When the carbon dioxide produced by human production activities is emitted
into the atmosphere, like a flock of birds flying into the sky, it
will disappear beyond the horizon in a few minutes. 99.9% of the
world's carbon dioxide is like these birds. The possibility of
catching them again is slim unless their movement path can be predicted.
Carbon dioxide emitted into the sky will move along the path of atmospheric
circulation, and follow the characteristics of low- and mid-latitude
circulation and polar circulation, meeting and splitting in areas of
air flow convergence and divergence. Therefore, the best way to
capture carbon dioxide in the atmosphere is not to catch up. Instead,
intercept at the appropriate location.
The latitude lines of 0 degrees, 30 degrees, 60 degrees and 90 degrees in
the northern and southern hemispheres are located in the confluence
and divergence areas of three convective circulations (three
circulations), which are like the turning points of the flight paths
of migratory birds. This will be the best area to recapture them. .
The CRCS carbon dioxide removal conversion system has high altitude,
wide area and flexible scalability. It can provide solutions for
global carbon removal projects and will become an important tool to
achieve the global net-zero emission goal.
The 0°, 30°, 60°, and 90° latitude lines in the northern and southern
hemispheres are located in the convergence and divergence areas of
three convective circulations (three-circle circulation). They are
like the turning points of the flight paths of migratory birds, which
will be the best time to recapture. The CRCS carbon dioxide removal
conversion system has wide-area carbon-negative technology and
flexible scalability, and will become the primary option to achieve
the global net-zero emissions goal.
Implementation Basis and Key Points of the Global Carbon Removal and Conversion Plan
The global CRCS deployment is mainly based on the atmospheric circulation
path, and the latitudinal circulation intersection and divergence
area is the main construction area. And 10 plans correspond to
extreme changes in the North and South Poles, the equator, land and
oceans. The ten options include: A high carbon emission industry, B
densely populated city, C reservoir water source protection zone, D
high altitude mountain plateau, E sea transportation, F air
transportation, G container type carbon removal conversion point, H
carbon removal conversion base, I Arctic and Antarctic large
conversion base, J home module.
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