated at different temperatures in a packed bed, with focus on the changing of chemical structure and physical characteristics of solid residues and gas-releasing properties. First, three palm oil wastes were pyrolyzed with temperature increasing from the ambient to 1000 °C, and the main products from it were
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ukm.my
Utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production. Bioresource Technology, 178: 65 69. 39. Jing-Biao, Y. and Ning-Sheng, C. (2006). A TG-FTIR study on catalytic pyrolysis of coal. Journal of Fuel Chemistry and Technology, 34(6): 650 654.
Get Price
Evaluation of Oil Palm Biomass Potential for Bio-oil
to evaluate the potentiality of oil palm biomass, including oil palm trunk (OPT), oil palm fronds (OPF), oil palm decanter (DC), and oil palm root (OPR) for producing bio-oil via pyrolysis processes. The potentiality of oil palm biomass was considered in terms of proximate analysis, ultimate analysis, higher heating value, potential use as
Get Price
MICROWAVE INDUCED PYROLYSIS OF OIL PALM FIBERS
Keywords: Fast pyrolysis, biomass, microwave heating, oil palm fibres, bio-oil. 1.0 INTRODUCTION Rapid heating methods are being developed to convert biomass waste into a value added products. One of such is the microwave heating technique whereby the microwave energy is deposited directly inside the materials which create instantaneous heat.
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Potential Application of Oil Palm Wastes Charcoal
3.5. Pyrolysis products yield. The biochar, bio-oil and gas yields obtained from the pyrolysis of oil palm wastes at a temperature of 400°C, a heating rate of 10°C min −1 and for 120 min holding time are shown in Figure 9 for EFB, MF, and PKS. Jahirul et al. reported that the decomposition of lignocellulosic components relies on temperature
Get Price
A Comparative Analysis of Physical and Scientific.Net
The fundamental objectives of this study is to analyzed and compare the physical and chemical properties of pyrolysis products (biochar and bio-oil) derived from two oil palm wastes. Empty fruit bunch (EFB) and mesocarp fibre (MF) were subjected to pyrolysis at a temperature of 400 °C for 2 hours holding time at 10 °C/min heating rate and with nitrogen flow rate of 2 L/min.
Get Price
Suchithra Thangalazhy Gopakumar The University of Nottingham
Co-pyrolysis of Palm Empty Fruit Bunch and Palm Kernel Shell with Palm Oil Mill Effluent (POME) Sludge International Journal of Biomass and Renewables. 9(1), 1-9 PAU LOKE SHOW, SUCHITHRA THANGALAZHY-GOPAKUMAR and DOMINIC C Y FOO, 2024.
Get PricePyrolysis of Oil Palm Residues in a Fixed Bed Tubular Reactor
sustainable energy production [9] [12] [13]. The objective of this paper was to carry out pyrolysis of oil palm r e-sidues to bio -oil, bio -char and syngas and characterization of the products. 2. Experiment 2.1. Materials Oil palm residues such as trunk (OPT), fronds (OPF) and
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Palm Bio-Oil Upgrading Research-Towards Effective
Biomass utilization has arouse great attention and interest in recent years as it offers a net zero carbon footprint and security of the feedstocks. Current utilization process of biomass can be classified into biochemical and thermochemical conversion process. Pyrolysis process seems to be the promising conversion process in securing chemical feedstock as pyrolysis oil can be futher upgraded
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Research article Biochar production from palm oil mill
Pyrolysis Palm oil CO 2 RSM ABSTRACT The amount of palm oil mill residues increases rapidly and will become a severe problem in the future. One potential technique for alleviating this concerning environmental problem is to convert these residues into bio-char by the pyrolysis
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Physico-chemical analysis of pyrolyzed bio-oil
The Swietenia macrophylla wood used for the study was sun dried for about 48 h, pulverized using a hammer mill and then sieved to a particle size of about 425μm using Wiley milling machine. The prepared materials were pyrolyzed in a fixed-bed pyrolysis reactor in the temperature range from 425 to 500 °C. The product yields were collected at an interval of 25 °C. The maximum yield of bio-oil
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Bio-Oil Production by Pyrolysis of Oil Palm Empty Fruit
Palm, [2]),the massive oil palm empty fruit bunch has a potential to be used in many applications such as natural fiber synthesis, and oleo-chemical [3,4]. Of particular in- terest is its use as an energy source for electricity pro- duction and bio-oil synthesis. Pyrolysis is the decomposition of biomolecules at ele-
Get Price
Pyrolysis of Oil Palm Residues in a Fixed Bed Tubular Reactor
sustainable energy production [9] [12] [13]. The objective of this paper was to carry out pyrolysis of oil palm r e-sidues to bio -oil, bio -char and syngas and characterization of the products. 2. Experiment 2.1. Materials Oil palm residues such as trunk (OPT), fronds (OPF) and
Get Price
Research article Biochar production from palm oil mill
Pyrolysis Palm oil CO 2 RSM ABSTRACT The amount of palm oil mill residues increases rapidly and will become a severe problem in the future. One potential technique for alleviating this concerning environmental problem is to convert these residues into bio-char by the pyrolysis
Get Price
Pyrolysis of torrefied oil palm wastes for better biochar
Characterization of bio-oil and bio-char from pyrolysis of palm oil wastes. BioEnergy Research, 6, 830-840. Adisak P., James O. T., Anthony, V. B. 2006. Fast pyrolysis of agricultural residues from cassava plantation for bio-oil production. 2nd Joint International Conference on Sustainable Energy and Environment. 21-23 November 2006. Bangkok
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