02371nam 2200553Ia 450 991100679290332120170918224959.01-62870-004-1(CKB)2550000001039993(EBL)3385342(SSID)ssj0000783875(PQKBManifestationID)11500994(PQKBTitleCode)TC0000783875(PQKBWorkID)10762611(PQKB)10259862(MiAaPQ)EBC3385342(EXLCZ)99255000000103999320121120d2013 uy 0engur|n|---|||||txtccrNuclear energy leadership[electronic resource] lessons learned from U.S. operators /Mary Jo Rogers, PhDTulsa, OK PennWell Corp.c20131 online resource (194 p.)Description based upon print version of record.1-59370-245-0 Includes bibliographical references and index.""Front Cover""; ""Table of Contents""; ""Preface""; ""Acknowledgments""; ""1-State of U.S. Nuclear Energy""; ""2-Self-Regulation""; ""3-Nuclear Safety Culture""; ""4-Operational Focus""; ""5-Continuous/Performance Improvement""; ""6-Talent Development and Knowledge Management""; ""7-Organizational Structure, Accountability, and Outage Management""; ""8-Nuclear Industry Leadership""; ""9-The Turnaround Experts""; ""10-The Nuclear First-Line Supervisor""; ""11-Site Senior Leadership Team""; ""Appendix A-Talent Development Checklist""; ""Appendix B-Cross-Functional Teamwork Questionnaire""""Appendix C-Nuclear Power and Related Organizations""""Index""; ""Back Cover""Nuclear energyUnited StatesNuclear energyUnited StatesSafety measuresNuclear power plantsManagementNuclear industryUnited StatesUnited StatesfastNuclear energyNuclear energySafety measures.Nuclear power plantsManagement.Nuclear industry333.792/40973Rogers Mary Jo1963-1823698MiAaPQMiAaPQMiAaPQBOOK9911006792903321Nuclear energy leadership4390539UNINA05618nam 2200733 a 450 991100650210332120200520144314.09781283634724128363472497801239482120123948215(CKB)2670000000259263(EBL)1036351(OCoLC)818816889(SSID)ssj0000767259(PQKBManifestationID)12299494(PQKBTitleCode)TC0000767259(PQKBWorkID)10740353(PQKB)11455537(PPN)170604365(FR-PaCSA)88812261(MiAaPQ)EBC1036351(FRCYB88812261)88812261(EXLCZ)99267000000025926320121010d2012 uy 0engur|n|---|||||txtccrBoundary layer flow over elastic surfaces and combined method of drag reduction /Viktor V. Babenko, Ho Hwan Chun, Inwon Lee1st ed.Waltham, Mass. Elsevier20121 online resource (634 p.)Description based upon print version of record.9780123948069 0123948061 Includes bibliographical references and index.Front Cover; Boundary Layer Flow over Elastic Surfaces and Combined Method of Drag Reduction; Copyright Page; Contents; Preface; List of Symbols; Indices; Lower; Upper; Abbreviations; 1 Interaction of the Free Stream with an Elastic Surface; 1.1 Introductory Remarks; 1.2 Basic Types of Coherent Vortical Structures arising in the Flow about a Body, and Methods of their Control; 1.2.1 CVS Types; CVSs in a Boundary Layer; CVSs in the Flow over a Curvilinear Surface; CVSs Generated in Cavities on a Body Surface; Transversal CVSs; Longitudinal CVSs; Tornado-shaped CVSsCVSs Generated in Front of or behind an ObstacleTransversal CVSs; Longitudinal CVSs; CVS at Corners of a Body; CVSs in Longitudinal Flow about a Body; CVSs in Flows about Wings; Flow about a Profile at an Angle of Attack; CVSs at Tips of Obstacles and Wings; CVSs on a Triangular Wing; CVSs behind an Oscillating Wing; CVSs in the Flow between Lattices of Profiles; CVS about High-drag Bodies; CVS Generated in Internal Flows; CVS on Boundaries of Submerged or Near-wall Jets; CVSs at Non-stationary (Forward, Rotary) Movement of a Body; CVSs in Geophysical Problems; 1.2.2 Methods of CVS ControlMethods of CVS Control in a Boundary LayerMethods of CVS Control on Curvilinear Surfaces; Methods of CVS Control in Cavities; Methods of Controlling CVSs Generated behind a Prominence; Methods of CVS Control in Corners; CVS Control Methods in Longitudinal Flow about a Body; Methods of Controlling CVSs Arising at Flows on Wings; Methods of CVS control for flow about a profile at an angle of attack; CVS control on the ends of ledges and wings; CVS Control on a Triangular Wing; CVS Control by means of a Fluctuating Wing; Methods of CVS Control on High-drag BodiesMethods of CVS Control in Internal FlowsMethods of CVS Control in Submerged and Near-wall Jets; 1.3 Coherent Structures in a Turbulent Boundary Layer; 1.4 The Flow over Elastic Surfaces; 1.5 Experimental Studies on the Characteristics of Elastic Plates; 1.6 Experimental Investigations of Coherent Vortical Structures in a Transitional Boundary Layer on the Flow over a Rigid Plate; 1.7 Distribution of Disturbing Movement across the Thickness of a Laminar Boundary Layer over a Rigid Surface; 1.8 Physical Process of Laminar-Turbulent Transition of a Boundary Layer over a Rigid Plate1.9 Hydrobionic Principles of Drag Reduction1.10 Experimental Investigation of Coherent Vortical Structures in a Transitional Boundary Layer over an Elastic Plate; 1.11 Distribution of Disturbing Movement on the Thickness of a Laminar Boundary Layer on an Elastic Surface; 1.12 Receptivity of the Boundary Layer to Different Disturbances; 1.13 The Boundary Layer as a Heterogeneous, Asymmetric Wave-Guide; 1.14 Control Methods of the CVSs of a Boundary Layer; 1.14.1 Experimental Investigation of a Flow of the Localized Hollows1.14.2 Concentrated and Distributed Methods of Formation of Longitudinal Vortical Systems in a Boundary Layer While other methods of drag reduction are well-known in marine R&D and ship design environments worldwide, compliant coating drag reduction remains less well-known and poorly understood. This important book presents cutting-edge techniques and findings from research sources not generally accessible by Western researchers and engineers, aiding the application and further development of this potentially important technology. Beginning with an introduction to drag reduction that places the authors' work on elastic surfaces and combined techniques in context, the book moves on to provideBoundary layerFrictional resistance (Hydrodynamics)Fluid dynamicsBoundary layer.Frictional resistance (Hydrodynamics)Fluid dynamics.620.1/064620.44620.1064Babenko Viktor V1823539Chun Ho Hwan1823540Lee Inwon1823541MiAaPQMiAaPQMiAaPQBOOK9911006502103321Boundary layer flow over elastic surfaces and combined method of drag reduction4390260UNINA