03885oam 2200517 450 991048337730332120210507161821.0981-15-7575-410.1007/978-981-15-7575-4(CKB)4100000011610358(MiAaPQ)EBC6404789(DE-He213)978-981-15-7575-4(PPN)252503945(EXLCZ)99410000001161035820210507d2020 uy 0engurnn|008mamaatxtrdacontentcrdamediacrrdacarrierTopology of infinite-dimensional manifolds /Katsuro Sakai1st ed. 2020.Singapore :Springer,[2020]©20201 online resource (XV, 619 p. 503 illus.) Springer Monographs in Mathematics,1439-7382981-15-7574-6 Includes bibliographical references and index.Chapter 1: Preliminaries and Background Results -- Chapter 2: Fundamental Results on Infinite-Dimensional Manifolds -- Chapter 3: Characterizations of Hilbert Manifolds and Hilbert Cube Manifolds -- Chapter 4: Triangulation of Hilbert Cube Manifolds and Related Topics -- Chapter 5: Manifolds Modeled on Homotopy Dense Subspaces of Hilbert Spaces -- Chapter 6: Manifolds Modeled on Direct Limits and Combinatorial Manifold -- Appendex: PL n-Manifolds and Combinatorial n-Manifolds -- Epilogue -- Bibliography -- Index.An infinite-dimensional manifold is a topological manifold modeled on some infinite-dimensional homogeneous space called a model space. In this book, the following spaces are considered model spaces: Hilbert space (or non-separable Hilbert spaces), the Hilbert cube, dense subspaces of Hilbert spaces being universal spaces for absolute Borel spaces, the direct limit of Euclidean spaces, and the direct limit of Hilbert cubes (which is homeomorphic to the dual of a separable infinite-dimensional Banach space with bounded weak-star topology). This book is designed for graduate students to acquire knowledge of fundamental results on infinite-dimensional manifolds and their characterizations. To read and understand this book, some background is required even for senior graduate students in topology, but that background knowledge is minimized and is listed in the first chapter so that references can easily be found. Almost all necessary background information is found in Geometric Aspects of General Topology, the author's first book. Many kinds of hyperspaces and function spaces are investigated in various branches of mathematics, which are mostly infinite-dimensional. Among them, many examples of infinite-dimensional manifolds have been found. For researchers studying such objects, this book will be very helpful. As outstanding applications of Hilbert cube manifolds, the book contains proofs of the topological invariance of Whitehead torsion and Borsuk’s conjecture on the homotopy type of compact ANRs. This is also the first book that presents combinatorial ∞-manifolds, the infinite-dimensional version of combinatorial n-manifolds, and proofs of two remarkable results, that is, any triangulation of each manifold modeled on the direct limit of Euclidean spaces is a combinatorial ∞-manifold and the Hauptvermutung for them is true.Springer Monographs in Mathematics,1439-7382Manifolds (Mathematics)Complex manifoldsGeometryManifolds (Mathematics)Complex manifolds.Geometry.780Sakai Katsuro1059116CaPaEBRCaPaEBRUtOrBLWBOOK9910483377303321Topology of infinite-dimensional manifolds2547568UNINA05416nam 2200709 450 991013911950332120230905070025.01-118-82566-79781118206706(CKB)2550000001273740(EBL)1674220(SSID)ssj0001181684(PQKBManifestationID)11700264(PQKBTitleCode)TC0001181684(PQKBWorkID)11145615(PQKB)10830311(OCoLC)880451463(MiAaPQ)EBC1674220(Au-PeEL)EBL1674220(CaPaEBR)ebr10862688(CaONFJC)MIL595771(OCoLC)865575021(PPN)225312239(EXLCZ)99255000000127374020140502h20142014 uy 0engur|n|---|||||txtccrOil spill remediation colloid chemistry-based principles and solutions /edited by Ponisseril Somasundaran [and three others]Hoboken, New Jersey :John Wiley & Sons,2014.©20141 online resource (404 p.)Description based upon print version of record.1-118-20670-3 1-306-64520-4 Includes bibliographical references and index.Oil Spill Remediation: Colloid Chemistry-Based Principles and Solutions; Copyright; Contents; Foreword; Preface; Contributors; 1 Science-Based Decision Making on the Use of Dispersants in the Deepwater Horizon Oil Spill; 1.1 Introduction; 1.2 Brief History and Evolution of Dispersants for Oil; 1.2.1 Spill Mitigation; 1.3 Dispersant Efficacy and Dispersion Effectiveness; 1.4 Toxicity of Dispersants; 1.4.1 Laboratory Testing; 1.4.2 In-Field Monitoring; 1.5 Monitoring of Dispersants on the Surface and in the Deep Sea; 1.5.1 Monitoring in Surface Waters; 1.5.2 Monitoring in the Deep Sea1.6 Fate and Transport of Dispersants and Dispersed Oil1.7 Future Oil Spill Research as a Result of Lessons Learned; 1.8 Summary; References; 2 Understanding and Properly Interpreting the 2010 Deepwater Horizon Blowout; 2.1 Introduction; 2.2 Background; 2.2.1 Significant Past Marine Oil Spills; 2.2.2 1967 Torrey Canyon Spill; 2.2.3 1969 Santa Barbara Blowout; 2.2.4 1979 Ixtoc I Blowout; 2.2.5 1989 Exxon Valdez Oil Spill; 2.3 Brief Summary of Gulf of Mexico Marine Ecosystems; 2.4 Brief Deepwater Horizon Oil Spill Overview2.4.1 Before the Deepwater Horizon: An Overview of OffshorePetroleum Extraction2.4.2 2010 Deepwater Horizon Spill; 2.5 Existing Marine Oil Spill Paradigm; 2.5.1 Old Oil Spill Scenario: The Vast Majority of Oil and Gas Rises to the Sea Surface and No Dispersants Are Used (for a Shallow-Water, Nearshore Spill); 2.6 A New Conceptual Model for Deepwater Marine Oil Spills; 2.7 New Spill Scenario: Oil Is Released at Significant Depth from a Hot, Pressurized Reservoir; 2.8 The Need for an Integrative, Interdisciplinary Marine Oil Spill Oceanography; 2.9 Conclusions; 2.10 Future Research; References3 Remediation and Restoration of Northern Gulf of Mexico Coastal Ecosystems Following the Deepwater Horizon Event3.1 Introduction; 3.2 Shoreline Protection during and Following the Spill; 3.2.1 Oil Spill Response Administration and Structure; 3.2.2 Limitations of Shoreline Protection through Conventional Offshore Treatment; 3.2.3 Limitations of Shoreline Protection and Conventional Onshore Treatment; 3.3 Advancement through Failure and Innovation; 3.3.1 Evaluation of Alternative Response Technologies; 3.3.2 Shoreline Interventions3.3.3 Proving Grounds for Shoreline Remediation and Restoration3.4 Conclusions; References; 4 Challenges in and Approaches to Modeling the Complexities of Deepwater Oil and Gas Release; 4.1 Introduction; 4.2 Survey of Available Data; 4.3 Descriptions of Physical Mechanisms; 4.3.1 Qualitative Dynamics of Two-Phase Plume; 4.3.2 Review of Studies on Submerged Jets and Plumes; 4.4 Generic Approaches for Multiphase Flow Models; 4.5 Sample Model Results; 4.6 Concluding Remarks; Acronyms; Notation; Greek Letters; Acknowledgments; References; 5 Oil Films: Some Basic Concepts; 5.1 Introduction5.2 Crude Oil CompositionThis book provides a comprehensive overview of oil spill remediation from the perspectives of policy makers, scientists, and engineers, generally focusing on colloid chemistry phenomena and solutions involved in oil spills and their cleanup. First book to address oil spill remediation from the perspective of physicochemical and colloidal science Discusses current and emerging detergents used in clean-ups Includes chapters from leading scientists, researchers, engineers, and policy makers Presents new insights into the possible impact of oil spills on ecosystems as wOil spillsCleanupOil pollution of waterOil pollution of the seaEmulsionsOil spillsCleanup.Oil pollution of water.Oil pollution of the sea.Emulsions.628.1/6833Somasundaran PonisserilMiAaPQMiAaPQMiAaPQBOOK9910139119503321Oil spill remediation1951581UNINA