纤维二糖
化学
美拉德反应
丙氨酸
吡嗪
有机化学
乙醇醛
甲酸
反应速率常数
氨基酸
氮气
反应速率
热液循环
动力学
单糖
戊糖
反应机理
醋酸
果糖
多糖
分子
碳水化合物
立体化学
反应中间体
作者
Ivan Kristianto,Brian S. Haynes,Alejandro Montoya
标识
DOI:10.1021/acs.iecr.5c03043
摘要
The reaction products, mechanisms, and kinetics of alanine reacting with saccharides (specifically cellobiose and glucose) under hydrothermal conditions (220–280 °C; 0.5–3 s) have been studied to understand the formation of nitrogen species in biofuels. The nitrogenous species found in the product mixture, including ammonia, ethylamine, and pyrazines, account for 50 to 75% of the total nitrogen balance. The carbonaceous products in the mixture are fructose, glyceraldehyde, dihydroxyacetone, formic acid, acetic acid, and furans. Our kinetic analysis shows that the nature of saccharides and amino acids plays an important role in the Maillard reaction rate. The Maillard reaction involving saccharides and amino acids with larger structures (such as cellobiose and alanine), proceeds more slowly than reactions involving simpler molecules (such as glucose and ammonium). For instance, at 280 °C, we deduce the rate constants of cellobiose–alanine and glucose–alanine = 0.011 and 0.035 s–1 mM–1, respectively. We proposed that when cellobiose and alanine are subjected to hydrothermal conditions, the primary pathway for pyrazine formation occurs as cellobiose decomposes into glucose, which then reacts with alanine following the Maillard reaction scheme.
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