JOURNAL OF LIGHT INDUSTRY

CN 41-1437/TS  ISSN 2096-1553

Volume 39 Issue 1
February 2024
Article Contents
    ZHANG Yu, XUE Yushu, SHEN Yijie, et al. Effect of ultrasound treatment on the structure and properties of walnut oil oleogels based on the beeswax-monoacylglycerol[J]. Journal of Light Industry, 2024, 39(1): 12-21. doi: 10.12187/2024.01.002
    Citation: ZHANG Yu, XUE Yushu, SHEN Yijie, et al. Effect of ultrasound treatment on the structure and properties of walnut oil oleogels based on the beeswax-monoacylglycerol[J]. Journal of Light Industry, 2024, 39(1): 12-21. doi: 10.12187/2024.01.002 shu

    Effect of ultrasound treatment on the structure and properties of walnut oil oleogels based on the beeswax-monoacylglycerol

    • 1. Beijing Key Laboratory of Forest Food Processing and Safety, Beijing 100083, China;

    • 2. College of Biological Sciences and Biotechnology, Beijing Forestry University, Beijing 100083, China

    • Received Date: 2023-08-25
      Accepted Date: 2023-12-05
    • The walnut oil oleogels prepared by beeswax and monoglyceride was used as the research object and the effects of ultrasound treatment before or after complex oleogelators melting on the structure and properties of the walnut oli oleogels were explored. The research results indicated that when the mass ratio of beeswax to monoglyceride was 3∶7, the formed walnut oil oleogels had an oil bonding capacity (OBC) of over 95% and a smooth and stable surface morphology. All walnut oleogels showed solid-like elastic properties within a certain shear strain range, and the walnut oil oleogels prepared with 100 W-30 s parameters had the strongest mechanical properties. Ultrasound treatment could improve the crystal structure of walnut oil oleogels, produce more compact and fine crystal morphology, and effectively enhance OBC and thermal stability of walnut oil oleogels. The oleofoams obtained by whipping the oleogels exhibited excellent decorative performance, and ultrasound treatment could significantly increase the overrun of the walnut oil oleogels. In sum, ultrasound treatment could improve the structure and properties of walnut oil oleogel, and make it a good substitute for margarine.
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      1. [1]

        ISLAM M A,AMIN M N,SIDDIQUI S A,et al.Trans fatty acids and lipid profile:A serious risk factor to cardiovascular disease,cancer and diabetes[J].Diabetes & Metabolic Syndrome(Clinical Research & Reviews),2019,13(2):1643-1647.

      2. [2]

        曹振宇,刘泽龙,张慧娟,等.食用植物油脂凝胶化技术研究进展[J].食品油脂,2019,44(8):57-64.

      3. [3]

        柴秀航,张帅,刘元法.结构化油脂及其在烘焙产品中的应用研究进展[J].食品科学,2022,43(15):336-344.

      4. [4]

        LI S Y,WU G C,LI X J,et al.Roles of gelator type and gelation technology on texture and sensory properties of cookies prepared with oleogels[J].Food Chemistry,2021,356:129667.

      5. [5]

        XU Y Y,SUN H,LYU J,et al.Effects of polysaccharide thickening agent on the preparation of walnut oil oleogels based on methylcellulose:Characterization and delivery of curcumin[J].International Journal of Biological Macromolecules,2023,232:123291.

      6. [6]

        MAO L K,LU Y,CUI M N,et al.Design of gel structures in water and oil phases for improved delivery of bioactive food ingredients[J].Critical Reviews in Food Science and Nutrition,2020,60(10):1651-1666.

      7. [7]

        SIVAKANTHAN S,FAWZIA S,MADHUJITH T,et al.Synergistic effects of oleogelsators in tailoring the properties of oleogels:A review[J].Comprehensive Reviews in Food Science and Food Safety,2022,21(4):3507-3539.

      8. [8]

        FROLOVA Y,SARKISYAN V,SOBOLEV R,et al.Ultrasonic treatment of food colloidal systems containing oleogelss:A review[J].Gels,2022,8(12):801.

      9. [9]

        GIACOMOZZI A,PALLA C,CARRíN M E,et al.Tailoring physical properties of monoglycerides oleogelss using high-intensity ultrasound[J].Food Research International,2020,134:109231.

      10. [10]

        SHARIFI M,GOLI S A H,FAYAZ G.Exploitation of high-intensity ultrasound to modify the structure of olive oil organogel containing propolis wax[J].International Jouranl of Food Science and Technology,2019,54(2):509-515.

      11. [11]

        VALOPPI F,SALMI A,RATILAINEN M,et al.Controlling oleogels crystallization using ultrasonic standing waves[J].Scientific Reports,2020,10(1):14448.

      12. [12]

        MILLAO S,ITURRA N,CONTARDO I,et al.Structuring of oils with high PUFA content:Evaluation of the formulation conditions on the oxidative stability and structural properties of ethylcellulose oleogels[J].Food Chemistry,2023,405:134772.

      13. [13]

        徐杰,孙浩,张国红,等.核桃油基油凝胶的制备及特性研究[J].食品与发酵工业,2020,46(5):188-193.

      14. [14]

        PHOON P Y,HENRY C J.Fibre-based oleogelss:Effect of the structure of insoluble fibre on its physical properties[J].Food Function,2020,11(2):1349-1361.

      15. [15]

        GROSSI M,FANG B C,RAO J J,et al.Oleofoams stabilized by monoacylglycerides: Impact of chain length and concentration[J].Food Research International,2023,169:112914.

      16. [16]

        徐杰.核桃油基油凝胶的制备、结构及稳定性研究[D].北京:北京林业大学, 2020.

      17. [17]

        孟宗,李陆茵,李兴伟,等.植物蜡及液态植物油构建油凝胶的物性研究[J].中国油脂,2019,44(11):17-22.

      18. [18]

        FERRO A C,DE SOUZA PAGLARINI C,RODRIGUES POLLONIO M A,et al.Glyceryl monostearate-based oleogelss as a new fat substitute in meat emulsion[J].Meat Science,2021,174:108424.

      19. [19]

        DA SILVA T L T,ARELLANO D B,MARTINI S.Use of high-intensity ultrasound to change the physical properties of oleogels and emulsion gels[J].Journal of the American Oil Chemists Society,2019,96(6): 681-691.

      20. [20]

        LI L T,TAHA A,GENG M J,et al.Ultrasound-assisted gelation of β-carotene enriched oleogelss based on candelilla wax-nut oils:Physical properties and in-vitro digestion analysis[J].Ultrasonics Sonochemistry,2021,79:105762.

      21. [21]

        YILMAZ E,GˇVTCV M.Properties and stability of hazelnut oil organogels with beeswax and monoglyceride[J].Journal of the American Oil Chemists Society,2014,91(6):1007-1017.

      22. [22]

        RUMAYOR-ESCOBAR A,PEA M M L,ROSA-MILLN J D L.Effect of high intensity ultrasound on soybean and avocado oleogels’ structure and stability[J].Food Structure,2023,36:100315.

      23. [23]

        GU X Y,DU L Y,MENG Z.Thermal-reversible lacquer wax-based oleofoams in dual stabilization with high ambient stability[J].Food Research International,2023,167:112650.

      24. [24]

        DU L Y,JIANG Q B,LI S Y,et al.Microstructure evolution and partial coalescence in the whipping process of oleofoams stabilized by monoglycerides[J].Food Hydrocolloids,2021,112:106245.

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