肉类工业
肉類工業
육류공업
MEAT INDUSTRY
2014年
12期
21-26
,共6页
任杰%邱春强%朱伟%张坤生%任云霞
任傑%邱春彊%硃偉%張坤生%任雲霞
임걸%구춘강%주위%장곤생%임운하
酱卤鸡肉%真空冷却%品质影响%微生物
醬滷鷄肉%真空冷卻%品質影響%微生物
장서계육%진공냉각%품질영향%미생물
sauced chicken%vacuum cooling%quality changed%microorganism
研究了真空冷却、浸液真空冷却、自然冷却和鼓风冷却,得到冷却方式对冷却速率、冷却损失、品质变化及后期贮藏阶段微生物的影响,进一步对真空冷却和浸液真空冷却可行性评估。普通真空冷却质量损失过多,对产品产生一些负面影响。实验尝试对样品进行浸液真空冷却,避免了水分的大量损失,其冷却时间明显小于自然冷却和鼓风冷却(p<0.05)。对品质的影响:不同冷却方式之间,剪切力、TPA、色度值均存在差异。真空冷却样品的剪切力、硬度、咀嚼性要明显大于其他冷却(p<0.05),弹性较差,真空冷却形成的多孔结构对后期储藏阶段脂肪氧化有促进作用。真空冷却的样品微生物数量显著低于自然冷却和鼓风冷却,对产品的保藏有利。综合评估,浸液真空冷却要优于其他冷却方式。
研究瞭真空冷卻、浸液真空冷卻、自然冷卻和鼓風冷卻,得到冷卻方式對冷卻速率、冷卻損失、品質變化及後期貯藏階段微生物的影響,進一步對真空冷卻和浸液真空冷卻可行性評估。普通真空冷卻質量損失過多,對產品產生一些負麵影響。實驗嘗試對樣品進行浸液真空冷卻,避免瞭水分的大量損失,其冷卻時間明顯小于自然冷卻和鼓風冷卻(p<0.05)。對品質的影響:不同冷卻方式之間,剪切力、TPA、色度值均存在差異。真空冷卻樣品的剪切力、硬度、咀嚼性要明顯大于其他冷卻(p<0.05),彈性較差,真空冷卻形成的多孔結構對後期儲藏階段脂肪氧化有促進作用。真空冷卻的樣品微生物數量顯著低于自然冷卻和鼓風冷卻,對產品的保藏有利。綜閤評估,浸液真空冷卻要優于其他冷卻方式。
연구료진공냉각、침액진공냉각、자연냉각화고풍냉각,득도냉각방식대냉각속솔、냉각손실、품질변화급후기저장계단미생물적영향,진일보대진공냉각화침액진공냉각가행성평고。보통진공냉각질량손실과다,대산품산생일사부면영향。실험상시대양품진행침액진공냉각,피면료수분적대량손실,기냉각시간명현소우자연냉각화고풍냉각(p<0.05)。대품질적영향:불동냉각방식지간,전절력、TPA、색도치균존재차이。진공냉각양품적전절력、경도、저작성요명현대우기타냉각(p<0.05),탄성교차,진공냉각형성적다공결구대후기저장계단지방양화유촉진작용。진공냉각적양품미생물수량현저저우자연냉각화고풍냉각,대산품적보장유리。종합평고,침액진공냉각요우우기타냉각방식。
Vacuum cooling ( VC ) , immersion vacuum cooling ( IVC ) , natural cooling ( NC ) and air blast cooling ( AB) were studied in this article. The effects of cooling methods on cooling rate, cool?ing loss, quality changed and microorganisms during storage were determined. The feasibility assessment of VC and IVC was studied. Ordinary VC had negative effects on the product and cooling loss too much. The experiment tried to process sample by IVC, which was beneficial to avoid mass loss. And the cooling time was less than NC and AB significantly ( p<0 . 05 ) . The effects of different cooling methods on shear force, TPA, color were significant differences (p<0. 05). The shear force, hardness, chewiness of VC sample were significant higher (p<0. 05) than others and it had weaker springiness. Porous structure formed by VC would promote fat oxidation. VC sample was good for storage whose microbial quantity was significantly less (p<0. 05) than NC and AB. After comprehensive comparison, we could know that IVC method was much better than any other cooling methods.
