Abstract: The present disclosure is directed to a byproduct recovery system used in conjunction with a hydrogen production system. The hydrogen production system creates hydrogen gas and a byproduct through a chemical reaction. The byproduct of this chemical reaction is then contained within a solution which was part of the chemical reaction. The solution flows from the hydrogen production system into a recovery chamber. Within the recovery chamber the byproduct of the chemical reaction is removed from the solution. The byproduct may then be stored or transported to another outside system remote from both the hydrogen production system and the byproduct recovery system.

Abstract: The present disclosure is directed to a hydrogen production system for creating and extracting hydrogen gas. The hydrogen production system contains a reactor vessel into which a solution and a metallic or semi-metal material may be placed. The solution is added to the reactor vessel contains both water and a caustic. When contacting the metallic or semi-metal material within the reactor vessel a chemical reaction occurs. The chemical reaction creates hydrogen gas as well as heat and other byproducts. The hydrogen gas may then flow through a hydrogen extraction point located on the reactor vessel for collection or operational use.

Abstract: A system for the capture and extraction of hydrogen gas. The system contains a metallic or semi-metal material placed inside a containment vessel. A solution of H20 is added to the containment vessel creating a chemical reaction between the metallic or semi-metal material within the containment vessel. The chemical reaction creates the byproduct of a hydrogen gas as well as impurities. A stirring mechanism is placed into the containment unit and it is contact with the metallic or semi-metal material. The stirring mechanism is operative to remove the impurities from the chemical reaction from the surface of the metallic or semi-metal material without damaging or removing the metallic or semi-metal material itself. The byproduct of hydrogen gas then flows through a hydrogen extraction point located on the containment vessel for collection or operational use.

Abstract: The present disclosure is directed to a byproduct recovery system used in conjunction with a hydrogen production system. The hydrogen production system creates hydrogen gas and a byproduct through a chemical reaction. The byproduct of this chemical reaction is then contained within a solution which was part of the chemical reaction. The solution flows from the hydrogen production system into a recovery chamber. Within the recovery chamber the byproduct of the chemical reaction is removed from the solution. The byproduct may then be stored or transported to another outside system remote from both the hydrogen production system and the byproduct recovery system.

Abstract: The present disclosure is directed to a hydrogen production system for creating and extracting hydrogen gas. The hydrogen production system contains a reactor vessel into which a solution and a metallic or semi-metal material may be placed. The solution is added to the reactor vessel contains both water and a caustic. When contacting the metallic or semi-metal material within the reactor vessel a chemical reaction occurs. The chemical reaction creates hydrogen gas as well as heat and other byproducts. The hydrogen gas may then flow through a hydrogen extraction point located on the reactor vessel for collection or operational use.