Investigations on the Heat Flow in a Research RCCI Engine with Gasoline by using Ethyl Territory Butyl Ether Blends.

Saragada, D. V. V. S. B. Reddy; Ali, S. R. S. Mahaboob; Arief, Sheik; Suresh, K. Naga

Gasoline contains Ethyl Territory Butyl Ether (ETBE), an oxygenate, as an octane booster. Isobutylene and ethanol are combined with a catalyst to form ETBE. Since cars and trucks provide the majority of greenhouse gas emissions, there is perpetual promise in employing alternating fuels to lower CO2 and other emissions involving gases that cause warming from these sources. Since they can be generated sustainably, minimize pollution and require fewer oil imports than fossil fuels, alternative fuels are the best choice currently available to replace depleted fossil fuels. This study examines the heat flow of a single-cylinder, 4-stroke RCCI diesel engine that runs on blends of diesel and ETBE under varying packing conditions. The engine has a constant compression ratio, constant speed and variable loads. Practical work, HCW, HEG and unfamiliar losses were all taken into account during the heat flow study. According to the results, the RCCI engine's heat flow analysis is operating on HCW value increases when load increases and HUA is also followed by the same, which happened when loads ranged from 0kg to 20kg. It has been discovered that HEG values are less than B0.

GREENHOUSE gases; FOSSIL fuels; SPARK ignition engines; HEAT engines; ALTERNATIVE fuels

International Journal of Vehicle Structures & Systems (IJVSS), 2024, Vol 16, Issue 4, p611

0975-3060

Academic Journal

10.4273/ijvss.16.4.21