Litcius/Paper detail

Energy- and economic-balance estimation of pyrolysis plant for fuel-gas production from plastic waste based on bench-scale plant operations

Yōichi Kodera, Tetsushi Yamamoto, Eiji Ishikawa

2021Fuel Communications26 citationsDOIOpen Access PDF

Abstract

Several pyrolysis plants have been developed and commercially operated to produce fuel oil from plastic waste. By contrast, only a few examples of fuel-gas production plants have been reported. This study investigates the feasibility of fuel-gas production from plastic waste using a bench-scale pyrolysis plant by analyzing the material and energy balances of the plant. As part of a waste-to-fuel-gas project for substituting natural gas used in cogeneration equipment, this study examines the material and energy balances during operation of an externally heated rotary kiln reactor. The scale-up simulation of a 200-kg/h plant was performed based on the operation results obtained for a 2-kg/h plant using polypropylene and laminates of polypropylene with polyethylene terephthalate as feedstock. Based on the 200-kg/h plant estimates, the amount of fuel generated as fuel gas, fuel-gas consumed, and excess fuel gas used for supplying electricity to a factory using a cogeneration system equaled 3.86 × 107, 1.49 × 107, and 2.42 × 107 MJ/year, respectively, in terms of the lower heating value. The excess fuel could be used as a natural-gas substitute in cogeneration systems. In cases where a fuel-gas production system with 200-kg/h capacity costs less than USD 2,467,000, the pyrolysis-based fuel production is considered economically beneficial compared to the current treatment methods owing to the associated cost savings of up to approximately USD 177,000/year realized by ensuring substitution of 2.42 × 107 MJ/year of natural gas.

Topics & Concepts

CogenerationWaste managementFuel gasRaw materialNatural gasPyrolysisEnvironmental scienceHeat of combustionEnergy recoveryElectricity generationEngineeringChemistryCombustionEnergy (signal processing)StatisticsMathematicsQuantum mechanicsOrganic chemistryPower (physics)PhysicsThermochemical Biomass Conversion ProcessesRecycling and Waste Management TechniquesMunicipal Solid Waste Management