Reston, VA : , : American Society of Civil Engineers, , 2022

©2022

1-5231-4472-6

0-7844-8386-8

1 online resource (xiv, 194 pages) : illustrations (many color)

Manuals and Reports on Engineering Practice

HornGregg

GaughanMatt

HillRandy

NajafiMohammad

LeathersMike

MuellerRichard

HutsonAlan

BlackwelderElizabeth

SchwarzWalt

621.8/672

Pipelines - Design and construction

Sustainable construction

Inglese

Intro -- Book_5129_C000 -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- Book_5129_C001 -- Chapter 1 :  Introduction and Background -- 1.1   Background -- 1.2   Manual of Practice Organization -- 1.3   Concept of Sustainability -- 1.4   Sustainability and Practice -- 1.5   Manual of Practice General Objectives -- References -- Book_5129_C002 -- Chapter 2 :  Pipeline Products -- 2.1   Scope Limitations and Purpose -- 2.2   Product Sustainability Assessment -- 2.2.1   Performance -- 2.2.2  

Environmental -- 2.2.3   Economic (Including Energy) -- 2.2.4   Life Expectancy (Durability) -- 2.2.5   Maintainability and Resiliency -- 2.3   Installation -- 2.4   End of Life -- 2.5   Summary -- References -- Book_5129_C003 -- Chapter 3 :  Owner Best Practices -- 3.1   Introduction -- 3.2   Project Definition and Scoping -- 3.3   Community/Social Sustainability Leadership -- 3.4   Project Leadership Management -- 3.5   Long-Term Planning -- 3.6   Procurement Management -- 3.7   Design/Construction Leadership -- 3.8   Conclusions -- Book_5129_C004 -- Chapter 4 :  Planning and Design Best Practices -- 4.1   Introduction -- 4.2   Planning Considerations -- 4.3   Project Influencers -- 4.4   Owner Goals -- 4.4.1   Owner Leadership -- 4.4.2   Community and Social Considerations -- 4.4.3   Engineering Design -- 4.4.4   Trenchless Technology and Engineering Design -- 4.4.5   Construction with Trenchless Technology -- 4.4.6   Bedding and Backfill -- 4.5   Higher Levels of Sustainable Achievement -- 4.5.1   Nonstationarity -- 4.5.2   Resilience -- 4.6   Conclusion -- References -- Book_5129_C005 -- Chapter 5 :  Sustainable Construction -- 5.1   Introduction -- 5.2   Designer-Influenced Practices -- 5.2.1   Embedment and Backfill -- 5.2.2   Inspection and Testing -- 5.2.3   Restoration Requirements.

5.2.4   Incorporate Appurtenances to Facilitate Maintenance and Repair -- 5.2.5   Installation Methods -- 5.2.6   Information Management/Document Control -- 5.2.7   Contracting/Procurement Methods -- 5.3   Contractor-Influenced Practices -- 5.3.1   Reducing Greenhouse Gas Emissions during Construction -- 5.3.2   Reducing Fuel Consumption -- 5.3.3   Reducing Idling Time -- 5.3.4   Equipment Maintenance -- 5.3.5   Properly Sized Equipment -- 5.3.6   Material Selection, Procurement, and Shipping Methods -- 5.3.7   Recycling and Reuse of Construction Materials -- 5.3.8   Use of Local Resources -- 5.3.9   Reducing Social Impacts -- 5.4   Sustainable Construction Methods -- 5.4.1   Trenchless Technology Benefits -- 5.4.2   Two Main Divisions of Trenchless Technology Methods -- 5.4.2.1   Trenchless Construction Methods.   TCMs for new installation of pipelines and conduits include all methods of installing new utility systems below grade without direct installation into an open-cut trench. TCMs are divided into two broad categ -- 5.4.2.2   Horizontal Auger Boring Methods.   The horizontal auger boring (HAB) is a cost-effective method of installing a steel casing pipe crossing a road, highway, or railroad track. This process simultaneously jacks a steel casing from a drive pit t -- 5.4.2.3   Microtunnel Boring Machines.   Microtunneling boring machines (MTBMs) are mainly used for the installation of a gravity pipeline such as a sanitary or storm sewer. MTBMs are laser-guided and remotely controlled and permit an accurate monitori -- 5.4.2.4   Horizontal Directional Drilling Methods.   Horizontal directional drilling (HDD) methods are mainly used for the installation of pressure pipelines and cable conduits. These methods involve steerable systems for the installation of both small.

5.4.2.5   Pipe Ramming Methods.   Pipe ramming methods are mainly used for the installation of utilities for road and railroad crossings. Using an air compressor, this process hammers a steel casing pipe inside the earth from a drive pit. The pipe migh -- 5.4.3   Trenchless Renewal Methods -- 5.4.3.1   Cured-In-Place Pipe.   The CIPP process involves the insertion of a resin-impregnated fabric tube into an existing pipe by the use of water or air inversion or winching. Usually, the fabric is polyester felt material, fiberglass reinforced, or -- 5.4.3.2   Underground Coatings and Linings.   The spraying of a thin mortar lining or a resin coating onto pipes is another method of pipeline renewal. For nonworker-entry pipes (usually for host pipes less than 48 

in. diameter), coatings and linings -- 5.4.3.3   Sliplining.   Sliplining is mainly used for structural applications when old pipes do not have joint settlements or misalignments. In this method, a new pipeline of smaller diameter is inserted into the old pipeline and usually the annulus s -- 5.4.3.4   Modified Sliplining.   The MSL includes methods in which pipe sections or plastic strips are installed in close-fit with the existing pipe and the annular space is grouted. There are three variations of the MSL method: panel lining (PL), spi -- 5.4.3.5   In-Line Replacement.   When the capacity of pipelines is found to be inadequate, then ILR should be considered. There are two categories representing ILR: pipe bursting and pipe removal (also called pipe eating). Pipe bursting, as the name i -- 5.4.3.6   Close-Fit Pipe.   This type of trenchless pipeline renewal temporarily reduces the cross-sectional area of the new pipe before it is installed, then expands it to its original size and shape after placement to provide a close fit with the ex.

5.4.3.7   Localized Repairs or Point-Source Repair.   When local defects are found in a structurally sound pipeline, localized or point-source repairs are considered. Systems are available for remote-controlled resin injection to seal localized defect -- 5.4.3.8   Lateral Renewal.   Sewer service laterals can be renewed using any of the methods used for renewal of main lines such as chemical grouting, CIPP, CFP, pipe bursting, and spray-on lining.  Table 5-10  presents the main characteristics of LR me -- 5.4.3.9   Sewer Manhole Renewal.   Sewer manhole renewal methods are provided to prevent surface water inflow and groundwater infiltration, repair structural damage, and protect surfaces from damage from corrosive substances. However, when renewal met -- 5.5   Summary -- References -- Book_5129_C006 -- Chapter 6 :  Best Practices-Operation and Maintenance -- 6.1   Introduction -- 6.2   Testing -- 6.3   Maintenance -- 6.4   General Maintenance Activities -- 6.5   Rehabilitation -- 6.6   Monitoring -- 6.7   Asset Management -- 6.8   Data Collection -- 6.9   Condition Assessment Methods -- 6.10   Pipeline Inspections -- 6.11   Determining Cathodic Protection Performance -- 6.11.1   Sacrificial Anode -- 6.11.2   Impressed Current -- 6.12   System Optimization -- 6.12.1   Reducing Energy Usage -- 6.12.2   Reduce Peak Demands by Utilizing Storage -- 6.12.3   Reduce Energy Peaks -- 6.13   Reduce Third-Party Damage -- 6.14   Reduce Outages and Catastrophic Failures -- 6.15   Summary -- Book_5129_C007 -- Chapter 7 :  Life-Cycle Inventory/Life-Cycle Analysis: Achieving Sustainable Functionality in Pipeline Design and Manufacturing -- 7.1   Introduction -- 7.2   Standard History and Methodology -- 7.3   Cradle to Grave -- 7.4   Water/Wastewater Infrastructure -- 7.4.1   Production Constraints -- 7.4.2   Installation Constraints -- 7.4.3   Use Constraints.

7.4.4   Recovery/Disposal Constraints -- 7.5   Social and Environmental Costs -- 7.6   Pipe Diameter -- 7.7   Owner Costs -- 7.7.1   Preconstruction Costs -- 7.7.2   Construction Costs -- 7.7.3   Postconstruction Costs -- 7.8   Environmental Costs-The Envision Rating System -- 7.9   Social Costs -- 7.10   Life-Cycle Cost Analysis -- 7.11   Reducing Social Costs -- 7.12   Conclusions -- Book_5129_C008 -- Chapter 8 :  Envision Project Rating System -- 8.1   Background and Development -- 8.2   Rating System Purpose and Goals -- 8.3   Organization and Structure -- 8.3.1   Tools -- 8.3.2   Phases -- 8.3.3   Categories and Subcategories -- 8.3.4   Credits -- 8.3.5   Levels of Achievement -- 8.3.6   Evaluation Criteria -- 8.4   Project Scoring and Guidance -- 8.4.1   Guidance Manual -- 8.4.2   Categories and Credits -- 8.4.3   Quality of Life -- 8.4.4   Leadership -- 8.4.5   Resource Allocation -- 8.4.6   Natural World -- 8.4.7  

Climate and Risk -- 8.5   Envision Implementation -- 8.5.1   Roles -- 8.5.2   Project Application and Verification Process -- 8.5.3   Fee Schedule -- 8.5.4   Recognition and Awards -- 8.6    Applicable Features for Pipeline Design and Construction -- 8.7   Summary -- Reference -- Book_5129_A001 -- Appendix A :  Pipe Standards, Design Manuals, and Guidelines -- A.1   Relevant Standard Development Organizations -- A.2   Concrete Pipe -- A.3   Ductile Iron Pipe -- A.4   Fiber-Reinforced Thermosetting Resin Pipe -- A.5   Polyethylene Pipe -- A.6   Polyvinyl Chloride (PVC) Pipe -- A.7   Steel Pipe -- A.8   Vitrified Clay Pipe -- Book_5129_A002 -- Appendix B :  Pipe Materials Resource Information -- B.1   Polyvinyl Chloride Pipe -- B.1.1   Primary Raw Materials in Polyvinyl Chloride Pipes -- B.1.2   Clean and Safe Manufacturing of Polyvinyl Chloride Pipes -- B.1.3   Minimal Waste Discharge and Recyclability -- B.1.4   Suitability of Polyvinyl Chloride Pipes Left in Place.

MOP 151 details the sustainable design and construction of pipelines and presents methods, practices, and decisions that influence and guide sustainable planning, design, construction, and operation, including the Envision infrastructure sustainability rating system.

Abingdon, Oxon ; ; New York, N.Y. : , : Routledge, , 2015

1-317-61336-8

1-138-22499-5

1-315-75084-8

1-317-61337-6

1 online resource (541 p.)

ChaffeeJudith

CrickOlly <1960->

852/.052309

852.052309

Commedia dell'arte - History and criticism

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover; Title Page; Copyright Page; Dedication; Table of Contents; Acknowledgements; Foreword; Notes on contributors; Introduction; PART I The defining features: Actors, scenarios, troupes, stock characters, masks, language and lazzi; Actors; 1 The pre-eminence of the actor in renaissance context: Subverting the social order; Scenarios; 2 Form and Freedom: Between scenario and stage; 3 Parallel Processing: Two playwrights: Scala and Shakespeare; Troupes; 4 The Commedia dell'Arte acting companies; Stock characters; 5 You must have heard of Harlequin...

6 Pantalone and il Dottore: The old men of Commedia7 The Young Lovers; 8 Reading and interpreting the Capitano's multiple mask-shapes; 9 Le Servette in Commedia dell'Arte; 10 Carnival, comedy and the Commedia: A case study of the mask of Scaramouche; 11 Official recognition of Pulcinella: The one who saved the Commedia from extinction by securing its continuity to the present day; 12 The many faces of Brighella: The knave we love to hate; Masks; 13 A mask maker's journey; 14 Mask performance for a contemporary Commedia dell'Arte; 15 New roles for the mask in twentieth century theatre

Language16 Grommelot; Lazzi; 17 Lazzi; 18 Principles of comedy for Commedia dell'Arte; 19 Slapstick and comic violence in Commedia dell'Arte; PART II Historical context: What we know from whom, about what, and why it matters; 20 Aristocratic archeology: Greco-Roman roots; 21 The rise of Commedia dell'Arte in Italy: A historical perspective; 22 The Great Ruzante; 23 The coming together; 24 Staging and staging practices in early Commedia dell'Arte; 25 Commedia dell'Arte and the Spanish Golden Age Theatre; 26 Celestial sirens of the Commedia dell'Arte Stage

27 Incidental music in Commedia dell'Arte performances28 Meetings on Naxos: Opera and Commedia dell'Arte; 29 Classical Ballet and Commedia dell'Arte: Influences; 30 Images of the Commedia dell'Arte; 31 The old man's spectacles: Commedia and Shakespeare; 32 Shakespeare's clown connection: Hybridizing Commedia's Zanni; 33. Writing for the Elite: Molière, Marivaux, and Beaumarchais; 34 Goldoni and Gozzi: Reformers with separate agendas; 35 Commedia dell'Arte as grotesque dance: Decline or evolution?; 36 The myth of Pierrot

37 Speechless spectacles: Commedia pantomime in France, England, and the Americas during the eighteenth and nineteenth centuries38 From Meyerhold to Eisenstein: Commedia dell'Arte in Russia; 39 Giorgio Strehler's Arte: A Commedia master directs Shakespeare; 40 Giovanni Poli: The missing link; 41 Arlecchino Appleseed: Or how Carlo Mazzone-Clementi brought Commedia to the New World; PART III Alive and well and living in...; 42 Despite everything, Commedia dell'Arte is alive in Italy. Long live Commedia!; 43 Dario Fo and the Commedia Dell'Arte; 44 Carlo Boso: Fear and laughter in popular theatre

45 Antonio Fava

From Commedia dell'Arte came archetypal characters that are still with us today, such as Harlequin and Pantalone, and the rediscovered craft of writing comic dramas and masked theatre. From it came the forces that helped create and influence Opera, Ballet, Pantomime, Shakespeare, Moliere, Lopes de Vega, Goldoni, Meyerhold, and even the glove puppet, Mr Punch.The Routledge Companion to Commedia dell'Arte is a wide-ranging volume written by over 50 experts, that traces the history, characteristics, and development of this fascinating yet elusive theatre form. In synthesizing the elements of Comm