Napoli : Idelson- Gnocchi, @2012

978-88-7947-539-6

XVII, 397 p. : ill. (col.) ; 26 cm

611.013

FMEBC

SC1

90 G 3b 8

90 G 3b 9

90 G 3b 10

90 G 3b 13

90 G 3b 14

90 G 3b 15

90 G 3b 16

611.013-ARM-1

611.013-ARM-1A

611.013-ARM-1B

Italiano

Madrid, : U.N.E.D., 1987

84 362 2275 X

311 p., (6) c. di tav. : ill. ; 21 cm

840

DECLI

840 BOI

Spagnolo

Strasbourg, : Presses universitaires de Strasbourg, 2018

979-1-03-440473-5

1 online resource (174 p.)

Études orientales, slaves et néo-helléniques

Religion

Bible

universalisme

judaïsme

particularisme

philosophie juive

corpus rabbinique

Francese

Quelles ont été les orientations de l'École de pensée juive de Paris ? Ses traits caractéristiques ? Ses objectifs ? Ses domaines de recherche ? Qui en étaient les maîtres ? Qu'ont-ils transmis ? Les champs qu'ils ont labourés et semés ont-ils donné des fruits ? Les chemins qu'ils ont ouverts ont-ils été élargis ou délaissés et recouverts de ronces, de sorte que plus personne ne s'y aventure ?  Cet ouvrage vise à dégager l'esprit de la pensée juive de langue française telle qu'elle s'exprimait dans la seconde moitié du xxe siècle et à le présenter dans ses articulations majeures.  On découvrira alors autour du noyau fondateur, une pépinière de penseurs lesquels n'ont pas hésité à porter la voix de la pensée juive au sein de la cité et au cœur de la philosophie occidentale qui s'en est trouvée parfois débordée, le plus souvent fécondée.

Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2023]

©2023

1-119-82482-6

1 online resource (253 pages)

693.97

Modular construction

Inglese

Includes bibliographical references and index.

Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgements -- Introduction -- Chapter 1: What Is Modularization? -- Chapter 2: Advantages and Challenges of Modularization -- Chapter 3: Industry Status on Modularization -- Chapter 4: What Is a Module? -- Chapter 5: The Business Case for Modularization -- Chapter 6: The Module Team and Execution Plan Differences -- Chapter 7: Key Critical Success Factors for Modular Project Success -- Chapter 8: The Fabrication Yard -- Chapter 9: Module Considerations by Project Group -- Chapter 10: A Practical Module Development Process -- Chapter 11: Modularization Application Case Study Exercise -- Chapter 12: Standardization: The Holy Grail of Pre-Assembly -- Chapter 13: Innovative Technologies for Modularization -- Chapter 14: Moving Forward -- Chapter 15: Key Literature and Resources on Modularization -- Chapter 1 What Is Modularization? -- 1.1 Definitions -- 1.1.1 Modularization -- 1.1.2 Module -- 1.1.3 Percentage Modularization -- 1.2 "Planning for Modularization" as a Best Practice -- 1.3 Current State of the Construction Industry -- 1.3.1 How Did the Construction Industry End Up in Such a Sad State of Affairs? -- 1.3.2 The Solution: Modularization -- 1.3.3 Why Aren't All Jobs Modular? -- 1.3.4 Are Module Jobs More Expensive? -- 1.4 Three Distinct Module Options (or Circumstances) -- 1.4.1 Very Limited -- 1.4.2 Selective Implementation -- 1.4.3 Maximized Modularization -- 1.5 What Modularization Is "Not" -- 1.5.1

Panacea (a Solution for All Difficulties) -- 1.5.2 Constant -- 1.5.3 Easy -- 1.6 Summary -- References -- Chapter 2 Advantages and Challenges of Modularization -- 2.1 Why Do Fabrication Yards Have an Advantage? -- 2.1.1 Obvious Reasons -- 2.1.2 Less Obvious Reasons -- 2.2 Advantages of Modularization -- 2.2.1 Reduced Capital Costs -- 2.2.2 Improved Schedule Performance.

2.2.3 Increased Productivity -- 2.2.4 Improved Predictability (Surety/Reliability) or Less Variability -- 2.2.5 Increased Safety and Quality Performance -- 2.2.6 Increased Sustainability Performance (Green Benefits) -- 2.2.7 Site and Site Construction Team Benefits -- 2.3 Challenges -- 2.3.1 Critical Path (Reduction in Flexibility) -- 2.3.2 Upfront Cost (and Pre-Commitment) -- 2.3.3 Barriers to Engineering -- 2.3.4 Acceleration of Procurement -- 2.3.5 Owner and Contractor Capabilities -- 2.3.6 Module Fabricator Skills and Capabilities -- 2.3.7 Extensive Coordination -- 2.3.8 Logistics (Module Transportation) -- 2.3.9 Others -- 2.4 Summary -- References -- Chapter 3 Industry Status on Modularization -- 3.1 Modular Projects Case Study -- 3.1.1 Case Study Methodologies -- 3.1.2 Sample Characteristics -- 3.2 Results (Industry Status on Modularization) -- 3.2.1 Advantages of Modularization -- 3.2.2 Cost and Schedule Savings Compared to Stick-Built -- 3.2.3 Recognized Project Difficulties and Impediments to Modularization Application -- 3.2.4 Business Case Drivers for Modularization -- 3.2.5 Types of Module Units -- 3.2.6 Number, Size, and Weight of Modules -- 3.2.7 Characteristics of Job Site and Module Fabrication/Assembly Shops -- 3.3 Summary -- Acknowledgments -- References -- Chapter 4 What Is a Module? -- 4.1 Common Terms -- 4.1.1 Pre-Assembled Pipe Rack or Pre-Assembled Rack (PAR) -- 4.1.2 Pre-Assembled Units (PAU) -- 4.1.3 Skid Mounted Unit (SMU) or Vendor Package Unit (VPU) -- 4.1.4 Vendor Assembled Unit (VAU) -- 4.1.5 Pre-Assembled Structure (PAS) -- 4.2 Other Terms -- 4.2.1 Small PAU/Medium PAU/Large PAU/Super PAU/Mega (or Small/Medium/Large/Very Large/Mega Equipment Modules) -- 4.2.2 Small PAR/Medium PAR/Large/Very Large PAR (or Small/Medium/Large/Very Large Pipe Rack Modules) -- 4.3 Module Considerations -- 4.3.1 Plot Plan Development.

4.3.2 What Does Such an Exercise Look Like? -- 4.3.3 Why Analyze the Process? -- 4.3.4 Steps in Maximizing Module Efficiency -- 4.3.5 Additional Module Considerations -- 4.4 Summary -- References -- Chapter 5 The Business Case for Modularization -- 5.1 Fundamentals of the Business Case -- 5.1.1 What Makes a "Good" Module Candidate? -- 5.1.2 Every Project Has Some Amount of Modularization -- 5.1.3 Three Distinct Levels of Involvement -- 5.1.4 Advantages and Challenges -- 5.2 Important Factors to Consider -- 5.2.1 Universal Key Project Drivers -- 5.2.2 Additional Project-Specific Factors -- 5.3 The Business Case Process -- 5.4 The Business Case Model -- Project Analysis -- The 13-Step Business Case Flowchart -- 5.5 The 13-Step Business Case Flowchart -- Step 1 Modularization Technical Feasibility -- Step 2 Identify Module Drivers -- Step 3 Analyze Module Potential -- Step 4 Perform Options Analysis -- Step 5 Develop Module Scope, and Step 6 Develop Module Size -- Step 7 Produce Module Definition and Index -- Step 8 Develop Execution Strategy and Execution Plan -- Step 9 Produce a Definitive Cost Estimate -- Step 10 Produce a Definitive Schedule -- Step 11 Check Module Viability -- Step 12 Proceed with Modularization to the Next Project Phase -- Step 13 Fall Back to Stick-Built -- 5.6 How Often Should the Business Case Flowchart Be Utilized? -- 5.7 Summary -- References -- Chapter 6 The Module Team and Execution Plan Differences -- 6.1 The Module Team -- 6.1.1 A Module-Savvy Leader -- 6.1.2 The Module Team Members

-- 6.1.3 Critical Team Members -- 6.1.4 Integration into Project Management -- 6.1.5 Module Team Growth -- 6.2 Execution Plan Differences (EPDs) -- 6.2.1 Guiding Principles -- 6.2.2 Topics of Execution Plan Differences -- 6.2.3 Detailed List of Execution Plan Differences -- 6.2.4 Timing of Execution Plan Differences -- 6.3 Summary.

References -- Chapter 7 Key Critical Success Factors for Modular Project Success -- 7.1 Modularization Critical Success Factors (CSFs) -- 7.1.1 CSF Labels and Descriptions -- 7.1.2 Frequent Module Job Mistakes -- 7.1.3 Responsibility and Timing of CSFs -- 7.1.4 Most Delayed CSFs in Terms of Accomplishment Timing -- 7.2 Association between Modularization CSF and Project Performance -- 7.3 Training Exercise -- 7.3.1 Instructions for the Training Exercise -- References -- Chapter 8 The Fabrication Yard -- 8.1 Basic Benefits of the Fab Yard -- 8.2 Manufacturing and Construction Mixture -- 8.3 AWP and Module Fabrication -- 8.4 Selecting a Fabrication Yard -- 8.4.1 Project Size -- 8.4.2 Number of Yards Utilized -- 8.4.3 Location of the Yard -- 8.4.4 Complexity -- 8.5 Contracting Strategy -- 8.5.1 Type of Contract -- 8.5.2 The Best Type of Subcontract -- 8.6 Division of Responsibility -- 8.7 Summary -- Reference -- Chapter 9 Module Considerations by Project Group -- 9.1 Engineering Considerations -- 9.1.1 Module Evolution -- 9.1.2 Operations and Maintenance Input -- 9.1.3 Structural Engineering Is King -- 9.2 Scheduling Considerations -- 9.3 Procurement Considerations -- 9.3.1 Fabrication Yard Interfacing -- 9.4 Sub-Contract Considerations -- 9.4.1 Heavy Haul (HH) -- 9.4.2 Vessel Transport -- 9.4.3 Module Offloading Facility (MOF) -- 9.4.4 Heavy Lift (HL) -- 9.4.5 Pipe Spools and Galvanized Structural Steel Fabrication -- 9.5 Fabrication Considerations -- 9.5.1 Bolted vs. Welded -- 9.5.2 Structural Shapes -- 9.6 Completion/Testing/Prep Considerations -- 9.6.1 Shipping Incomplete -- 9.6.2 Ship Loose -- 9.7 Load-out Considerations -- 9.7.1 Land Load-out and Self-Propelled Modular Transporters (SPMTs) -- 9.7.2 Marine Onloading and Offloading -- 9.7.3 Capacity of the Wharf or Quay -- 9.8 Module Movement Considerations -- 9.9 Module Responsibility Matrix.

9.10 Shipping Considerations -- 9.10.1 Tying or Fastening the Module -- 9.10.2 Movement to Site and Hook-Up -- 9.11 Construction Considerations -- 9.11.1 Understand the Schedule -- 9.11.2 Understand the Modules -- 9.12 Summary -- References -- Chapter 10 A Practical Module Development Process -- 10.1 Introduction -- 10.2 Initial Project Analysis -- 10.2.1 Reality Check Questions -- 10.3 Early Discussions -- 10.4 Module Tenets -- 10.4.1 Definitions -- 10.4.2 Boundaries and Limitations -- 10.4.3 Cost -- 10.4.4 Impacts -- 10.4.5 Experience -- 10.4.6 Commitment -- 10.5 Project Drivers -- 10.5.1 Cost versus Schedule -- 10.5.2 Other Drivers -- 10.5.3 Owner-Furnished Equipment -- 10.5.4 The Module Team -- 10.5.5 How Many and How Big? -- 10.6 The Five-Step Module Development Process -- 10.6.1 Step #1 The Stick-Built versus Module Comparison -- 10.6.2 Step #2 The Module Layout -- 10.6.3 Step #3 Expand and Accept -- 10.6.4 Step #4 Schedule -- 10.6.5 Step #5 Cost -- 10.6.6 Other Activities -- 10.7 Concerns to Watch Out For (Lessons Learned) -- 10.8 The Inevitable Question -- 10.8.1 The Late Requested Module Study -- 10.8.2 Less Ambitious Options -- 10.9 A Couple of Observations from Experience -- 10.9.1 Underestimation -- 10.9.2 Under-Collaboration -- 10.10 Conclusion -- Chapter 11 Modularization Application Case Study Exercise -- 11.1 Oil and Gas (Downstream) LNG Modularization Project Scenario1 -- 11.2 General Project Description and Background -- 11.3 Additional Project Site/Existing Facilities Information -- 11.3.1 General Information -- 11.3.2 Potential African

Supply Bases -- 11.3.3 Opportunity Island -- 11.3.4 Asian Fabrication Yards -- 11.3.5 The Houston Engineering Offices -- 11.3.6 Project Scope -- 11.3.7 Project Characteristics -- 11.3.8 Project Stakeholders -- 11.3.9 Modularization -- 11.4 In-Class Exercise -- Opportunity Framing (FEL-0).

11.4.1 Suggested Student Development Activities.