The invention relates to a device for reducing pollutant gas emissions by means of catalyst management in the combustion process, characterised in that it comprises: a hollow cylindrical body with a fuel inlet hole in one side of said cylindrical body and a fuel outlet hole in the other side of said cylindrical body; a perforated cylindrical separator inside said body; and a sheet formed by at least one magnetic element and which is situated between the perforated separator and the inner wall of the hollow cylindrical body, such that when the fuel flows inside the device, part of the components of the hydrocarbon magnetise.

A combustion engine electromagnetic energy disruptor includes shaped disruptor carried in an enclosure, and configured to disrupt, distort, and/or agitate electromagnetic energy proximate a combustion engine and fuel system. The disruptor incorporates electromagnetically responsive constituents dispersed in a substantially water-free resin hardened above about Shore D 60 into a predetermined volume and density. The resin and constituents are combined to have a mass ratio of about 50% resin and 50% powdered constituents. A permittivity of the enclosure does not exceed about 3.5, and of the resin and constituents in combination substantially exceeds about 3.5. The resin includes a urethane resin that is mixed prior to curing into a substantially homogenous dispersion with the constituents. The constituents include one or more of piezoelectric, diamagnetic, paramagnetic, ferrimagnetic, and ferromagnetic materials. Such materials include one or more of powdered quartz, black tourmaline, magnetite, iron, iron oxide, zinc oxide, copper oxide, aluminum, and graphite.

The present invention provides an apparatus for preheating fuel and cooling liquid in an internal combustion engine system. The fuel preheating apparatus comprising a generally rectangular shape fluid-tight container body with a hollow interior. A top wall of the apparatus being provided with a fuel inlet, a fuel outlet, a coolant inlet, and a coolant outlet. A fuel coiled tubing is provided within the hollow interior and has a first end and a second end where the first end is coupled to the fuel inlet. A coolant coiled tubing is adjacent the fuel coiled tubing and have a first end and a second end where the first end is coupled to the coolant inlet. A degassing tank is coupled to the fuel outlet and the fuel coiled tubing. A buffer tank is coupled to the coolant outlet and the coolant coiled tubing.

Engines, systems, devices, software, and methods of the present invention provide increased fuel efficiency and emission performance. The engine may include a magnesium alloy cast engine block cast as a mono-block with or without a ceramic inner core and including one or more cylinders designed to provide compression ratio of 10:1 to 14:1. Each cylinder may include one or more laser igniters, one or more supercritical fuel injectors configured to inject the fuel near or in a supercritical state, and carbon dioxide, which may be in the form of engine exhaust gas. The fuel may be diesel, gasoline, or other suitable hydrocarbons that may be cracked into smaller molecules prior to be injected into the cylinder.

Disclosed is a permanent magnetic device for enhancing burning of combustion material particles, comprising: a barrel-shape permanent magnetic device, and that includes a near barrel magnet, a distant barrel magnet adjacent to each other, and a first hollow cylinder space formed in a center of the near barrel magnet and the distant barrel magnet respectively, for a combustion material supply pipe to pass through; the near barrel magnet is provided with a near N pole and a near S pole, the near N pole is adjacent to a combustion device, the distant barrel magnetic is provided with a distant N pole and a distant S pole, the distant N pole is adjacent to the near S pole; and first magnetic field lines are formed by the barrel-shape permanent magnetic device.

The present invention refers to a system, a method and a device to optimize the efficiency of the combustion of gases for the production of clean energy comprising a magnetic nucleus (30) and inlet and outlet ducts (41a, 42a), the inlet and outlet ducts (41a, 42a) being configured to receive gases, the gases alternately establishing flows between the inlet ducts (41a) and the outlet ducts (42a) and vice-versa, the magnetic nucleus (30) being configured to generate and to expose the gases within the inlet and outlet ducts (41a, 42a) to magnetic fields (35), the alternation of flows between the inlet and outlet ducts (41a, 42a) and the exposure to magnetic fields (35) promoting acceleration of the hydrogen atoms and ions of oxygen and argon, promoting the reduction of the radii of the orbits of the electrons of the hydrogen around their nuclei and provoking the release of potential energy of the electrons and corresponding increase of the kinetic energy of the nuclei of the gas molecules, in such a way to optimize (increase) the heating power of the gases (201, 202).

Engines, systems, devices, software, and methods of the present invention provide increased fuel efficiency and emission performance. The engine may include a magnesium alloy cast engine block cast as a mono-block with or without a ceramic inner core and including one or more cylinders designed to provide compression ratio of 10:1 to 14:1. Each cylinder may include one or more laser igniters, one or more supercritical fuel injectors configured to inject the fuel near or in a supercritical state, and carbon dioxide, which may be in the form of engine exhaust gas. The fuel may be diesel, gasoline, or other suitable hydrocarbons that may be cracked into smaller molecules prior to be injected into the cylinder.

The present invention relates, inter alia, to a process for enriching a hydrocarbon fuel for use in an internal combustion engine, the process comprising: (i) contacting a hydrocarbon fuel with a gas stream containing hydrogen gas such that at least some of the hydrogen gas is introduced into the hydrocarbon fuel to produce an enriched hydrocarbon fuel; and optionally (ii) delivering the enriched hydrocarbon fuel to an internal combustion engine. The present invention further provides a device for use in the process.

Aspects of the invention are directed to systems and apparatuses for efficiently burning fuels. According to one aspect of the invention, apparatus for efficiently burning hydrocarbons includes a housing having a first opening for receiving a fuel, a second opening for expelling the fuel, and a tubular passageway extending between the first opening and the second opening. The tubular passageway includes a central region and an outer region surrounding the central region. The apparatus also includes a plurality of magnets disposed within the passageway. Each of the magnets has a spherical or an ovoid shape. The plurality of magnets define void spaces for passing the fuel such that a central flow rate of the fuel in the central region of the passageway is equivalent to the an outer flow rate of the fuel in an outer region of the passageway.

A fuel atomizer (100) has a conduit (105) for passage of fuel (101) and an object (113) in the conduit (105) which creates continual and repetitive turbulence in the fuel (101). The turbulent fuel exits the conduit (105) via a nozzle (111) into a spray of fine mist (103). The object (113) is a movable magnet (601) which is repelled by another magnet (701) at the outlet (109) of the conduit (105). The flow of fuel (101) carries the movable magnet (601) towards the outlet (109) of the conduit (105) while the other magnet (701) repels the movable magnet (601) backwards. So the movable magnet (601) moves repetitively.