A control space operating system. The system includes a control space with one or more data source zones and a control space manager. The control space manager can collect data and control different variables across different data source zones in order to determine optimal policies and conditions for data source growth and generation.

This invention provides a process to prepare consumable food and beverage products with reduced carbon-14 (.sup.14C) content. Normal agricultural products capture carbon-dioxide (CO.sub.2) with radioactive .sup.14C from atmospheric gases. Agricultural products grown in controlled environments such as a greenhouse with filtered atmospheric gases to remove CO.sub.2 with .sup.14C can be harvested and processed into readily consumable products that omit the damage to human DNA that is unavoidable with our current food chain. This process provides food and beverage products with a lower than natural abundance of .sup.14C for consumption.

A molecular air control system includes a shell including an enclosed area, a cart moving on a track within the enclosed area, an air supplier configured to output air into the enclosed area, and a controller. The controller includes one or more processors, one or more memory modules, and machine readable instructions stored in the one or more memory modules that, when executed by the one or more processors, cause the controller to: identify a plant on the cart; determine a target carbon dioxide concentration level for the identified plant based on a molecular recipe for the identified plant; receive a current carbon dioxide concentration level from a carbon dioxide sensor; compare the target carbon dioxide concentration level with the current carbon dioxide concentration level; and adjust carbon dioxide concentration level of the air output from the air supplier based on the comparison.

A molecular air control system includes a shell including an enclosed area, a cart moving on a track within the enclosed area, an air supplier configured to output air into the enclosed area, and a controller. The controller includes one or more processors, one or more memory modules, and machine readable instructions stored in the one or more memory modules that, when executed by the one or more processors, cause the controller to: identify a plant on the cart; determine a target carbon dioxide concentration level for the identified plant based on a molecular recipe for the identified plant; receive a current carbon dioxide concentration level from a carbon dioxide sensor; compare the target carbon dioxide concentration level with the current carbon dioxide concentration level; and adjust carbon dioxide concentration level of the air output from the air supplier based on the comparison.

A flexible datacenter includes a mobile container, a behind-the-meter power input system, a power distribution system, a datacenter control system, a plurality of computing systems, and a climate control system. The datacenter control system modulates power delivery to the plurality of computing systems based on unutilized behind-the-meter power availability or an operational directive. A method of dynamic power delivery to a flexible datacenter using unutilized behind-the-meter power includes monitoring unutilized behind-the-meter power availability, determining when a datacenter ramp-up condition is met, enabling behind-the-meter power delivery to one or more computing systems when the datacenter ramp-up condition is met, and directing the one or more computing systems to perform predetermined computational operations.

A flexible datacenter includes a mobile container, a behind-the-meter power input system, a power distribution system, a datacenter control system, a plurality of computing systems, and a climate control system. The datacenter control system modulates power delivery to the plurality of computing systems based on unutilized behind-the-meter power availability or an operational directive. A method of dynamic power delivery to a flexible datacenter using unutilized behind-the-meter power includes monitoring unutilized behind-the-meter power availability, determining when a datacenter ramp-up condition is met, enabling behind-the-meter power delivery to one or more computing systems when the datacenter ramp-up condition is met, and directing the one or more computing systems to perform predetermined computational operations.

A system for growing plants and monitoring the growth of plants, comprising a gardening system and a server. The gardening system comprises a frame that defines a housing for receiving a tray of plants. The gardening system also has a lighting subsystem and watering subsystem to provide light and water to the plants. Sensors and cameras of the gardening system may capture data corresponding to the conditions of the gardening system and health of the plant. Based on the captured data, the server may use machine learning to determine optimal plant growing thresholds, and may send a control command to a controller of the gardening system to change one or more conditions of the gardening system. The plants grown by the system may be nutritious, and the bioavailability of the nutrients of the plants may be increased.

A system for growing plants and monitoring the growth of plants, comprising a gardening system and a server. The gardening system comprises a frame that defines a housing for receiving a tray of plants. The gardening system also has a lighting subsystem and watering subsystem to provide light and water to the plants. Sensors and cameras of the gardening system may capture data corresponding to the conditions of the gardening system and health of the plant. Based on the captured data, the server may use machine learning to determine optimal plant growing thresholds, and may send a control command to a controller of the gardening system to change one or more conditions of the gardening system. The plants grown by the system may be nutritious, and the bioavailability of the nutrients of the plants may be increased.

Methods and apparatus for capturing carbon dioxide from ambient air and delivering said carbon dioxide to an enclosed environment are described. In general, the methods and apparatus comprise contacting a packed bed or fluidized bed device with a stream of ambient air, wherein the packed bed or fluidized bed device comprises a humidity-sensitive sorbent material that adsorbs carbon dioxide from the ambient air; contacting the packed bed or fluidized bed device with a stream of humid air to release the adsorbed carbon dioxide; delivering the released carbon dioxide to an enclosed environment; and optionally, repeating the steps of contacting the packed bed or fluidized bed device with ambient air and humid air in an alternating fashion.

Methods and apparatus for capturing carbon dioxide from ambient air and delivering said carbon dioxide to an enclosed environment are described. In general, the methods and apparatus comprise contacting a packed bed or fluidized bed device with a stream of ambient air, wherein the packed bed or fluidized bed device comprises a humidity-sensitive sorbent material that adsorbs carbon dioxide from the ambient air; contacting the packed bed or fluidized bed device with a stream of humid air to release the adsorbed carbon dioxide; delivering the released carbon dioxide to an enclosed environment; and optionally, repeating the steps of contacting the packed bed or fluidized bed device with ambient air and humid air in an alternating fashion.