江西农业大学学报
江西農業大學學報
강서농업대학학보
ACTA AGRICULTURAE UNIVERSITATIS JIANGXIENSIS
2010年
1期
169-174
,共6页
杨武英%上官新晨%吴磊燕%杨勇%李洪敏%姜醒
楊武英%上官新晨%吳磊燕%楊勇%李洪敏%薑醒
양무영%상관신신%오뢰연%양용%리홍민%강성
芦荟%黄酮%大孔树脂%精制
蘆薈%黃酮%大孔樹脂%精製
호회%황동%대공수지%정제
Aloe%flavonoids%macroporous resin%purificaon
研究了大孔树脂对芦荟叶干粉中黄酮的最佳精制工艺.在相同条件下对五种不同的大孔树脂静态吸附率和解吸率的进行测定,优选出树脂,并研究了优选树脂在不同条件下对芦荟叶干粉中黄酮的静态、动态吸附与解吸特性,确定了树脂精制芦荟叶干粉中黄酮的最佳工艺.结果表明:芦荟叶干粉黄酮精制优选大孔树脂为H1020,在室温下,吸附液pH为3.0,静态吸附能力最强,解吸剂以体积分数φ(乙醇)=80%的效果最好;动态吸附以芦荟黄酮粗提物溶液的质量浓度为12mg/mL吸附效果最好,解吸以体积分数φ(乙醇)=80%,流速为2.0mL/min洗脱效果最好.
研究瞭大孔樹脂對蘆薈葉榦粉中黃酮的最佳精製工藝.在相同條件下對五種不同的大孔樹脂靜態吸附率和解吸率的進行測定,優選齣樹脂,併研究瞭優選樹脂在不同條件下對蘆薈葉榦粉中黃酮的靜態、動態吸附與解吸特性,確定瞭樹脂精製蘆薈葉榦粉中黃酮的最佳工藝.結果錶明:蘆薈葉榦粉黃酮精製優選大孔樹脂為H1020,在室溫下,吸附液pH為3.0,靜態吸附能力最彊,解吸劑以體積分數φ(乙醇)=80%的效果最好;動態吸附以蘆薈黃酮粗提物溶液的質量濃度為12mg/mL吸附效果最好,解吸以體積分數φ(乙醇)=80%,流速為2.0mL/min洗脫效果最好.
연구료대공수지대호회협간분중황동적최가정제공예.재상동조건하대오충불동적대공수지정태흡부솔화해흡솔적진행측정,우선출수지,병연구료우선수지재불동조건하대호회협간분중황동적정태、동태흡부여해흡특성,학정료수지정제호회협간분중황동적최가공예.결과표명:호회협간분황동정제우선대공수지위H1020,재실온하,흡부액pH위3.0,정태흡부능력최강,해흡제이체적분수φ(을순)=80%적효과최호;동태흡부이호회황동조제물용액적질량농도위12mg/mL흡부효과최호,해흡이체적분수φ(을순)=80%,류속위2.0mL/min세탈효과최호.
The purification of the flavonoids from aloe leaf powder with macroporous resin was studied. The static adsorption rate and desorption rate of five different macroporous resins were surveyed under the same conditions to select the best one.The optimum purificated technic was confirmed by studying the static and dynamic absorption and desorption of flavonoids with the best resin under different conditions. The result indicated that the optimum macroporous resin was H1020,and its static adsorptive ability was the strongest at room temperature and pH=3,the most effective desorption could be obtained with 80% volume fraction alcohol.The best dynamic absorption was obtained at room temperature and crude flavonoids solution at 12 mg/mL,the most effective desorption was also obtained with 80% volume fraction alcohol at 2.0 mL/min desorption rate.
