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An experimental assessment on a diesel engine powered by blends of waste-plastic-derived pyrolysis oil with diesel

Abstract

The utilization of plastic solid wastes for sustainable energy production is a crucial aspect of the circular economy. This study focuses on pyrolysis as an effective method to convert this feedstock into renewable drop-in fuel. To achieve this, it is essential to have a comprehensive understanding of feedstock composition, pyrolysis process parameters, and the physicochemical characteristics of the resulting fuel, all correlated with engine combustion parameters. Considering this full value chain, this study provides the first unbiased and up-to-date benchmark of polypropylene and polystyrene pyrolysis oils (PPO and PSO) produced in an industrial-grade batch reactor. The pyrolysis process was optimized to achieve ultra-high liquid yield levels of 92% for PPO and 98% for PSO with minimum energy consumption. After post-processing, blending with diesel, and normative fuel analytics, combustion/emission tests involving 20 species preceded under fully controllable conditions using a stateof-the-art single-cylinder research engine. The fuel analysis results revealed significant disparities between the properties of PPO and PSO. PPO exhibited a diverse carbon structure, resulting in very low density and high volatility. On the other hand, PSO was predominantly composed of aromatics, leading to low viscosity and poor auto-ignition properties. Engine tests showed that PPO blends exhibited combustion characteristics similar to diesel, while PSO blends exhibited significant differences, particularly during the premixed combustion stage attributed to pilot injection. Following the combustion response, the addition of PPO had minimal impact on emissions, while PSO acted as an emission enhancer, resulting in over twofold increase in particulate matter at high loads. Consequently, PSO showed elevated carbon monoxide and hydrocarbon emissions due to the higher contribution of aromatics. Ultimately, this study challenges the prevailing perception of plastic-derived fuels as “dirty”. By implementing feedstock segregation to minimize polystyrene content, it is possible to achieve a fossil substitute level of 40% while meeting all emission and safety regulations for diesel engines with a minimum economic burden.

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Authors (7)

Keywords

Details

Category:
Articles
Type:
artykuły w czasopismach
Published in:
ENERGY no. 281,
ISSN: 0360-5442
Language:
English
Publication year:
2023
Bibliographic description:
Januszewicz K., Hunicz J., Kazimierski P., Rybak A., Suchocki T., Duda K., Mikulski M.: An experimental assessment on a diesel engine powered by blends of waste-plastic-derived pyrolysis oil with diesel// ENERGY -Vol. 281, (2023), s.128330-
DOI:
Digital Object Identifier (open in new tab) 10.1016/j.energy.2023.128330
Sources of funding:
  • Free publication
Verified by:
Gdańsk University of Technology

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