Currently The Unconventional HydroJetting Technology Center is the only science unit in Poland that deals with primary research and applied development to ensure complete highpressure waterjet utilization as a versatile erosion tool. |
Technological research and implement activity: |
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cleaning of hard to reach (not easily accessible) pipelines with high-pressure variety structure and composition water jet, |
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cleaning of vertical pipelines positioned (located) in subterranean mine shafts, like fire pipelines, |
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application of high-pressure waterjet technique to explosives disposal from large calibre amunition, |
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application of high-pressure water jet to removal of incomplete qualitative materials from under renovation constructions, |
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application of high-pressure hydrojetting technique in municipal utilization process, |
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three-dimentional objects preparation with highpressure abrasive water jet controlled virtual object luminance, |
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mine caves shaping down in the shafts using high-pressure water jet, |
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cleaning of large-size under renovation ship's sides with high-pressure water jet and abrasive water jet, |
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intensified high-pressure water jet and abrasive water jet machining, |
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precise cutting of variety materials with high-pressure abrasive water jet (AWJ) based on surface quality criterion, |
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high energetic abrasive suspension jet cutting processes, |
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active abrasive recovery and its retreating in high-pressure abrasive water jet machining, |
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multilayer superficial coatings machining with high-pressure hybrid water-abrasive-ice jet, |
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nanocomposite coatings machining with high-pressure water-ice jet, |
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medical application of high-pressure physiological liquid stream. |
Scientific research: |
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initiation and intensification of cavitation in high-pressure water jet, |
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intensification of hydrojetting material erosion, |
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dry ice CO2 granule (pellet) sublimation issue in violent mechanical stroke conditions, |
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physical aspects of application high-pressure variety structure and composition water jet, |
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theoretical and experimental basis of high-energetic cryogenic jet machining, |
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water hammer propagation in pipelines transporting variety liquids, within multiphase liquids, |
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modelling basis and optimization of high-pressure water jet admixtured with variety solid particles machining, |
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abrasive disintegration issue in different phase of creation of high-pressure abrasive water jet and in work material erosion sphere. |
