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Books on the topic 'Slope Monitoring'

Author: Grafiati

Published: 4 June 2021

Last updated: 25 January 2023

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1

Schenderlein, William. Ground water quality monitoring program: Colorado western slope. [Denver, Colo.?]: Colorado Division of Water Resources, Office of the State Engineer, 1993.

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2

Austin, Bradford. Ground water monitoring activities, west slope of Colorado. [Denver, Colo.?]: Agricultural Chemicals Program, Water Quality Control Division, Colorado Dept. of Public Health and Environment, 1998.

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3

Kline, Thomas C. North Slope amphidromy assessment: Final report. [Fairbanks: University of Alaska, Coastal Marine Institute, 1999.

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4

Service, United States Forest, and Technology & Development Program (U.S.), eds. Simplified user's guide to time-domain-reflectometry monitoring of slope stability. Washington, D.C: U.S. Dept. of Agriculture, Forest Service, National Technology & Development Program, 2009.

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5

Zabuski, Lesław. Projektowanie i wykonanie automatycznych systemów kontroli zboczy, na przykładzie zbocza osuwiskowego w Tresnej. Gdańsk: Instytut Budownictwa Wodnego PAN, 1992.

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6

Cruden, D. M. Monitoring the south peak of Turtle Mountain, 1980 to 1985. Edmonton: The Division, 1986.

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7

Kneteman, Jeff. Harlequin duck monitoring in the northern east slopes of Alberta: 1998-2000 preliminary results. [Edmonton]: Alberta Sustainable Resource Development, 2000.

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8

Singla, Sumant. Demonstration project 103: Design & construction monitoring of soil nail walls : project summary report. [Washington, D.C.]: Office of Infrastructure, Federal Highway Administration, 1999.

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9

Sharon, Robert, and Erik Eberhardt, eds. Guidelines for Slope Performance Monitoring. CSIRO Publishing, 2020. http://dx.doi.org/10.1071/9781486311002.

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Although most mining companies utilise systems for slope monitoring, experience indicates that mining operations continue to be surprised by the occurrence of adverse geotechnical events. A comprehensive and robust performance monitoring system is an essential component of slope management in an open pit mining operation. The development of such a system requires considerable expertise to ensure the monitoring system is effective and reliable. Written by instrumentation experts and geotechnical practitioners, Guidelines for Slope Performance Monitoring is an initiative of the Large Open Pit (LOP) Project and the fifth book in the Guidelines for Open Pit Slope Design series. Its 10 chapters present the process of establishing and operating a slope monitoring system; the fundamentals of pit slope monitoring instrumentation and methods; monitoring system operation; data acquisition, management and analysis; and utilising and communicating monitoring results. The implications of increased automation of mining operations are also discussed, including the future requirements of performance monitoring. Guidelines for Slope Performance Monitoring summarises leading mine industry practice in monitoring system design, implementation, system management, data management and reporting, and provides guidance for engineers, geologists, technicians and others responsible for geotechnical risk management.

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10

Guidelines for Slope Performance Monitoring. Taylor & Francis Group, 2020.

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11

Advances in Unstable Slope Instrumentation and Monitoring. Washington, D.C.: Transportation Research Board, 2020. http://dx.doi.org/10.17226/25897.

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12

Read, John, and Peter Stacey. Guidelines for Open Pit Slope Design. CSIRO Publishing, 2009. http://dx.doi.org/10.1071/9780643101104.

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Guidelines for Open Pit Slope Design is a comprehensive account of the open pit slope design process. Created as an outcome of the Large Open Pit (LOP) project, an international research and technology transfer project on rock slope stability in open pit mines, this book provides an up-to-date compendium of knowledge of the slope design processes that should be followed and the tools that are available to aid slope design practitioners. This book links innovative mining geomechanics research into the strength of closely jointed rock masses with the most recent advances in numerical modelling, creating more effective ways for predicting rock slope stability and reliability in open pit mines. It sets out the key elements of slope design, the required levels of effort and the acceptance criteria that are needed to satisfy best practice with respect to pit slope investigation, design, implementation and performance monitoring. Guidelines for Open Pit Slope Design comprises 14 chapters that directly follow the life of mine sequence from project commencement through to closure. It includes: information on gathering all of the field data that is required to create a 3D model of the geotechnical conditions at a mine site; how data is collated and used to design the walls of the open pit; how the design is implemented; up-to-date procedures for wall control and performance assessment, including limits blasting, scaling, slope support and slope monitoring; and how formal risk management procedures can be applied to each stage of the process. This book will assist in meeting stakeholder requirements for pit slopes that are stable, in regards to safety, ore recovery and financial return, for the required life of the mine.

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13

Martin, Derek, and Peter Stacey, eds. Guidelines for Open Pit Slope Design in Weak Rocks. CSIRO Publishing, 2018. http://dx.doi.org/10.1071/9781486303489.

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Weak rocks encountered in open pit mines cover a wide variety of materials, with properties ranging between soil and rock. As such, they can provide a significant challenge for the slope designer. For these materials, the mass strength can be the primary control in the design of the pit slopes, although structures can also play an important role. Because of the typically weak nature of the materials, groundwater and surface water can also have a controlling influence on stability. Guidelines for Open Pit Slope Design in Weak Rocks is a companion to Guidelines for Open Pit Slope Design, which was published in 2009 and dealt primarily with strong rocks. Both books were commissioned under the Large Open Pit (LOP) project, which is sponsored by major mining companies. These books provide summaries of the current state of practice for the design, implementation and assessment of slopes in open pits, with a view to meeting the requirements of safety, as well as the recovery of anticipated ore reserves. This book, which follows the general cycle of the slope design process for open pits, contains 12 chapters. These chapters were compiled and written by industry experts and contain a large number of case histories. The initial chapters address field data collection, the critical aspects of determining the strength of weak rocks, the role of groundwater in weak rock slope stability and slope design considerations, which can differ somewhat from those applied to strong rock. The subsequent chapters address the principal weak rock types that are encountered in open pit mines, including cemented colluvial sediments, weak sedimentary mudstone rocks, soft coals and chalk, weak limestone, saprolite, soft iron ores and other leached rocks, and hydrothermally altered rocks. A final chapter deals with design implementation aspects, including mine planning, monitoring, surface water control and closure of weak rock slopes. As with the other books in this series, Guidelines for Open Pit Slope Design in Weak Rocks provides guidance to practitioners involved in the design and implementation of open pit slopes, particularly geotechnical engineers, mining engineers, geologists and other personnel working at operating mines.

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14

Remote Sensing for Monitoring Embankments, Dams, and Slopes: Recent Advancements. American Society of Civil Engineers, 2021.

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15

J, Bryne R., United States. Federal Highway Administration., and Golder Associates, eds. Manual for design & construction monitoring of soil nail walls. [Washington, D.C.]: U.S. Dept. of Transportation, Federal Highway Administration, 1998.

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