CO₂ Emissions Decomposition in Greece: Impact of Carbon Capture & Storage on Power Generation

 

1. Introduction

The rising levels of carbon dioxide emissions from electricity generation have become a major global concern, particularly in countries transitioning their energy systems like Greece. This research introduces a decomposition analysis framework to examine the underlying drivers of CO₂ emissions, including economic activity, energy intensity, and fuel composition. By integrating Carbon Capture and Storage (CCS) technologies into the analysis, the study provides a forward-looking approach to reducing emissions while ensuring energy stability. This introduction sets the foundation for understanding how innovative technologies and policy interventions can support a low-carbon transition in the power sector.

2. Decomposition Analysis of Emission Drivers

This topic explores the methodological framework used to break down CO₂ emissions into contributing factors such as population growth, economic expansion, energy intensity, and fuel mix. By applying decomposition techniques, researchers can identify which factors contribute most to emission increases or reductions, enabling targeted policy interventions.

3. Role of Carbon Capture and Storage (CCS)

Carbon Capture and Storage is analyzed as a key technological solution for reducing emissions from fossil fuel-based electricity generation. This section evaluates the effectiveness, feasibility, and scalability of CCS in Greece’s energy infrastructure, highlighting its potential to significantly mitigate carbon output.

4. Energy Mix Transformation in Greece

The transition from fossil fuels to renewable energy sources plays a crucial role in emission reduction. This topic discusses how changes in Greece’s energy mix—such as increased adoption of solar and wind power—impact overall emissions and contribute to sustainable electricity generation.

5. Policy Implications for Low-Carbon Energy Systems

Effective policy frameworks are essential to support emission reduction strategies. This section examines government policies, regulatory measures, and financial incentives that promote clean energy adoption and CCS implementation, offering insights for long-term sustainability planning.

6. Future Research Directions and Sustainable Innovations

The final topic highlights emerging trends and future research opportunities, including advancements in carbon capture technologies, smart grid integration, and AI-driven energy optimization. It emphasizes the importance of continued innovation to achieve carbon neutrality in electricity generation systems.


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