Diacylglycerol oil is one of the edible oils which is mainly composed of diglycerides. It has been recognized to possess many health benefits such as reducing fat accumulation in the body. However, diglyceride and monoglyceride is the precursor of carcinogenic compounds, 3-monochloro-1,2-propanodiol ester (3-MCPD-E) and glycidyl ester (GE). In this study, monopalmitin, 1,3-dipalmitin and their mixture (20:80, 50:50 and 80:20 ratio) was heated with tetrabutylammonium chloride at various temperatures (140-220°C) and durations (5-60 min) in order to simulate thermal processing of mono- and di-acylglycerol oil. The 3-MCPD-E, GE and palmitin content was determined by GC/MS and the free chloride ion content was determined by ion chromatography. Result showed that the higher temperature resulted in higher 3-MCPD-E and GE content. 3-MCPD-E content of system heated in 220℃ for 10 minutes is already significantly higher than that heated in 180℃ for 60 minutes. Due to synergy, the 3-MCPD-E and GE content in mixture could not be calculated by synthesis condition of pure monopalmitin and 1,3-dipalmitin. In mixture, high ratio of monopalmitin showed greater tendency to form 3-MCPD-E; whereas, high ratio of 1,3-dipalmitin favored GE. Conclusively, ratio of different glyceride could be optimized to reduce 3-MCPD-E and GE formation of diglyceride oil and the condition of heating temperature and time should be carefully assessed.