Abstract
Globally, governments, companies, and other organizations have committed to achieving net-zero emissions targets in the coming decades. To achieve decarbonization at the scale and pace required to meet these targets, future energy systems will need renewable energy to serve 100% of the existing direct electricity demand, support additional electrification, and decarbonize the wider economy. An energy cluster offshore (ECO) is a concept that seeks to meet this challenge by integrating and optimizing large-scale renewable electricity generation, storage, and fuel production technologies and pairing them with other complementary uses, such as carbon capture or water desalination. This research project explores the techno-economic feasibility of ECO concepts by taking a holistic view of complex, multidisciplinary hybrid plant designs while considering different configurations and objectives. We will outline the most promising technology combinations and configurations, their functional requirements, and opportunities for optimization.
Original language | American English |
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Number of pages | 74 |
DOIs | |
State | Published - 2024 |
NREL Publication Number
- NREL/TP-5000-90404
Keywords
- desalination
- e-fuels
- energy clusters offshore
- energy storage
- green hydrogen
- hydrogen production
- marine hydrokinetic energy
- offshore wind
- solar photovoltaic