Relevant bibliographies by topics / Palm fiber biochar

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Academic literature on the topic 'Palm fiber biochar'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "Palm fiber biochar"

1

Ahmad, Tanveer, Sumathi Sethupathi, Jun Jie Lim, and Kantha Devi Arunachalam. "Production of Biochar using Oil Palm Fiber for Ammonia Removal: Process Description and Economic Analysis." Journal of Advanced Research in Micro and Nano Engineering 34, no. 1 (2025): 43–52. https://doi.org/10.37934/armne.34.1.4352.

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Oil palm fiber (OPF) derived biochar was feasible to be used as an adsorbent in removing pollutants from wastewater, especially ammonia. OPF had shown a significant performance in the removal of ammonia from aquaculture wastewater which is comparable to other studies and commercially available biochars. This study focuses on developing a process flow diagram for an up-scale production of OPF biochar and the economic analysis of the production plant. The process flow diagram includes the transportation, shredding, carbonization, sieving, cooling, and final storage of OPF biochar. Estimated cost
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2

Kaewtrakulchai, Napat, Masayoshi Fuji, and Apiluck Eiad-Ua. "Catalytic deoxygenation of palm oil over metal phosphides supported on palm fiber waste derived activated biochar for producing green diesel fuel." RSC Advances 12, no. 40 (2022): 26051–69. http://dx.doi.org/10.1039/d2ra03496d.

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3

Xia, Lu, Bingqin Zhao, Ting Luo, et al. "Effects of Polyacrylamide, Biochar, and Palm Fiber on Soil Erosion at the Early Stage of Vegetation Concrete Slope Construction." Sustainability 15, no. 7 (2023): 5744. http://dx.doi.org/10.3390/su15075744.

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The goal of this research is to investigate strategies to increase the erosion resistance of the slope surface during the early stages of vegetation concrete construction, as well as to offer a scientific foundation for improving vegetation concrete formulation. Simulated rainfall experiments were carried out at 2 different slope gradients (50° and 60°), 2 different rainfall intensities (60 and 120 mm·h−1), and 4 treatments (CK-no additive, 0.4% P-polyacrylamide, 4% C-biochar, and 0.4% F-palm fiber). PAM, palm fiber, and biochar significantly reduced the initial runoff time of the vegetation c
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4

Rahayu, Muji, Amalia Tetrani Sakya, Andriyana Setyawati, and Bayutama Rahmawan. "Growth of mint (Mentha spicata L.) on various biochar and liquid organic fertilizers." E3S Web of Conferences 467 (2023): 01017. http://dx.doi.org/10.1051/e3sconf/202346701017.

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Climate change has an impact on plant growth, including mint. Mint grows optimally in environments with low temperatures and high humidity. Erratic climate change has the potential to reduce mint growth. Biochar is a soil enhancer that can improve soil fertility and soil water availability. Liquid Organic Fertilizer (LOF) is able to provide the nutrients needed by plants so that it has the potential to increase mint growth. This research was conducted in August 2022 - June 2023 in the greenhouse of the Agriculture's Faculty, Sebelas Maret University, Surakarta. The study used a factorial Rando
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Mohamed, Mustakimah, and Suzana Yusup. "A review on sustainability and quality of biochar production from oil palm biomass in Malaysia using thermal conversion technology." E3S Web of Conferences 287 (2021): 04011. http://dx.doi.org/10.1051/e3sconf/202128704011.

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Oil palm empty fruit bunch (EFB), mesocarp fiber (MF), palm kernel shell (PKS), oil palm trunk (OPT) and oil palm frond (OPF) are the common solid lignocellulosic biomass generated from oil palm industries. A palm oil plantation was estimated to generate 36.5 ton of dry biomass in each hectare every year which suggesting the abundancy of these wastes. Feedstock feasibility and common properties as a carbon-rich material, have initiated an interest to utilize these biomass for biochar production. This paper provides a review on the developed thermal conversion technologies to synthesize biochar
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Samanhudi, Muji Rahayu, Amalia Tetrani Sakya, Gani Cahyo Handoyo, and Bramantyo Bagus Priambodo. "Growth and yields of some peanut varieties with application of palm fiber biochar." E3S Web of Conferences 467 (2023): 01018. http://dx.doi.org/10.1051/e3sconf/202346701018.

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Climate change negatively affects the growth of crops, including groundnuts. Groundnuts are susceptible to short-term weather changes, as well as climate change. Climate change can reduce groundnuts production because it affects soil fertility. Biochar is a kind of soil enhancer that can increase soil fertility. This study aims to determine the appropriate dose of palm fiber biochar for the growth and yield of various varieties of groundnuts. This research was conducted in July - December 2022 at the Experimental Field of the Faculty of Agriculture UNS Jumantono, Karanganyar. The study used a
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7

Ahmad, Tanveer, Sumathi Sethupathi, Mohammed J. K. Bashir, and Sin Ying Tan. "Evaluation of various preparation methods of oil palm fiber (OPF) biochar for ammonia-nitrogen (NH3-N) removal." IOP Conference Series: Earth and Environmental Science 945, no. 1 (2021): 012020. http://dx.doi.org/10.1088/1755-1315/945/1/012020.

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Abstract The aim of this study is to develop a oil palm based biochar for the selective removal of NH3-N in low concentration from aquaculture wastewater. In this study, three different preparation methods of biochar were evaluated for the adsorption of NH3-N from synthetic aquaculture wastewater. The three methods are pyrolysis, activation with acid before pyrolysis and activation after pyrolysis with numerous oxidizing agents. In the 1st method, various biochars have been prepared at different pyrolysis temperatures (300 – 500 °C) and holding time (0.5 – 2 hr). The maximum removal efficiency
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8

Marhani, Asmiaty Sahur, Sartika Laban, and Yunus Musa. "Characterization of Biochar Empty Fruit Bunches OPEFB at Various Temperatures and Burning Time." Journal of Experimental Biology and Agricultural Sciences 10, no. 3 (2022): 599–606. http://dx.doi.org/10.18006/2022.10(3).599.606.

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Oil palm waste (OPW), comprising mainly of empty fruit bunch, mesocarp fiber, frond, trunk, and palm kernel shell generated from the palm oil industry, was collected, characterized, and then pyrolyzed to evaluate their potential to be converted into biochar. Oil Palm Empty Fruit Bunches (OPEFB) are a source of organic material with abundant nutrients and are highly potentially useful as biochar. This article provides experimental data for the production of biochar at a temperature range of 100 to 300 °C at time of 4 to 8 hours. The chemical components examined are pH, CEC, C-Organic, N-total,
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9

Nasir, Mohammad Ibrahim Nasir, Md Zakir Hossain Hossain, and P. A. Charpentier Charprntier. "Synthesis and Characterization of Date Palm Fiber-Based Bio-Char and Activated Carbon and its Utilization for Environmental Remediation." Journal of Petroleum Research and Studies 8, no. 2 (2021): 209–22. http://dx.doi.org/10.52716/jprs.v8i2.245.

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Natural agricultural products have the potential to be a substitute for synthetic polymers absorbentsin environmental remediation and spill cleanup and recovery. One of these natural by-productswhich is available in many regions of the world is Date Palm Fibers (DPF). DPF (also known assurface fibers) is a natural sorbent that exhibits good sorption characteristics. In an attempt tovalorize this abundant, low cost byproduct, we have investigated the micro porosity of this rawmaterial by carrying out two procedures. First, hydrothermal pyrolysis using a scalable reactor withonly water as solven
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10

Bin Nur, Taufiq, Crishansen Supratman, Vincent Tibertiyo Buysang, Rulianda Purnomo Wibowo, Arif Nuryawan, and S. Syafiie. "Evaporator design for the hydrogen-rich syngas production process from palm oil mill solid waste using steam methane reformer." IOP Conference Series: Earth and Environmental Science 1510, no. 1 (2025): 012096. https://doi.org/10.1088/1755-1315/1510/1/012096.

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Abstract Biomass pyrolysis is the process of converting biomass into biochar, syngas, and bio-oil. This study analyses the simulation of a biomass pyrolysis system utilizing a mixture of empty palm oil fruit bunches (EFB) and empty palm oil fiber to produce biochar and hydrogen-rich syngas in the Aspen Plus simulation. Suppose the mass of the raw material used is a mixture of 4 kg EFB and 2 kg fiber, as well as an adjusted amount of water from twice the ratio of methane produced from the pyrolysis process with a mass of 0.939 kg. At a working temperature pyrolysis reactor of 400°C, the syngas
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Book chapters on the topic "Palm fiber biochar"

1

Hilmy, Amila, M. Hashim, and Rosnani Alkarimiah. "Biochar Amendment on Palm Oil Biomass: Effect on Physicochemical Properties and Fiber Degradation." In Lecture Notes in Civil Engineering. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-6022-4_17.

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Bentarfa, Djehad, Mohamed Lamine Sekirifa, Youcef Touil, and Mahfoud Hadj-Mahammed. "Comparison Between Two Samples Granulates Differences of Thermal Activated Biochar from Date Palm Fiber." In New Prospects in Environmental Geosciences and Hydrogeosciences. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-72543-3_84.

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