1. There are several ways to detect carbon removal rate
Carbon removal rate testing includes three methods: non-airtight space, airtight container or space, and sealed container. Non-airtight spaces and airtight containers are tested by EQT themselves using professional-grade detectors. Airtight experiments The chamber and sealed container are submitted to a third-party professional unit for CO2 reduction rate data inspection.
2. How to calculate carbon removal rate
CRCS carbon dioxide removal rate calculation module:
a=carbon dioxide removal amount/ton b=CRCS module scale c=running time d=effective range of carbon removal conversion
Variable parameters:
1. Regional carbon concentration/CO2 conversion rate is proportional to regional carbon concentration
2. Atmospheric flow rate/flow rate is inversely proportional to CO2 conversion rate
3. The higher the humidity/humidity, the lower the CO2 conversion rate is.
3. Focus on conversion of atmospheric carbon dioxide removal
Atmospheric pressure affects the height at which carbon dioxide moves, and the density distribution of atmospheric carbon dioxide is affected by geomagnetism. In terms of altitude, the CO2 concentration ratio at 7.5-11 kilometers above sea level (tropopause) is greater than 96%. In terms of density distribution, the concentration ratio of CO2 in the North and South Pole and equatorial regions is The gap is 3 to 1, so altitude and latitude are the key points of atmospheric carbon dioxide removal and conversion. The CRCS carbon removal and conversion system has solutions for both of these key points.
4. Implementation basis and key points of the global carbon removal and conversion plan
The global CRCS deployment is based on the atmospheric circulation path as the main basis, and takes the latitudinal circulation intersection and divergence area as the primary construction area, including ten plans corresponding to the North and South Pole, the equator, and the land and ocean at the 30-60-degree latitude line in the northern and southern hemispheres. , the diverse differences in the sky. The ten options include: high-carbon emission industries, densely populated cities, reservoir water source protection areas, high-altitude mountains and highlands, ocean shipping, aviation vehicles, container-type carbon removal conversion points, carbon removal conversion bases, and household micro-modules. and large-scale conversion bases in the Arctic and Antarctic.
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