农业工程学报
農業工程學報
농업공정학보
Transactions of the Chinese Society of Agricultural Engineering
2015年
21期
295-300
,共6页
杨哪%金亚美%徐悦%徐学明%金征宇
楊哪%金亞美%徐悅%徐學明%金徵宇
양나%금아미%서열%서학명%금정우
农产品%工艺%盐%磁电方法%腌制%咸蛋%出油率
農產品%工藝%鹽%磁電方法%醃製%鹹蛋%齣油率
농산품%공예%염%자전방법%업제%함단%출유솔
agricultural products%technology%salts%magnetic-electrical method%salting%salted eggs%oil exudation
为了实现咸蛋的快速腌制,采用磁电辅助的方法对鸭蛋进行处理,考察了不同体系场强(1~3 V/cm)、电场频率(50~200 Hz)、磁场强度(0.026~0.13 T)和磁场频率(1~10 Hz)对鸭蛋盐分和出油率的影响,结果表明:在试验条件范围内,体系电压和磁场强度越高则利于样品获得更高的盐分和出油率,在体系电压3 V/cm,磁场强度0.09 T时腌制效果较佳,腌制时交变电场和旋转磁场的较适频率值分别为100和5 Hz,蛋清、蛋黄盐分最高各自为5.73%和0.79%,蛋黄出油率则可达17.84%,较常规腌制和真空腌制有显著提高(P<0.05),具体表现为(7 d时):相对于常规腌制和真空腌制对照样,蛋清盐分质量分数分别为其4.9倍和1.2倍,而蛋黄盐分质量分数则分别为其3.1倍和1.3倍,蛋黄出油率分别提高了2.3倍和0.5倍,研究结果为咸蛋的快速腌制提供了一种新的参考方法。
為瞭實現鹹蛋的快速醃製,採用磁電輔助的方法對鴨蛋進行處理,攷察瞭不同體繫場彊(1~3 V/cm)、電場頻率(50~200 Hz)、磁場彊度(0.026~0.13 T)和磁場頻率(1~10 Hz)對鴨蛋鹽分和齣油率的影響,結果錶明:在試驗條件範圍內,體繫電壓和磁場彊度越高則利于樣品穫得更高的鹽分和齣油率,在體繫電壓3 V/cm,磁場彊度0.09 T時醃製效果較佳,醃製時交變電場和鏇轉磁場的較適頻率值分彆為100和5 Hz,蛋清、蛋黃鹽分最高各自為5.73%和0.79%,蛋黃齣油率則可達17.84%,較常規醃製和真空醃製有顯著提高(P<0.05),具體錶現為(7 d時):相對于常規醃製和真空醃製對照樣,蛋清鹽分質量分數分彆為其4.9倍和1.2倍,而蛋黃鹽分質量分數則分彆為其3.1倍和1.3倍,蛋黃齣油率分彆提高瞭2.3倍和0.5倍,研究結果為鹹蛋的快速醃製提供瞭一種新的參攷方法。
위료실현함단적쾌속업제,채용자전보조적방법대압단진행처리,고찰료불동체계장강(1~3 V/cm)、전장빈솔(50~200 Hz)、자장강도(0.026~0.13 T)화자장빈솔(1~10 Hz)대압단염분화출유솔적영향,결과표명:재시험조건범위내,체계전압화자장강도월고칙리우양품획득경고적염분화출유솔,재체계전압3 V/cm,자장강도0.09 T시업제효과교가,업제시교변전장화선전자장적교괄빈솔치분별위100화5 Hz,단청、단황염분최고각자위5.73%화0.79%,단황출유솔칙가체17.84%,교상규업제화진공업제유현저제고(P<0.05),구체표현위(7 d시):상대우상규업제화진공업제대조양,단청염분질량분수분별위기4.9배화1.2배,이단황염분질량분수칙분별위기3.1배화1.3배,단황출유솔분별제고료2.3배화0.5배,연구결과위함단적쾌속업제제공료일충신적삼고방법。
Salted eggs are a typical non-fermented and salted food, and duck eggs are often used as raw material in salted egg processing to ensure the product has excellent flavor. Currently, salted eggs with better quality can be produced through saline brining, which has the added advantage of convenient operation. In order to improve the efficiency of salting and shorten the production time, food scientists have investigated various techniques for salting eggs through improving the efficiency of diffusing ions into food materials. In this manuscript, a salting process for duck eggs, under the influence of an induced alternating electrical field combined with a rotating magnetic field, was investigated at room temperature. Additionally, the commercial quality factors, such as salt content and oil exudation, were also analyzed. The rationale is that the random movement of ions is affected by the action of an alternative electric field and magnetism, thereby altering the efficiency of mass transfer which is conducive to the diffusion of ions into the eggs. The experimental salting system was established, so that sine signals of different frequencies were generated by a function generator connected to the power amplifier. Subsequently, the signal voltage levels were amplified in order to drive the primary winding which was twined on one side of a low-frequency silicon steel core. Eventually, the induced voltage appeared in the secondary winding twined on the other side of the core, which was produced by the action of the corresponding alternating magnetic flux in the supporting silica tube where the highly concentrated NaCl solution acted as the conductor. Concurrently, a saline solution system was also affected by the rotating perpendicular magnetic field, which was generated by the different types of Nd-Fe-B magnetic tile driven by the electric motor. In this experimental salting system, the solution in the sample location chamber was connected to the supporting tube, which acted as the secondary winding. Accordingly, the total length of the salting loop system was 100 cm. The fresh duck eggs used in this test had the mass of 38-42 g, with the diameter not exceeding 40 mm. Subsequently, the duck eggs were immersed in the solution with a salt content of 20 g/(100 g), at a temperature of (20±2)℃. The processing voltage frequencies were 50, 100 and 200 Hz respectively, while the system electric field strength levels were 1, 2 and 3 V/cm, respectively. Additionally, the frequencies of the rotating magnetic field were 1, 5 and 10 Hz respectively, while the magnetic flux densities in the sample location were 0.026, 0.09, and 0.13 T, respectively.The bubbles were extracted using a vacuum pump and the samples were taken out once every 2 days during the salting for the analysis of physicochemical factors. Meanwhile, the duck eggs that were pickled with a conventional method were used as a control. The results showed that a higher system electric field strength and magnetic field strength produced higher salt content and oil exudation in eggs. The highest oil exudation in the yolk was 17.84%, which was achieved after pickling assisted with electric-magnetic field treatment. The optimum electric and magnetic frequencies were 100 and 5 Hz, respectively. No significant difference on oil exudation of the yolk was detected, when the egg was immersed in deionized water while applying a rotating magnetic field. This study provides a potential method for rapidly salting food materials by using alternating electric fields and magnetic fields.