Mathematics Course code: BIM 1011 1st semester Prof. Dr.-Ing. R. Pollandt Matrix calculus (definition, operations, determinants, inverse matrices, linear systems of equations (direct and iterative methods), eigenvalues, eigenvectors) Differential equations (examples, types, ordinar differential equations, exact methods for ODE, approximation methods (runge-kutta-methods, finite-difference-methods, variational methods)) Mathematics courses as of Bachelor degree program have background knowledge of mathematical methods with matrices and differential equations, have practical experience in using mathematical methods with matrices and differential equations, be able to use software for the interpretation of results calculated with differential equations, be able to solve problems with matrices and ordinary differential equations, understand and deal with algorithms in given software by using the demonstrated mathematical theories. supported by lecture notes, blackboard notes and transparencies - notes - Papula, L.:Mathematik für Ingenieure und Naturwissenschaftler - Dürrschnabel, K..: Mathematik für Ingenieure Construction Management and Law
Course code: BIM 2021 1st semester Prof. Dr. jur. Andreas Luckey Prof. Dr.-Ing. Ralph Pollandt Dr.-Ing. Sam Foos Construction Management : Management tasks (examples and overview) Management functions Performance profiles Main functions of Construction Techniques Project development, project organisation Cost control Quality / knowledge Facility management tasks Process problems and sequencing Law: Legal issues and problems in cross-border treaties of the regulations in the fields EuGVVO, EuGVÜ, LuganoÜbk and (international) law Identification of the statutes, EGBGB Property and proceedings before international arbitration Building with bilateral investment protection agreements Building in selected countries such as Switzerland, Austria, France etc. GMP Contract FIDIC Red Book Statistics: Combinatorial bases Probability (basics, discrete and continuous, Random sizes) Descriptive statistics Closing Statistics Statistics + VBA: Repetition of Excel basics Structure and basic commands a VBA program Graphic elements Examples and Exercises Construction: Basics of Construction and Calculation Construction Law: Themes from International Law and labor law Statistics: Mathematics
be acquainted with the topics mentioned above. supported by blackboard notes, Power Point presentations, film material, laboratory exercises, demonstrative lectures in the public material testing lab, and excursions 180 min. Diverse Construction Management handbooks, Rösel: Baumanagement VDI: Projektsteuerung und Bauleitung Olesen: Ausführung und Kontrolle von Bauleistungen Statistics and VBA: according to the literature list in the Scriptum Basic Principles of Engineering Course code: BIM 2021 Project Civil engineering First 1st or 2nd semester Prof. Dr.-Ing. Robert Pawlowski Provision of advanced knowledge in the following basic principles of engineering: - Cable structures - Arch structures - Lattice structures - Cable-supported girders - Frame structures - Light surface structures Knowledge in Structural Mechanics and Structural Analysis be able to use advanced analysis tools in the field of structural design, optimisation and analysis, comprehend the load-bearing capacity and serviceability of structures in civil engineering.
supported by lecture hand-outs and project work See lecture hand-outs Steel Design Course code: BIM 07 1st or 2nd semester Prof. Dr.-Ing M. Baumann Steel design: - plasticity - special problems of buckling - composite structures - glass engineering - be provided with theoretical background knowledge and practical skills required for structural engineering, be able to apply the and international steel codes, be able to design steel constructions. Most of the teaching is done in the classical form of lectures. A speciality is the limited number of normally not more than 40 students in one lecture, thus giving the lecture rather the character of a seminar. See module handbook
Numerical Flow Modelling Course code: BIM 12 2nd semester Prof. Dr.-Ing. Norbert Eisenhauer Basic equations of 1D, 2D and 3D numerical modelling of stationary and unstationary flows, application of 1D (HEC-Ras) and 2D (Rismo) models Professional knowlede in Hydraulics and Water Management know the basics of numerical modelling, be able to use common programs for solving practical problems. supported by practical exercises DVWK-Heft 127: Numerische Modelle von Flüssen, Seen und Küstengewässern User Manual HEC-Ras Water Supply and Sanitation Engineering Course code: BIM 13
2nd semester Prof. Dr.-Ing. Clemens Wittland Wastewater: Concept and design of sewerage systems Design, construction and rehabilitation of sewers Hydraulic and process design of wastewater treatment plants for primary, secondary and tertiary wastewater treatment Construction of wastewater treatment plants Stormwater: Principles, concepts and design of stormwater management facilities Stormwater treatment Stormwater infiltration General knowledge (Bachelor level) in the field of Water Supply and Sanitation Engineering have achieved advanced theoretical background knowledge in the field of wastewater and stormwater management, be able to apply main principles and methods for the concept and design of sewerage systems, wastewater treatment plants and stormwater management systems. supported by Power Point slides, integrated exercises and site visits DWA (früher ATV-DVWK): ATV-Handbücher zu folgenden Themen: Planung, Bau und Betrieb der Kanalisation Mechanische Abwasserreinigung Biologische und weitergehende Abwasserreinigung Klärschlamm Betriebstechnik, Kosten und Rechtsgrundlagen der Abwasserreinigung Karl und Klaus R. Imhoff: Taschenbuch der Stadtentwässerung, 29. Auflage, 1999 W. Hosang, W. Bischof: Abwassertechnik, 11. Auflage, 1998 G. Martz: Siedlungswasserbau Teil 2 Kanalisation G. Martz: Siedlungswasserbau Teil 3 Klärtechnik Environmental Engineering Course code: BIM 14
1st semester Prof. Dr.-Ing. Clemens Wittland (Environmental Engineering) Dr.-Ing. Rainer Schuhmann (Solid Waste Management) Industrial Wastewater Management Effluent generation in industrial production Methods and facilities for the prevention, minimisation and treatment of industrial effluents from different industrial branches Sewage sludge management Characteristics of different types of sewage sludge Design of sewage sludge treatment plants Methods of sewage sludge reuse and disposal Solid Waste Management: Generation and different types of solid waste Solid waste management concepts Solid waste collection and reuse Solid waste treatment Clean-up of contaminated sites General knowledge (Bachelor level) in the field of Water Supply and Sanitation Engineering have achieved theoretical background knowledge in the field of industrial wastewater, sewage sludge and solid waste management, be able to use the main principles and methods related to the concept and design of facilities for industrial wastewater, sewage sludge and solid waste management. supported by Power Point slides, integrated exercises and site visits H. Rüffer, K.-H. Rosenwinkel: Taschenbuch der Industrieabwasserreinigung DWA (früher ATV-DVWK): Lehr- und Handbuch der Abwassertechnik: Industrieabwasser Grundlagen Industrieabwasser Lebensmittelindustrie Industrieabwasser Dienstleistungs- und Veredelungsindustrie Gräf, Hartinger, Lohmeyer, Schwering: Abwassertechnik in der Produktion, 1996 W. Hosang, W. Bischof: Abwassertechnik, 11. Auflage, 1998 ATV-Handbuch Klärschlamm, 4. Auflage, 1996 A. Becker et al.: Handbuch für umwelttechnische Berufe, Band 4 Kreislauf- und Abfallwirtschaft, 5. Auflage, 2004
Hydraulics and Laboratory Course code: BIM 15 1st semester Prof. Dr.-Ing. Norbert Eisenhauer Turbulence, boundary layer theory, potential flow, instationary flows, physical modelling, dimensional analysis, measuring techniques, digital image processing Professional knowlede in Hydraulics and Water Management know the relations and interactions between complex hydraulic problems, be able to use their knowledge for solving complex flow phenomena and to perform basic research in this field. supported by lecture notes and laboratory work Press, Schröder, Hydromechanik im Wasserbau Different User Manuals ffor Measuring Techniques Mach, R. 3ds max 5 Grundlagen und Praxiswissen, Galileo Press Bonn, 2003 Further literature listed in lecture notes Timber Structures II Course code: BIM 17
ECTS Credits: 4 1st or 2nd semester Prof. Dr.-Ing. Robert Pawlowski Provision of advanced knowledge in timber structures: - Advanced principles of timber design according to DIN 1052 - Load-bearing capacity and serviceability of timber structures - Selected joints and engineering details in timber structures - Stability: equivalent member method, second order theory - Stiffening, bracing elements - Timber protection - Gymnasium structures Knowledge in Structural Mechanics, Structural Analysis, and Timber Structures be able to apply advanced analysis tools in the field of timber design and analysis, comprehend the load-bearing capacity and serviceability of timber structures in civil engineering. supported by lecture hand-outs and exercises - DIN 1052:2004-08 (bzw. aktuelle Fassung) - Blaß, Ehlbeck, Kreuzinger, Steck: Erläuterungen zu DIN 1052:2004-08, DGfH, München - DIN 1052 Praxishandbuch Holzbau, Beuth, Berlin - Steck, Nebgen: Holzbau Kompakt nach DIN 1052 neu, Bauwerk, Berlin - Kolb: Holzbau mit System, DGfH, München Advanced Concrete Technology Course code: BIM 19
1st semester Prof. Dr.-Ing. S. Linsel Historical development and significance Raw materials, concrete mixture composition and calculation Normative claims Testing of concrete and quality assurance Fresh concrete, hardened concrete Notes on construction Joints Concreting at extreme temperatures Specific applications and castables with special properties Protection and repair tasks Concrete testing laboratory Research and development in the field of concrete technology Knowledge of Concrete Technology be acquainted with the topics mentioned above. supported by blackboard notes, Powerpoint presentations, film material, laboratory exercises and demonstration lectures in the public construction materials testing laboratory Excursions and visits of the cement industry, gravel and sand industry, and a truck plant 180 min. König, Tue, Zink: Hochleistungsbeton, Verlag Ernst & Sohn Wesche, K.: Baustoffe für tragende Bauteile Bauverlag Lambrecht: Opus Caementitium Bautechnik der Römer; Beton-Verlag Locher, F.W.: Zement: Grundlagen der Herstellung und Verarbeitung; Verlag Bau+Technik Lohmeier: Weiße Wannen Einfach und Sicher; Verlag Bau+Technik Betonkalender: Teil I und II; Taschenbuch für Beton-, Stahlbeton- und Spannbetonbau and related subjects DBV-sheets of the Concrete and Construction Technology Association Books from the series of the Cement Industry Current Journals Hydroinfrastructures Course code: BIM 22
1st semester Prof. Dr.-Ing. Norbert Eisenhauer Barrages, flood release structures, flood protection, hydroelectric power, inland waterways, construction and renewal of pipelines Professional knowlede in Hydraulics and Water Management know functions and problems of hydraulic infrastructures, be able to plan and design complex hydraulic infrastructures. supported by lecture notes and practical exercises Patt: Hochwasserhandbuch, Springer-Verlag 2001 Giesecke, Mososnyi: Wasserkraftanlagen, Springer-Verlag 1997 Partenscky: Binnenverkehrswasserbau, Springer-Verlag 1986 DIN 19700- Stauanlagen Bundesanstalt für Wasserbau: Different Reports Landesanstalt für Umwelt, Messungen und Naturschutz Baden- Württemberg: Different Reports Further literature listed in lecture notes Hydrology and Water Ecology Course code: BIM 23 2nd semester
Prof. Dr.-Ing. Clemens Wittland (Water Ecology) Dr.-Ing. Jürgen Ihringer (Hydrology) Water Ecology: Characteristics of natural waters Parameter for water quality characterisation Single-point and non-point sources for water pollution Pollution emission and impacts on water quality Legal requirements related to the quality of natural waters Classification of water quality EU Water Framework Directive Selected programmes for water management Hydrological water management and planning: Precipitation-run-off calculation Principles and measures for flood protection Concept and design of water retention basins and storage facilities Hydrological Calculation: River modelling with state-of-the-art software tools General knowledge (Bachelor level) in the field of Water Management have achieved advanced theoretical background knowledge in the field of flood protection and in the protection and improvement of natural waters quality, be able to use the main principles and methods related to the concept and design of facilities for flood protection and for the protection and improvement of natural water bodies supported by Power Point slides, integrated exercises and fieldspecific software applications Veröffentlichungen der Länderarbeitsgemeinschaft Wasser (LAWA) wie z.b. die Gewässergütekarten etc. W. Schönborn: Fließgewässerbiologie G. Rheinheimer: Mikrobiologie der Gewässer H. Klapper: Eutrophierung und Gewässerschutz J. Brehm, M. Meijering: Fließgewässerkunde W. Baur: Gewässergüte bestimmen und beurteilen R. Kummert, W. Stumm: Gewässer als Ökosysteme O. Klee: Angewandte Hydrobiologie W. Binder et al.: Schutz der Binnengewässer K. Lecher: Taschenbuch der Wasserwirtschaft U. Maniak: Hydrologie und Wasserwirtschaft W. Muth et al.: Hochwasserrückhaltebecken: Planung, Bau und Be-trieb