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Next generation of RES-E policy instruments

Abgeschlossenes Projekt

Abteilung

Klimapolitik

Projektleitung

Karsten Neuhoff

Projektzeitraum

1. Oktober 2012 - 30. Juni 2013

Auftraggeber*innen

International Energy Agency, renewable energy technology deployment platform

Kooperationspartner*innen

National Renewable Energy Laboratory
Ecar energy consulting

The rise of renewable sources of electricity (RES-E) is transforming power systems globally. This trend is likely to continue with large increases in investment and deployment of RES-E capacity over the coming decades. Several countries now have penetration levels of variable RES-E generation (wind and solar) in excess of 15% of their overall power-generation mix; and many jurisdictions (e.g., Spain, Portugal, Ireland, Germany, and Denmark; and, in the United States, Colorado) have experienced instantaneous penetration levels of more than 50% variable generation.

These greater penetration levels of variable RES-E have prompted jurisdictions to begin modifying practices that evolved in an era of large, readily dispatchable, central-station conventional power plants. A changing resource mix with greater penetration levels of variable RES-E has implications for grid operations, wholesale and retail power markets, and infrastructure needs. Thus, next-generation RES-E policies must be designed to address these emerging issues in an effective manner.

The RES-E-NEXT project commissioned by IEA-RETD presents an assessment of the key considerations for the next generation of RES-E policy through 2025 by analysing four crucial policy domains:

- Securing RES-E generation;
- Securing grid infrastructure;
- Short-term security of supply: Flexibility; and
- Long-term security of supply: Adequacy.

For more information on the project, please follow this link.



The final report of the RES-E-NEXT project commissioned by the International Energy Agency's implementing agreement on Renewable Energy Technology Deployment (IEA-RETD) provides insights for the transition to high levels of variable RES-E generation. Please find the report here.

DIW Team

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