Litcius/Paper detail

Pyrolysis oil blended n-butanol as a fuel for power generation by an internal combustion engine

Magdalena Szwaja, Mariusz Chwist, A. Szymanek, Stanisław Szwaja

2022Energy18 citationsDOIOpen Access PDF

Abstract

The article discusses results from the investigation of the n-butanol-pyrolysis oil blend, which can be considered a potential fuel for the internal combustion spark-ignition engine operating in a power generation set. The n-butanol-pyrolysis oil blends were prepared at two ratios of 3:1 (25%) and 1:1 (50%) by volume, respectively. As reference fuels for combustion tests in the engine, regular gasoline (gasoline EU 95) and n-butanol were proposed. The combustion tests were conducted on the single-cylinder research engine at a compression ratio of 11:1 and an equivalence ratio of 1. The experimental analysis was focused on engine performance, combustion phases, knock occurrence, and exhaust emissions. As observed, combustion got slower for butanol-pyrolysis oil blends. CO emission was similar to tests with reference fuels. Unburnt hydrocarbons increased with pyrolysis oil increased to 50% in a blend. NO emissions were reduced. It was found that n-butanol blended pyrolysis oil at a ratio of 3:1 can be successfully applied as the fuel to the spark-ignition engine. Additionally, it was found that this blend is more resistant to combustion knock compared to regular gasoline 95. Hence, the engine can work at a higher compression ratio without any malfunctions caused by combustion knock.

Topics & Concepts

GasolineCombustionn-ButanolInternal combustion engineCompression ratioPyrolysisPyrolysis oilHomogeneous charge compression ignitionMaterials scienceIgnition systemEngine powerOctane ratingNaturally aspirated engineWaste managementButanolAutomotive engineeringExhaust gas recirculationCombustion chamberChemistryEngineeringOrganic chemistryPower (physics)ThermodynamicsPhysicsEthanolAerospace engineeringAdvanced Combustion Engine TechnologiesBiodiesel Production and ApplicationsThermochemical Biomass Conversion Processes