Abstract: A firearms suppressor incorporates one or more thermal energy absorbing elements, or “thermal energy sponges”, fabricated from porous metal. These elements efficiently absorb heat from the propellant gas generated when the firearm is discharged, thus reducing its pressure and the blast noise it creates. The thermal energy absorbing elements are manufactured from porous metal, a material which, due to its high efficiency in absorbing thermal energy, provides a unique solution to designing smaller, lighter, modular, more efficient and less expensive to manufacture firearm suppressors. In addition, as a result of the relationship described in the Darcy-Forchheimer equation, these porous metal elements provide the suppressor with an intrinsic, self-regulating capability, thus allowing the suppressor's use with a variety of different cartridges and different calibers with little to no change to a baseline design.

Abstract: A firearms suppressor incorporates one or more thermal energy absorbing elements, or “thermal energy sponges”, fabricated from porous metal. These elements efficiently absorb heat from the propellant gas generated when the firearm is discharged, thus reducing its pressure and the blast noise it creates. The thermal energy absorbing elements are manufactured from porous metal, a material which, due to its high efficiency in absorbing thermal energy, provides a unique solution to designing smaller, lighter, modular, more efficient and less expensive to manufacture firearm suppressors. In addition, as a result of the relationship described in the Darcy-Forchheimer equation, these porous metal elements provide the suppressor with an intrinsic, self-regulating capability, thus allowing the suppressor's use with a variety of different cartridges and different calibers with little to no change to a baseline design.

Abstract: A recoil and blast controller (RBC), which may also be referred to as a muzzle brake, is attached to the muzzle of a firearm providing a mechanism for the specific purposes of controlling and reducing the intensity of the recoil, the muzzle rise, and the muzzle blast that occur when the firearm is discharged. The RBC includes: at least one internally-vented buffer chamber provided in at least one tubular buffer chamber housing; and a tubular depressurization chamber that is externally-vented.

Abstract: A recoil and blast controller (RBC), which may also be referred to as a muzzle brake, is attached to the muzzle of a firearm providing a mechanism for the specific purposes of controlling and reducing the intensity of the recoil, the muzzle rise, and the muzzle blast that occur when the firearm is discharged. The RBC includes: at least one internally-vented buffer chamber provided in at least one tubular buffer chamber housing; and a tubular depressurization chamber that is externally-vented.

Abstract: Presented is a liquid filtering apparatus and method that overcomes the disadvantages encountered with prior bed filtration systems by providing a filtering apparatus that incorporates a super-buoyant filter medium having a specific gravity very substantially lower than that of the process liquid being filtered. This feature enables a majority of the medium to float on top of the process liquid. Due to the significant differences in specific gravity between the media and the process liquid, super-buoyant media produce a highly advantageous means of naturally, gravimetrically separating both clean and contaminated filter media and process liquid into separate “phases”. Under normal filtering operation, the filter media is contained within a filter housing by a bed support near the top of the filter housing, and particulate material is filtered from a process liquid that passes through the housing.

Abstract: Presented is a liquid filtering apparatus and method that overcomes the disadvantages encountered with prior bed filtration systems by providing a filtering apparatus that incorporates a super-buoyant filter medium having a specific gravity very substantially lower than that of the process liquid being filtered. This feature enables a majority of the medium to float on top of the process liquid. Due to the significant differences in specific gravity between the media and the process liquid, super-buoyant media produce a highly advantageous means of naturally, gravimetrically separating both clean and contaminated filter media and process liquid into separate “phases”. Under normal filtering operation, the filter media is contained within a filter housing by a bed support near the top of the filter housing, and particulate material is filtered from a process liquid that passes through the housing.

Abstract: A liquid filtering apparatus which incorporates a filter bed medium having a specific gravity lower than that of the process liquid being filtered. Process liquid is pumped through one or more filter chambers containing the filter bed medium. A discharge line at the top of the housing directs the filtered liquid either back into a process liquid tank or stream, or into a clean liquid storage tank. A small storage tank provides a volume of filtered liquid for use in backwashing the filter bed medium. The particle size and nature of the filter bed medium are determined by the identity and specific gravity of the process liquid to be filtered so that the filter bed is buoyant on the process liquid. As the process liquid is pumped into the filter chamber, the composite filter bed floats to the top of the chamber where it stops rising. The process liquid then passes through the filter bed and the particulates are strained from the liquid by surface filtration and depth filtration.