A Kinetic Study on Combustible Coastal Debris Pyrolysis via Thermogravimetric Analysis

Autor:	Cheol Jin Jeong, Daegi Kim, Eunhye Song, Do-Yong Kim
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	Pollution Bamboo Control and Optimization wood waste 020209 energy media_common.quotation_subject Energy Engineering and Power Technology Environmental pollution 02 engineering and technology 010501 environmental sciences lcsh:Technology 01 natural sciences chemistry.chemical_compound coastal debris plastic waste 0202 electrical engineering electronic engineering information engineering Electrical and Electronic Engineering Engineering (miscellaneous) 0105 earth and related environmental sciences media_common Polypropylene lcsh:T Renewable Energy Sustainability and the Environment kinetic model Polyethylene Pulp and paper industry pyrolysis Debris Combustibility chemistry Environmental science Pyrolysis Energy (miscellaneous)
Zdroj:	Energies Volume 12 Issue 5 Pages: 836 Energies, Vol 12, Iss 5, p 836 (2019)
ISSN:	1996-1073
DOI:	10.3390/en12050836
Popis:	Coastal debris has recently emerged as a serious environmental pollution problem. Coastal debris can be treated using pyrolysis because it consists mainly of combustible materials like plastics (e.g., polyethylene (PE), polypropylene (PP), nylon) and wood. In this study, the pyrolysis characteristics of coastal debris were fully utilized by applying their basic data to fuel production. The initial temperature increased from 330 °C to 380 °C for the nylon fishing net coastal debris sample, from 405.01 °C to 430.08 °C for the PE fishing net coastal debris sample, from 395.01 °C to 419.96 °C for the PP rope coastal debris sample, and from 114.95 °C to 115.02 °C for the wood (bamboo) coastal debris sample. The activation rate of the global activation energy and the pre-exponential factors rose with the increasing heating rate, complementing the reduction rate constant due to the larger growth of the exponential term due to the kinetic models used.
Databáze:	OpenAIRE
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