b'INNOVATION IS MORE THAN A WORDITS IN OUR DNAMethod To Convert A Written Procedure Methods And Systems For The Electrochemical To Structured Data, And Related Systems Reduction Of Carbon Dioxide Using And Methods Switchable Polarity MaterialsVarious embodiments described in this disclosureA method of electrochemically reducing CO 2comprises relate to methods and computer-based systemsintroducing a first feed stream comprising H 2 O to a that implement those methods for converting taskspositive electrode of an electrolysis cell comprising performed as part of a procedure into dynamicthe positive electrode, a negative electrode, and procedure tasks. Such dynamic procedure tasks may bea proton-conducting membrane. A second feed used by computer-based procedure solutions to createstream comprising a solvent and a non-polar form of highly dynamic computer-based procedures. a switchable polarity material is directed into a CO 2capture apparatus. A third feed stream comprising CO 2Patent 11,126,789 granted 9/21/2021 to Johanna Oxstrand, is directed into the CO 2capture apparatus to interact Katya L. Le Blanc, Ahmad Y. Al Rashdan, Aaron Bly with the second feed stream and form a first product stream comprising the solvent and a polar form of the switchable polarity material. The first product stream Pressure Pass-through Apparatus, Andis introduced to the negative electrode. A potential Method For Making Such difference is applied between the positive electrode and the negative electrode to convert the polar form of An apparatus is provided which comprises pressurethe switchable polarity material into CO 2and the non-pass-through means, which includes: an optic fiberpolar form, and to form products from the CO 2and the having a first end and a second end; a first connectorsolvent. A CO 2treatment system is also described.coupled to the first end; a second connector coupledPatent 10,975,477 granted 4/13/2021 to Birendra Adhikari,to the second end; a housing between the first andNingshengjie Gao, Tedd E. Lister, Eric J. Dufek, Aaron D. Wilson,second ends, wherein the housing covers a portionLuis A. Diaz Aldanaof the optic fiber, and wherein a portion of the optic fiber in the housing is bare; a filing material inside the housing; and a swaged gland fitting on the housing toEnergy Storage Systems Including Thermal secure the apparatus to a pressure boundary. Storage TanksPatent 11,073,411 granted 7/27/2021 to Warren F. Jones, Casey J. Jesse,Ann Marie (Smith) Phillips, Wade R. Marcum, Aaron W. Weiss, Daniel LaBrier,Energy storage systems include a heat source and a John C. Kennedy thermal energy storage system to store thermal energy produced by the heat source. The thermal energy storage system includes a first tank containing a first Methods And Apparatus For Additivelysalt having a first melting temperature and a second Manufacturing Structures Using In Situtank containing a second salt having a second melting Formed Additive Manufacturing Materials temperature. At least one input conduit is configured for transferring thermal energy from the heat source to the first tank and second tank. A first output conduit is A method of additively manufacturing a structurein thermal communication with the first tank. A second comprises nuclear reactor comprises disposing a feedoutput conduit is in thermal communication with the material on a surface of a substrate in a reaction vessel,second tank. Additional energy storage systems include disposing at least one material formulated and configureda heat booster positioned and configured to add to react with the feed material in the reaction vessel,thermal energy to a heated heat transfer fluid prior to and exposing the feed material and at least one materialreaching a tank containing at least one thermal storage to energy from an energy source to react the feedmaterial. Methods include transferring thermal energy material and at least one material to form an additivefrom a thermal energy source to a plurality of thermal manufacturing material and reaction byproducts. Theenergy storage tanks.additive manufacturing material is separated from the reaction byproducts and exposed to energy from thePatent 11,015,877 granted 5/25/2021 to Michael G. McKellar,energy source to form inter-granular bonds betweenRichard D. Boardman, James E. OBrien, Carl M. Stoots, Piyush Sabharwall, particles of the additive manufacturing material and form aShannon M. Bragg-Sittonlayer of a structure comprising the additive manufacturing material. Related apparatuses and methods are disclosed.Patent 11,014,265 granted 5/25/2021 to Isabella J. Van Rooyen, Clemente J. Parga7'