Now showing items 1-4 of 4

    • Cavitation/NPSH (Field Problems) 

      Schiavello, Bruno; Visser, Frank; Green, Patrick; Henry, David; Atkins, Ken; Cicatello, Giancarlo; Annese, Francesco; Curtin, Greg; Adams, Ron (Turbomachinery Laboratory, Texas A&M Engineering Experiment Station, 2018)
      Unexpected cavitation erosion Key parameters to consider for Root Cause Analysis when experiencing cavitation damage NPSHR, NPSHA, NPSH margin Performance loss due to insufficient NPSHA (margin) NPSH 40,000 hours ...
    • P07 - Improving Mean Time Between Pump Failures� 

      Bruck, Morg; Burton, Aaron; Litton, Bill; DePaolis, David; Green, Patrick; Amaya, Hctor (Turbomachinery LaboratoryTexas A&M Engineering Experiment StationTexas A & M University. Libraries, [2019])
      Mechanical/Metallurgical design requirements for pump components; Design and installation for pump baseplates; Proper hydraulic fit of pumps; Mechanical alignment targets/procedures; Pump repair criteria
    • P11 - Cavitation/NPSH (Field Problems)� 

      Viser, Frank; Schiavello, Bruno; Korkowski, Frank; Henry, David; Annese, Francesco; Curtin, Gre; Atkins, Ken; Green, Patrick; Adams, Ron; Cicatelli, Giancarlo (Turbomachinery LaboratoryTexas A&M Engineering Experiment StationTexas A & M University. Libraries, [2019])
      Unexpected cavitation erosion Key parameters to consider for Root Cause Analysis when experiencing cavitation damage NPSHR, NPSHA, NPSH margin Performance loss due to insufficient NPSHA (margin) NPSH 40,000 hours Cavitation ...
    • PT05 - Predicting Centrifugal Pump Type and NPSH in Early Facility Design 

      Green, Patrick (Turbomachinery Laboratory, Texas A&M Engineering Experiment StationTexas A & M University. Libraries, [2019])
      This tutorial focuses on centrifugal pumps, which are generally the workhorse of industrial oil, gas, and petrochemical facilities, and the tutorial approaches an early assessment concept in several parts. First, it examines ...