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Underground Infrastructure of Urban Areas: Book + CD-ROM PDF

335 Pages·2008·11.22 MB·English
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ENM DITOIENAD AR RSRTYA OS W, K Underground Infrastructure ICO &Z LON SK of Urban Areas 3 ZO O , T EDITORS: CEZARY MADRYAS, ANDRZEJ KOLONKO, BEATA NIENARTOWICZ & ARKADIUSZ SZOT Underground infrastructure undoubtedly constitutes one of the most important engineering components of urbanized areas. Such infrastructure includes energy distribution, communications and water, carry away sewage, elements of transportation systems of goods and people, storage facilities of articles, liquids and gases, as well as commercial, recreational and research activities and other functions. Underground Infrastructure of Urban Areas 3 is dedicated to the oU research, design, implementation and maintenance of infrastructure systems, f n Ud as well as communication tunnels and building structures (garages, tanks, re etc.) in urbanized areas. The book collects contributions from several br ag countries, presenting current scientific and technical issues associated with nr o this area of the building industry. Both theoretical issues and case studies Au on the design, execution and testing of underground infrastructures rn ed (professional and academic) are included in the present work. a sI n 3 Presenting the state-of-the-art in underground infrastructure of urbanized fr a areas, the book aims at academics, designers and builders of structures, s t producers and suppliers of building materials, equipment, and un- r u derground structures, and also at those managing and maintaining these c structures. t u r e an informa business UNDERGROUND INFRASTRUCTURE OF URBAN AREAS 3 SSZZOOTT__BBooookk..iinndddd ii 99//1188//22001144 77::2211::0099 AAMM TThhiiss ppaaggee iinntteennttiioonnaallllyy lleefftt bbllaannkk Underground Infrastructure of Urban Areas 3 Editors Cezary Madryas, Andrzej Kolonko, Beata Nienartowicz & Arkadiusz Szot Institute of Civil Engineering, Wrocław University of Technology, Wrocław, Poland SSZZOOTT__BBooookk..iinndddd iiiiii 99//1188//22001144 77::2211::1100 AAMM CRC Press /Balkema is an imprint of the Taylor & Francis Group, an informa business © 2015 Taylor & Francis Group, London, UK Typeset by V Publishing Solutions Pvt Ltd., Chennai, India Printed and bound in Great Britain by CPI Group (UK) Ltd, Croydon, CR0 4YY All rights reserved. No part of this publication or the information contained herein may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, by photocopying, recording or otherwise, without written prior permission from the publisher. Although all care is taken to ensure integrity and the quality of this publication and the informa- tion herein, no responsibility is assumed by the publishers nor the author for any damage to the property or persons as a result of operation or use of this publication and/or the information contained herein. Published by: CRC Press/Balkema P.O. Box 11320, 2301 EH Leiden, The Netherlands e-mail: [email protected] www.crcpress.com – www.taylorandfrancis.com ISBN: 978-1-138-02652-0 (Hbk + CD-ROM) ISBN: 978-1-315-72295-5 (eBook PDF) SSZZOOTT__BBooookk..iinndddd iivv 99//1188//22001144 77::2211::1100 AAMM Underground Infrastructure of Urban Areas 3 – Madryas et al. (Eds) © 2015 Taylor & Francis Group, London, ISBN 978-1-138-02652-0 Table of contents Preface vii Trenchless installation technologies of sea outfalls, intakes and landfalls 1 D. Petrow-Ganew, L. Zur Linde & T. Abel Special cements and concrete durability 13 A. Garbacik, W. Drożdż & Z. Giergiczny Durability of composites made with fly ash—slag cements with a low content of Portland cement clinker 21 Z. Giergiczny & K. Synowiec Trenchless pipe construction: Benefits by hard and soft evaluation criteria 29 H. Görg & A. Krüger Image processing and analysis as a diagnostic tool for an underground infrastructure technical condition monitoring 39 H. Kleta & A. Heyduk Variable-diameter conduits for water grids 47 A. Kolonko & A. Kolonko Improved road embankment loess substrate under earthquake hazards 53 J. Kozubal, A. Szot & D. Steshenko Influence of PVC pipe deflection on the thickness of CIPP rehabilitation liners 63 E. Kuliczkowska The effect of glazing of vitrified clay pipes to load capacity growth of them after rehabilitation with CIPP liners 73 A. Kuliczkowski & K. Mogielski The technical and economic conditions for the construction of the central section of Metro Line II in Warsaw 85 J. Lejk Deformations of corrugated steel tunnel during construction 97 C. Machelski & L. Janusz Microtunneling as an alternative for crossing rivers during the execution of urban network infrastructure 105 C. Madryas, L. Wysocki, J. Ośmiałowski & M. Ośmiałowski The FEM back-analysis of earth pressure coefficient at rest in Brno clay K with the homogenization of steel/shotcrete lining 113 0 J. Rott & D. Mašín Risk assessment for infrastructures of urban areas 125 P.M. Mayer, A.S. Corriols, P. Hartkorn & M. Messing Influence of experience acquired in the construction of the Warsaw Metro on current designs of underground structures 137 H. Michalak Modern devices for detecting leakages in water supply networks 149 K. Miszta-Kruk, M. Kwietniewski, A. Malesińska & J. Chudzicki v SSZZOOTT__BBooookk..iinndddd vv 99//1188//22001144 77::2211::1100 AAMM Evaluation of deep excavation impact on surrounding structures—a case study 161 M. Mitew-Czajewska Vertical drilling depths in solid rock with the flame melting drilling technique 173 D.P.F. Moeller & R. Bielecki Analysis of selected aspects of the operation of pipelines renewed with the relining method on the basis of laboratory testing results 181 B. Nienartowicz Impact of pressure control on water loses in distribution net 191 F.G. Piechurski Key factors of success in pipe jacking, explained by means of a project realized in the Atacama desert—the first jacking project in Chile after almost 20 years: Preparation is the key! 201 B. Prommegger Trenchless technologies for the construction of small diameter water supply and sewer networks—selected issues 211 B. Przybyła Realistic classification of stoneware sewerage network technical condition 223 A. Raganowicz, J. Dziopak & D. Słyś Models of level diversification assessment of Water Supply Subsystem 237 J.R. Rak & A. Włoch Construction of metro station underneath the existing road tunnel 245 A. Siemińska-Lewandowska Hydraulic analysis of functioning of the Przemyśl town sewage system 253 D. Słyś, J. Dziopak & A. Raganowicz Buried steel structures in urban infrastructure—underpass on the Kapitulna street in Włocławek 261 P. Tomala, A. Marecki, M. Woch & K. Mikołajczak Application of prestressed concrete pipes to deep pipelines 267 R. Wróblewski & A. Kmita The specificity of construction of eco civil engineering objects in transport infrastructure using trenchless technology 275 A. Wysokowski & C. Madryas Subway in Wroclaw 285 M. Żabiński, M. Gallas, K. Herma-Lempart, M. Kozłowska-Święconek, M. Majka, P. Matyja, A. Rygała & B. Stopka The Wrocław metro: Geology, hydrogeology and tunneling perspective 297 A. Żelaźniewicz & PAN-METRO Group Analysis and evaluation of progress in the implementation of a road tunnel under the Martwa Wisła River in Gdańsk, Poland 309 I. Żygowska, P. Czech, S. Gapiński, A. Łosiński, K. Smolibowska & A. Templin Author index 325 vi FFMM..iinndddd vvii 99//1188//22001144 1122::5577::5522 PPMM Underground Infrastructure of Urban Areas 3 – Madryas et al. (Eds) © 2015 Taylor & Francis Group, London, ISBN 978-1-138-02652-0 Preface The development of modern urban areas increasingly requires the use of underground space. Research in the underground infrastructure of cities should be primarily devoted to studies aimed at developing integration models of underground transportation systems with network systems for media transportation in the newly developed underground space. This requires primarily the identification and description of the technical condition of the underground infrastructure in cit- ies. Failure to undertake or delay in research work—both theoretical and in laboratories and on existing structures—will prevent improvement of the standard of living and sustainable city devel- opment which is closely related to improved quality of freight and passenger transportation. In order to meet contemporary expectations, it is necessary to build transportation tunnels, underground parking lots, underground rail in cities which results in a need to construct, recon- struct and modernise many elements of network infrastructure. As the international experiences shows, the scale of the issue is gigantic and adjustment of cities to the expectations of their inhabit- ants with respect to living standards requires enormous intensification of efforts not only in terms of science (theoretical) but also practical, concerning modernised operation programs of under- ground infrastructure facilities and modern designs with respect to modernisation and expansion thereof. The situation is similar in the large cities in Poland where the researches in this direction are intensified. The results of these studies are already visible. Examples are: – the construction of a road tunnel in Gdansk, – the completion of the tunnels of the second line of the subway tunnels in Warsaw, – the construction of utility tunnel under the Vistula river in Warsaw, – analysis towards the construction of underground railways in other cities, such as Kraków and Wrocław, – renovation and construction of many of sewerage collectors using trenchless technology. Special attention should be focused on the strategy to adjust the sewage network to municipal needs which is due to the fact that combined sewers in the structure—contrary to other pipelines— very often have very large diameters, often similar to the diameter of underground transportation tunnels. Further, it is a system that occupies the largest part of underground structures in cities (without a developed underground rail system) if we include inspection chambers, pumping sta- tions, holding tanks and other facilities. Therefore, in order to adjust cities to intensified under- ground developments it is necessary first to undertake research work to improve the processes of operation, modernisation and potential reconstruction of sewage systems. Without such efforts, sustainable development of urban agglomerations will not be possible. The monography is a compilation of work by many authors who presented the results of their analytical work of many years concerning designing, construction and operation of underground facilities. Many authors also identified the development directions required for an optimum use of underground space in the studied cities. Thanking the authors for their intellectual contribution to the monography, I trust that it will be of interest to people interested in underground infrastruc- ture in urban agglomerations and will be helpful to their work. Cezary Madryas Main Editor vii SSZZOOTT__BBooookk..iinndddd vviiii 99//1188//22001144 77::2211::1100 AAMM TThhiiss ppaaggee iinntteennttiioonnaallllyy lleefftt bbllaannkk Underground Infrastructure of Urban Areas 3 – Madryas et al. (Eds) © 2015 Taylor & Francis Group, London, ISBN 978-1-138-02652-0 Trenchless installation technologies of sea outfalls, intakes and landfalls D. Petrow-Ganew & L. Zur Linde Herrenknecht AG, Schwanau, Germany T. Abel Wroclaw University of Technology, Wroclaw, Poland ABSTRACT: This paper is a technical description of the technologies for trenchless instal- lation of sea outfalls, seawater intakes and lanfalls. Trenchless installation technologies have less impact on the environment and the existing infrastructure than other methods applying open cut trenching. Additionally, the pipeline is better protected against damage and there- fore has a higher life expectancy. For the installation of sea outfalls and seawater intakes, Horizontal Directional Drilling (HDD), Pipe Jacking (Microtunnelling) and Segment Lin- ing methods may be applied depending on the site and ground conditions, pipe diameter and length to be installed as well as on constructability and economic factors. Herrenknecht manufactures and supplies all types of tunnelling machines and ancillary equipment to facili- tate different installation concepts for landfall seawater intakes outfalls. For these concepts, the following trenchless installation techniques can be applied: • Pipe Jacking, Microtunnelling • Segment Lining • Direct Pipe/Easy Pipe • Horizontal Directional Drilling (HDD). For the installation technologies mentioned above project examples are given and the mode of installation described by the help of figures. The advantages and disadvantages are given for each of the installation methods. 1 INTRODUCTION The situation in coastal areas is becoming critical. More and more people are moving to the world´s urban centers. Big cities are turning into megacities with more than 5 million inhabit- ants. Most of these megacities grow up in coastal areas. Cities like Jakarta, Lagos, Manila, Mumbai, Bangkok, New York, Osaka-Kobe, Rio de Janeiro and Shanghai have one thing in common: they are all located on narrow stretches of coast line. More than 40 percent of the world´s population already live within 100 kilometres of the sea, another 40 percent live in cities along the rivers. Thus, the majority of the world population lives close to waters. The challenge to match in these places is to provide people with sufficient potable water and to handle sewage disposal to assure health and quality of life. In the construction of utility infrastructures in coastal areas or in river regions, tunneled Outfalls, Intakes and Landfalls are en effective and sustainable method. With the help of sea outfalls (including river outfalls in the following) wastewater can be transported away from the coastline or river bank and discharged at locations where diffusion, dispersion and decomposition are enhanced. The municipal wastewater may be fully treated, pre-treated or untreated. 1 SSZZOOTT__BBooookk..iinndddd 11 99//1188//22001144 77::2211::1100 AAMM

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