• 제목/요약/키워드: polyglycerol polyricinoleate

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Influence of Xanthan, Emulsification Temperature, and Environmental Stresses on the Preparation of Water-in-Corn Oil Emulsions Droplets Coated by Polyglycerol Polyricinoleate

  • Surh, Jeong-Hee
    • Food Science and Biotechnology
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    • 제18권2호
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    • pp.299-306
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    • 2009
  • The purpose of this study was to prepare stable water-in-corn oil (W/O) emulsion droplets coated by polyglycerol polyricinoleate (PGPR). W/O emulsions (20 wt% aqueous phase, 80 wt% oil phase containing 8 wt% PGPR) were produced by high pressure homogenization (Emulsions 1), however, appreciable amount of relatively large water droplets (d>$10{\mu}m$) were found. To facilitate droplet disruption, viscosity of each phase was adjusted: (i) increased the viscosity of aqueous phase by adding 0.1 wt% xanthan (Emulsions 2); (ii) decreased the viscosity of oil phase and aqueous phase by heating them separately at $50^{\circ}C$ for 1 hr immediately before emulsification (Emulsions 3). Homogenizing at the elevated temperature clearly led to a smaller water droplet size, whereas xanthan neither improved nor adversely affected on the microstructures of the emulsions. In addition, the Emulsions 3 had good stability to droplet aggregation under shearing stress, thermal processing, and long term storage.

${\omega}3$계 고도불포화지방산을 함유한 고안정성 수중유적형 유화계의 확립 (Optimization of the Conditions for the O/W Emulsion Containing ${\omega}3$ Polyunsaturated Fatty Acid)

  • 장판식;조계봉
    • 한국식품과학회지
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    • 제30권5호
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    • pp.1114-1119
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    • 1998
  • 지방질층(${\omega}3$계 고도불포화 지방산을 함유한 정제어유)과 수분층(고분자 물질의 분산 호화액)이 3:2(w:w)의 비율로 혼합되고 유화제가 0.50%(w/w)의 농도로 첨가된 O/W형 유화계내에서 첨가된 유화제와 고분자물질의 종류 및 조성이 유화안정성에 미치는 영향을 검토하였다. HLB값이 11.0 이상 또는 2.8 이하인 단일종류의 유화제가 첨가된 실험구가 99.0 이상의 높은 ESI값을 갖는 안정한 유화계를 형성하였으며, HLB값이 $3.4{\sim}8.6$ 범위의 단일 종류 유화제를 첨가한 경우는 40.0 이하의 낮은 ESI값을 갖는 불안정한 유화계를 형성하였고, 특히 HLB값이 0.6인 유화제 PGPR(polyglycerol polyricinoleate)을 첨가한 경우는 100.0의 높은 ESI값을 나타낼 뿐만 아니라 안정한 유화계를 형성하는 양상을 나타내었다. 또한, PGPR과 PSML(polyoxyethylene sorbitan monolaurate)을 함께 0.50%(w/w)의 농도로 첨가하면 단일 종류의 유화제를 첨가한 경우에 비하여 ESI값이 모두 높은 유화계를 형성하였으며, 유화제의 최적 조성은 PGPR이 0.25%(w/w), PSML이 0.25%(w/w)이었다. 피복물질로서는 waxy corn starch와 agar를 각각 0.25%(w/v) 및 0.50%(w/v)의 농도로 고르게 분산 액화시킨 수분층을 사용한 유화계에서 최대의 ESI값을 갖는 것으로 판명되었다.

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Formula Optimization of a Perilla-canola Oil (O/W) Emulsion and Its Potential Application as an Animal Fat Replacer in Meat Emulsion

  • Utama, Dicky Tri;Jeong, Haeseong;Kim, Juntae;Lee, Sung Ki
    • 한국축산식품학회지
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    • 제38권3호
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    • pp.580-592
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    • 2018
  • The formulation of an oil/water (o/w) emulsion made up of a mixture of perilla oil and canola oil (30/70 w/w) was optimized using a response surface methodology to find a replacement for animal fat in an emulsion-type meat product. A 12 run Plackett-Burman design (PBD) was applied to screen the effect of potential ingredients in the (o/w) emulsion, including polyglycerol polyricinoleate (PGPR), fish gelatin, soy protein isolate (SPI), sodium caseinate, carrageenan (CR), inulin (IN) and sodium tripolyphosphate. The PBD showed that SPI, CR and IN showed promise but required further optimization, and other ingredients did not affect the technological properties of the (o/w) emulsion. The PBD also showed that PGPR played a critical role in inhibiting an emulsion break. The level of PGPR was then fixed at 3.2% (w/w total emulsion) for an optimization study. A central composite design (CCD) was applied to optimize the addition levels of SPI, CR or IN in an (o/w) emulsion and to observe their effects on emulsion stability, cooking loss and the textural properties of a cooked meat emulsion. Significant interactions between SPI and CR increased the cooking loss in the meat emulsion. In contrast, IN showed interactions with SPI leading to a reduction in cooking loss. Thus, CR was also removed from the formulation. After optimization, the level of SPI (4.48% w/w) and IN (14% w/w) was validated, leading to a perilla-canola oil (o/w) emulsion with the ability to replace animal fat in an emulsion-type meat products.

Microencapsulation of Caramel Flavor and Properties of Ready-to-drink Milk Beverages Supplemented with Coffee Containing These Microcapsules

  • Kim, Gur-Yoo;Lee, Jaehak;Lim, Seungtae;Kang, Hyojin;Ahn, Sung-Il;Jhoo, Jin-Woo;Ra, Chang-Six
    • 한국축산식품학회지
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    • 제39권5호
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    • pp.780-791
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    • 2019
  • This study aimed to extend the retention of flavor in coffee-containing milk beverage by microencapsulation. The core material was caramel flavor, and the primary and secondary coating materials were medium-chain triglyceride and maltodextrin, respectively. Polyglycerol polyricinoleate was used as the primary emulsifier, and the secondary emulsifier was polyoxyethylene sorbitan monolaurate. Response surface methodology was employed to determine optimum microencapsulation conditions, and headspace solid-phase microextraction was used to detect the caramel flavor during storage. The microencapsulation yield of the caramel flavor increased as the ratio of primary to secondary coating material increased. The optimum ratio of core to primary coating material for the water-in-oil (W/O) phase was 1:9, and that of the W/O phase to the secondary coating material was also 1:9. Microencapsulation yield was observed to be approximately 93.43%. In case of in vitro release behavior, the release rate of the capsules in the simulated gastric environment was feeble; however, the release rate in the simulated intestinal environment rapidly increased within 30 min, and nearly 70% of the core material was released within 120 min. The caramel flavor-supplemented beverage sample exhibited an exponential degradation in its flavor components. However, microcapsules containing flavor samples showed sustained flavor release compared to caramel flavor-filled samples under higher storage temperatures. In conclusion, the addition of coffee flavor microcapsules to coffee-containing milk beverages effectively extended the retention of the coffee flavor during the storage period.