Effect of Hydrogen Addition on the Energetic and Ecologic Parameters of an SI Engine Fueled by Biogas

Featured Application This paper's results describe the variation in the ecological and energy parameters of a spark ignition engine running on a mixture of biogas and hydrogen. The data can be applied in further biogas studies involving combustion process optimization, spark timing control, biogas and hydrogen mixtures, and hydrogen influence on the combustion process and exhaust gas composition. Additionally, the data are useful in practice when modifying compress natural gas engines to work using biogas or when adding hydrogen to reduce emissions and increase engine efficiency. The global policy solution seeks to reduce the usage of fossil fuels and greenhouse gas (GHG) emissions, and biogas (BG) represents a solutions to these problems. The use of biogas could help cope with increased amounts of waste and reduce usage of fossil fuels. Biogas could be used in compressed natural gas (CNG) engines, but the engine electronic control unit (ECU) needs to be modified. In this research, a spark ignition (SI) engine was tested for mixtures of biogas and hydrogen (volumetric hydrogen concentration of 0, 14, 24, 33, and 43%). In all experiments, two cases of spark timing (ST) were used: the first for an optimal mixture and the second for CNG. The results show that hydrogen increases combustion quality and reduces incomplete combustion products. Because of BG's lower burning speed, the advanced ST increased brake thermal efficiency (BTE) by 4.3% when the engine was running on biogas. Adding 14 vol% of hydrogen (H-2) increases the burning speed of the mixture and enhances BTE by 2.6% at spark timing optimal for CNG (CNG ST) and 0.6% at the optimal mixture ST (mixture ST). Analyses of the rate of heat release (ROHR), temperature, and pressure increase in the cylinder were carried out using utility BURN in AVL BOOST software.

Automated summary

The study investigates the variation in ecological and energy parameters of a spark ignition engine running on biogas and hydrogen mixtures, providing data for combustion optimization and emission reduction. The global policy aims to reduce fossil fuel usage and greenhouse gas emissions, with biogas serving as a potential solution. Biogas can help manage waste and reduce fossil fuel consumption, with potential applications in compressed natural gas engines with necessary modifications to the engine control unit.