Laboratory of Nano and Quantum Engineering Leibniz Research Centre Research Projects
Land competition and its impact on decarbonized energy systems

Land competition and its impact on decarbonized energy systems

In densely populated countries, land competition is a key challenge in light of a growing population and the land-intensive decarbonization of energy supply. We apply an energy system model using linear optimization to Germany as an example for a densely populated and industrialized nation with a high energy demand to show how land competition affects the economics of land-intensive renewable energies. Bioenergy crops are currently cultivated on 6.5% of Germany’s land area. We find that allocating only 6% of the total land to the future energy system, which is even less than the current allocation to bioenergy crops, allows for a system that is close to the cost-minimum that we calculate when not restricting the land area. This 6% of the land area is divided into 4% for photovoltaics (PV), 2% for onshore wind and 0% for bioenergy crops. This would save 15 billion €/a (15.1%) relative to the system that matches current political targets for utility-scale PV. 

 

Original articel:

M. Schlemminger, C. Lohr, F. Peterssen, D. Bredemeier, R. Niepelt, A. Bensmann, R. Hanke-Rauschenbach, M. H. Breitner, R. Brendel: Land competition and its impact on decarbonized energy systems: A case study for GermanyEnergy Strategy Reviews 55 (2024) 101502
DOI: 10.1016/j.esr.2024.101502

Additional information:

Stellungnahme zur Pressemeldung des Bayerischen Staatsministeriums für Wirtschaft, Landesentwicklung und Energie