International Logistics and Transport Systems (PBL)
The problem-oriented-learning lecture consists of case studies and complex problems concerning the systemic characteristics of different modes of transport as well as the organization and realization of transport chains. Students get to know specific issues from practice of logistics and mobility of goods and work out recommondations for solutions.
(Sustainable) Mobility of Goods, Logistics, Traffic (VL)
The intention of this lecture is to provide a general system analysis-based overview of how transportation chains emerge and how they are developed. The respective advantages and disadvantages of different international transportation chains of goods are to be pointed out from a micro- and a macroeconomic point of view. The effects on the traffic system as well as the ecological and social consequences of a spatial devision of economical activities are to be discussed. The overview of current international transportation chains is carried out on the basis of concrete material- and appendant information flows. Established transportation chains and some of their individual elements are to become transparent to the students by a number of practical examples.
A conceptual systems model
Elements of integrated and multi-modal transportation chains
interaction of transport and traffic, demand and supply on different layers of the transport system
Global Issues in Supply Chain Management
Global Players and networks
Logistics and corporate social responsibility (CSR)
Methods and data for assessment of international transport chains
Influence of cultural aspects on international transport chains
New solutions using different focuses of the transport and logstics system
Leistungsnachweis:
606 - Mobility of Goods and Logistics Systems.
606 - Mobility of Goods and Logistics Systems: Klausur schriftlich.
607 - Mobility of Goods and Logistics Systems.
606 - Mobility of Goods and Logistics Systems: Klausur schriftlich.
806 - Compulsory Course Work Mobility of Goods and Logistics Systems - Excursions: Participation in excursions.
807 - Compulsory Course Work Mobility of Goods and Logistics Systems - Exercises: Excercises.
m978-2023 - Sustainable Mobility of Goods and Logistics Systems.
806 - Compulsory Course Work Mobility of Goods and Logistics Systems - Excursions: Participation in excursion.
807 - Compulsory Course Work Mobility of Goods and Logistics Systems - Exercises: Excercises.
p588-2023 - Sustainable Mobility of Goods and Logistics Systems: Klausur schriftlich.
Weitere Informationen aus Stud.IP zu dieser Veranstaltung
Bahe, B. (2024). Nichtlineare Stabilitätsuntersuchungen in einem leistungselektronisch dominierten elektrischen Energiesystem.
completed
2024
Boehm, E. (2024). Einfluss des Netzäquivalents auf die Stabilität eines Netzes mit netzbildenden und netzfolgenden Umrichtern.
Helmich, L. M. (2024). Entwicklung und Simulation eines Effektivwertmodells für STATCOM-Anlagen mit neuartigen Regelstrategien für Pendeldämpfungen in PowerFactory.
Rüter, C. (2024). Einfluss der Netzstärke auf die Kleinsignalstabilität netzbildender Umrichter mit virtueller Oszillator-Regelung.
Schultheiß, J. (2024). Impedanzbasierte Stabilitätsanalyse zur Bewertung der Stabilitätsgrenzen von DC- und AC-Netzen.
2023
Chouiter, B. (2023). Dynamic Phasor Modelling and Comparison to Classical EMT Models.
Helmich, L. M. (2023). Entwicklung und Simulation einer Regelstrategie für die Pendeldämpfung durch STATCOM-Geräte.
Kamma, J. (2023). Umrichtermodellierung zur Repräsentation von Interaktionen im Sinne der Converter-Driven Stability.
Mißfeldt, C. (2023). Einfluss von Zeitverzögerungen auf die Converter-Driven Stability.
Rosenau, Y. (2023). Einfluss netzbildender Umrichter-Regelungsstrukturen auf die "Converter-Driven Stability".
2022
Kumar, M. (2022). Modellierung und Vergleich des Frequenzverhaltens dezentraler Anlagen mit netzbildenden Eigenschaften oder beigestellter Schwungmasse.
Lim, I. (2022). Modelling and Integration of a Hydrogen Storage Power Plant in the 10-Machine New-England Power System.
Rieckborn, N. (2022). Modellierung des Umwandlungsprozesses eines Wasserstoffspeicherkraftwerks.