柠檬酸
化学
絮凝作用
螯合作用
氢氧化钠
磷
植物油
制浆造纸工业
脂肪酶
脂肪酸
色谱法
精炼(冶金)
磷脂
乳状液
酶水解
倾析
钠
残余油
生物炼制
纤维素
食品科学
柠檬酸三钠
柠檬酸钠
肺表面活性物质
聚磷酸盐
玉米油
试剂
分离过程
过程(计算)
作者
Ying Cheng,Manyu Yuan,Yiwei Liu,Zongyuan Wu,Weinong Zhang,Guoyu Wang,Yanxia Cong
标识
DOI:10.1016/j.lwt.2025.118779
摘要
Degumming is critical for downstream refining efficiency and edible oil quality, but conventional water degumming is incomplete, while enzymatic degumming is slow. This study developed a green and energy-efficient hybrid degumming process, combining instantaneous citric acid chelation with trace sodium hydroxide (NaOH) flocculation. Plackett-Burman screening and Box-Behnken optimization determined the optimal conditions: 339 mg/kg citric acid, 167 mg/kg NaOH, 1.76 % water at 70 °C, which reduced residual phosphorus to 0.22 mg/kg (lower than acid degumming and enzymatic degumming). Confocal laser scanning microscopy (CLSM) showed that NaOH-induced charge neutralization promoted rapid phospholipid flocculation. This process reduced citric acid consumption to 10 % of that in acid degumming, used only 0.017 % NaOH, and shortened degumming time by 30 min compared to acid degumming and 2–4 h compared to enzymatic processes. It aligns with sustainable development goals by cutting chemicals, energy, and emissions. • A novel NaOH aided degumming strategy was developed for oil refining. • NaOH induces rapid phospholipid aggregation and flocculation during degumming. • Optimized process yields degummed oil with only 0.22 mg/kg residual phosphorus. • Compared with water, acid, or enzymatic degumming, this process cuts time and cost sharply.
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