A method for producing alcoholic beverages from alkaline cooking, using as a basis the increase in pH in the medium to cook cacahuazintle corn grains, other similar mealy corn or any other grain, which offers a different proposal due to the generation of flavors, aromas and sensory characteristics that differentiate the products obtained by the methods herein disclosed from existing alcoholic beverages. A method for producing alcohol for human consumption and/or industrial use from the recovery and treatment of nejayote obtained from alkaline cooking residues, also known as nixtamalization of corn, applied to any alkaline cooking residue in the alimentary field.

A method for producing alcoholic beverages from alkaline cooking, using as a basis the increase in pH in the medium to cook cacahuazintle corn grains, other similar mealy corn or any other grain, which offers a different proposal due to the generation of flavors, aromas and sensory characteristics that differentiate the products obtained by the methods herein disclosed from existing alcoholic beverages. A method for producing alcohol for human consumption and/or industrial use from the recovery and treatment of nejayote obtained from alkaline cooking residues, also known as nixtamalization of corn, applied to any alkaline cooking residue in the alimentary field.

The present disclosure provides high-grade ethanol production systems and methods that increase energy efficiency as compared to typical systems and methods by minimizing undesired acetal formation. The provided ethanol production method may include a low boilers removal distillation column and/or a stripper column constructed to simultaneously remove at least a portion of the acetaldehyde and at least a portion of the acetal from a feed stream in the presence of water. In some aspects, a low boilers removal process may be followed by a water removal process, which may be followed by a high boilers removal process. Acidity (e.g., carbon dioxide) may also be removed from a feed stream prior to or during the low boilers removal process. By minimizing acetal production, the provided method minimizes the amount of energy that is required to remove acetal when producing high-grade ethanol.

The present disclosure provides high-grade ethanol production systems and methods that increase energy efficiency as compared to typical systems and methods by minimizing undesired acetal formation. The provided ethanol production method may include a low boilers removal distillation column and/or a stripper column constructed to simultaneously remove at least a portion of the acetaldehyde and at least a portion of the acetal from a feed stream in the presence of water. In some aspects, a low boilers removal process may be followed by a water removal process, which may be followed by a high boilers removal process. Acidity (e.g., carbon dioxide) may also be removed from a feed stream prior to or during the low boilers removal process. By minimizing acetal production, the provided method minimizes the amount of energy that is required to remove acetal when producing high-grade ethanol.

A liquor distillation system, comprising one or more channeled loops fluidly couplable to a boiler and a condenser, the condenser adapted to condense alcoholic vapors from a heated liquor wherein the one more channeled loops include an entrance point, an exit point, a split point, and a recombination point such that the heated liquor enters the one or more channeled loops from the entrance point, to the split point where the heated liquor is split into two separate opposite subchannels and recombined at the recombination point; one or more connection pipes adapted to connect the one or more channeled loops to another channeled ring; one or more drain valves; and a liquor outlet.

A liquor distillation system, comprising one or more channeled loops fluidly couplable to a boiler and a condenser, the condenser adapted to condense alcoholic vapors from a heated liquor wherein the one more channeled loops include an entrance point, an exit point, a split point, and a recombination point such that the heated liquor enters the one or more channeled loops from the entrance point, to the split point where the heated liquor is split into two separate opposite subchannels and recombined at the recombination point; one or more connection pipes adapted to connect the one or more channeled loops to another channeled ring; one or more drain valves; and a liquor outlet.

A method for expediting the production of aged whiskey. The method uses a system including a tank with a lid containing charred wood slabs and a degasser connected via a conduit to a tube having a vacuum valve, a pressure release valve, and a vacuum gauge. Distillate is delivered to the tank and cyclical steps are applied to age the distillate while regulating the amount of vacuum developed in the tank. The degasser is energized and the vacuum valve is opened, subjecting the distillate to vacuum. The vacuum valve closed and the degasser is de-energized. The pressure in the system is held for approximately one minute. The pressure release valve is slowly opened, allowing the pressure to neutralize to atmospheric pressure. The pressure release valve is closed and the system sits for at least 1.5 hours. Finally, these cyclical steps are repeated for 21 days or more.

A method for expediting the production of aged whiskey. The method uses a system including a tank with a lid containing charred wood slabs and a degasser connected via a conduit to a tube having a vacuum valve, a pressure release valve, and a vacuum gauge. Distillate is delivered to the tank and cyclical steps are applied to age the distillate while regulating the amount of vacuum developed in the tank. The degasser is energized and the vacuum valve is opened, subjecting the distillate to vacuum. The vacuum valve closed and the degasser is de-energized. The pressure in the system is held for approximately one minute. The pressure release valve is slowly opened, allowing the pressure to neutralize to atmospheric pressure. The pressure release valve is closed and the system sits for at least 1.5 hours. Finally, these cyclical steps are repeated for 21 days or more.

Provided is a system and method for rapid aging of distilled ethyl alcohol. The system includes a vessel with at least one aperture for introducing RF energy at a preselected frequency to be absorbed by opaque material in a target area; at least one liquid circulating system; and a platform to substantially contain a plurality of units of wood as the opaque material. Each unit of wood has a plurality of capillaries containing at least wood sugar and resin. The system has a wood agitation system to move the wood through the target area. An RF generator provides constant RF energy at the predetermined frequency to induce oscillation of molecules within the wood. The system has an oxygenator to provide oxygen into the liquid mixture and outgas congeners from the liquid, the vessel further providing at least one vent structured and arranged to vent the outgassed congeners.

Provided is a system and method for rapid aging of distilled ethyl alcohol. The system includes a vessel with at least one aperture for introducing RF energy at a preselected frequency to be absorbed by opaque material in a target area; at least one liquid circulating system; and a platform to substantially contain a plurality of units of wood as the opaque material. Each unit of wood has a plurality of capillaries containing at least wood sugar and resin. The system has a wood agitation system to move the wood through the target area. An RF generator provides constant RF energy at the predetermined frequency to induce oscillation of molecules within the wood. The system has an oxygenator to provide oxygen into the liquid mixture and outgas congeners from the liquid, the vessel further providing at least one vent structured and arranged to vent the outgassed congeners.