Abstract
The mission of this project was to provide a preliminary feasibility assessment of powering different marine carbon dioxide removal (mCDR), marine carbon capture, and marine carbon sequestration strategies with marine energy. In this report, carbon capture refers to methods that can separate or capture carbon dioxide (CO2) from the air or ocean; carbon sequestration refers to methods that store CO2 obtained by capture methods out of the atmosphere for long periods of time; and carbon dioxide removal (CDR) refers to methods that do both. The project found that mCDR powered by marine energy and offshore wind energy available in the United States could meet global CDR scales needed by 2040 and 2050 to limit warming to 1.5 degrees C by 2100. Note that this preliminary estimate assumes that it is possible to harvest all the marine and offshore wind resources available in the United States with existing technology options, and it does not account for the power needed for monitoring these methods, as these power needs are not yet well defined and require further research. Additionally, these CDR scales will still require emissions reductions.
Original language | American English |
---|---|
Number of pages | 124 |
DOIs | |
State | Published - 2023 |
NREL Publication Number
- NREL/TP-5700-87165
Keywords
- alkalinity addition
- artifical upwelling
- carbonate formation
- CO2 stripping
- deep ocean storage
- deep sea aquifer sequestration
- deep sea basalt sequestration
- deep sea sequestration
- deep sea water column sequestration
- deep seabed sequestration
- electrochemical marine carbon dioxide removal
- marine carbon dioxide removal
- marine energy
- mCDR
- offshore microalgae cultivation
- offshore wind energy
- powering the blue economy
- seaweed afforestation
- seaweed farming
- seaweed sinking