摘要
采用薄层色谱法(TLC)和柱色谱法(CC)对潲水毛油与市售食用植物油及其精炼油样中的极性成分(PC)进行对比分析,发现潲水油及其部分精炼油样在薄层色谱上有明显拖尾现象,而食用植物油和精炼油4(脱臭潲水油)则没有,利用柱色谱法分离潲水油的拖尾成分并进行红外分析,结果显示:食用金龙鱼100%玉米油和精炼油4吸收峰值在1746cm-1左右峰形平滑且无分裂,而潲水毛油发生峰分裂,1746cm-1处有较小吸收,在1712cm-1处有一大分裂峰,属于醛、酮类羰基伸缩振动区,潲水毛油峰值在1240~1100cm-1间发生指纹式峰裂分且吸收峰变小并向波数高处偏移,具有更大的弯曲振动频率,增大了整体的极性,其极性化合物百分含量远大于脱臭精炼油和食用金龙鱼100%玉米油,薄板色谱中拖尾组分是它们所不含的醛、酮类化合物。
Using thin-layer chromatography (TLC) and column chromatography (CC), the polar compounds (PC) of hogwash oil were compared with those of edible vegetable oil and refine oil. It was found that the waste hogwash oil and some samples of refine oil have obviously tailing phenomenon on the TLC, but edible vegetable oil and refine oil 4 (deordorized oil) do not have, so the CC can be used to separate the tailing compounds of hogwash oil and they can be analyzed with infrared spectroscopy OR). The results showed that absorption peaks at 1746cm^-lof Jinlongyu edible 100% corn oil and refine oil 4 are smoothing and do not break up, but the hogwash oil has small absorption peak at 1746cm^-1 and have a big broken peak at 1712 cm^-1, belonging to the character of aldehyde and ketone compounds. From 1240 to 1100 cm^-1, the hogwash oil has fmgerprint break, small absorption and turning to the high repetency. There are more bending vibration frequency and the whole polarity, increases. PC content of hogwash oil is much higher than that of deordorized oil and edible Jinlongyu edible 100% corn oil. The tailing compounds are aldehyde and ketone compounds that edible vegetable oil and deordorized oil do not have.
出处
《食品科学》
EI
CAS
CSCD
北大核心
2008年第12期568-571,共4页
Food Science
基金
教育部"长江学者和创新团队发展计划"项目(IRT0540)
"十一五"国家科技支撑计划项目(2006BAD27B00)
2006年南昌市攻关重点攻关及产业化项目
关键词
潲水油
薄层色谱
柱色谱
红外光谱
hogwash oil
thin-layer chromatography (TLC)
column chromatography (CC)
infrared spectroscopy (IR)
