Compendium Energy Economics & Sustainability
Niveau
Introduction and consolidation
Learning outcomes of the courses/module
The students are able to:
• explain technical terms and models of sustainability and energy management
• derive basic features of national and European energy, climate protection and environmental policy from sustainability goals
• demonstrate the principle of subsidiarity on the basis of global, national, regional and corporate sustainability goals
• assign energy, climate protection and environmental legislation and regulations at national and European level to the corresponding bodies
• explain promotion mechanisms and marketing concepts for renewable energies and energy management, to assign energy, climate protection and environmental legislation as well as regulations on national and European level to the corresponding organs
• evaluate promotion mechanisms and marketing concepts for renewable energies and efficiency measures from the company's point of view
• explain definitions of quality in relation to energy and sustainability management as well as to present requirements and tasks of quality management systems
• explain technical terms and models of sustainability and energy management
• derive basic features of national and European energy, climate protection and environmental policy from sustainability goals
• demonstrate the principle of subsidiarity on the basis of global, national, regional and corporate sustainability goals
• assign energy, climate protection and environmental legislation and regulations at national and European level to the corresponding bodies
• explain promotion mechanisms and marketing concepts for renewable energies and energy management, to assign energy, climate protection and environmental legislation as well as regulations on national and European level to the corresponding organs
• evaluate promotion mechanisms and marketing concepts for renewable energies and efficiency measures from the company's point of view
• explain definitions of quality in relation to energy and sustainability management as well as to present requirements and tasks of quality management systems
Prerequisites for the course
none
Course content
• Methods of Sustainability Assessment
• History & Stakeholders of the Energy Industry
• Quality Management
• Sustainability Management
• Energy, Climate Protection and Environmental Policy
• Energy, Climate Protection and Environmental Law
• Promotion Instruments and Marketing Concepts of Energy
• History & Stakeholders of the Energy Industry
• Quality Management
• Sustainability Management
• Energy, Climate Protection and Environmental Policy
• Energy, Climate Protection and Environmental Law
• Promotion Instruments and Marketing Concepts of Energy
Recommended specialist literature
• Klees, A., 2012. Einführung in das Energiewirtschaftsrecht. Frankfurt am Main: Deutscher Fachverlag
• Hering, E. und W. Schultz, 2018. Umweltschutztechnik und Umweltmanagement: Ein Kompendium für Studierende, Praktiker und Politiker. Wiesbaden: Springer Vieweg
• Förtsch, G. und H. Meinholz, 2018. Handbuch Betriebliches Umweltmanagement. Wiesbaden: Springer Vieweg
• Ennöckl, D., W. Raschauer, und W. Wessely, 2019. Handbuch Umweltrecht. Wien: Facultas
• Konstantin, P., 2017. Praxisbuch Energiewirtschaft: Energieumwandlung, -transport und -beschaffung im liberalisierten Markt. 4. Auflage. Berlin: Springer-Verlag
• Watter, H., 2019. Regenerative Energiesysteme: Grundlagen, Systemtechnik und Analysen ausgeführter Beispiele nachhaltiger Energiesysteme. 5. Auflage. Wiesbaden: Springer Vieweg
• Hering, E. und W. Schultz, 2018. Umweltschutztechnik und Umweltmanagement: Ein Kompendium für Studierende, Praktiker und Politiker. Wiesbaden: Springer Vieweg
• Förtsch, G. und H. Meinholz, 2018. Handbuch Betriebliches Umweltmanagement. Wiesbaden: Springer Vieweg
• Ennöckl, D., W. Raschauer, und W. Wessely, 2019. Handbuch Umweltrecht. Wien: Facultas
• Konstantin, P., 2017. Praxisbuch Energiewirtschaft: Energieumwandlung, -transport und -beschaffung im liberalisierten Markt. 4. Auflage. Berlin: Springer-Verlag
• Watter, H., 2019. Regenerative Energiesysteme: Grundlagen, Systemtechnik und Analysen ausgeführter Beispiele nachhaltiger Energiesysteme. 5. Auflage. Wiesbaden: Springer Vieweg
Assessment methods and criteria
written exam
Language
German
Number of ECTS credits awarded
5
Share of e-learning in %
30
Semester hours per week
2.5
Planned teaching and learning method
Blended Learning
Semester/trimester in which the course/module is offered
1
Name of lecturer
director of studies
Academic year
1
Key figure of the course/module
ENMK
Type of course/module
integrated lecture
Type of course
Compulsory