Development of LCF life prediction model for wrinkled steel pipes

Zhang, Jianmin.

January 2010

Thesis (Ph. D.)--University of Alberta, 2010. / Title from pdf file main screen (viewed on June 11, 2010). A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Structural Engineering, Department of Civil & Environmental Engineering, University of Alberta. Includes bibliographical references.

Steel Pipe, Steel Underground pipelines

Evaluation of repair design on corrosion-damaged steel pipe piles using welded patch plates under compression

Itoh, Yoshito, Kitane, Yasuo, Chen, Xiao

01 August 2011

No description available.

FE analysis

corrosion damage

steel pipe pile

repair

underwater welding

EVALUATION OF STRENGTH RECOVERY OF REPAIRED STEEL PIPE PILES

Itoh, Y., Watanabe, N., Kitane, Y.

11 1900

No description available.

Corrosion

Strength recovery

Underwater wet welding

Steel pipe pile

Repair

An Integrated Design Approach for Pipelines and Appurtenances Based on Hydrodynamic Loading

McPherson, David

13 January 2014

Water and wastewater conveyance research is steeply based in advancements of numerical methods and models. Design engineers need more than refinements in analysis methods to evolve the standards of practice and the related design guidelines. In an effort to improve the design efficiency and operating reliability of pipeline systems, design guidelines have been developed to enfold the various technological advancements and elevate the standard of care used in the pipeline design process. In this respect, the guidelines have been successful. However, design engineers, manufacturers, and owners have developed a level of dependency on the success of the guidelines. The guidelines, which were developed as and are clearly still held to be by the various publishing associations, a minimum standard of care, have become the default standard of care. Such statements are, of course, gross generalizations, but this thesis is dedicated to move the standard of care forward through an integrated design approach that provides a roadmap to inter-relate the independent design guidelines into a composite design approach based on hydrodynamic loading. Hydrodynamic loading introduces of a temporal parameter into the design process. With the temporal parameter this work demonstrates how the consideration of both the frequency and the influence of acceleration head on the magnitude of the hydraulic loading can be used to integrate and evolve the individual component designs into a more efficient, cost effective, reliable composite design result. With a temporal parameter present in design, many opportunities present themselves to advance the current design procedures outlined in the present design guidelines. This thesis identifies some of the present shortcomings found in the modern pipeline and appurtenance design standards and introduces a recommended path forward. Specific changes to the present standards are proposed in this work and a unique analysis procedure to identify the failure potential of cement mortar lining has been developed. Introducing the integrated design approach will allow for a significant evolution to the present standard of practice in water and wastewater conveyance system designs.

Design Standards

Hydrodynamic

Transient

Hydraulic

Steel Pipe

Air Valve

An Integrated Design Approach for Pipelines and Appurtenances Based on Hydrodynamic Loading

McPherson, David

13 January 2014

Water and wastewater conveyance research is steeply based in advancements of numerical methods and models. Design engineers need more than refinements in analysis methods to evolve the standards of practice and the related design guidelines. In an effort to improve the design efficiency and operating reliability of pipeline systems, design guidelines have been developed to enfold the various technological advancements and elevate the standard of care used in the pipeline design process. In this respect, the guidelines have been successful. However, design engineers, manufacturers, and owners have developed a level of dependency on the success of the guidelines. The guidelines, which were developed as and are clearly still held to be by the various publishing associations, a minimum standard of care, have become the default standard of care. Such statements are, of course, gross generalizations, but this thesis is dedicated to move the standard of care forward through an integrated design approach that provides a roadmap to inter-relate the independent design guidelines into a composite design approach based on hydrodynamic loading. Hydrodynamic loading introduces of a temporal parameter into the design process. With the temporal parameter this work demonstrates how the consideration of both the frequency and the influence of acceleration head on the magnitude of the hydraulic loading can be used to integrate and evolve the individual component designs into a more efficient, cost effective, reliable composite design result. With a temporal parameter present in design, many opportunities present themselves to advance the current design procedures outlined in the present design guidelines. This thesis identifies some of the present shortcomings found in the modern pipeline and appurtenance design standards and introduces a recommended path forward. Specific changes to the present standards are proposed in this work and a unique analysis procedure to identify the failure potential of cement mortar lining has been developed. Introducing the integrated design approach will allow for a significant evolution to the present standard of practice in water and wastewater conveyance system designs.

Design Standards

Hydrodynamic

Transient

Hydraulic

Steel Pipe

Air Valve

Study of carbon dioxide corrosion of carbon steel pipes in multiphase systems

Vuppa, Anil Kumar.

January 1994

Thesis (M.S.)--Ohio University, August, 1994. / Title from PDF t.p.

Study of carbon dioxide corrosion of carbon steel pipes in multiphase systems

Vuppu, Anil Kumar.

January 1994

Thesis (M.S.)--Ohio University, August, 1994. / Title from PDF t.p.

STABILITY OF BURIED STEEL AND GLASS FIBRE REINFORCED POLYMER PIPES UNDER LATERAL GROUND MOVEMENT

Almahakeri, MOHAMED

19 April 2013

As vast networks of high pressure buried energy pipelines traverse North America and other continents, the stability of such essential buried infrastructure must be maintained under a variety of earth loading conditions. The pipe-soil interaction and the longitudinal behaviour of buried pipes due to relative ground movements is poorly understood. This thesis presents full scale testing and numerical modeling of steel and Glass Fibre Reinforced Polymer (GFRP) pipelines to better understand the flexural performance of buried pipes subjected to lateral earth movement. For the experimental phase of the study, a series of pipe bending experiments have been conducted on 102 mm nominal diameter and 1830 mm long steel and GFRP pipes buried in dense sand. Pipe loading was carried out by pulling pipe ends using two parallel cables attached to a spreader beam outside the test region, using a hydraulic actuator. The different tests covered burial depth-to-diameter (H/D) ratios of 3, 5 and 7. During the steel pipe testing phase, special consideration was given to assess the effect of boundary limits, friction within the pulling mechanism, and consistency of results using repeated tests. For the GFRP pipes, the experimental work investigated the effect of the laminate structure of the pipes, including both cross-ply and angle-ply laminates. Test results showed that burial depth significantly influenced the ultimate pulling forces, longitudinal strains, and pipe net deflection at mid-span. The results were also compared between the two types of pipes. The failure mechanism for all tests was consistently governed by soil failure, except for the angle-ply GFRP pipe that failed at a burial depth of H/D=7. For the numerical analysis, the study presents the development and verification of two and three-dimensional numerical models including material constitutive models for both the pipe and for the soil using a stress-dependent modulus. Calculations are presented for different burial depths and are compared to experimental data. It was shown that the numerical model can successfully capture the pipe-soil interaction behaviour for both pipe types in terms of load-displacement responses and net bending deflection. Also, the effect of material variation and laminate structure were in agreement with test data. / Thesis (Ph.D, Civil Engineering) -- Queen's University, 2013-04-18 22:21:53.025

Analysis on Strategic Competitiveness of API Carbon ERW Steel Pipe Industry in Taiwan ¡V A Case Study of CHS

LEE, IE-HSIAN

27 August 2008

Steel industry is highly connected to a lot of industries. In year 2007 Taiwan steel industry is the third industry, after warfer and electronic industry, which achieved hundred billion NTD in total years¡¦s revenue. Taiwaness downstream industries, unlike Japanese and Korean, are mostly owned and managed by small and medium companies. Steel pipe is a long- hollow shaped material, massively adapted in fluid transportation, such as pretrolem, natural gas, water and steam etc. It is also heavily used in mechanic maching and structure engineering. This study focuses on API ERW carbon steel pipe industry in Taiwan. Analysis of pipe manufacture industry strategy is made upon the basis of theories like value chain, competitive strategy and game theory. Moreover, interviews with professionals and specialists are held to collect experiential wisdom regarding management and core competence ability. In another word, theory analyses together with interviews lead to the conclusion of competitive characteristics. Also, illustration of strategic competitiveness forming in CHS provides a practical example. How to evaluate the core competitive ability in Taiwan API ERW carbon steel pipe industry when facing global competition, that depends on every company¡¦s unique global strategy. To sum up, this study describes and analyzes the current state of API ERW carbon steel pipe industry in Taiwan and summits the proposal of competitive strategies by taking CHS as an example.

Carbon steel pipe manufacture

Competitive Strategy

Value Chain

Five Action Analysis

SWOT

Compression Behaviors of Thickness-Reduced Steel Pipes Repaired with Underwater Welds

ITOH, Y., KITANE, Y., CHEN, X.

January 2011

The Proceedings of the Twelfth East Asia-Pacific Conference on Structural Engineering and Construction : EASEC12

finite element analysis

corrosion damage

steel pipe pile

repair

Underwater welding