Search result: Catalogue data in Spring Semester 2021
Earth Sciences Master | ||||||
Major in Engineering Geology | ||||||
Compulsory Modules Engineering Geology | ||||||
Engineering Geology: Methods | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
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651-4061-00L | Hydrogeological Field Course Number of participants limited to 15. Prerequisite: Grundwasser I (102-0455-01L) Due to the extraordinary conditions, we cannot allow a large number of students, therefore MSc students majoring in Engineering Geology are given priority. | O | 3 credits | 7P | B. Brixel, N. Gholizadeh Doonechaly | |
Abstract | The course covered a variety of hydrogeological investigation methods with both theory and application at an experimental site in unconsolidated sediments and fractured rock. Included were aquifer well tests and estimation of natural hydraulic heads. The students had to sample, display, evaluate and assess own data and write a report. | |||||
Learning objective | - To be able to choose an appropriate (goal, hydrogeological environment, logistic boundary conditions) investigation method and plan experiments accordingly. - To acquire own experiences in handling typical instruments, e.g. pump, pressure transmitter, data logger, inductive flowmeter, etc. - To understand the theoretical background of important hydrogeological field investigation methods. - To master typical data presentation and evaluation methods, e.g. diagnostic plots, type curve fitting etc.). - To be able to assess the quality and importance of the achieved results in view of theoretical and practical limitations. | |||||
Content | Covered methods are - Aquifer and well tests (constant pressure, constant flow, step pumping tests, drawdown and build-up, single hole and crosshole, double packer and open hole), - Slug & bail tests (pneumatic and bailer techniques, double packer intervals and open hole). - Hydraulic head profiling (natural conditions) - Tracer tests. | |||||
Lecture notes | A script will be provided for download as pdf. | |||||
Literature | Please visit the course homepage (Main Link). | |||||
Prerequisites / Notice | Prerequisite course 102-0455-01L Grundwasser I Schedule: The course will take place in Mels (SG) and in Thur (Widen). Students registering for the course confirm having read and accepted the terms and conditions for excursions and field courses of D-ERDW Link | |||||
651-4064-00L | Engineering Geological Field Course I (Soils) Number of participants limited to 20. | O | 3 credits | 6P | K. Thuro | |
Abstract | Application of geotechnical soil classification techniques in outcrops and core samples, including geomorphological and geological field mapping. Imparts knowledge for an understanding of Quarternary processes and their consequences on building (under)ground. Supplements lectures in soil mechanics and geological site investigation techniques. | |||||
Learning objective | a) Students are able to perform a geotechnical characterization of soils according to international standards. b) Students are able to identify different types of soils in samples and in the field. They can interprete geological origin, formation and history of different soil types. c) Students are able to recognize geomorphological structures in the field and analyze their geological formation. d) Students can present their research results in an appropriate way (written and oral). | |||||
Content | The course starts with an introduction lecture on soil classification (USCS and Swiss standards), field testing and sampling techniques, borehole logging, mapping techniques and Quaternary geology of Zurich. The main part is an extensive field course which includes a quarry mapping exercise, borhole logging and field maping by geomorphlogical features. Student teams get a mandate for geotechnical investigations on a certain question and have to write a report about their findings. Teaching in the field will primarily consist in guiding the students in their mapping work. Subsequently, the field and laboratory data is analyzed by the students. | |||||
Lecture notes | Course notes and field manual. All documents will be made available from the web. | |||||
Literature | KNAPPETT, J. & CRAIG, R.F. (2019): Craig's Soil Mechanics. - 600 p., 9th ed., London, New York (CRC Press). LANG, H.-J., HUDER, J.,AMAN, P. & PUZRIN, A.M. (2011): Bodenmechanik und Grundbau. Das Verhalten von Böden und die wichtigsten grundbaulichen Konzepte. - 336 p., 9. Aufl., Berlin (Springer). | |||||
Prerequisites / Notice | Other necessary equipment or material: Geological field equipment: Geologic compass, GPS receiver, soil hammer, field notebook (water resistant), field bag, coloured pencils, felt tipped pens (permanent), hand lens, straight edge (scale), meter, tri-angle, tracing paper, hydrochloric acid (in small bottle), string, computer notebook for report preparation Students registering for the course confirm having read and accepted the terms and conditions for excursions and field courses of D-ERDW Link | |||||
651-4066-00L | Engineering Geological Field Course II (Rocks) Number of participants limited to 18. | O | 3 credits | 6P | M. Ziegler | |
Abstract | This course focuses on characterizing and classifying rock masses in the field as done in preliminary and advanced stages of site assessments. | |||||
Learning objective | The objectives of this course are to provide the student the necessary skills to carry out field mapping investigations and rock mass data acquisitions for assessing the rock mass conditions, focusing on quantifying geologic elements that have a primary influence on the project at hand, and processing and interpreting the acquired data in order to developing a geomechanical site model. | |||||
Content | This course covers methodologies and techniques to characterize and classify rock masses in the perspective of specific engineering objectives. This includes field characterization of intact rock types and properties (lithology, rock and rock mass strength, degree of weathering, etc.), quantifying their associated discontinuity networks, mapping and characterization of faults in terms of their engineering relevance, and the use of geomorphology in engineering geology field investigations. The integration and correlation of data acquired from different mapping techniques and areas (aerial/terrestrial photograph interpretation, surface outcrop mapping, underground outcrop mapping, core logging) is also part of this course. Relevant software programs will be introduced during the course and applied by the students. | |||||
Lecture notes | Details on the course program will be made availbale here: http://www.engineeringgeology.ethz.ch/teaching.html (-> Master of Science -> Spring Semester -> Engineering Geology Field Course II) | |||||
Prerequisites / Notice | Geography and Earth System Sciences students UZH may attend this field course at full costs (no subsidies). Students registering for the course confirm having read and accepted the terms and conditions for excursions and field courses of D-ERDW Link The field course is carried out during 2x5 days in mid-July. The student is expected to prepare for the field course in advance. The course structure will be presented to the student at the beginning of the spring semester. |
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