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Assessing ocean alkalinity for carbon sequestration
Phil Renforth
*
, Gideon Henderson
*
Corresponding author for this work
School of Engineering & Physical Sciences
Institute of Mechanical, Process & Energy Engineering
Research output
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Contribution to journal
›
Article
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peer-review
244
Citations (Scopus)
192
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Dive into the research topics of 'Assessing ocean alkalinity for carbon sequestration'. Together they form a unique fingerprint.
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INIS
oceans
100%
carbon sequestration
100%
alkalinity
100%
carbon dioxide
44%
weathering
44%
carbon
33%
carbonates
33%
storage
22%
precipitation
22%
atmospheres
22%
carbonate minerals
22%
capacity
11%
surfaces
11%
range
11%
cost
11%
emission
11%
climatic change
11%
proposals
11%
rocks
11%
saturation
11%
increasing
11%
calcite
11%
minerals
11%
electrochemistry
11%
ions
11%
chemistry
11%
bicarbonates
11%
acidification
11%
limestone
11%
magnesium
11%
calcium
11%
fossil fuels
11%
combustion
11%
dolomite
11%
olivine
11%
liming
11%
silicate minerals
11%
anorthite
11%
Earth and Planetary Sciences
Alkalinity
100%
Carbon Sequestration
100%
Planetary Atmosphere
28%
Carbonate Mineral
28%
Climate Change
14%
Liming
14%
Biological Activity
14%
Ocean Acidification
14%
Ocean Surface
14%
Fuel Combustion
14%
Wollastonite
14%
Calcite
14%
Silicate Mineral
14%
Olivine
14%
Fossil Fuel
14%
Carbon Dioxide
14%
Dolomite
14%