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Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers nd construction managers interested in design and construction of tunnels and shafts in rock and soil. Here is what is discussed: 1. CONSTRUCTION BY BLASTING AND BORING, 2. DESIGN CONSIDERATIONS, 3. GEOTECHNICAL ANALYSIS, 4. INITIAL GROUND SUPPORT DESIGN, 5. CONSTRUCTION OF TUNNELS AND SHAFTS, 6. GEOTECHNICAL EXPLORATION, 7. GROUND SUPPORT, 8. TUNNELS AND SHAFTS IN ROCK.
Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in construction of tunnels and shafts in rock. Here is what is discussed: 1. FUNDAMENTAL APPROACH TO GROUND SUPPORT DESIGN, 2. FUNCTIONAL REQUIREMENTS OF TUNNELS AND SHAFTS, 3. MODES OF FAILURE OF TUNNELS AND SHAFTS, 4. SEISMIC EFFECTS ON TUNNELS.
Introductory technical guidance for civil engineers, geotechnical engineers and construction managers interested in construction of tunnels and shafts. Here is what is discussed: 1. GENERAL, 2. TUNNEL EXCAVATION BY DRILLING AND BLASTING, 3. TUNNEL EXCAVATION BY MECHANICAL MEANS, 4. INITIAL GROUND SUPPORT, 5. SEQUENTIAL EXCAVATION AND SUPPORT, 6. PORTAL CONSTRUCTION, 7. SHAFT CONSTRUCTION, 8. OPTIONS FOR GROUND IMPROVEMENT, 9. DRAINAGE AND CONTROL OF GROUNDWATER, 10. CONSTRUCTION OF FINAL, PERMANENT TUNNEL LININGS, 11. VENTILATION OF TUNNELS AND SHAFTS, 12. SURVEYING FOR TUNNELS AND SHAFTS, 13. CONSTRUCTION HAZARDS AND SAFETY REQUIREMENTS, 14. ENVIRONMENTAL CONSIDERATIONS AND EFFECTS, 15. CONTRACTING PRACTICES, 16. PRACTICAL CONSIDERATIONS FOR THE PLANNING OF TUNNEL PROJECTS.
Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in dewatering systems for construction sites and other applications. Here is what is discussed: 1. INTRODUCTION, 2. METHODS FOR DEWATERING, PRESSURE RELIEF AND SEEPAGE CUTOFF, 3. GEOLOGIC, SOIL, AND GROUNDWATER INVESTIGATIONS.
The Tunnel Engineering Handbook, Second Edition provides, in a single convenient volume, comprehensive coverage of the state of the art in the design, construction, and rehabilitation of tunnels. It brings together essential information on all the principal classifications of tunnels, including soft ground, hard rock, immersed tube and cut-and-cover, with comparisons of their relative advantages and suitability. The broad coverage found in the Tunnel Engineering Handbook enables engineers to address such critical questions as how tunnels are planned and laid out, how the design of tunnels depends on site and ground conditions, and which types of tunnels and construction methods are best suited to different conditions. Written by the leading engineers in the fields, this second edition features major revisions from the first, including: * Complete updating of all chapters from the first edition * Seven completely new chapters covering tunnel stabilization and lining, difficult ground, deep shafts, water conveyance tunnels, small diameter tunnels, fire life safety, tunnel rehabilitation and tunnel construction contracting *New coverage of the modern philosophy and techniques of tunnel design and tunnel construction contracting The comprehensive coverage of the Tunnel Engineering Handbook makes it an essential resource for all practicing engineers engaged in the design of tunnels and underground construction. In addition, the book contains a wealth of information that government administrators and planners and transportation officials will use in the planning and management of tunnels.
This book provides a general review of the literature on underground structures, combined with new specifications, engineering case studies, and numerical simulations based on the authors’ research. It focuses on the basic concepts, theories, and methods of the design of underground structures. After an introduction, it covers various topics, such as elastic foundation beam theory and numerical analysis methods for underground structures, as well as the design of shallow underground structures, diaphragm wall structures, shield tunnel structures, caisson structures, immersed tube structures, and integral tunnel structures. It also includes tables for calculating elastic foundation beam. This book is intended for senior undergraduate and graduate students majoring in urban underground space engineering, building engineering, highway engineering, railway engineering, bridge and tunnel engineering, water conservancy and hydropower engineering.
Tunnelling provides a robust solution to a variety of engineering challenges. It is a complex process, which requires a firm understanding of the ground conditions as well as the importance of ground-structure interaction. This book covers the full range of areas related to tunnel construction required to embark upon a career in tunnelling. It also includes a number of case studies related to real tunnel projects, to demonstrate how the theory applies in practice. New features of this second edition include: the introduction of a case study related to Crossrail’s project in London, focussing on the Whitechapel and Liverpool Street station tunnels and including considerations of building tunnels in a congested urban area; and further information on recent developments in tunnel boring machines, including further examples of all the different types of machine as well as multi-mode machines. The coverage includes: Both hard-rock and soft-ground conditions Site investigation, parameter selection, and design considerations Methods of improving the stability of the ground and lining techniques Descriptions of the various main tunnelling techniques Health and safety considerations Monitoring of tunnels during construction Description of the latest tunnel boring machines Case studies with real examples, including Crossrail’s project in London Clear, concise, and heavily illustrated, this is a vital text for final-year undergraduate and MSc students and an invaluable starting point for young professionals and novices in tunnelling.
Introductory technical guidance for civil, structural and geotechnical engineers interested in ground support for tunnels and shafts. Here is what is discussed: 1. FUNDAMENTAL APPROACH TO GROUND SUPPORT DESIGN 2. FUNCTIONAL REQUIREMENTS OF TUNNELS AND SHAFTS 3. MODES OF FAILURE OF TUNNELS AND SHAFTS 4. SEISMIC EFFECTS ON TUNNELS.