00731nam a2200217 i 450099100384124970753620020506105356.0990920s1928 it ||| | ita b10561833-39ule_instEXGIL127761ExLBiblioteca InterfacoltàitaLipparini, Giuseppe470170PasseggiateFirenze :Vallecchi,1928228 p. ;19 cm..b1056183302-04-1427-06-02991003841249707536LE002 Fondo Giudici A 3011LE002G-1723le002-E0.00-no 00000.i1064462327-06-02Passeggiate236469UNISALENTOle00201-01-99ma -itait 0102406oam 2200577 450 991071378930332120200722112602.0(CKB)5470000002503787(OCoLC)974647819(OCoLC)622029393(OCoLC)667925494(OCoLC)682009232(OCoLC)1153330551(OCoLC)995470000002503787(EXLCZ)99547000000250378720170306d1995 ua 0engurbn|||||||||txtrdacontentcrdamediacrrdacarrierReconnaissance of ground-water quality in the North Platte Natural Resources District, western Nebraska, June-July 1991 /by I.M. Verstraeten [and three others]Lincoln, Nebraska :U.S. Geological Survey,1995.1 online resource (vi, 114 pages) illustrations, mapsWater-resources investigations report ;94-4057Chiefly tables."Prepared in cooperation with the North Platte Natural Resources District, Nebraska Natural Resources Commission, and University of Nebraska-Lincoln, Institute of Agriculture and Natural Resources, Conservation and Survey Division."Includes bibliographical references (pages 53-55).GroundwaterQualityNebraskaNorth Platte Natural Resources DistrictGeology, StratigraphicQuaternaryGeology, StratigraphicfastGroundwaterQualityfastQuaternary Geologic PeriodfastGroundwaterQualityGeology, StratigraphicGeology, Stratigraphic.GroundwaterQuality.Quaternary Geologic Period.Verstraeten I. M(Ingrid Maria),1383266Geological Survey (U.S.),North Platte Natural Resources District (Neb.)Nebraska Natural Resources Commission.University of Nebraska--Lincoln.Conservation and Survey Division.COPCOPOCLCOOCLCEOCLCQOCLCFOCLCQGPOBOOK9910713789303321Reconnaissance of ground-water quality in the North Platte Natural Resources District, western Nebraska, June-July 19913487030UNINA11588nam 22006133 450 991101614800332120241117090255.00-7844-8577-10-7844-8576-3(MiAaPQ)EBC31783720(Au-PeEL)EBL31783720(CKB)36568178200041(Exl-AI)31783720(OCoLC)1472071362(EXLCZ)993656817820004120241117d2024 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierStructural Design of Modules for Energy and Industrial Facilities1st ed.Reston :American Society of Civil Engineers,2024.©2024.1 online resource (333 pages)Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Task Committee on Onshore Heavy Industrial Modularization Guidelines -- Acknowledgments -- Preface -- Disclaimer -- Chapter 1 : Overview -- 1.1   Introduction -- 1.2   Report Purpose -- 1.3   Research -- 1.4   Modules -- 1.4.1   Background -- 1.4.2   Buildings or Equivalent Structures -- 1.4.2.1   Modular Buildings -- 1.4.2.2   Modular Building Splits -- 1.4.2.3   Modular Building Compliance Programs -- 1.4.2.4   Modular Building Design for Transportation -- 1.4.3   Structure Subassemblies -- 1.4.4   Pipe Racks -- 1.4.5   Packaged Units -- 1.4.6   Process Modules -- 1.5   Transportation Modes -- 1.5.1   Land -- 1.5.2   Water -- 1.5.3   Air -- 1.6   Sustainability Considerations -- References -- Appendix 1A.   Structure Subassemblies -- 1A-1   Introduction -- 1A-2   Modular Steel Panel Types -- 1A-2.1   Composite Floor Panels -- 1A-2.2   Pressure Restraint Walls -- 1A-2.3   Grating Floor Panels -- 1A-2.4   Checkered Plate Floor Panels -- 1A-2.5   Girt Trusses -- 1A-3.1   Ground Assemblies Using Modular Steel Floor Panels -- 1A-3.2   Silo Support Frames -- 1A-3.3   Roof Ground Assemblies -- 1A-3.4   Turbine Generator Tabletop Ground Preassembly -- 1A-3.5   Shop-Fabricated and Ground-Assembled Stair Tower Modules -- 1A-4   Economics of Modular Steel Floor and Wall Panels -- Chapter 2 : Philosophy and Early Design Development Concepts -- 2.1   Introduction -- 2.1.1   Definitions -- 2.2   Modularization Objectives and Drivers -- 2.3   Modularization Strategy -- 2.3.1   Modularization Design Workshops -- 2.3.2   Module Design Strategy -- 2.3.3   Module Layout -- 2.4   Civil/Structural Design Philosophies -- 2.4.1   Target Reliability and Associated Reliability Indexes -- 2.4.2   Site Preparation and Foundation Design Strategy -- 2.4.3   Primary Steel Structure.2.4.4   Module Size, Structural System, and Connections -- Module Size and Weight Constraints -- Selection of a Structural System -- Framing Configuration -- Rolled Shapes versus Built-Up Girders -- Bolted versus Welded Connections -- 2.4.5   Multidiscipline Supports -- 2.4.6   Marine Transport Structural Characteristics -- 2.4.7   Land Transport Structural Characteristics -- 2.5   Logistics Philosophy -- 2.5.1   Marine Transport: Heavy-Lift Vessel and Barge -- 2.5.2   Land Transport: Self-Propelled Modular Transporter and Propelled Modular Transporter a nd Rail -- 2.6   Weight Management Philosophy -- 2.7   Module Installation Philosophies -- 2.8   Interface/Project Management -- 2.9   Impact on Project Summary -- References -- Chapter 3 : Front-End Engineering Design -- 3.1   Introduction -- 3.2   Module Layout -- 3.3   Transportation -- 3.3.1   Transportation for Planning and Schedule -- 3.3.2   Dimensional and Weight Limitations -- 3.3.3   Available Transportation Options -- 3.3.4   Water Transportation -- 3.3.5   Self-Propelled Modular Transporters -- 3.3.6   Trucks -- 3.3.7   Railway -- 3.3.8   Selection of Transportation Contractors -- 3.4   Module Structure Design Criteria -- 3.5   Constructability Study -- 3.5.1   Planning and Logistics Management -- 3.5.2   Schedule Compression and Cost Reduction -- 3.5.3   Bolted versus Welded Connections -- 3.5.4   Extent of Field Construction versus Shop Fabrication -- 3.5.5   Selection of Fabrication Yard -- 3.6   Weight Management Procedure -- 3.6.1   Weight and Center of Gravity Report -- 3.6.2   Weight Report Updates -- 3.7   Dimensional Control Basis -- 3.8   Risk Management -- 3.9   Permitting Plan -- 3.10   Schedule -- 3.11   Cost Estimate -- 3.12   Interface Matrix -- 3.13   Value Engineering -- References -- Chapter 4 : Weight Management -- 4.1   Purpose -- 4.2   Scope -- 4.3   Tailoring.4.4   Definitions -- 4.5   Acronyms -- 4.6   General Requirements -- 4.6.1   Scope Determination -- 4.6.2   Complexity Evaluation -- Design Parameters (Weight, Aspect Ratio, Equipment, and Disciplines Involved) -- Transportation -- Risk Acceptance -- 4.6.3   Management Decision Matrix -- Checklist-Transportation (X-axis) -- The scoring system ranges from 4 to 30 points and addresses various aspects of transportation. -- 4.6.4   Definition of List of Tools and Setup (G, Y, R) -- Setup: Define Units -- Setup: Three-Dimensional Model -- Setup: Weight Database -- 4.6.5   Use of Allowances (G, Y, R) -- 4.6.6   Establishment of a Module Datum Point -- 4.6.7   Use of Discipline Checklists (G, Y, R) -- Architectural Item List -- Electrical Item List -- Heating, Ventilation, and Air-Conditioning Item List -- Instrumentation Item List -- Mechanical Item List -- Material and Corrosion Items List -- Piping Item List -- Safety, Environment, and Security Item List -- Structural Item List -- 4.7   Requirements for Various Project Phases -- 4.7.1   Early Estimate of Pre-FEED and FEED (G, Y, R) -- 4.7.2   Detailed Design (G, Y, R) -- Weight and Center of Gravity Limits (G, Y, R) -- 4.7.3   Fabrication (G, Y, R) -- Types of Weight Management -- Shared Fabricator and Engineering Weight Management -- None to Very Little Fabricator Weight Management (G) -- Weight Shedding and Ballasting -- Carryover Work/Ship Loose -- 4.8   Procedures/Specifications -- 4.8.1   Definition of Weight Management Procedure/Specification (G, Y, R) -- Purpose -- References -- Definitions and Abbreviations -- Weight Management Goals -- Weight Management Policy -- Weight Report (Varies by Complexity) -- Executive Summary (G, Y, R) -- Introduction (Y, R) -- Module Reports (Y, R) -- Summary and Conclusions (Y, R) -- Appendixes (Varies by Complexity) -- As-Built Data (G, Y, R).4.8.2   Define Vendor Weight Reporting Procedure/Specification (G, Y, R) -- 4.8.3   Definition of Fabricator Weight Management Procedure/Specification (G, Y, R) -- Defining Fabricator Weighing Requirements (G, Y, R) -- As-Built (G, Y, R) -- 4.8.4   Job Bulletins (As Applicable) -- Chapter 5 : Detailed Engineering -- 5.1   Introduction -- 5.2   Design Loads -- 5.2.1   In-Place -- 5.2.2   Land Transportation by Truck -- Introduction -- Current Practice for Accelerations due to Transportation -- Cargo Securement Rules -- Acceleration Demands -- Acceleration Resistances-Friction -- Transverse Friction and Super Elevation -- 5.2.3   Self-Propelled Modular Transporter Transportation -- Low-Speed Transport -- Average-Speed Transport -- High-Speed Transport -- Inclinations -- Internal Forces within Trailer Configuration -- 5.2.4   Water Transportation -- Introduction -- Sea Vessel Motions: Analysis Methods -- 5.2.5   Lifting Loads -- Crane Lifting -- Self-Propelled Modular Transporter (Lifting) -- Impact Factors -- 5.2.6   Setting Loads and Fabrication Yard Loads -- 5.2.7   Rail Loads -- 5.2.8   Wind Loads -- Introduction -- In-Place Wind -- Wind Load for Truckable Modules -- Wind Loads for Sea Transportation -- Design Wind Speed-Reference Period -- Wind Force -- Wind Load for Land Transportation -- 5.3   Load Combinations -- 5.3.1   Introduction -- 5.3.2   Allowable Stress Design -- 5.3.3   Load and Resistance Factor Design -- 5.3.4   Structural Reliability -- 5.3.5   Load Combinations -- In-Place Load Combinations -- Module Transport Load Combinations -- Module Lifting Load Combinations -- Fabrication and Construction Load Combinations -- 5.3.6   Development of Load Criteria on Projects -- 5.4   Structural Design -- 5.4.1   Structural Modeling and Analysis -- Self-Propelled Modular Transporter Modeling -- Truck Transportation Modeling.Water Transportation Modeling -- Center of Gravity Envelope Impact on Modeling -- Deflection Restrictions on Modeling -- Horizontal Displacements -- 5.4.2   Structural Members and Connections -- 5.4.3   General Design Criteria -- 5.4.4   DNV-ST-N001 Design Criteria -- 5.5   Fatigue Design -- 5.5.1   Methodology -- 5.6   Other Considerations -- References -- Appendix 5A.   Survey Data of Truck Transportation Design Loads -- Appendix 5B.   Example of Transverse Wind with Truck Transportation Loads -- Reference -- Chapter 6 : Module Yard Fabrication and Assembly -- 6.1   Introduction -- 6.2   Modularizations, Prefabrication, and Packaged Equipment -- 6.3   Module Assembly and Erection -- 6.4   Module Fabrication Tolerances -- 6.5   Module Miscellaneous Supports -- 6.6   Module Weighing -- 6.7   Dimensional Control -- 6.8   Compliance Certification and Inspection -- 6.9   Fabrication Interface with Engineering -- References -- Chapter 7 : Logistics and Transportation -- 7.1   Introduction -- 7.2   Interfaces -- 7.3   Procurement and Planning -- 7.3.1   Roles and Responsibilities -- 7.3.2   Operational Constraints -- 7.4   Water Transportation -- 7.4.1   Marine Transport Methods -- Loading and Discharging Methods -- Lift-On/Lift-Off -- Roll-On/Roll-Off -- Float-On/Float-Off -- 7.4.2   Available Ship Types -- Container Ships -- Multipurpose Ships -- Conventional Heavy-Lift Ships -- Dock-Type Ships -- Semisubmersible Heavy-Lift Ships -- Module Carriers -- Barges -- 7.4.3   Transport Vessel Selection -- 7.4.4   Grillage and Sea Fastenings -- Grillage -- Load Spreading -- Wooden Cribbing/dunnage -- Sea Fastenings -- Stoppers -- Pipe Bracings -- A-frames -- Bend Plate -- Chains and Wire Lashing -- Uplift Provisions -- Straps or Chains -- Clips -- 7.4.5   Internal Sea Fastenings -- 7.4.6   Loading and Offloading -- 7.4.7   Marine Warranty Surveyor.7.4.8   Studies.This book provides a comprehensive overview of industrial facility module design, fabrication, transportation, and installation.Modular constructionGenerated by AIIndustrial buildingsDesign and constructionGenerated by AIModular constructionIndustrial buildingsDesign and constructionKerins David1835357Drake Amoroso Samuel1835358John Currie David1835359Dankar Sanjay1835360Hua Xiapin1835361Kalmus Jeremy1835362Khan Rasheed1835363George Khoury Kal1835364Khurana Himanshu1835365Liu Zhong (John)1835366MiAaPQMiAaPQMiAaPQBOOK9911016148003321Structural Design of Modules for Energy and Industrial Facilities4411919UNINA