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超高静压下食品压致升温规律的研究 总被引:2,自引:1,他引:1
为了弄清食品在超高静压下的压致升温规律,以便准确控制杀菌的加工工艺条件,通过聚四氟乙烯套筒模拟较小热损失条件下,将温度探头伸入高压腔内在线测定了液态食品和固态食品在超高静压下的温度变化情况,研究得出其在不同条件下的压致升温规律。结果表明:在室温下100~400 MPa范围内,脂肪含量高的食品的压致升温值明显高于含水率高的食品的压致升温值,且都随压力的增加而减小。在25~55℃和200 MPa时脂肪含量高的食品压致升温值随初始温度的增加而减小,而水的压制升温值受初始温度影响较大且随初始温度的增加而增加。可见,食品压致升温值主要受其成分的影响。故在食品的超高静压杀菌过程中必须考虑不同食品的压致升温值及热效应问题,以便合理确定食品的超高静压加工工艺条件。 相似文献
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高静压对蜡样芽孢杆菌的致死与损伤效应 总被引:2,自引:0,他引:2
本试验采用响应曲面法的Box-Behnken设计,研究了高静压处理对蜡样芽孢杆菌生命活动的影响。结果表明压力处理导致了蜡样芽孢杆菌的致死作用与损伤效应。利用Design Expert软件建立了致死率的响应模型,Y=62.8+27.2x1+7.3x2+3.2x3+1.0x21+2.6x22+1.0x23-2.0x1x2-1.0x1x3-0.7x2x3。方差分析表明模型达到极显著水平,模型的系数显著性检验提示压力、温度、时间以及压力与温度的交互作用对致死率有显著影响。试验还运用VITEK细菌鉴定方法快速检测了蜡样芽孢杆菌压致生理生化损伤,结果证明压力导致菌体对外界营养分子利用以及药物敏感性等方面的特性发生了改变。 相似文献
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超高压处理对砀山梨汁中过氧化物酶活性的影响 总被引:7,自引:5,他引:7
该文研究了超高压处理对砀山梨汁中过氧化物酶活性的影响。试验压力为0.1~500 MPa,温度为20~60℃。此外,考察了不同pH值(3~7)和保压时间(2~34 min)超高压处理对酶活性的影响。试验结果表明:在处理温度为50℃、保压时间为10 min和梨汁pH 5的条件下,300 MPa以下压力范围内高压处理酶被激活,其活性增加;大于300 MPa时酶的活性随压力增大而下降。高压处理时,温度低于40℃对酶的活性影响不大;有效影响高压处理的最小温度为40℃。保压时间超过10 min后时间延长对酶的活性影响 相似文献
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加工方式对非发酵面团小麦醇溶蛋白致敏性的影响 总被引:2,自引:2,他引:0
该研究探究了热加工(水煮、烘烤、微波、高温高压)、冷处理(液氮、速冻机速冻)和非热加工(超高静压、辐照、脉冲强光、臭氧和超声波)处理对非发酵面团小麦醇溶蛋白致敏性的影响。利用SDS-PAGE和双抗体夹心ELISA法研究各种加工处理后非发酵面团小麦醇溶蛋白的分子量和致敏性变化。结果表明:200和300 MPa的超高静压处理后,非发酵面团小麦醇溶蛋白的致敏性显著增加(P0.05),均增至125%左右;水煮、微波、高温高压、烘烤、液氮、速冻机处理、超高静压250MPa、辐照(7、13kGy)、臭氧熏蒸、脉冲强光和超声波处理均能显著降低非发酵面团小麦醇溶蛋白的致敏性(P0.05),其中以水煮、高温高压、液氮、臭氧和脉冲强光(PL-1)处理的脱敏效果最显著(P0.01),均降至60%左右。由此可知,加工方式能够显著影响非发酵面团小麦醇溶蛋白的致敏性,可作为食品中过敏原安全控制的有效手段,为脱敏食品的生产提供有效参考。进一步研究需要结合其他体内试验的评估,特别是小麦易敏人群的临床试验。 相似文献
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片状食品微波干燥热质传递模型及其干燥特性 总被引:3,自引:1,他引:3
为了探索片状食品微波干燥规律,以土豆片为试验模型,对片状食品进行了微波干燥试验和数值模拟研究,获得了土豆片温度变化规律和相应的干燥特征曲线;探讨了微波能水平和切片厚度对干燥过程的影响;根据热平衡和扩散方程建立相应的模型并采用有限差分法求解,试验值与模型计算值基本吻合。土豆片微波干燥经历预热、恒温、快速升温3个阶段:在预热阶段物料干燥脱水少;在恒温阶段物料干燥失去大部分水分;在快速升温阶段物料干燥速率减小,其温度快速上升。恒温阶段物料温度随切片厚度和微波能水平增加而增高;干燥速率不受物料切片厚度变化影响,但随微波能水平增加而增大。 相似文献
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食品物料在超高压下的导热系数是研究超高压加工过程中传热与温度变化的必要参数,但有关超高压下食品物料的导热系数数据和测量方法还十分缺乏。该文基于线热源法设计了适用于超高压力环境下食品物料导热系数的测量探针和聚甲醛样品容器,利用1.5%琼脂凝胶对热探针在25℃不同压力下(0.1~400 MPa)进行标定试验,结果表明测量值与纯水导热系数的参考值非常接近且呈良好的线性相关关系(R2=0.9997),据此得到探针的标定系数为0.9944。在25℃测量了蛋清、蛋黄、火腿肠和奶油在0.1~400 MPa压力下的导热系数值。结果发现:在25℃条件下,超高压下食品物料的导热系数较常压下均有一定程度的增大(最大达到28%),且有随压力增大而增大的趋势;一定压力条件下,食品物料的导热系数随着含水量的增大而增大。建立了25℃条件食品物料在一定压力范围内(0.1~400 MPa)导热系数预测的经验公式,对研究的几种食品物料拟合得到的方程回归系数在0.91以上。 相似文献
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微波是波长微小的电磁波,具有很强的介质穿透能力,可实现物料内外的同时升温。在利用微波熟化淀粉类食品时,具有热效率高、可控性强、设备占地小等优点。本文介绍了淀粉升温糊化过程中微波热效应和非热效应;总结了研究微波非热效应的几种新手段;比较了微波处理与热传导处理在淀粉升温糊化过程中,淀粉颗粒表观特征、晶体结构和分子结构的变化以及热学特性的差异;论述了微波处理淀粉乳中水的响应。本文为后续深入研究微波处理对食物中淀粉糊化的影响与微波糊化淀粉特性的开发利用提供了参考。 相似文献
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球形食品真空冷却过程中参数分析 总被引:3,自引:1,他引:3
建立了描述球形食品在真空冷却中传热、传质的数学模型。通过数值求解得到真空压力、产品质量、产品温度(表面温度、中心温度、质量平均温度)随时间的变化曲线。实验装置中高精度的数据采集系统能够在线测定和记录真空室压力、产品质量、产品不同位置的温度随时间的变化。在春收甘蓝的真空冷却实验中,模拟的压力和实测的压力在10000~600 Pa的降压过程中最大相差100 Pa;模拟值和实测值间温度的最大差值小于1℃;真空冷却中,模拟的甘蓝的水分损失率是3.32%,实测的甘蓝水分损失率是2.97%,相差0.35%。研究结果对 相似文献
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微波加热技术具有速度快、可控性高等特点,在食品和农产品的热加工过程中具有较强的应用潜力。该文在分析微波加热原理的基础上,从技术应用、设备研制和仿真研究等方面介绍微波加热应用现状,如在农产品干燥、杀菌、萃取和膨化等方面进行深入研究和应用。指出微波加热在机理解析、工艺局限性、加热不均匀性和能量利用低等问题,尤其是微波场对物料内极性成分作用机制的研究深度、微波加热时在物料内温度和水分分布的不均匀性规律定量表征等方面,严重影响产品质量稳定性和能量充分利用。从揭示微波在加热腔体内传递和物料内吸收的机理,提高微波加热均匀性和改善加工质量,以及研制智能化工业用微波加工设备等方面,指出微波加热技术在食品和农产品加工中应用热点研究方向。针对微波加热技术在农产品和食品加工中科学问题、技术需求和设备现状,为发挥技术优势、拓展应用领域,该文提出微波加热理论研究与技术应用的发展趋势,以期提高微波热加工技术工业化应用适用性、保证产品质量和能量利用率。 相似文献
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Lemmens L Colle IJ Van Buggenhout S Van Loey AM Hendrickx ME 《Journal of agricultural and food chemistry》2011,59(7):3162-3167
This study describes a detailed and systematic investigation on the effect of thermal processing in terms of temperature and time (kinetic study) on β-carotene in vitro bioaccessibility in carrots. β-Carotene in vitro bioaccessibility increased with increasing processing temperature and time until steady-state conditions were reached after prolonged heating. The bioaccessibility values in steady-state conditions were temperature dependent. The experimental bioaccessibility data could adequately be modeled with a fractional conversion model. For the first time, modeling of processing-induced bioaccessibility changes is reported in literature. The results of the present kinetic study were used to estimate the impact of industrially relevant thermal processes on β-carotene bioaccessibility in carrots by simulation. It was shown that, to achieve a high β-carotene bioaccessibility, processing of carrots is essential (i.e., on the one hand, intense thermal processing or, on the other hand, mild thermal processing combined with intense mechanical processing). 相似文献
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Butz P Bognar A Dieterich S Tauscher B 《Journal of agricultural and food chemistry》2007,55(4):1289-1294
High-pressure/high-temperature properties of vitamins in food are important with respect to the new pressure-assisted thermal sterilization method utilizing pressure-induced adiabatic temperature changes. Riboflavin, thiamin, and thiamin monophosphate (TMP) stabilities were assayed in the temperature range from 25 to 100 degrees C under normal pressure (0.1 MPa) and high pressure (600 MPa) in acetate-buffered (pH 5.5) model solutions, some with added fructose, hemoglobin, or ascorbic acid. Thiamin and riboflavin stabilities were also assayed in minced fresh pork fillet and in rehydrated pork reference material with and without pressure treatment at 600 MPa in the temperature range from 20 to 100 degrees C. In pork, the vitamins proved to be sufficiently stabile for high-pressure/high-temperature processing. Under similar conditions, vitamin decay in model solutions was up to 30 times faster, especially that of TMP. Thus, it appears that it may not be possible to draw conclusions for the pressure behavior of real food matrices from the results of investigations in food models. A further consequence is that caution is necessary when supplementing foods with synthetic B vitamins preceding high-pressure/high-temperature processing. 相似文献
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Pregelatinized starch is employed in many food applications due to the instantaneous nature of thickening and stability imparted by modification. Proteins, however, have been excluded as a viscosifying agent due to requisite thermal treatments required to create structure. Whey protein isolate gels were produced while manipulating heating time, pH, and mineral type/content, producing a variety of gel types/networks. Gels were frozen, freeze-dried, and ground into a powder. Once reconstituted in deionized water, gel powders were evaluated based on solubility studies, rotational viscometry, and electrophoresis. The protein powder exhibiting the largest apparent viscosity, highest degree of hydrolysis, and greatest solubility was selected for pH and temperature stability analyses and small amplitude oscillatory rheology. This processing technique manipulates WPI into a product capable of forming cold-set weak gel structures suitable for thickening over a wide range of temperature and pH food systems. 相似文献
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为了探讨高密度CO_2(dense phase carbon dioxide,DPCD)诱导蛋白质形成凝胶的机制,以凡纳滨对虾肌球蛋白为研究对象,研究了DPCD处理压强、温度和时间对虾肌球蛋白形成凝胶的临界浓度和对虾肉糜凝胶强度的影响。研究结果表明:DPCD处理压强和温度对虾肌球蛋白溶液形成凝胶的临界浓度有显著影响,处理时间对肌球蛋白溶液形成凝胶的临界浓度无显著影响,但增加处理时间,可以形成更加紧实的凝胶。在40℃和5~30 MPa时虾肌球蛋白溶液形成凝胶的临界质量浓度为14 mg/mL,在50℃和5、10 MPa时虾肌球蛋白溶液形成凝胶的临界质量浓度为12 mg/mL,在50℃和15~30 MPa时虾肌球蛋白溶液形成凝胶的临界质量浓度为11 mg/mL,在60℃和5~30 MPa时虾肌球蛋白溶液形成凝胶的临界质量浓度为10 mg/mL。DPCD处理压强和温度对虾肉糜的凝胶强度也具有显著影响(P0.05),且随着压强增加和温度升高,虾肉糜凝胶强度呈增加趋势(P0.05);在50℃和25 MPa下处理虾肉糜20 min,形成的凝胶强度较好,达到了(14.28±0.57)N·mm。DPCD处理温度越高,虾肌球蛋白形成凝胶的临界浓度就越低,而虾肉糜形成凝胶的强度越高;DPCD处理压强越高,虽然对虾肌球蛋白形成凝胶的临界浓度影响较小,但能使虾肌球蛋白和虾肉糜形成凝胶的强度增加。从分析中还可以推断,DPCD低压(5~10 MPa)诱导虾肉糜形成凝胶主要是热效应的作用,DPCD较高压强(10 MPa)诱导虾肉糜形成凝胶是热和CO_2分子效应的共同作用。研究结果为进一步阐明DPCD诱导蛋白质形成凝胶的机制提供了基础数据。 相似文献
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Lee JW Thomas LC Jerrell J Feng H Cadwallader KR Schmidt SJ 《Journal of agricultural and food chemistry》2011,59(2):702-712
High performance liquid chromatography (HPLC) on a calcium form cation exchange column with refractive index and photodiode array detection was used to investigate thermal decomposition as the cause of the loss of crystalline structure in sucrose. Crystalline sucrose structure was removed using a standard differential scanning calorimetry (SDSC) method (fast heating method) and a quasi-isothermal modulated differential scanning calorimetry (MDSC) method (slow heating method). In the fast heating method, initial decomposition components, glucose (0.365%) and 5-HMF (0.003%), were found in the sucrose sample coincident with the onset temperature of the first endothermic peak. In the slow heating method, glucose (0.411%) and 5-HMF (0.003%) were found in the sucrose sample coincident with the holding time (50 min) at which the reversing heat capacity began to increase. In both methods, even before the crystalline structure in sucrose was completely removed, unidentified thermal decomposition components were formed. These results prove not only that the loss of crystalline structure in sucrose is caused by thermal decomposition, but also that it is achieved via a time-temperature combination process. This knowledge is important for quality assurance purposes and for developing new sugar based food and pharmaceutical products. In addition, this research provides new insights into the caramelization process, showing that caramelization can occur under low temperature (significantly below the literature reported melting temperature), albeit longer time, conditions. 相似文献
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L Ludikhuyze V Ooms C Weemaes M Hendrickx 《Journal of agricultural and food chemistry》1999,47(5):1794-1800
Thermal and pressure inactivation of myrosinase from broccoli was kinetically investigated. Thermal inactivation proceeded in the temperature range 30-60 degrees C. These results indicate that myrosinase is rather thermolabile, as compared to other food quality related enzymes such as polyphenol oxidase, lipoxygenase, pectinmethylesterase, and peroxidase. In addition, a consecutive step model was shown to be efficient in modeling the inactivation curves. Two possible inactivation mechanisms corresponding to the consecutive step model were postulated. Pressure inactivation at 20 degrees C occurred at pressures between 200 and 450 MPa. In addition to its thermal sensitivity, the enzyme likewise is rather pressure sensitive as compared to the above-mentioned food quality related enzymes. By analogy with thermal inactivation, a consecutive step model could adequately describe pressure inactivation curves. At 35 degrees C, pressure inactivation was studied in the range between 0. 1 and 450 MPa. Application of low pressure (<350 MPa) resulted in retardation of thermal inactivation, indicating an antagonistic or protective effect of low pressure. 相似文献