Sea Area Carbon Sequestration Wireless Monitoring Buoy

Abstract

The invention discloses a wireless sea-area carbon sequestration value monitoring buoy. The wireless sea-area carbon sequestration value monitoring buoy comprises a cover body arranged in an inverted mode, wherein the cover body is provided with an opening facing downwards. A carbon dioxide detection and collecting assembly capable of detecting the carbon dioxide concentration of the interior of the cover body and the carbon dioxide concentration of the exterior of the cover body penetrates through the upper portion of the lateral side of the cover body; the cover body is further provided with an air inflow and outflow device capable of conveying air into the inner side of the cover body and discharging the air out of the inner side of the cover body. Air above a water surface to be tested is isolated from the outside by the cover body arranged in the inverted mode. The air of the inner side of the cover body can be pumped at intervals by the carbon dioxide detection and collecting assembly according to testing requirements so that carbon dioxide concentration detection can be carried out, and the air is sampled and stored for further analysis. In this way, the wireless sea-area carbon sequestration value monitoring buoy has the advantages of being novel in structure, small in measurement interference and capable of sampling the air several times and automatically resetting the testing environment.

Description

technical field [0001] The invention relates to environmental monitoring equipment, in particular to a wireless monitoring buoy for carbon sequestration in sea areas. Background technique [0002] At present, the solar buoys used or reported in China all adopt a decentralized structure, which is composed of navigation lights, buoys, solar cells, batteries, and controllers. Using this structure will reduce the overall reliability of the buoy. Another is that traditional solar buoys do not have a remote control system. When the buoy is stolen, the buoy drifts out of the set range, or enters water, it is often difficult to be found. Cause great inconvenience, but also can bring great potential safety hazard for the operation of waterway. The third is the traditional solar buoy. When the anchor chain breaks, it can only be retrieved by tugboats. When the buoy is often found, it has drifted away to tens of nautical miles, which will cause a great waste of manpower and material r...

AI Technical Summary

Problems solved by technology

Another is that traditional solar buoys do not have a remote control system. When the buoy is stolen, the buoy drifts out of the set range, or enters water, it is often difficult to be found. It will cause great inconvenience, and it will also bring great safety hazards to the operation of the waterway.

The third is the traditional solar buoy. When the anchor chain breaks, it can only be retrieved by a tugboat. Often the buoy has drifted away to tens of nautical miles when the buoy is found, which will cause a great waste of manpower and material resources.

However, it does not have a detection function for carbon sink parameters, and its self-driving system interferes with sampling to a certain extent, which needs further improvement

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