农业工程学报
農業工程學報
농업공정학보
2013年
21期
271-278
,共8页
叶晓枫%韩永斌%赵黎平%曹蓉%唐根胜
葉曉楓%韓永斌%趙黎平%曹蓉%唐根勝
협효풍%한영빈%조려평%조용%당근성
冷冻%融化%农产品%循环%非发酵面团%品质变化
冷凍%融化%農產品%循環%非髮酵麵糰%品質變化
냉동%융화%농산품%순배%비발효면단%품질변화
freezing%thawing%agricultural products%cycles%non-fermented dough%quality changes
为了探讨储运销售过程引起的冻融循环对冷冻非发酵面团品质的影响,利用低场核磁共振分析仪(LF-NMR)、质构仪与流变仪等对样品面团水分与蛋白质组分、质构与流变特性进行测定,研究冻融循环下冷冻非发酵面团品质变化。结果表明:5次冻融交替中,失水率显著上升,达至3.14%;总水分中半结合水含量在 F1后整体呈下降趋势,表明冻融循环过程中,半结合水不断散失;至第5次冻融时,醇溶蛋白含量显著下降(P<0.05),谷蛋白与谷蛋白大分子聚合物(GMP)含量至第4次冻融后均显著下降(P<0.05),分别降至2.26%与0.70%;生面坯剪切力显著上升,强韧性则与之相反;熟面坯硬度呈上升再下降趋势,黏性基本呈上升,弹性呈下降趋势;弹性模量G'与黏性模量G'均呈下降趋势,且在第4次时,tanδ(tanδ=G'/G')至最大,表明G'的变化程度比G'大。由此可见,冻融循环致使冷冻非发酵面团品质有所下降。总而言之,冻融循环对冷冻非发酵面团的品质下降产生一定的负面影响。
為瞭探討儲運銷售過程引起的凍融循環對冷凍非髮酵麵糰品質的影響,利用低場覈磁共振分析儀(LF-NMR)、質構儀與流變儀等對樣品麵糰水分與蛋白質組分、質構與流變特性進行測定,研究凍融循環下冷凍非髮酵麵糰品質變化。結果錶明:5次凍融交替中,失水率顯著上升,達至3.14%;總水分中半結閤水含量在 F1後整體呈下降趨勢,錶明凍融循環過程中,半結閤水不斷散失;至第5次凍融時,醇溶蛋白含量顯著下降(P<0.05),穀蛋白與穀蛋白大分子聚閤物(GMP)含量至第4次凍融後均顯著下降(P<0.05),分彆降至2.26%與0.70%;生麵坯剪切力顯著上升,彊韌性則與之相反;熟麵坯硬度呈上升再下降趨勢,黏性基本呈上升,彈性呈下降趨勢;彈性模量G'與黏性模量G'均呈下降趨勢,且在第4次時,tanδ(tanδ=G'/G')至最大,錶明G'的變化程度比G'大。由此可見,凍融循環緻使冷凍非髮酵麵糰品質有所下降。總而言之,凍融循環對冷凍非髮酵麵糰的品質下降產生一定的負麵影響。
위료탐토저운소수과정인기적동융순배대냉동비발효면단품질적영향,이용저장핵자공진분석의(LF-NMR)、질구의여류변의등대양품면단수분여단백질조분、질구여류변특성진행측정,연구동융순배하냉동비발효면단품질변화。결과표명:5차동융교체중,실수솔현저상승,체지3.14%;총수분중반결합수함량재 F1후정체정하강추세,표명동융순배과정중,반결합수불단산실;지제5차동융시,순용단백함량현저하강(P<0.05),곡단백여곡단백대분자취합물(GMP)함량지제4차동융후균현저하강(P<0.05),분별강지2.26%여0.70%;생면배전절력현저상승,강인성칙여지상반;숙면배경도정상승재하강추세,점성기본정상승,탄성정하강추세;탄성모량G'여점성모량G'균정하강추세,차재제4차시,tanδ(tanδ=G'/G')지최대,표명G'적변화정도비G'대。유차가견,동융순배치사냉동비발효면단품질유소하강。총이언지,동융순배대냉동비발효면단적품질하강산생일정적부면영향。
In order to investigate the effect of consecutive freeze-thaw (FT) cycles on the qualities of frozen non-fermented dough during the process of the storage, transportation and sale, the low-field nuclear magnetic resonance (LF-NMR), a texture analyzer and a rheometer were used to observe changes of frozen non-fermented dough in quality during five consecutive freeze-thaw cycles. The water loss rate, water distribution and mobility, protein fraction content, textural and rheological properties of the dough samples were evaluated in our experiment. The results showed that:upon five consecutive FT cycles, the water loss rate significantly increased to 3.14%(P<0.05), while the ratio of semi-bound water to the total water declined in general, indicating that the water losing was mainly resulted by the semi-bound water release. The gliadin content significantly decreased (P<0.05) at the fifth FT cycles; the glutenin and glutenin macropolymer (GMP) content experienced an obvious drop after the forth FT cycles and down to 2.26% and 0.70%, respectively. For uncooked samples, firmness obviously increased and toughness was on the contrary;for cooked samples, hardness increased at first and then decreased, adhesiveness presented ascendant trend basically and springiness declined. The storage moduli and loss moduli (G' and G' ) both showed a downward trend, and at the forth FT cycles, tanδ(tanδ=G'/G' ) was up to the maximum, which indicated that G' showed a more dramatic drop than G' . From these results, it was thus clear that the consecutive FT cycles led to the decrease in the quality of frozen non-fermented dough. Overall, the consecutive freeze-thaw cycles had certain negative effect on the qualities of frozen non-fermented dough.
