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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 30, 2008 - Issue 17
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Original Articles

Yields and Gaseous Composition from Slow Pyrolysis of Refuse-derived Fuels

N. Tippayawong Department of Mechanical Engineering, Faculty of Engineering, Chiang Mai University, Chiang Mai, Thailand
,
J. Kinorn Department of Mechanical Engineering, Faculty of Engineering, Chiang Mai University, Chiang Mai, Thailand
&
S. Thavornun Department of Mechanical Engineering, Faculty of Engineering, Chiang Mai University, Chiang Mai, Thailand
Pages 1572-1580 | Published online: 22 Jul 2008

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Ashok Patel, Basant Agrawal & B R Rawal. (2020) Pyrolysis of biomass for efficient extraction of biofuel. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 42:13, pages 1649-1661.
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O Nam–Chol, Pak Hyo–Song, Sin Yong–Chol, Ri Yong–Hyok & Kim Yong–Nam. (2018) A feasibility study of energy recovery of RDF from municipal solid waste. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 40:24, pages 2914-2922.
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Articles from other publishers (23)

Dina Aboelela, Habibatallah Saleh, Attia M. Attia, Yasser Elhenawy, Thokozani Majozi & Mohamed Bassyouni. (2023) Recent Advances in Biomass Pyrolysis Processes for Bioenergy Production: Optimization of Operating Conditions. Sustainability 15:14, pages 11238.
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Ahmed S. Al-Fatesh, Najib Y.A. AL-Garadi, Ahmed I. Osman, Fahad S. Al-Mubaddel, Ahmed A. Ibrahim, Wasim U. Khan, Yousef M. Alanazi, Maher M. Alrashed & Othman Y. Alothman. (2023) From plastic waste pyrolysis to Fuel: Impact of process parameters and material selection on hydrogen production. Fuel 344, pages 128107.
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Quanwei Li, Zhiyuan Zhao, Manjiang Yang & Ruiyu Chen. (2023) Thermal degradation of KN90 gauze mask rope waste: Thermogravimetric and thermodynamic analyses, kinetic modeling and volatile products. Case Studies in Thermal Engineering 43, pages 102816.
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F. Faisal, M.G. Rasul, M.I. Jahirul & D. Schaller. (2023) Pyrolytic conversion of waste plastics to energy products: A review on yields, properties, and production costs. Science of The Total Environment 861, pages 160721.
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Francesco Patania, Antonio Gagliano, Francesco Nocera & Antonio Agrifoglio. (2022) An Applied “energy System” (ES) to Produce Energy by Wasted Biomass (Part One). DESIGN, CONSTRUCTION, MAINTENANCE 2, pages 74-83.
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M. D. Manogaran, M. R. Shamsuddin, M. H. Mohd Yusoff & M. Lay. An overview on available treatment processes of poultry manure in Malaysia. An overview on available treatment processes of poultry manure in Malaysia.
Ahmed M. Elgarahy, Ahmed Hammad, Dina M. El-Sherif, Mohamed Abouzid, Mohamed S. Gaballah & Khalid Z. Elwakeel. (2021) Thermochemical conversion strategies of biomass to biofuels, techno-economic and bibliometric analysis: A conceptual review. Journal of Environmental Chemical Engineering 9:6, pages 106503.
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Karthik Velusamy, Jamunarani Devanand, Ponnusamy Senthil Kumar, Kalaivani Soundarajan, Veena Sivasubramanian, Jaisankar Sindhu & Dai-Viet N. Vo. (2021) A review on nano-catalysts and biochar-based catalysts for biofuel production. Fuel 306, pages 121632.
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Danai Frantzi & Anastasia Zabaniotou. (2021) Waste-Based Intermediate Bioenergy Carriers: Syngas Production via Coupling Slow Pyrolysis with Gasification under a Circular Economy Model. Energies 14:21, pages 7366.
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Nilutpal Bhuyan, Neelam Bora, Rumi Narzari, Kabita Boruah & Rupam Kataki. 2021. Liquid Biofuels. Liquid Biofuels 285 360 .
Joshua O. Ighalo & Adewale George Adeniyi. (2021) Modelling the Valorisation of Cassava Peel (Manihot esculenta) Waste Via Pyrolysis and in-Line Steam Reforming. Environmental Processes 8:1, pages 267-285.
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Meenal Jain, Meenakshi Mital & Puja Gupta. 2021. Bioenergy Research: Biomass Waste to Energy. Bioenergy Research: Biomass Waste to Energy 27 53 .
Ruiyu Chen, Quanwei Li, Xiaokang Xu, Dongdong Zhang & Ronglin Hao. (2020) Combustion characteristics, kinetics and thermodynamics of Pinus Sylvestris pine needle via non-isothermal thermogravimetry coupled with model-free and model-fitting methods. Case Studies in Thermal Engineering 22, pages 100756.
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Tomáš Chorazy, Josef Čáslavský, Veronika Žvaková, Jakub Raček & Petr Hlavínek. (2019) Characteristics of Pyrolysis Oil as Renewable Source of Chemical Materials and Alternative Fuel from the Sewage Sludge Treatment. Waste and Biomass Valorization 11:8, pages 4491-4505.
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Muhammad Imran Din, Mahnoor Javed, Zaib Hussain, Rida Khalid & Saba Ameen. (2020) Slow Catalytic Pyrolysis of <i>Saccharum munja</i> using Bio-genically Synthesized Nickel Ferrite Nanoparticles for the Production of high yield Biofuel. European Journal of Sustainable Development Research.
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Ruiyu Chen, Xiaokang Xu, Shouxiang Lu, Yang Zhang & Siuming Lo. (2018) Pyrolysis study of waste phenolic fibre-reinforced plastic by thermogravimetry/Fourier transform infrared/mass spectrometry analysis. Energy Conversion and Management 165, pages 555-566.
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Chowdhury Zaira Zaman, Kaushik Pal, Wageeh A. Yehye, Suresh Sagadevan, Syed Tawab Shah, Ganiyu Abimbola Adebisi, Emy Marliana, Rahman Faijur Rafique & Rafie Bin Johan. 2017. Pyrolysis. Pyrolysis.
Ahmad Taghizadeh-Alisaraei, Hossein Alizadeh Assar, Barat Ghobadian & Ali Motevali. (2017) Potential of biofuel production from pistachio waste in Iran. Renewable and Sustainable Energy Reviews 72, pages 510-522.
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A.M. Elfadly, I.F. Zeid, F.Z. Yehia, A.M. Rabie, M.M. aboualala & Sang-Eon Park. (2016) Highly selective BTX from catalytic fast pyrolysis of lignin over supported mesoporous silica. International Journal of Biological Macromolecules 91, pages 278-293.
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P. Parthasarathy & K. N. Sheeba. (2015) Combined slow pyrolysis and steam gasification of biomass for hydrogen generation-a review. International Journal of Energy Research 39:2, pages 147-164.
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Qun X. Huang, Ru P. Wang, Li J. Zhang, Yong Chi & Jian H. Yan. (2013) Quantitative Model of Interactions in the Thermal Decomposition of Key Refuse-Derived Fuel Components. Energy & Fuels 28:2, pages 1213-1219.
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Mohammad Jahirul, Mohammad Rasul, Ashfaque Chowdhury & Nanjappa Ashwath. (2012) Biofuels Production through Biomass Pyrolysis —A Technological Review. Energies 5:12, pages 4952-5001.
Crossref
Mustafa Balat, Mehmet Balat, Elif Kırtay & Havva Balat. (2009) Main routes for the thermo-conversion of biomass into fuels and chemicals. Part 1: Pyrolysis systems. Energy Conversion and Management 50:12, pages 3147-3157.
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