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Wirtschaftsförderung 4.0
(2017)
Modelling studies which project pathways for the future of energy in India currently have several implicit assumptions with regards to the social, institutional, and political changes necessary for energy transitions. This paper focuses on the specific question of land use change required for realising ambitious clean energy targets. Demand for land is likely to be a critical question in India's energy future given the challenges with land acquisition in the country as a result of high population density and significant rights enjoyed by landowners. Yet, there is a lack of literature relevant to India which makes a quantitative assessment of the land use impacts of different types of low carbon technologies. I calculate and compare the land requirements in India of ground based solar photovoltaic (PV) power, nuclear power, and wind energy. All three types of technologies are expected to grow substantially as a share of India's electricity mix in the coming years. The analysis suggests that land demands of ground based solar PV are likely to be substantial compared to wind energy and nuclear power, and some policy suggestions are provided which may help mitigate that challenge.
Von Beginn an haben die modernen Wirtschaftswissenschaften gesellschaftliche Prozesse nicht nur beobachtet und beschrieben, sondern diese auch selbst katalysiert und beeinflusst. Damit haben sie einer Entwicklung den Weg gebahnt, die neben unbestrittenen Erfolgen zu ökologischen Zerstörungen, sozialen Verwerfungen und immer wiederkehrenden ökonomischen Krisen geführt hat. Mehr denn je braucht es eine transformative Wirtschaftswissenschaft, die insbesondere die Bedingungen und Möglichkeiten einer nachhaltigen Entwicklung von Wirtschaft und Gesellschaft analysiert und verbessern hilft.
The contribution of the EU bioeconomy to sustainable development depends on how it is implemented. A high innovation potential is accompanied by considerable risks, in particular regarding the exacerbation of global land use conflicts. This article argues that a systemic monitoring system capable of connecting human-environment interactions and multiple scales of analysis in a dynamic way is needed to ensure that the EU bioeconomy transition meets overarching goals, like the Sustainable Development Goals. The monitoring should be centered around a dashboard of key indicators and targets covering environmental, economic, and social aspects of the bioeconomy. With a focus on the land dimension, this article examines the strengths and weakness of different economic, environmental and integrated models and methods for monitoring and forecasting the development of the EU bioeconomy. The state of research on key indicators and targets, as well as research needs to integrate these aspects into existing modeling approaches, are assessed. The article concludes with key criteria for a systemic bioeconomy monitoring system.
The future of automobility
(2017)
Sustainable energy
(2017)