Ali Dogan Gulum Gulum Apr 2026

) to determine optimum reaction parameters for fuel quality.

: A critical part of their work involves quantifying tailpipe emissions—specifically hydrocarbons (HC) , carbon monoxide (CO) , and nitrogen oxides (NOx) —when using biodiesel blends. This research aims to reduce the environmental footprint of traditional diesel engines. Ali Dogan Gulum Gulum

Ali Doğan and Gülüm Gülüm frequently collaborate with other Turkish engineers, such as A. Bilgin and A. Çakmak. Their findings are often published in journals focused on engineering and energy, including the Journal of the Faculty of Engineering and Architecture of Gazi University and various international research platforms like ResearchGate. Technical Impact ) to determine optimum reaction parameters for fuel quality

By utilizing advanced tools like and combustion analyzers , their studies provide high-resolution data on in-cylinder pressure and exergy-based sustainability. This allows for a deeper understanding of how alternative fuels impact the mechanical integrity and thermal efficiency of engines. Ali Doğan and Gülüm Gülüm frequently collaborate with

: Investigating the production of biodiesels from various agricultural sources, such as corn oil and rapeseed oil . They have conducted comparative studies on catalysts like sodium hydroxide ( NaOHcap N a cap O cap H ) and potassium hydroxide ( KOHcap K cap O cap H