DOCSLIB.ORG

View Souvenir Book

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
View Souvenir Book DFI INDIA 2018 Souvenir With extended abstracts Sponsor / Exhibitor catalogue www.dfi -india.org Deep Foundations Institute USA, DFI of India Indian Institute of Technology Gandhinagar, Gujarat, India Indian Geotechnical Society, Ahmedabad Chapter, Ahmedabad, India 8th Annual Conference on Deep Foundation Technologies for Infrastructure Development in India IIT Gandhinagar, India, 15-17 November 2018 1 Deep Foundations Institute of India Advanced foundation technologies Good contracting and work practices Skill development Design, construction, and safety manuals Professionalism in Geotechnical Investigation Student outreach Women in deep foundation industry Join the DFI Family DFI India 2018 8th Annual Conference on Deep Foundation Technologies for Infrastructure Development in India IIT Gandhinagar, India, 15-17 November 2018 Souvenir With extended abstracts Sponsor / Exhibitor catalogue Deep Foundations Institute, DFI of India Indian Institute of Technology Gandhinagar, Gujarat, India Indian Geotechnical Society, Ahmedabad Chapter, Ahmedabad, India www.dfi -india.org 3 Deep Foundation Technologies for Infrastucture Development in India - DFI India 2018 IIT Gandhinagar, Gujarat, India, 15-17 November 2018 DFI India 2018, 8th Annual Conference on Deep Foundation Technologies for Infrastructure Development in India Advisory Committee Prof. Sudhir K. Jain, Director. IIT Gandhinagar Dr. Dan Brown, Dan Brown and Association and DFI President Mr. John R. Wolosick, Hayward Baker and DFI Past President Prof. G. L. Sivakumar Babu, IGS President Er. Arvind Shrivastava, Nuclear Power Corp of India and EC Member, DFI of India Prof. A. Boominathan, IIT Madras and EC Member, DFI of India Prof. S. R. Gandhi, NIT Surat and EC Member, DFI of India Gianfranco Di Cicco, GD Consulting LLC and DFI Trustee Prof. M. R. Madhav, Emeritus Professor at JNTU Hyderabad and Visiting Professor at IIT Hyderabad Dr. Niranjan Swarup, CIDC and EC Member, DFI of India Prof. V. S. Raju, Former Director of IIT Delhi Dr. V. R. Raju, Keller Group Plc Prof. G. V. Rao, IIT Gandhinagar Er. Vivek P. Kapadia, Water Resource Dept., Government of Gujarat Technical Committee Prof. Arindam Dey, IIT Guwahati Dr. V. Balakumar, Simplex Infrastructure Ltd and EC Member, DFI of India Dr. Ing P.V. Chandran Mohan, Navayuga Eng. Co. Ltd Prof. Debasis Roy, IIT Kharagpur Prof. K. Ilamparuti, CEG Anna University Er. M. Iyengar, Former Executive Director of Engineers India Ltd Dr. Kumar Pitchumani, AECOM India Pvt Ltd India and EC Member, DFI of India Er. Mary Ellen Bruce Large, DFI Director of Technical Activities Dr. A. Murali Krishna, IIT Guwahati Dr. K. S. Rama Krishna, Chairman - DFI of India Er. Ravi Sundaram, Cengrs Geotechnica Pvt Ltd Prof. Sarvesh Chandra, Formerly IIT Kanpur Er. Seth Vaidya, Langan Engineering and Environmental Services, USA Prof. K. G. Sharma, IIT Delhi Er. Siva Arunachalam, Soletanche Bachy Er. L. P. Srivastava, IIT Gandhinagar Dr. Sunil Basarkar, Afcons Infrastructure Limited and EC Member, DFI of India Er. Tiru Kulkarni, Garware Wall ropes - Geo-Division Mr. M. Venkataraman, IIT Gandhinagar Organizing Committee Prof. Abhaykumar Gandhi, LD College of Engineering Er. I. V. Anirudhan, Geotechnical Solutions and Vice Chairman-DFI of India Er. Apurva N Parikh, Multi Media Consultants Pvt Ltd Er. K. Bairagi, L & T Construction and EC Member, DFI of India Er. Gyan C Chaudhary, IIT Gandhinagar Er. Y. Hari Krishna, Keller Ground Engineering India Pvt. Ltd, EC Member, DFI of India Er. Jagpal Singh Lotay, Bauer Maschinen and EC Member, DFI of India Dr. Jaykumar Shukla, L&T Sargent & Lundy, EC Member, DFI of India Er. Kamlesh Mishra, Geo Ground Engineering Operation India Pvt Ltd Er. Laxmi Kanta Tripathy, Dept of Water Resources, Odisha and EC Member, DFI of India Mr T.S. Mahendran, DFI of India Mr. M. Mohamed Athif, DFI of India Er S. K. Patel, R&B Department, Gujarat Er. D Pradeep Kumar, Panasia Project Consultancy Pvt Ltd Er. G.V. Prasad, DFI of India Col. Sarvjeet Singh Kapoor, IIT Gandhinagar Er. Saurabh Vyas, TechFab India Prof. Sharadkumar Purnanand Purohit, Nirma University Ms. Silky Agrawal, GeoCarte Radar Tech Pvt. Ltd. Conference Chair Prof. C. H. Solanki, SVNIT Surat Prof. Amit Prashant, IIT Gandhinagar Prof. Vikas P Singh, IITRAM Ahmedabad Mrs. Theresa Engler, DFI Executive Director Organising Secretaries Ms. Maureen Mandel, DFI Director of Programs Prof. Ajanta Sachan, IIT Gandhinagar Mrs. Lauren Nance, Senior Meetings & Events Specialist Mr. Ravikiran Vaidya, Geodynamics Mrs. Angie Gibble, DFI Meetings and Events Specialist ii Deep Foundation Technologies for Infrastucture Development in India - DFI India 2018 IIT Gandhinagar, Gujarat, India, 15-17 November 2018 Preface DFI-INDIA 2018: The Eighth Annual Conference on Deep Foundation Technologies for Infrastructure Development in India with a one-day pre-conference workshop on Ground Improvement Techniques - Column Support Embankments and Soil Mixing is being organised by Deep Foundations Institute (DFI) and DFI of India during 15-17 November 2018 at IIT Gandhinagar near Ahmedabad. Indian Institute of Technology Gandhinagar, Gujarat, and Indian Geotechnical Society-Ahmedabad Chapter are the collaborators. DFI is an international non-profit forum for engineers, contractors, manufacturers, equipment suppliers, and academia to share knowledge that improves the planning, design, and construction aspects of deep foundations and deep excavations. In 1996, DFI organised its first conference in India in Mumbai (Bombay). DFI of India was registered in the year 2013 as a non-profit organisation with the Ministry of Corporate Affairs (MOCA) and entered into an affiliation agreement with DFI. Seven annual conferences on a common theme Deep Foundation Technologies for Infrastructure Development in India were organised at Hyderabad, IIT Madras, IIT Bombay, IIT Delhi, IISc Bangalore, IIEST Shibpur and IIT Madras. The conference is designed to have three main events: a one-day workshop on Ground Improvement Techniques - Column Support Embankments and Soil Mixing, a two-day conference to highlight four important aspects of quality foundation construction, viz., Deep Foundations in Infrastructure Projects – Owners Perspective; Geotechnical Investigation - testing, contractual and reporting requirements; Best Design Practices and New Technology Initiatives; and Ground Improvement, Piling and Deep Excavation & Support Technologies. The third event which runs parallel with the conference is the exhibition, is to showcase the latest technologies, equipment, testing & monitoring techniques, and special materials. Eight Keynote lectures from overseas and Indian experts and forty four presentations from industry specialists and researchers are the highlights of this conference. Abstracts of these technical presentations are compiled and presented in this Souvenir. The full-length papers are provided in electronic media. A Panel Discussion on Possible Solutions for Handling Issues in Geotechnical/Foundation Scope of Major Infrastructure/Building Projects and an introductory session on the Women in Deep Foundations on the first day of the conference are special events of this conference. For making this souvenir a valuable document and guide, the organising committee has included technical abstracts, along with messages of dignitaries, details of sponsors and exhibitors. We hope the volume will be of interest and benefit to the delegates. A Conference of this scale would not be possible without the support and contributions of the invited Speakers, Authors, Conference Sponsors, Exhibitors and Delegates. We gratefully acknowledge all for their generous support and inspirational participation. Even though there is a good number of sponsors and exhibitors, the turnout was far below the expectations. DFI of India is hoping for more substantial participation in the coming years as economic conditions of India are improving. We also express our sincere gratitude to the members of the Advisory Committee, Organizing Committee, Technical Committee and Student Volunteers for their untiring efforts, besides individuals who lent their quiet efforts for making this Conference a great success. The enthusiastic support in the form of guidance, close coordination and follow up by Ms Theresa Engler, Executive Director, Ms Mary Ellen Large, Technical Activities Manager, and the staff of DFI are gratefully acknowledged. The untiring support from Prof. Amit Prashant and his team at IIT Gandhinagar made this conference a great event. The efforts from Mr G V Prasad, Director-operations at DFI of India, Mr Mohamed Athif, Mr Chandrasekhar and Mr T.S. Mahendran, all at DFI of India is highly appreciated. Dr K.S. Rama Krishna I.V. Anirudhan Chairman-DFI of India Vice Chairman-DFI of India iii Deep Foundation Technologies for Infrastucture Development in India - DFI India 2018 IIT Gandhinagar, Gujarat, India, 15-17 November 2018 About the Organizers Deep Foundations Institute (DFI) and DFI of India DFI is an international non-profit association of engineers, contractors, manufacturers, equipment suppliers in the deep foundations and deep excavations industry. DFI of India was registered at Chennai with the Ministry of Company Affairs as a non-profit organization in 2013, following the success of its first event in Hyderabad in 2011 and the inaugural Deep Foundation Technologies for Infrastructure Development in India conference held in Chennai in 2012. These events were followed by highly successful conferences in Mumbai in 2013, in New Delhi in
Load more

Recommended publications
  • Application of Geodetic Measuring Methods for Reliable Evaluation of Static Load Test Results of Foundation Piles
    remote sensing Article Application of Geodetic Measuring Methods for Reliable Evaluation of Static Load Test Results of Foundation Piles Zbigniew Muszy ´nski 1,* and Jarosław Rybak 2 1 Faculty of Geoengineering, Mining and Geology, Wrocław University of Science and Technology, 50-370 Wrocław, Poland 2 Faculty of Civil Engineering, Wrocław University of Science and Technology, 50-370 Wrocław, Poland; [email protected] * Correspondence: [email protected] Abstract: Geodetic measuring methods are widely used in the course of various geotechnical works. The main purpose is usually related to the location in space, geometrical dimensions, settlements, deflections, and other forms of displacements and their consequences. This study focuses on the application of selected surveying methods in static load tests (SLTs) of foundation piles. Basic aspects of the SLT are presented in the introductory section, together with the explanation of the authors’ motivation behind the novel (but already sufficiently tested) application of remote methods introduced to confirm, through inverse analysis, the load applied to the pile head under testing at every stage of its loading. Materials and methods are described in the second section in order to provide basic information on the test site and principles of the SLT method applied. The case study shows the methodology of displacement control in the particular test, which is described in light of a Citation: Muszy´nski,Z.; Rybak, J. presented review of geodetic techniques for displacement control, especially terrestrial laser scanning Application of Geodetic Measuring and robotic tacheometry. The geotechnical testing procedure, which is of secondary importance for Methods for Reliable Evaluation of the current study, is also introduced in order to emphasize the versatility of the proposed method.
    [Show full text]
  • Downloaded from the Online Library of the International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE)
    INTERNATIONAL SOCIETY FOR SOIL MECHANICS AND GEOTECHNICAL ENGINEERING This paper was downloaded from the Online Library of the International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE). The library is available here: https://www.issmge.org/publications/online-library This is an open-access database that archives thousands of papers published under the Auspices of the ISSMGE and maintained by the Innovation and Development Committee of ISSMGE. Section 3B Fondations sur pieux Piled Foundations Sujets de discussion : Détermination de la force portante d’une fondation à partir des indications des pénétromètres. Influence du groupement des pieux sur la force portante et le tassement. Subjects for discussion : Determination of the bearing capacity of a foundation from penetrometer tests. Pile groups; bearing capacity and settlement. Président / Chairman : E. Schultze, Allemagne. Vice-Président / Vice-Chairman : H. C ourbot, France. Rapporteur Général / General Reporter : L. Z eevaert, Mexique. Membres du Groupe de discussion / Members o f the Panel : E. G euze, U.S.A.; J. K erisel, France; T. M ogami, Japon; N- N ajdanovic, Yougoslavie ; R.B. Peck, U.S.A.; M. V argas, Brésil. Discussion orale / Oral Discussion V. Berezantsev, U.R.S.S. R. B. Peck, U.S.A. L. Bjerrum, Norvège H. Petermann, Allemagne A. J. L. Bolognesi, Argentine R. Pietkowski, Pologne A. Casagrande, U.S.A. H. Simons, Allemagne T. K. Chaplin, Grande-Bretagne G. F. Sowers, U.S.A. A. J. Da Costa Nunes, Brésil C. Szechy, Hongrie E. de Beer, Belgique C. Van der Veen, Hollande C. Djanoeff, Grande-Bretagne M. Vargas, Brésil O. Eide, Norvège E.
    [Show full text]
  • Colorado's Full-Scale Field Testing of Rockfall Attenuator Systems
    TRANSPORTATION RESEARCH Number E-C141 October 2009 Colorado’s Full-Scale Field Testing of Rockfall Attenuator Systems TRANSPORTATION RESEARCH BOARD 2009 EXECUTIVE COMMITTEE OFFICERS Chair: Adib K. Kanafani, Cahill Professor of Civil Engineering, University of California, Berkeley Vice Chair: Michael R. Morris, Director of Transportation, North Central Texas Council of Governments, Arlington Division Chair for NRC Oversight: C. Michael Walton, Ernest H. Cockrell Centennial Chair in Engineering, University of Texas, Austin Executive Director: Robert E. Skinner, Jr., Transportation Research Board TRANSPORTATION RESEARCH BOARD 2009–2010 TECHNICAL ACTIVITIES COUNCIL Chair: Robert C. Johns, Director, Center for Transportation Studies, University of Minnesota, Minneapolis Technical Activities Director: Mark R. Norman, Transportation Research Board Jeannie G. Beckett, Director of Operations, Port of Tacoma, Washington, Marine Group Chair Paul H. Bingham, Principal, Global Insight, Inc., Washington, D.C., Freight Systems Group Chair Cindy J. Burbank, National Planning and Environment Practice Leader, PB, Washington, D.C., Policy and Organization Group Chair James M. Crites, Executive Vice President, Operations, Dallas–Fort Worth International Airport, Texas, Aviation Group Chair Leanna Depue, Director, Highway Safety Division, Missouri Department of Transportation, Jefferson City, System Users Group Chair Robert M. Dorer, Deputy Director, Office of Surface Transportation Programs, Volpe National Transportation Systems Center, Research and Innovative
    [Show full text]
  • Water Tourism Planning and Infrastructure Development in Vicinity of Statue of Unity
    International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 07 Issue: 05 | May 2020 www.irjet.net p-ISSN: 2395-0072 WATER TOURISM PLANNING AND INFRASTRUCTURE DEVELOPMENT IN VICINITY OF STATUE OF UNITY Ajaysinh D. Matieda1, Prof. Sejal S. Bhagat2 1Pursuing Post Graduation in Town and Country Planning 2Assistant Professor, Faculty of Civil Engineering, Sarvajanik College of Engineering and Technology, Gujarat, India ---------------------------------------------------------------------***---------------------------------------------------------------------- Abstract - Tourism has been a major phenomenon with popular around the world and the stretch selected for study immense opportunities for revenue and employment has great potential to be developed as water tourism. Water generation all over the world. Tourism sector contributed USD tourism is usually supported by facilities and tourist 8.8 trillion to the global economy and it accounted for 319 activities related to the water activities while enjoying the million jobs. In India also, tourism has emerged with largest beautiful scenery around the watershed area.[3] Water service industry contributing to 9.2% of India`s GDP and tourism is a type of adventure-based tourism which targets 8.78% to total employment in India. India is blessed with rich area of natural or artificial water surface including riverside history and unparalleled diversity which serves as a great and lakeside area. Activities in water tourism involves tours advantage for tourism development. The natural landscape of to pilgrimage destination and sightseeing of historical India gives immense opportunities for tourism development. monuments, national parks, forest campsites etc. along the The main aim of this paper is to analyze the tourist spots in the course of rivers, canals or lakes.
    [Show full text]
  • Spotlight on Pile Integrity Test
    Piles & Deep Foundations A Spotlight on Low Strain Impact Integrity Test Concrete piles and drilled shafts are an important category of foundations. Despite their relatively high cost, they become necessary when we want to transfer the loads of a heavy superstructure (bridge, high rise building, etc.) to the lower layers of soil. Pile integrity test (PIT), or as ASTM D5882 refers to it as "a low strain impact integrity test," is a common non-destructive test method for the evaluation of pile integrity and/or pile length. A pile integrity test can be used for forensic evaluations on existing piles, or quality assurance in new construction. The Integrity test is applicable to driven concrete piles and cast-in- place piles. What is Pile Integrity Test (PIT) ? Low strain impact integrity testing provides acceleration or velocity and force (optional) data on slender structural elements (ASTM D5882). Sonic Echo (SE) and Impulse Response (IR) are employed for the integrity test on deep foundation and piles. The test results can be used for the evaluation of the pile cross-sectional area and length, the pile integrity and continuity, as well as consistency of the pile material. It is noted that this evaluation practice is approximate. 647-933-6633 Website: fprimec.com Email: [email protected] Use PIT Method To Evaluate : Integrity and consistency of pile material (concrete, timber); Unknown length of piles, or shafts; Pile cross-sectional area and length. Limitations of Use : Like all other non-destructive testing solutions, the low strain pile integrity test has certain limitations. These limitations must be understood and taken into consideration in making the final integrity evaluation.
    [Show full text]
  • Anchored (Tie Back) Retaining Walls and Soil Nailing in Brazil
    www.geotecnia.unb.br/gpfees Summer Term 2015 Hochschule Munchen Fakultat Bauingenieurwesen Anchored (Tie Back) Retaining Walls and Soil Nailing in Brazil www.geotecnia.unb.br/gpfees 2/60 LAYOUT Details and Analysis of Anchored Walls Details and Analysis of Soil Nailing Examples of Executive Projects www.geotecnia.unb.br/gpfees 3/60 ANCHORED “CURTAIN” WALLS (Tie Back Walls) www.geotecnia.unb.br/gpfees 4/60 Introduction Details: • Earth retaining structures with active anchors • A.J. Costa Nunes pioneer work in 1957 • 20 – 30 cm thick concrete wall face tied back • Ascending or descending construction methods • Niche excavation • ACTIVE anchor 4 www.geotecnia.unb.br/gpfees 5/60 Excavation Procedure www.geotecnia.unb.br/gpfees 6/60 www.geotecnia.unb.br/gpfees 7/60 Molding Joints www.geotecnia.unb.br/gpfees 8/60 www.geotecnia.unb.br/gpfees 9/60 www.geotecnia.unb.br/gpfees 10/60 www.geotecnia.unb.br/gpfees 11/60 www.geotecnia.unb.br/gpfees 12/60 Stability Analysis Verification of failure modes: • Toe bearing capacity (NSPT < 10) • Bottom failure • Wedge or generalized failure: limit equilibrium analyses • Excessive deformations • Anchor stability and punching • Structural failure • Construction failures (e.g. during excavation) www.geotecnia.unb.br/gpfees 13/60 www.geotecnia.unb.br/gpfees 14/60 www.geotecnia.unb.br/gpfees 15/60 Stability Analysis Methodologies Wedge Method: • Kranz (1953) is the pioneer • One or two wedges • Ranke and Ostermeyer (1968) German Method • Nunes and Velloso (1963) Brazilian Method • Hoek and Bray (1981) www.geotecnia.unb.br/gpfees
    [Show full text]
  • Finite Element Study on Static Pile Load Testing Li Yi A
    FINITE ELEMENT STUDY ON STATIC PILE LOAD TESTING LI YI (B.Eng) A THESIS SUBMITTED FOR THE DEGREE OF MASTER OF ENGINEERING DEPARTMENT OF CIVIL ENGINEERING NATIONAL UNIVERSITY OF SINGAPORE 2004 Dedicated to my family and friends ACKNOWLEDGEMENTS The author would like to express his sincere gratitude and appreciation to his supervisor, Associate Professor Harry Tan Siew Ann, for his continual encouragement and bountiful support that have made my postgraduate study an educational and fruitful experience. In addition, the author would also like to thank Mr. Thomas Molnit (Project Manager, LOADTEST Asia Pte. Ltd.), Mr. Tian Hai (Former NUS postgraduate, KTP Consultants Pte. Ltd.), for their assistance in providing the necessary technical and academic documents during this project. Finally, the author is grateful to all my friends and colleagues for their help and friendship. Special thanks are extended to Ms. Zhou Yun. Her spiritual support made my thesis’ journey an enjoyable one. i TABLE OF CONTENTS ACKNOWLEDGEMENTS............................................................................................. i TABLE OF CONTENTS................................................................................................ii SUMMARY................................................................................................................... iv LIST OF TABLES......................................................................................................... vi LIST OF FIGURES ......................................................................................................vii
    [Show full text]
  • Rectification of Tilt & Shift of a Well by Kentledge Method
    International Journal of Scientific & Engineering Research Volume 9, Issue 2, February-2018 1447 ISSN 2229-5518 Rectification of Tilt & Shift of a Well by Kentledge Method ROHIT KUMAR DUBEY Well foundations are quite appropriate foundation for Abstract: quite useful. In principle the construction of a well alluvial soils in rivers and creeks where max depth of scour can be quite large. In india technology of well foundation for design and foundation for bridges is similar to the conventional construction is quite well developed, still there are situations where serious problems are encountered at site during construction of wells whose main purpose was to obtain ground water well foundations, which results in excessive tilt of well in a centuries ago. In planthe shape of a well foundation is particular direction. In the case of excessive tilt, regular method for tilt rectification like eccentric grabbing, water jetting, strutting the similar to the caisson. When the circular well becomes well etc. might be not so effective as required. Excessive tilt occurred during sinking of well in undergoing construction of a uneconomical to support the pier of substructure, the cable stayed bridge over river ganga have been identified & well foundation can take other shapes also like double- explained by the author in this presentation. Rohit Kumar Dubey is currently persuing master degree D, rectangular, octagonal etc. programme in civil engineering in Dr. A. P. J.Abdul Kalam Technical University, Uttar Pradesh, India. Ph. No. +91- 7549326005, email id:- [email protected] Compared to the group of piles, well foundation are rigid in engineering behavior and are able to resist large Keyword: Well Foundation, Tilt & Shift, Kentledge Method, Sinking forces of floating trees or bolders that may roll on the river bed.
    [Show full text]
  • Division 2 Earthwork
    Division 2 Earthwork 2-01 Clearing, Grubbing, and Roadside Cleanup 2-01.1 Description The Contractor shall clear, grub, and clean up those areas staked or described in the Special Provisions. This Work includes protecting from harm all trees, bushes, shrubs, or other objects selected to remain. “Clearing” means removing and disposing of all unwanted material from the surface, such as trees, brush, down timber, or other natural material. “Grubbing” means removing and disposing of all unwanted vegetative matter from underground, such as sod, stumps, roots, buried logs, or other debris. “Roadside cleanup”, whether inside or outside the staked area, means Work done to give the roadside an attractive, finished appearance. “Debris” means all unusable natural material produced by clearing, grubbing, or roadside cleanup. 2-01.2 Disposal of Usable Material and Debris The Contractor shall meet all requirements of state, county, and municipal regulations regarding health, safety, and public welfare in the disposal of all usable material and debris. The Contractor shall dispose of all debris by one or more of the disposal methods described below. 2-01.2(1) Disposal Method No. 1 – Open Burning The open burning of residue resulting from land clearing is restricted by Chapter 173-425 of the Washington Administrative Code (WAC). No commercial open burning shall be conducted without authorization from the Washington State Department of Ecology or the appropriate local air pollution control authority. All burning operations shall be strictly in accordance with these authorizations. 2-01.2(2) Disposal Method No. 2 – Waste Site Debris shall be hauled to a waste site obtained and provided by the Contractor in accordance with Section 2-03.3(7)C.
    [Show full text]
  • Cen/Tc 250/Sc 7 N 1508
    CEN/TC 250/SC 7 N 1508 CEN/TC 250/SC 7 Eurocode 7 - Geotechnical design Email of secretary: [email protected] Secretariat: NEN (Netherlands) pr EN1997-3 MASTER v2021.40 Submission Document type: Other committee document Date of document: 2021-05-03 Expected action: INFO Background: Committee URL: https://cen.iso.org/livelink/livelink/open/centc250sc7 CEN/TC 250 Date: 2021-04 prEN 1997-3:202x CEN/TC 250 Secretariat: NEN Eurocode 7: Geotechnical design — Part 3: Geotechnical structures Eurocode 7 - Entwurf, Berechnung und Bemessung in der Geotechnik — Teil 3: Geotechnische Bauten Eurocode 7 - Calcul géotechnique — Partie 3: Constructions géotechniques ICS: Descriptors: Document type: European Standard Document subtype: Working Document Document stage: v4 31/10/2019 Document language: E prEN 1997-3:202x (E) Contents Page 0 Introduction ............................................................................................................................................ 9 0.1 Introduction to the Eurocodes ......................................................................................................... 9 0.2 Introduction to EN 1997 Eurocode 7 .............................................................................................. 9 0.3 Introduction to EN 1997-3 ................................................................................................................. 9 0.4 Verbal forms used in the Eurocodes ............................................................................................10 0.5 National
    [Show full text]
  • CENTRAL WATER and POWER RESEARCH STATION PUNE – 411024, INDIA Dr
    Government of India Ministry of Water Resources (http://mowr.gov.in) Annual Report CWPRS 2011-12 CENTRAL WATER AND POWER RESEARCH STATION PUNE – 411024, INDIA Dr. I.D. Gupta, Director, CWPRS showing the model of River Yamuna to Hon’ble Union Cabinet Minister for Water Resources and Parliamentary Affairs, Shri Pawan Kumar Bansal at Indian International Trade Fair (IITF) 2011 Visit of Parliamentary Standing Committee for Water Resources under the Chairmanship of Hon’ble Shri Dip Gogoi, to Multipurpose Wave Basin Facility at CWPRS on 7th June 2011 ANNUAL REPORT 2011-12 CENTRAL WATER AND POWER RESEARCH STATION, PUNE VISION To build a World Class Centre of Excellence for research in hydraulic engineering and allied disciplines; which is responsive to changing global scenario, and need for sustaining and enhancing excellence in providing technological solutions for optimal and safe design of water resources structures. MISSION − To meet the country’s need for applied and basic research studies in water resources, power sector and coastal engineering with world-class standards − To develop competence in deployment of latest technologies, and to undertake new areas of research to meet the future needs for development of water resources projects in the country. − To disseminate information, skills and knowledge for capacity-building and mass awareness OBJECTIVES Conducting R & D studies in hydraulics and allied disciplines using one or combination of physical and mathematical modelling and field studies to: − carry out applied research to solve
    [Show full text]
  • West Bank Bypass Main Report 1
    EARTHQUAKE RECONSTRUCTION AND REHABILITATION AUTHORITY (ERRA) No. THE ISLAMIC REPUBLIC OF PAKISTAN URGENT REHABILITATION PROJECT: WEST BANK BYPASS DESIGN UNDER THE URGENT DEVELOPMENT STUDY ON REHABILITATION AND RECONSTRUCTION IN MUZAFFARABAD CITY IN THE ISLAMIC REPUBLIC OF PAKISTAN FINAL REPORT MAIN TEXT MARCH 2008 JAPAN INTERNATIONAL COOPERATION AGENCY NIPPON KOEI CO., LTD. SD JR 08-014 Note: Following exchange rates are applied in the Study. 1 US$ = PKR60.800 = JPY119.410 (As of 1st August, 2007) PREFACE In response to the request from the Government of the Islamic Republic of Pakistan, the Government of Japan decided to conduct “The Urgent Development Study on Rehabilitation and Reconstruction in Muzaffarabad City in the Islamic Republic of Pakistan”, and entrusted the study to the Japan International Cooperation Agency (JICA). JICA selected and dispatched a study team headed by Mr. Tetsu NAKAGAWA of Nippon Koei Co., Ltd. to the Islamic Republic of Pakistan from February 2007 to November 2007. The team conducted Basic Design and Detailed Design for the “Urgent Rehabilitation Project: West Bank Bypass Design under the Urgent Development Study on Rehabilitation and Reconstruction in Muzaffarabad City in the Islamic Republic of Pakistan” based on field surveys, holding a series of discussions with and presentations to the officials concerned of the Government of the Islamic Republic of Pakistan. I hope that this report will contribute to the development of Pakistan and to the enhancement of friendly relationship between the two countries. Finally, I wish to express my sincere appreciation to the officials concerned of the Government of the Islamic Republic of Pakistan for their close cooperation and friendship extended to the Study.
    [Show full text]