Multiple-pass high-pressure homogenization of milk for the development of pasteurization-like processing conditions

Novel inactivation methods are needed to control the spread of foodborne viruses responsible for nonbacterial gastroenteritis worldwide. The advent of high-pressure homogenization combining high pressure, shear stress, and cavitation provides the opportunity to evaluate this technology for viral inactivation in fluid foods under continuous processing conditions. Our objective was to evaluate murine norovirus (MNV-1) and MS2 coliphage (single-stranded RNA) as human enteric virus surrogates for their susceptibility to a novel high-pressure homogenization process for application in commercial settings. Experiments were conducted in duplicate with MNV-1 and MS2 coliphage in phosphate-buffered saline, using homogenization pressures of 0, 100, 200, 250, and 300 MPa (the maximum achievable by the homogenizer), resulting in exposure temperatures of 24, 46, 63, 70, and 75°C, respectively, for <2 s. Only homogenization pressures of 300 MPa at 75°C showed inactivation of ~3 log PFU for MS2 from an initial ~6 log PFU. Also, MNV-1 showed inactivation of ~0.8 log PFU at 300 MPa. Further studies are warranted to validate this inactivation process, which can retain the sensory and nutritional value of fluid food and shows promise for application in industrial environments.

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Formation of defects in implanted hipox-structures

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100131668 ◽

1992 ◽

Vol 50 (2) ◽

pp. 1406-1407

Author(s):

Peter Pegler ◽

N. David Theodore ◽

Ming Pan

Keyword(s):

High Pressure ◽

Cross Section ◽

Semiconductor Devices ◽

Silicon Substrates ◽

Processing Conditions ◽

Pressure Oxidation ◽

Deep Trench ◽

Local Oxidation ◽

Trench Isolation ◽

And Behavior

High-pressure oxidation of silicon (HIPOX) is one of various techniques used for electrical-isolation of semiconductor-devices on silicon substrates. Other techniques have included local-oxidation of silicon (LOCOS), poly-buffered LOCOS, deep-trench isolation and separation of silicon by implanted oxygen (SIMOX). Reliable use of HIPOX for device-isolation requires an understanding of the behavior of the materials and structures being used and their interactions under different processing conditions. The effect of HIPOX-related stresses in the structures is of interest because structuraldefects, if formed, could electrically degrade devices.This investigation was performed to study the origin and behavior of defects in recessed HIPOX (RHIPOX) structures. The structures were exposed to a boron implant. Samples consisted of (i) RHlPOX'ed strip exposed to a boron implant, (ii) recessed strip prior to HIPOX, but exposed to a boron implant, (iii) test-pad prior to HIPOX, (iv) HIPOX'ed region away from R-HIPOX edge. Cross-section TEM specimens were prepared in the <110> substrate-geometry.

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Antioxidant activity and total flavonoid content in variable phyto-stem cells extracts obtained by high-pressure homogenization method and assigned for use in biocosmetics

Planta Medica ◽

10.1055/s-0035-1565835 ◽

2015 ◽

Vol 81 (16) ◽

Cited By ~ 3

Author(s):

G Bazylak ◽

A Gryn

Keyword(s):

Stem Cells ◽

Antioxidant Activity ◽

High Pressure ◽

Homogenization Method ◽

Total Flavonoid ◽

High Pressure Homogenization ◽

Total Flavonoid Content ◽

Flavonoid Content

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High-Pressure Homogenization Alters Physicochemical Properties and In Vitro Digestibility of Chinese Yam (Dioscorea Opposita Thunb.) Starch

Current Topics in Nutraceutical Research ◽

10.37290/ctnr2641-452x.18:10-15 ◽

2018 ◽

Vol 18 (1) ◽

pp. 10-15

Author(s):

Wang Yi-Wei ◽

He Yong-Zhao ◽

An Feng-Ping ◽

Huang Qun ◽

Zeng Feng ◽

...

Keyword(s):

High Pressure ◽

Physicochemical Properties ◽

Starch Content ◽

In Vitro Digestibility ◽

High Pressure Homogenization ◽

Starch Granules ◽

Cross Polarization ◽

Chinese Yam ◽

Crystal Type

In this study, Chinese yam starch-water suspension (8%) were subjected to high-pressure homogenization (HPH) at 100 MPa for increasing cycle numbers, and its effect of on the physicochemical properties of the starch was investigated. Results of the polarizing microscope observations showed that the starch granules were disrupted (i.e. greater breakdown value) after HPH treatment, followed by a decrease in cross polarization. After three HPH cycles, the crystallinity of starch decreased, while the crystal type remained unaltered. Meanwhile, the contents of rapidly digestible starch and slowly digestible starch were increased. On the contrary, resistant starch content was decreased. Our results indicate that HPH treatment resulted in reduction of starch crystallinity and increase of starch digestibility.

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Physicochemical and functional properties of a novel xanthan gum-lysozyme nanoparticle material prepared by high pressure homogenization

LWT ◽

10.1016/j.lwt.2021.111136 ◽

2021 ◽

Vol 143 ◽

pp. 111136

Author(s):

Yiqing Zhu ◽

Xinyang Sun ◽

Jian Ding ◽

Fengjiao Fan ◽

Peng Li ◽

...

Keyword(s):

High Pressure ◽

Functional Properties ◽

Xanthan Gum ◽

High Pressure Homogenization ◽

Nanoparticle Material ◽

Physicochemical And Functional Properties

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Sustainable preparation of cellulose nanofibrils via choline chloride-citric acid deep eutectic solvent pretreatment combined with high-pressure homogenization

Carbohydrate Polymers ◽

10.1016/j.carbpol.2021.118220 ◽

2021 ◽

pp. 118220

Author(s):

Wei Liu ◽

Haishun Du ◽

Kun Liu ◽

Huayu Liu ◽

Hongxiang Xie ◽

...

Keyword(s):

High Pressure ◽

Citric Acid ◽

Choline Chloride ◽

Cellulose Nanofibrils ◽

Deep Eutectic Solvent ◽

High Pressure Homogenization

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Development and mechanical properties of soy protein isolate-chitin nanofibers complex gel: The role of high-pressure homogenization

LWT ◽

10.1016/j.lwt.2021.112090 ◽

2021 ◽

pp. 112090

Author(s):

Qi-Hui Chen ◽

Xiao-Yin Li ◽

Chun-Lan Huang ◽

Peng Liu ◽

Qing-Zhu Zeng ◽

...

Keyword(s):

Mechanical Properties ◽

High Pressure ◽

Soy Protein ◽

Soy Protein Isolate ◽

Protein Isolate ◽

High Pressure Homogenization ◽

Chitin Nanofibers

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Cavitation patterns in high-pressure homogenization nozzles with cylindrical orifices: Influence of mixing stream in Simultaneous Homogenization and Mixing

Experimental and Computational Multiphase Flow ◽

10.1007/s42757-020-0088-9 ◽

2021 ◽

Author(s):

V. Gall ◽

E. Rütten ◽

H. P. Karbstein

Keyword(s):

High Pressure ◽

Process Design ◽

High Speed ◽

State Of The Art ◽

Back Pressure ◽

High Pressure Homogenization ◽

Unit Operation ◽

Mixing Chamber ◽

Cavitation Intensity ◽

Droplet Sizes

AbstractHigh-pressure homogenization is the state of the art to produce high-quality emulsions with droplet sizes in the submicron range. In simultaneous homogenization and mixing (SHM), an additional mixing stream is inserted into a modified homogenization nozzle in order to create synergies between the unit operation homogenization and mixing. In this work, the influence of the mixing stream on cavitation patterns after a cylindrical orifice is investigated. Shadow-graphic images of the cavitation patterns were taken using a high-speed camera and an optically accessible mixing chamber. Results show that adding the mixing stream can contribute to coalescence of cavitation bubbles. Choked cavitation was observed at higher cavitation numbers σ with increasing mixing stream. The influence of the mixing stream became more significant at a higher orifice to outlet ratio, where a hydraulic flip was also observed at higher σ. The decrease of cavitation intensity with increasing back-pressure was found to be identical with conventional high-pressure homogenization. In the future, the results can be taken into account in the SHM process design to improve the efficiency of droplet break-up by preventing cavitation or at least hydraulic flip.

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Impact of high-pressure homogenization on the microstructure and rheological properties of citrus fiber

International Journal of Food Engineering ◽

10.1515/ijfe-2020-0206 ◽

2020 ◽

Vol 0 (0) ◽

Author(s):

Dianbin Su ◽

Xin-Di Zhu ◽

Yong Wang ◽

Dong Li ◽

Li-Jun Wang

Keyword(s):

Particle Size ◽

High Pressure ◽

Rheological Properties ◽

Binding Capacity ◽

Loss Modulus ◽

High Pressure Homogenization ◽

Carreau Model ◽

Hydration Properties ◽

Water Binding ◽

Water Holding

Abstract Citrus fiber dispersion with different concentrations (5–25 g/kg) was treated by high-pressure homogenization (90 and 160 MPa) for two cycles. The particle size distribution, hydration properties of powders, morphology and rheological measurements were carried out to study the microstructure and rheological properties changes by high-pressure homogenization (HPH). In conclusion, the HPH can reduce the particle size of fiber, improve the water holding capacity and water binding capacity. Furthermore, fiber shape can be modified from globular cluster to flake-like slices, and tiny pores can be formed on the surface of citrus fiber. The apparent viscosity, storage modulus and loss modulus were increased by HPH whereas the activation energy was reduced. The Hershcel–Bulkley model, Carreau model and Power Law mode were selected to evaluate the rheological properties.

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