00817nam0-22002891i-450 99000477751040332120211018122201.0000477751FED01000477751(Aleph)000477751FED0100047775119990530g19129999km-y0itay50------baitay-------001yy<<Les >>sources de Lucainpar Renè PichonParisE. Leroux1912.II, 279 p.24 cmPichon,René375659Lucanus,Marcus Annaeus<39-65>ITUNINARICAUNIMARCBK990004777510403321XIV E 85R. Bibl. 4976/1696FLFBCIX F 16R. Bibl. 5634/1841FLFBCFLFBCSources de Lucain558365UNINA05278nam 2200613 a 450 991083019720332120230617040230.01-280-72270-397866107227093-527-60913-X3-527-60905-9(CKB)1000000000376194(EBL)481495(SSID)ssj0000178636(PQKBManifestationID)11156063(PQKBTitleCode)TC0000178636(PQKBWorkID)10221969(PQKB)10494691(MiAaPQ)EBC481495(OCoLC)85784772(EXLCZ)99100000000037619420040610d2003 uy 0engur|n|---|||||txtccrIndustrial pigging technology[electronic resource] fundamentals, components, applications /Gerhard Hiltscher, Wolfgang Mühlthaler, Jörg SmitsWeinheim Wiley-VCH20031 online resource (354 p.)Description based upon print version of record.3-527-30635-8 Includes bibliographical references and index.Industrial Pigging Technology; List of Contents; Notation; Preface; I Fundamental Principles of Pigging Technology; 1 Introduction to Pigging Technology; 1.1 Historical Development and Definition; 1.2 Fields of Application of Pigging Technology; 2 Pigging Units and Pigging Systems; 2.1 Definitions; 2.2 Selection and Design Criteria; 2.3 Pigging Units; 2.3.1 Pigging Units without Branches; 2.3.2 Pigging Units with Branches; 2.3.3 Pigging Units with Switches; 2.4 Pigging Systems; 2.4.1 Sequence Tables; 2.4.2 One-Pig Systems; 2.4.3 Two-Pig Systems; II Components; 3 Pigs3.1 Pigs for Industrial Pigging Units3.1.1 Function; 3.1.2 Fields of Application; 3.2 Materials Selection; 3.2.1 Pig Materials; 3.2.2 Tests for the Selection of Pig Materials; 3.2.3 Shear Strength of the Pig Material; 3.2.4 Deformation of a Solid Cast Pig under Pressure; 3.3 Pig Designs; 3.3.1 One-Piece Pigs; 3.3.2 Multicomponent Pigs; 3.3.3 Special Pigs; 3.4 Fabrication of Pigs; 3.5 Quality Assurance; 4 Valves; 4.1 Function of Piggable Valves; 4.2 Classification of Piggable Valves; 4.3 Examples of Standard Valves; 4.3.1 Stations; 4.3.2 Branches; 4.3.3 Pig Traps; 4.3.4 Switches4.4 Examples of Commercially Available Special Valves4.4.1 Crossing of Two Piggable Pipes; 4.4.2 Manifolds; 4.4.3 Piggable Loading Facilities; 4.4.4 Drum-loading Valves; 4.5 Pressure Drop in Piggable Valves; 4.6 Stress on Pig Traps; 5 Pipework; 5.1 Requirements for Piggable Pipes; 5.2 Materials for Piggable Pipes; 5.3 Piping Elements; 5.3.1 Pipes; 5.3.2 Pipe Bends; 5.3.3 Tees; 5.4 Pipe Joints; 5.4.1 Flange Connections; 5.4.2 Welded Pipe Joints; 5.5 Example of a Pipe Specification; 5.6 Construction of Piggable Pipes; 5.7 Piggable Hoses; 6 Additional Equipment; 6.1 Pressure-Relief Vessel6.2 Propellant Tank6.3 Filters; 6.4 Pumps; 7 Propellants; 7.1 Gaseous Propellants; 7.1.1 Speed Behavior of Gas-Driven Pigs; 7.1.2 Remedial Actions; 7.2 Liquid Propellants; 7.2.1 Properties of Liquid Propellants; 7.2.2 Dimensioning of Liquid-Propelled Pigging Units; 8 Control System; 8.1 Components of the Control System; 8.1.1 Sensors; 8.1.2 Permanent Magnets and Magnet Sensors; 8.1.3 Actuators; 8.2 Operating Modes of the Sequence Control; 8.2.1 Manual Operation; 8.2.2 Enhanced Manual Operation; 8.2.3 Touch-Controlled Operation; 8.2.4 Automatic Operation; 8.3 Examples of Sequence Control8.3.1 Sequence Control of a One-Pig System8.3.2 Sequence Control of a Two-Pig-System; 8.3.3 Sequence Control of a Cleaning Procedure; III Applications; 9 Decision Criteria for Pigging; 9.1 General Criteria; 9.1.1 Product - Infrastructure - Technology; 9.1.2 Physical and Chemical Properties of the Products; 9.2 Economic Criteria; 9.2.1 Long Pipeline without Cleaning Procedures; 9.2.2 Omission of Tracing; 9.2.3 Multiproduct Pipe; 9.2.4 Evaluation of the Examples; 9.3 Quality Criteria; 9.4 Environmental Criteria; 10 Cleaning Degree after Pigging; 10.1 Qualitative Classification10.2 Precalculation for the Cleaning DegreePigs are snug-fitting plugs which are able to perform various maintenance tasks such as cleaning or removing deposits or blockages in pipe and pipeline systems from the inside. A gaseous or liquid propellant is used to push the pig through the system. This strategy avoids rinsing loss of valuable product, provides reduction of adverse environmental impacts, and gains high efficiency for less investment. The book describes clearly and methodically the important basic equipment required for the planning and design of pigging units. Many practical examples are shown for the operation of industrPipeline piggingPipeline pigging.621.8/672621.8672Hiltscher Gerhard1595396Mühlthaler Wolfgang1595397Smits Jörg1595398MiAaPQMiAaPQMiAaPQBOOK9910830197203321Industrial pigging technology4040027UNINA04065nam 22006255 450 991025402520332120200630182720.03-319-28238-710.1007/978-3-319-28238-1(CKB)3710000000657957(EBL)4524953(DE-He213)978-3-319-28238-1(MiAaPQ)EBC4524953(PPN)194078744(EXLCZ)99371000000065795720160506d2016 u| 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierPolymer Nanocomposites Electrical and Thermal Properties /edited by Xingyi Huang, Chunyi Zhi1st ed. 2016.Cham :Springer International Publishing :Imprint: Springer,2016.1 online resource (354 p.)Description based upon print version of record.3-319-28236-0 Includes bibliographical references at the end of each chapters and index.Part 1. Electrical Properties of Polymer Nanocomposites under Low Electric Field -- Dielectric Constant of Polymer Composites and the Routes to High-k or Low-k Nanocomposite Materials -- Dielectric Loss of Polymer Nanocomposites and How to Keep the Dielectric Loss Low -- Electrical Conductivity and Percolation Behavior of Polymer Nanocomposites -- Positive Temperature Coefficient Effect of Polymer Nanocomcomposites -- Part 2. Electrical Properties of Polymer Nanocomposites under High Electric Field -- Dielectric Breakdown in Polymer Nanocomposites -- Polymer Nanocomposites for Power Energy Storage -- Part 3. Thermal properties of polymer nanocomposites -- Thermal Stability and Degradation of Polymer Nanocomposites -- Thermomechanical Analysis of Polymer Nanocomposites -- Applications of Calorimetry on Polymer Nanocomposites -- Electrically Conductive Polymer Nanocomposites with High Thermal Conductivity -- Thermally Conductive Electrically Insulating Polymer Nanocomposites -- Polymer-Clay Nanocomposites: A Novel Way to Enhance Flame Retardation of Plasticss and Applications in Wire and Cable Industry.This book focuses on the fundamental principles and recent progress in the field of electrical and thermal properties of polymer nanocomposites. The physical and chemical natures determining the electrical and thermal properties of polymer nanocomposites are discussed in detail. The authors describe the range of traditional and emerging polymer nanocomposites from nanoparticle and polymer composites to novel nanostructure based polymer nanocomposites. They include novel properties and potential applications, such as high-k, low-k, high thermal conductivity, antistatic, high voltage insulation, electric stress control, and thermal energy conversion among others.PolymersNanotechnologyEnergy storageOptical materialsElectronicsMaterialsPolymer Scienceshttps://scigraph.springernature.com/ontologies/product-market-codes/C22008Nanotechnologyhttps://scigraph.springernature.com/ontologies/product-market-codes/Z14000Energy Storagehttps://scigraph.springernature.com/ontologies/product-market-codes/116000Optical and Electronic Materialshttps://scigraph.springernature.com/ontologies/product-market-codes/Z12000Polymers.Nanotechnology.Energy storage.Optical materials.ElectronicsMaterials.Polymer Sciences.Nanotechnology.Energy Storage.Optical and Electronic Materials.540Huang Xingyiedthttp://id.loc.gov/vocabulary/relators/edtZhi Chunyiedthttp://id.loc.gov/vocabulary/relators/edtBOOK9910254025203321Polymer Nanocomposites1225043UNINA