共查询到19条相似文献,搜索用时 46 毫秒
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以吊干杏为试材,采用2.0 mmol/L的SA(Salicylic acid,SA)浸泡处理杏果10 min,以蒸馏水处理作为对照,将处理后的杏果贮藏于(4~6)℃和(?1.5~?1)℃下,研究水杨酸处理结合冰温贮藏对吊干杏采后保鲜效果的影响。结果显示,与冷藏(4~6)℃相比,冰温(?1.5~?1)℃贮藏49 d的吊干杏腐烂率与失重率较低,营养物质含量更高,过氧化氢含量与超氧阴离子生成速率处于较低水平,体现较高的抗氧化酶活性,膜质受损程度较轻。与冷藏组相比,2 mmol/L SA处理可显著抑制冷藏和冰温贮藏期间吊干杏果实腐烂率和失重率的上升(P<0.05);显著延缓硬度、可溶性固形物、抗坏血酸和可滴定酸含量的下降(P<0.05);显著抑制超氧阴离子生成速率、过氧化氢含量、丙二醛含量及细胞膜透性的上升(P<0.05);并显著提高贮藏后期超氧化物歧化酶、过氧化氢酶、抗坏血酸过氧化物酶及过氧化物酶的活性(P<0.05)。结果表明,冰温贮藏较普通冷藏更有利于维持吊干杏较好的采后品质;2 mmol/L SA处理可有效延缓冰温和冷藏期间吊干杏品质的下降,尤其对冰温贮藏吊干杏各指标的影响更为明显。 相似文献
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温度驯化对蓝莓冰温贮藏期间生理品质变化的影响 总被引:3,自引:0,他引:3
研究不同低温驯化方式结合冰温贮藏对蓝莓采后生理和贮藏品质和保鲜效果的影响。采用10 ℃放置12 h后转入4 ℃放置12 h和在4 ℃放置24 h这两种驯化方式处理蓝莓,然后在冰温库中贮藏70 d,每10 d测一次相关指标。结果表明,与直接冰温贮藏和冷藏相比,低温驯化处理对延缓蓝莓的腐烂、抑制VC和花色苷含量的减少、保护蓝莓果霜均有明显效果,并且抑制了蓝莓的呼吸强度和乙烯释放速率,对过氧化氢酶和脂氧合酶活力也有很明显的抑制效果。其中经10 ℃放置12 h后转入4 ℃放置12 h处理的效果最优。说明经低温驯化后冰温贮藏蓝莓的保鲜效果优于直接冰温和冷藏。 相似文献
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为探讨冰温保鲜对牛肉品质特性的影响,设定-1℃冰温贮藏,并以4℃冷藏为对照,测定肉样的色差(a*值、L*值)、pH值、汁液流出率、蒸煮损失率、挥发性盐基氮、剪切力和菌落总数,并对肉品进行感官评分。结果显示:-1℃冰温组的色差a*值和L*值、蒸煮损失率、剪切力和感官评分整体上均高于4℃冷藏组,在销售过程中更容易被消费者接受;-1℃冰温组的pH值、汁液流出率、挥发性盐基氮和菌落总数整体上均低于4℃冷藏组,可将肉品的货架期有效延长3 d。因此,冰温贮藏可有效保持肉品的品质,具有明显的保鲜效果。 相似文献
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《食品工业科技》2015,(19)
为探究不同温度下金枪鱼的保鲜效果,实验设置了-4℃微冻贮藏、-2℃冰温贮藏和4℃冷藏三组实验,以p H、K值、组胺、挥发性盐基氮(TVB-N)、高铁肌红蛋白百分含量以及微生物等理化指标的变化为依据测定了金枪鱼在不同贮藏温度下的品质变化,结果表明:随着贮藏时间的延长,不同温度下金枪鱼的K值、组胺、TVB-N和高铁肌红蛋白含量以及菌落总数均出现不同程度的上升,且温度越高上升速率越快,微冻组和冰温组其TVB-N值到60 h时分别为10.83 mg/100 g和12.77 mg/100 g15 mg/100 g(一级鲜肉指标值),而4℃冷藏组在56 h时TVB-N值达到17.12 mg/100 g超过一级鲜度肉指标,且冷藏组组胺变化明显而微冻组和冰温组在整个贮藏过程中组胺变化平稳。综合各项理化及感官指标可知金枪鱼在微冻和冰温条件下保鲜效果明显优于冷藏。 相似文献
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本文研究了雪莲果在普通冷藏(4℃)和冰温贮藏(0℃)条件下果实生理与贮藏品质的变化。结果表明:与冷藏相比,低温驯化结合冰温贮藏处理能对延缓雪莲果硬度的下降,减少低聚果糖和水分的损失均有明显效果。在贮藏90d时,经低温驯化的雪莲果的硬度为1974.59g,低聚果糖含量为70.44mg/g,水分含量为84.93%,还原糖含量为27.64mg/g,维生素C含量51.38μg/g,而直接冷藏的值依次为1862.11g,67.28mg/g,84.21%,25.53mg/g,50.25μg/g。研究表明雪莲果经低温驯化结合冰温贮藏的效果优于直接冰温贮藏的效果。 相似文献
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目的:探讨冷藏、冰温贮藏、1-甲基环丙烯(1-methylcyclopropene,1-MCP)处理结合冰温贮藏对采后柿果硬度和软化相关物质代谢的影响。结果:与冷藏处理相比,冰温贮藏有效抑制了乙烯生成,抑制了多聚半乳糖醛酸酶(PG)、纤维素酶(Cx)、淀粉酶活性的增加,抑制了可溶性果胶含量的升高,延缓了果肉硬度的降低,而1-MCP处理结合冰温贮藏对柿果实硬度的保持、抑制PG、Cx、淀粉酶活性升高的作用好于冰温单一贮藏,因此,1-MCP处理结合冰温贮藏是保持柿果实硬度较为适宜的贮藏方法。 相似文献
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油脂在储存过程中,其品质指标易受温度等因素的影响。将大豆原油和菜籽原油储存于室外地上和埋于室外地下的钢制储罐,定期取样测定油脂的水分及挥发物、酸值、过氧化值、色泽、挥发性成分、脂肪酸组成、反式脂肪酸含量、氧化稳定性及甾醇和维生素E含量,考察不同储油方式对大豆原油和菜籽原油品质的影响。结果表明:地下储油温度变化较小,基本在11~27℃之间,地上储油温度变化较大,最高接近45℃,最低接近0℃;地上、地下储油中均未检出反式脂肪酸,储油方式对油脂水分及挥发物、色泽、脂肪酸组成影响较小;储存12个月时,地上、地下储存大豆原油酸值升幅分别为83.3%、12.5%,地上、地下储存菜籽原油酸值升幅分别为86.4%、19.0%,地上、地下储存大豆原油过氧化值升幅分别为243%、218%,地上、地下储存菜籽原油过氧化值升幅分别为219%、167%;地下储油的氧化稳定性优于地上储油,地下储油对部分重要挥发性成分和甾醇、维生素E等油脂营养成分的的保留效果优于地上储油。总的来说,地下储油是良好的油脂品质保鲜技术,不但能控制氧化速率,对营养价值及风味的保持效果也较好。 相似文献
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Bulk milk cooling systems for farm use are described. Data are given for the performance of energy conserving systems, such as in-line precooling of the milk and heat recovery units . 相似文献
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研究了不同储藏方式对粳糙米储藏品质的影响。结果表明:随着储藏时间的延长和储藏温度的升高,充氮气调和常规储藏粳糙米的发芽率、生活力均呈下降趋势,且温度越高,下降得越明显;常规储藏较气调下降较慢,气调储藏在保持糙米种用品质上并不占优势。气调组和常规组粳糙米的脂肪酸值和丙二醛含量随着储藏时间和温度的增加呈上升趋势,且温度越高,增加越明显;在低温区(20、25和30℃)这些指标随时间的增加幅度较之35℃要小一些,气调储藏能够缓解高温对粳糙米品质的不利影响。常规储藏和气调储藏的过氧化氢酶活动度均随储藏时间的延长而降低;低温区变化相对缓慢,35℃条件下变化幅度较大;但常规储藏降低得更明显,气调储藏的值要好于常规储藏。因此,低温储藏是保鲜粳糙米的最佳手段,在低温条件受限的地区,可考虑使用充氮气调储粮技术,既节约成本,又绿色环保。 相似文献
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目的:制备一种高水分虾仁即食调理食品(水分含量>70%,水分活度>0.95),并对其冷藏保藏期间品质变化进行了研究。方法:活虾去虾头、壳及肠线后,100 ℃ 沸水浴预煮2 min,沥干水后进行真空包装,然后进行二次沸水浴100 ℃热处理10 min,最后微波(600 W)处理2 min。研究冷藏即食虾仁在保藏期间(4 ℃,7 d)水分含量、水分活度、残余内源酶活力、质构、风味物质、微生物等指标的变化。结果:产品在保藏期内水分含量和水分活度没有显著变化;质构方面,产品的回复性略有降低、粘性略有升高,弹性及硬度等没有显著性变化;残余内源酶活力在保藏期间变化幅度不超过1%;虽醇类、酯类和烷烃类等风味物质略有增加,但整体感官品质仍然可以接受,产品的微生物总数低于104 CFU/g,且重金属含量均低于0.5 mg/kg。采用水煮、真空包装、微波处理、低温保藏相结合制备的虾仁即食调理食品,在预设货架期7 d内可以保持较高的水分活度和良好的感官品质。 相似文献
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Small hermetic bags (50 and 100 kg capacities) used by smallholder farmers in several African countries have proven to be a low-cost solution for preventing storage losses due to insects. The complexity of postharvest practices and the need for ideal drying conditions, especially in the Sub-Sahara, has led to questions about the efficacy of the hermetic bags for controlling spoilage by fungi and the potential for mycotoxin accumulation. This study compared the effects of environmental temperature and relative humidity at two locations (Indiana and Arkansas) on dry maize (14% moisture content) in woven polypropylene bags and Purdue Improved Crop Storage (PICS) hermetic bags. Temperature and relative humidity data loggers placed in the middle of each bag provided profiles of environmental influences on stored grain at the two locations. The results indicated that the PICS bags prevented moisture penetration over the three-month storage period. In contrast, maize in the woven bags increased in moisture content. For both bag types, no evidence was obtained indicating the spread of Aspergillus flavus from colonized maize to adjacent non-colonized maize. However, other storage fungi did increase during storage. The number of infected kernels did not increase in the PICS bags, but the numbers in the woven bags increased significantly. The warmer environment in Arkansas resulted in significantly higher insect populations in the woven bags than in Indiana. Insects in the PICS bags remained low at both locations. This study demonstrates that the PICS hermetic bags are effective at blocking the effects of external humidity fluctuations as well as the spread of fungi to non-infected kernels. 相似文献
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Artificial refrigeration is sufficient for maintaining the quality of soybean seeds in storage in processing plants, but when lots are distributed to rural producers, they are often kept in natural environments, without temperature or relative humidity control, which decreases their germination rates. This research aimed to evaluate different storage conditions and technological packaging for soybean seeds. The first stage evaluated the quality of soybean seeds stored at different temperatures for up to one year in raffia bags with or without polyethylene inner liners. The second stage evaluated the quality of soybean seeds stored in a natural atmosphere in raffia or laminated packaging, in a modified atmosphere with polyethylene packaging, in a refrigerated atmosphere with raffia or laminated packaging, or in a modified and refrigerated atmosphere with polyethylene packaging. An increase in storage time had a negative influence on the quality of the stored seeds. Storage temperature was the main influence in the reduction in seed physiological quality. Storage of soybean seeds in raffia packaging coated with polyethylene in a natural-temperature environment resulted in seeds retaining similar physical and physiological qualities to those stored under refrigeration. Raffia packaging coated with laminated material maintained the best physical and physiological quality of soybean seeds stored over time. Optimal packaging technology with laminated coating in “big bag” format has replaced the conditioning of storage environments with the maintenance of the quality of soybean seeds over time. The packaging technology is an excellent alternative for the soybean processing units. 相似文献