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采用微波辅助法提取羊栖菜多糖,首先通过单因素分组实验和正交优化试验,寻求最适提取工艺条件:微波前浸润1.5 h,600 W微波10 min,再按液固比为10∶1加水,100℃提取8h,提取2次.然后对微波辅助提取法和常规热水提取法进行对比,结果发现微波辅助提取法具有高效、节能、省时的特点. 相似文献
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茶叶多糖的微波辅助提取技术研究 总被引:14,自引:0,他引:14
以微波辅助提取技术,分别考查了提取溶剂、微波功率、提取时间、固液相比等因素对提取茶叶多糖效果的影响,并与热水浸提法进行比较。结果表明在微波辅助下,水和20%乙醇提取多糖的效果好,微波功率越高越有利于多糖提取,总提取时间以60 min以上为宜,液固相比达到15∶1即可。该技术与传统热水浸提法相比较,提取率高,节省时间,明显提高了提取效率。 相似文献
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微波辅助提取紫菜多糖的工艺研究 总被引:1,自引:0,他引:1
紫菜多糖具有多种生理活性,研究其提取工艺具有重要意义.采用微波辅助提取技术和间断式微波辐射加热方法,探索了紫菜粗多糖的提取新工艺.试验研究了不同的微波功率、处理时间、料液比对紫菜多糖提取率的影响.在单因素试验的基础上,通过L9(3 3)正交试验优化了提取条件,取得了微波辅助浸提紫菜多糖的最佳工艺参数,即微波功率120W、提取时间8min、料液比1:30,在此条件下,紫菜多糖提取率为8.478%. 相似文献
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微波辅助提取黑木耳多糖的研究 总被引:13,自引:0,他引:13
研究利用微波辅助萃取技术提取黑木耳子实体中的黑木耳多糖的方法。以无菌过滤水为溶剂,以微波辐射处理为辅助条件,提取黑木耳子实体中的多糖,并与常规水提法(WE)、超临界萃取法(SFE)和超声波萃取法(USE)作了对比实验;考察了微波辐射功率,微波辐射时间,固液比,浸提时间和浸提级数这些因子对多糖得率的影响。确定的提取工艺条件为:微波功率为800W,微波辐射时间为40min,固液比(g:mL)为1∶32,水浴浸提时间为3h,提取级数为二级。 相似文献
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The effect of Mesona Blumes gum (MBG) was examined on steady and dynamic shear of MBG/rice starch and MBG/wheat starch gels. In addition, stress relaxation and creep tests were performed for two types of cereal starch gels. The flow curves of both MBG/starch gels exhibited pseudoplastic behavior at shear rates between 0.01 and 10 s−1, and the data were fitted into the power law model (R2 = 0.91–0.98). Dynamic mechanical spectrum showed that all gels were strong gels in frequency between 0.1 and 10 Hz. Stress relaxation data at different strains indicated a strain‐softening phenomenon for both gels. Data were fitted into Maxwell model (R2 = 0.91–0.98). Creep curves were conducted at the shear stress 6.4 Pa within linear viscoelastic region of both MBG/starch gels. Data were fitted into Burgers model (R2 = 0.91–0.98). Apparent viscosity η, storage moduli G′, equilibrium stress relaxation modulus Ge and zero apparent viscosity η0 of MBG/rice starch gels decreased in the following order: 6/0>6/0.5>6/0.35>6/0.1 (starch/gum w/w). Whereas η, G′, Ge, and η0 of MBG/wheat starch gels increased gradually along side the increase of MBG contents. The stress relaxation time λ of MBG/rice starch gels increased in the following order: 6/0<6/0.5<6/0.35<6/0.1 (starch/gum w/w) while λ of MBG/wheat starch gels decreased gradually with the increase of MBG level. The influence of MBG on two examined cereal starch is totally opposite. 相似文献
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凉粉草多糖提取及纯化工艺的研究 总被引:6,自引:0,他引:6
研究Na2CO3浓度、料液比、提取时间对多糖提取率的影响,双氧水浓度和加入量对多糖脱色效果的影响,比较截留分子量为10K与50K中空纤维膜管对多糖超滤纯化的效果。结果发现,凉粉草多糖的最佳提取工艺为:碳酸钠溶液1.5%(M/V),料液比9/250(M/V),提取1.5h。在此条件下,测得凉粉草多糖的提取率为41.00%,总糖含量为3.495%;100mL料液中加入10%的双氧水20mL时脱色效果可达超滤工艺要求;截留分子量为10K的中空纤维膜管在超滤后多糖的保留率高于50K的。因此可选择截留分子量10K的中空纤维膜管对凉粉草多糖进行纯化。 相似文献
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Haining Zhuang Tao Feng Zhengjun Xie Alhassane Toure Xueming Xu Zhengyu Jin Qiang Su 《International Journal of Food Science & Technology》2010,45(11):2415-2424
The aim of this study was to evaluate effects of Mesona Blumes gum (MBG) on some physical, chemical, sensory and antioxidant properties of rice extrudates. MBG was added to rice flour at 0%, 5%, 10%, 15% and 20% (w/w). The water solubility index (WSI) increased from 4.19% to 15.32% with MBG addition. Both water absorption index (WAI) and moisture retention (MR) reached maximum at 15% MBG. Bulk density (BD) was the highest at 5% (131.22 g cm?3) and the lowest at 15% MBG (121.44 g cm?3). Hardness was maximal at 5% (8.44 N mm?2) and minimal at 15% MBG (5.98 N mm?2). Expansion ratio (ER) and lightness (L*) decreased for all extruded products with MBG. MBG at 5% or 10% level could improve sensory characteristics of final products. The extract of extrudates at 15% MBG had the highest antioxidation ability among those extrudates. Thus, it was possible to produce a new palatable rice extrudate with MBG. 相似文献
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以浒苔为原料,采用微波技术辅助提取其多糖。通过单因素试验和响应面设计法,确定浒苔多糖微波辅助提取技术的最佳工艺条件为微波温度95℃、微波功率800W、微波时间32min、液料比78:1(mL/g)。按此工艺条件提取多糖,得率为4.04%。 相似文献
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多糖的保健功能日益得到学术界的重视与证实。葛仙米中含有丰富的多糖。以碱液和木瓜蛋白酶对葛仙米进行预处理,正交试验确定最佳预处理工艺。多糖提取条件为料水比1:300,于90℃水浴提取2次,2h/次。结果说明,以木瓜蛋白酶预处理葛仙米,按100mg葛仙米加入10ml水充分吸胀后,加入含1.5mg木瓜蛋白酶的缓冲液,在50℃的水浴条件下,经过10h预处理后,葛仙米多糖得率最高,为29.53%。以NaOH溶液预处理葛仙米,最佳的条件是0.4mol/L的浓度,于40℃处理2h,多糖得率可高达35.15%。将碱与酶结合使用,则多糖的得率可以高达47.56%,比对照高出25.12%。 相似文献
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以水作为提取溶剂、银杏叶多糖提取率为指标,采用微波辅助提取法,在单因素试验的基础上,通过正交试验对银杏叶多糖的微波辅助提取工艺进行优化,并采用清除DPPH自由基、 ·OH和O2 ·模型对其体外抗氧化活性进行评价,并与VC进行比较。结果表明:微波辅助提取银杏叶多糖的最佳出工艺条件为微波功率480W、液料比30:1(mL/g)、提取时间8min、提取2次,多糖得率为14.70%。银杏叶多糖具有较强的清除DPPH自由基、 ·OH的能力,并与质量浓度呈一定正相关关系,清除O2 ·能力弱,清除率与多糖质量浓度的关系不显著。 相似文献