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The thermodynamics of direct air capture of carbon dioxide
Klaus S. Lackner
Research output
:
Contribution to journal
›
Article
›
peer-review
95
Scopus citations
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Dive into the research topics of 'The thermodynamics of direct air capture of carbon dioxide'. Together they form a unique fingerprint.
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Mathematics
Carbon Dioxide
100%
Thermodynamics
67%
Free Energy
57%
Energy
43%
Heat
41%
Gas
40%
Requirements
34%
Evaporation
30%
Regeneration
28%
Water
21%
Exceed
19%
Moisture
15%
Irreversibility
15%
Absorption
11%
Demand
10%
Economics
9%
Entire
9%
Tend
8%
Costs
7%
Metric
7%
Chemical Compounds
Scrubbing
58%
Carbon Dioxide
50%
Flue Gas
49%
Gibbs Free Energy
40%
Thermodynamics
39%
Heat
31%
Energy
30%
Evaporation
18%
Sorbent
18%
Scrubber
15%
Amount
13%
Leaf Like Crystal
9%
Engineering & Materials Science
Carbon dioxide
59%
Thermodynamics
55%
Free energy
38%
Air
35%
Flue gases
26%
Sorbents
23%
Hot Temperature
18%
Evaporation
12%
Scrubbers
8%
Water
6%
Moisture
5%
Costs
4%
Economics
4%
Temperature
2%
Earth & Environmental Sciences
carbon dioxide
50%
thermodynamics
49%
air
34%
energy
31%
flue gas
25%
regeneration
11%
evaporation
10%
energy demand
6%
cost
6%
ambient air
6%
moisture
4%
water
3%
economics
3%
comparison
2%
analysis
1%