05095nam 2200649 a 450 991045781660332120200520144314.00-7844-7430-3(CKB)2550000000065229(EBL)3115531(SSID)ssj0000535785(PQKBManifestationID)12205971(PQKBTitleCode)TC0000535785(PQKBWorkID)10546282(PQKB)10121737(MiAaPQ)EBC3115531(Au-PeEL)EBL3115531(CaPaEBR)ebr10509997(OCoLC)769188998(EXLCZ)99255000000006522920101129d2010 uy 0engur|n|---|||||txtccrDesign of blast-resistant buildings in petrochemical facilities[electronic resource] /prepared by Task Committee on Blast-Resistant Design of the Petrochemical Committee of the Energy Division of the American Society of Civil Engineers2nd ed.Reston, Va. American Society of Civil Engineersc20101 online resource (311 p.)Description based upon print version of record.0-7844-1088-7 Includes bibliographical references (p. 287-296) and index.""Cover""; ""Table of Contents""; ""Chapter 1: Introduction""; ""1.1 Background""; ""1.2 Purpose and Scope""; ""1.3 Related Industry Guidelines, Specifications, & Codes""; ""1.4 Blast Resistant Design Process""; ""Chapter 2: General Considerations""; ""2.1 Introduction""; ""2.2 OSHA Requirements""; ""2.3 Objectives of Blast Resistant Design""; ""2.4 Buildings Requiring Blast Resistant Design""; ""2.5 Siting Considerations""; ""2.6 Offshore Facilities""; ""2.7 Non-Building Structures, Equipment, & Infrastructure""; ""Chapter 3: Determination of Loads""; ""3.1 Introduction""""3.2 Types of Explosions""""3.3 Blast Wave Parameters""; ""3.4 Determination of Vapor Cloud Design Overpressures""; ""3.5 Building Blast Loading""; ""3.6 Computational Fluid Dynamics""; ""Appendix 3 Blast Load Example""; ""Chapter 4: Types of Construction""; ""4.1 Introduction""; ""4.2 General Considerations""; ""4.3 Common Systems for Petrochemical Buildings""; ""4.4 Blast Resistant Modular Steel-Framed Buildings""; ""4.5 Other Systems""; ""Chapter 5: Dynamic Material Strength and Response Criteria""; ""5.1 Introduction""; ""5.2 Static Versus Dynamic Response""""5.3 Resistance-Deflection Function""""5.4 Material and Structural Element Types""; ""5.5 Dynamic Material Properties""; ""5.6 Deformation Limits""; ""Appendix 5.A: Summary Tables for Dynamic Material Strength""; ""Appendix 5.B: Summary Tables for Response Criteria""; ""Chapter 6: Dynamic Analysis Methods""; ""6.1 Introduction""; ""6.2 Key Concepts""; ""6.3 Equivalent Static Method""; ""6.4 Single Degree of Freedom Systems""; ""6.5 Multi-Degree of Freedom Systems""; ""6.6 Applications""; ""Appendix 6 Numerical Integration Method""; ""Chapter 7: Design Procedures""; ""7.1 Introduction""""7.2 General Design Concepts""""7.3 Member Design Process""; ""7.4 Reinforced Concrete Design""; ""7.5 Steel Design""; ""7.6 Reinforced Masonry Design""; ""7.7 Foundation Design""; ""7.8 Design Against Projectiles""; ""Chapter 8: Typical Details""; ""8.1 Introduction""; ""8.2 General Considerations""; ""8.3 Enhanced Pre-Engineered Metal Building Construction""; ""8.4 Masonry Wall Construction""; ""8.5 Metal Clad Construction""; ""8.6 Precast Concrete Wall Construction""; ""8.7 Cast-in-Place Concrete Wall Construction""; ""Chapter 9: Ancillary and Architectural Considerations""""9.1 Introduction""""9.2 General Considerations""; ""9.3 Doors""; ""9.4 Windows""; ""9.5 Utility Openings""; ""9.6 Interior Design Considerations""; ""9.7 Exterior Considerations""; ""Chapter 10: Evaluation and Upgrade of Existing Buildings""; ""10.1 Introduction""; ""10.2 Evaluation Strategies""; ""10.3 Blast Resistant Upgrade Options""; ""10.4 Upgrades for Structural Member Connections""; ""10.5 Upgrades for Structural Framing Members""; ""10.6 Upgrades for Metal Panel Wall and Roof Systems""; ""10.7 Upgrades for Concrete Masonry (CMU) & Concrete Walls""""10.8 Upgrade with Blast Resistant Shield Wall""Petroleum refineriesDesign and constructionPetroleum refineriesFires and fire preventionExplosionsBuildingsBlast effectsElectronic books.Petroleum refineriesDesign and construction.Petroleum refineriesFires and fire prevention.Explosions.BuildingsBlast effects.693.8/54Society of Civil Engineers.Task Committee on Blast Resistant Design.MiAaPQMiAaPQMiAaPQBOOK9910457816603321Design of blast-resistant buildings in petrochemical facilities1937619UNINA03921oam 2200673Ia 450 991077751630332120190503073339.00-262-29403-61-282-09719-997866120971950-262-27326-81-4294-7730-X(CKB)1000000000461567(EBL)3338515(OCoLC)145463990(SSID)ssj0000186879(PQKBManifestationID)11169329(PQKBTitleCode)TC0000186879(PQKBWorkID)10238272(PQKB)10739541(MiAaPQ)EBC3338515(OCoLC)145463990(OCoLC)191952647(OCoLC)473859924(OCoLC)605523662(OCoLC)607869006(OCoLC)614968219(OCoLC)722564417(OCoLC)728036958(OCoLC)743198161(OCoLC)756542490(OCoLC)815776380(OCoLC)961552590(OCoLC)962681984(OCoLC)974109286(OCoLC)981996153(OCoLC)982017572(OCoLC)988477611(OCoLC)991942419(OCoLC)991946723(OCoLC)1005638280(OCoLC)1018082496(OCoLC)1037499591(OCoLC)1037912372(OCoLC)1038634625(OCoLC)1041637493(OCoLC)1047679029(OCoLC)1055376620(OCoLC)1065034122(OCoLC)1081240012(OCoLC)1083599113(OCoLC)1096514580(OCoLC-P)145463990(MaCbMITP)4048(Au-PeEL)EBL3338515(CaPaEBR)ebr10173570(CaONFJC)MIL209719(EXLCZ)99100000000046156720070625d2006 uy 0engur|n|---|||||txtccrThe Kantian legacy in nineteenth-century science /Michael Friedman and Alfred Nordmann, editorsCambridge, Mass. MIT Press©20061 online resource (377 p.)Dibner Institute for the history of science and technologyDescription based upon print version of record.0-262-06254-2 Includes bibliographical references (p. [331]-358) and index.I Editors' Introduction; II Kant and Naturphilosophie; III Nature Is the Poetry of Mind, or How Schelling Solved Goethe's Kantian Problems; IV Kant-Naturphilosophie-Electromagnetism; V Extending Kant:The Origins and Nature of Jakob Friedrich Fries's Philosophy of Science; VI Kant, Fries, and the Expanding Universe of Science; VII Kant, Helmholtz, and the Meaning of Empiricism; VIII Operationalizing Kant: Manifolds, Models, and Mathematics in Helmholtz's Theories of Perception; IX "The Fact of Science" and Critique of Knowledge: Exact Science as Problem and Resource in Marburg Neo-KantianismX Kantianism and Realism: Alois Riehl (and Moritz Schlick)XI Critical Realism, Critical Idealism, and Critical Common-Sensism: The School and World Philosophies of Riehl, Cohen, and Peirce; XII Poincaré's Circularity Arguments for Mathematical Intuition; XIII Poincaré-Between Physics and Philosophy; XIV Images and Conventions: Kantianism, Empiricism, and Conventionalism in Hertz's and Poincaré's Philosophies of Space and Mechanics; References; Contributors; Index"Historians of philosophy, science, and mathematics explore the influence of Kant's philosophy on the evolution of modern scientific thought."--Jacket.Dibner Institute studies in the history of science and technology.SciencePhilosophyHistory19th centuryPhilosophy and scienceHistory19th centuryCOMPUTER SCIENCE/Programming LanguagesSciencePhilosophyHistoryPhilosophy and scienceHistory501Friedman Michael1947-304524Nordmann Alfred1956-61632OCoLC-POCoLC-PBOOK9910777516303321The Kantian legacy in nineteenth-century science3678200UNINA