System and method for passive collection of atmospheric carbon dioxide

What is claimed is: 1. A system for passive collection of atmospheric carbon dioxide, comprising: a harvest chamber comprising a first opening and a sorbent regeneration system comprising a release medium, a release medium emitter, and a liquid extractor; a capture body coupled to and movable by a support structure, the support structure having at least a first portion inside of the harvest chamber and a second portion outside of and above the harvest chamber at a height, the capture body comprising a sorbent material and movable by the support structure to be in a collection configuration wherein at least a portion of the capture body able to capture carbon dioxide is in contact with a natural airflow outside the harvest chamber such that atmospheric carbon dioxide is captured by the sorbent material, and a release configuration wherein at least a portion of the capture body holding captured carbon dioxide is in contact with the release medium inside the harvest chamber such that captured carbon dioxide is released into the harvest chamber to form an enriched gas; a product outlet in fluid communication with the inside of the harvest chamber and configured to receive a product stream of enriched gas displaced by a sweep gas inside the harvest chamber, the sweep gas introduced to the harvest chamber; and a control system communicatively coupled to the support structure, and configured to cycle the capture body through the collection configuration and the release configuration. 2. The system of claim 1 , wherein the release medium is steam and the sorbent material is one of a moisture swing sorbent material and a heat swing sorbent material. 3. The system of claim 1 , wherein: the capture body is a closed-loop belt comprising a flexible substrate upon which the sorbent material is disposed, the first and second portions of the support structure each comprise a plurality of rollers, and at least one of the rollers of the support structure is coupled to a motor communicatively coupled to the control system. 4. The system of claim 3 , wherein the capture body is able to be in the collection configuration and the release configuration simultaneously. 5. The system of claim 3 , wherein the first opening of the harvest chamber is a liquid trap having an external aperture exposed to the atmosphere and an internal aperture below the external aperture and submerged under water such that the water separates the inside of the harvest chamber from the external aperture, the internal and external apertures being connected by a conduit. 6. The system of claim 3 , wherein the first opening is an open channel comprising at least one flow generator communicatively coupled to the control system, wherein the control system is communicatively coupled to a sensor that is one of a pressure sensor, a flow speed sensor, and a mass flow sensor, and wherein the control system is configured to operate the at least one flow generator in response to sensor readings such that an average flow rate across the channel is maintained at a desired flow rate to create a dynamic air lock. 7. The system of claim 3 , wherein the harvest chamber further comprises a second opening, wherein the closed-loop belt enters the harvest chamber through the first opening and exits the harvest chamber through the second opening, and wherein the product outlet is opposite the second opening and proximate the first opening. 8. The system of claim 3 , wherein the first and second portions of the support structure are each comprise an upper rack of rollers and a lower rack of rollers, and wherein, for each of the first and second portions of the support structure, the closed-loop belt is woven back and forth between the upper rack of rollers and the lower rack of rollers. 9. The system of claim 1 , wherein: the support structure comprises a lid movable between an open position above and separated from the harvest chamber, and a closed position wherein the lid covers the first opening of the harvest chamber, the support structure further comprises a collapsible tether coupled to an interior of the harvest chamber and the lid, and the capture body comprises a plurality of plates coupled to and spaced out along the collapsible tether such that the plurality of plates hangs from the lid by the tether when the capture body is in the collection configuration and the plurality of plates are enclosed within the harvest chamber when the capture body is in the release configuration, each plate comprising the sorbent material. 10. A system for passive collection of atmospheric carbon dioxide, comprising: a harvest chamber comprising a first opening and a sorbent regeneration system; a capture body coupled to and movable by a support structure, the support structure having at least a first portion inside of the harvest chamber and a second portion outside of the harvest chamber, the capture body comprising a sorbent material and movable by the support structure to be in a collection configuration wherein at least a portion of the capture body able to capture carbon dioxide is in contact with an airflow outside the harvest chamber such that atmospheric carbon dioxide is captured by the sorbent material, and a release configuration wherein at least a portion of the capture body holding captured carbon dioxide is operated upon by the sorbent regeneration system inside the harvest chamber such that captured carbon dioxide is released into the harvest chamber to form an enriched gas; a product outlet in fluid communication with the inside of the harvest chamber and configured to receive a product stream of enriched gas displaced by a sweep gas inside the harvest chamber, the sweep gas introduced to the harvest chamber; and a control system communicatively coupled to the support structure, and configured to cycle the capture body between the collection configuration and the release configuration. 11. The system of claim 10 , wherein the sorbent material is a moisture swing sorbent material, the sorbent regeneration system comprises a release medium, a release medium emitter, and a liquid extractor, and wherein the release medium is one of liquid water and steam. 12. The system of claim 10 , wherein the sorbent material is a heat swing sorbent material and the sorbent regeneration system comprises a heat source. 13. The system of claim 10 , wherein: the support structure comprises a lid movable between an open position above and separated from the harvest chamber, and a closed position covering the first opening of the harvest chamber, and the capture body is coupled to the lid and an interior of the harvest chamber such that the capture body hangs from the lid when the capture body is in the collection configuration and the capture body is enclosed within the harvest chamber when the capture body is in the release configuration. 14. The system of claim 10 , wherein: the capture body is a closed-loop belt comprising a flexible substrate upon which the sorbent material is disposed, the first and second portions of the support structure each comprise a plurality of rollers, and at least one of the rollers of the support structure is coupled to a motor communicatively coupled to the control system. 15. The system of claim 14 , further comprising: an external sensor outside the harvest chamber communicatively coupled to the control system; wherein the control system is configured to automatically modify at least one of a ratio of closed-loop belt inside the harvest chamber to closed-loop belt outside the harvest chamber and a belt speed in response to an ambient condition detecte