Prof. Dr. Edeltraud Günther
Inhaltsverzeichnis
Frau Prof. Dr. Edeltraud Günther
Professur für BWL
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Zur Professur für Betriebswirtschaftslehre, insbesondere Betriebliche Umweltökonomie
FORSCHUNGSTHEMEN UND -SCHWERPUNKTE
Die Forschungsausrichtung des Lehrstuhles widmet sich der ökonomisch-ökologischen Optimierung in Organisationen. Dabei stehen drei großen Fragen der betrieblichen Umweltökonomie im Zentrum der Untersuchungen:
- Welche Rahmenbedingungen gelten für die privatwirtschaftlichen Unternehmen und die öffentlichen Einrichtungen und wie gehen die Organisationen mit diesen um?
- Welche Entscheidungsinstrumente zur ökonomisch-ökologischen Optimierung sind zielführend für die Integration ökologischer Aspekte in betriebliche Entscheidungsprozesse?
- Welcher Zusammenhang besteht zwischen der betrieblichen Umweltökonomie und der Zielstellung einer nachhaltigen Entwicklung?
LEBENSLAUF
1984 - 1989 |
Studium der Betriebswirtschaftslehre an der Universität Augsburg |
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1989 bis 1994 |
Wissenschaftliche Mitarbeiterin am Lehrstuhl für Wirtschaftsprüfung und Controlling an der Universität Augsburg (Prof. Dr. Dres. h.c. A.G. Coenenberg) und Promotion zum Dr. rer. pol. | |
seit 1996 | Universitätsprofessorin und Leiterin der Professur für Betriebliche Umweltökonomie, TU Dresden | |
08/ 2001 - 02/ 2002 12/ 2005 - 05/ 2016 |
Visiting Professor of Commerce, McIntire School of Commerce at the University of Virginia, Charlottesville, U.S.A. | |
seit Januar 2015 | Gastprofessorin an der Kobe University, Kobe, Japan | |
Weitere Informationen zu Aktivitäten finden Sie hier. |
AKTUELLE PUBLIKATIONEN
AKTUELLE FORSCHUNG
Water availability is becoming a growing challenge in the urban systems and this could be magnified by extensive industrial activities. Sustainability of cities and communities rely on sustainable industrial activities, which could face drawbacks in their operations, especially the sectors that rely heavily on water. Water reuse has been applied in the agricultural sector worldwide, but its uptake in the urban environment on an industrial setting is still not widely considered. SMART-WaterDomain seeks to develop efficient and sustainable water management systems that optimize quality and quantity of water at stages of its supply, discharge, reclamation and resource recovery and to address links and gaps between available technologies and industrial requirements on water quality and quantity.
The project foresees the development of a tool that will enable digitally accounting for wastewater re-use that can be used to “credit” companies and utilities that substitute freshwater for treated wastewater. Furthermore, through the collaboration on an international setting, SMART-WaterDomain aims to enhance and develop new interdisciplinary and intercultural insights into research designs for the use of wastewater as part of a wider water sustainability strategy.
As one of the German partners of this project, TUD aims to identify opportunities and barriers in using wastewater treatment technologies by industries and to address key challenges from stakeholders across the industrial, political and social sphere. The partners will collect, analyse and present technical, environmental and economic data for private and public (utility) actors in order to measure, monitor and manage water sustainability, as well as develop indicators and undertake data-collection/analysis protocols in order to demonstrate successes of schemes.
Water availability is becoming a growing challenge in the urban systems and this could be magnified by extensive industrial activities. Sustainability of cities and communities rely on sustainable industrial activities, which could face drawbacks in their operations, especially the sectors that rely heavily on water. Water reuse has been applied in the agricultural sector worldwide, but its uptake in the urban environment on an industrial setting is still not widely considered. SMART-WaterDomain seeks to develop efficient and sustainable water management systems that optimize quality and quantity of water at stages of its supply, discharge, reclamation and resource recovery and to address links and gaps between available technologies and industrial requirements on water quality and quantity.
The project foresees the development of a tool that will enable digitally accounting for wastewater re-use that can be used to “credit” companies and utilities that substitute freshwater for treated wastewater. Furthermore, through the collaboration on an international setting, SMART-WaterDomain aims to enhance and develop new interdisciplinary and intercultural insights into research designs for the use of wastewater as part of a wider water sustainability strategy.
As one of the German partners of this project, TUD aims to identify opportunities and barriers in using wastewater treatment technologies by industries and to address key challenges from stakeholders across the industrial, political and social sphere. The partners will collect, analyse and present technical, environmental and economic data for private and public (utility) actors in order to measure, monitor and manage water sustainability, as well as develop indicators and undertake data-collection/analysis protocols in order to demonstrate successes of schemes.
- Frau Prof. Dr. Edeltraud Günther
- Frau M.Sc. Isavella Georgiou
- Herr Dr. Jonathan Morris
- Bundesministerium für Bildung und Forschung (BMBF)