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Geologists and civil engineers related to infrastructure planning, design and building describe professional practices and engineering geological methods in different European infrastructure projects.
Geologists and civil engineers related to infrastructure planning, design and building describe professional practices and engineering geological methods in different European infrastructure projects.
Geologists and civil engineers related to infrastructure planning, design and building describe professional practices and engineering geological methods in different European infrastructure projects.
Summing up knowledge and understanding of engineering geology as is applies to the urban environment at the start of the 21st century, this volume demonstrates that: working standards are becoming internationalised; risk assessment is driving decision-making; geo-environmental change is becoming better understood; greater use of underground space is being made; and IT advances are improving subsurface visualization. --
Covering a broad range of topics (curricular matters in geo-engineering education, teaching; learning and assessment in geo-engineering education; challenges in geotechnical engineering education; issues in education and training in Engineering Geology; the link university -professional world in geo-engineering, this book will be invaluable to university teachers, academics and professionals involved in education and training in geo-engineering sciences.
This volume provides an overview of the proceedings of the XIIth ECSME Conference 1999. It covers a wide variety of topics, from summaries of workshops and sessions, to the emergence of information technology and information retrieval and communication.
This volume provides an overview of the proceedings of the XIIth ECSME Conference 1999. It covers a wide variety of topics, from summaries of workshops and sessions, to the emergence of information technology and information retrieval and communication.
Major Infrastructure Planning and Delivery introduces the system for planning and consenting Nationally Significant Infrastructure Projects (NSIPs) in England (which has also applied for some schemes in Wales). These are the major projects involving power stations and large renewable energy schemes, motorways, railways and a range of other high profile, high impact and sometimes controversial development schemes, and including some closely linked to the UK’s transition to Net Zero. The book explains where this separate system for governing major infrastructure came from and how it operates in practice, with a particular focus on the relationship between planning, consent and delivery of these infrastructure projects. Detailed case studies of the A14 highway, Thames Tideway super sewer, Galloper offshore windfarm and Progress Power station, drawing on research by the authors, illustrate issues of the often overlooked continuing role of local government, the engagement of local communities and stakeholders, and the modification of schemes between consent and construction. At a time of ongoing government planning reform, increased concern about climate change, and still unresolved consequences of Brexit, as well as timeless debates such as over national need versus local impact, this timely book offers rich detail on the particular approach to major infrastructure planning in England, but also speaks to wider issues around the governance of development and implementation of government policy under late capitalism.
This volume provides an overview of developments in the design and construction of earthworks, in particular those associated with transport infrastructure. It includes case studies from across Europe, which summarize current design standards and national codes of practice. Geotechnical risk and performance are addressed with discussions on the long-term stability of cuttings and embankments, the causes of slope failure, and a variety of stabilization techniques including the introduction of drainage measures and electrokinetic geosynthetics. There is guidance on the specification for material testing, the practice of soil improvement, ground treatment, the reuse of materials and the use of engineered fill. Finally consideration is given to asset management and geotechnical data management, the effects of climate change and environmental impact so that performance-based design can be combined with carbon footprint and cost analysis.