Abstract: A solar processing unit (SPU) for the conversion of solar energy to electric power includes a heterostructure of sheets of two (2)-dimensional materials. The heterostructure is utilized to produce a crystalline structure, wherein elemental Boron (B) and elemental Nitrogen (N), contained in sheets of hexagonal Boron Nitride (hBN), are located as bookends to one or more Carbons (C)s, between at least one sheet of Graphene. Each absorbed photon produces Multi-Excitation Generation, wherein more than one electron is generated. The SPU produces a spin motion of the Boron atoms in one direction and the Nitrogen atoms in the opposite direction within hBN by placing an external fixed magnetic field perpendicular to the sheet of hBN and a second orthogonal magnetic field paired to the strength of the fixed magnetic field and tuned to the resonant magnetic frequency of Nitrogen-15 followed by Boron-11, thereby achieving the spin required for enhanced photonic absorption.

Abstract: A system for converting solar energy to electric power and a glass for a layer of solar cells in the system. A solar panel installation comprises a solar panel with at least one solar cell formed with a stack of plural layers of photovoltaic wafer material. Each layer of wafer material has an edge direction from a recipient edge to a back edge, and the solar cell is retained within the solar panel installation with the photovoltaic wafer material disposed with the edge direction aligned with incident solar direction. Reflective material applied to facing surfaces of the photovoltaic wafer material facilitates internal reflection of photons. A glass layer has plural sheets of Graphene layered to form a Graphene Cube constructed to exhibit Multiple Excitation Generation (MEG). A method for assembling the glass fixes a top glass above a bottom glass with photovoltaic wafer material establishing a fixed distance therebetween.

Abstract: A system and method for the synthesis of light-nuclei elements (LNEs), including the battery element Lithium, in high-purity form. The method eliminates the need for high-energy proton collision in Cosmic Rays to produce Nitrogen-15. LNEs are produced by placing a mixture with carbon, nitrogen, and oxygen (CNO) source material in a strong, fixed magnetic field (12), then introducing instability to the CNO's stable isotopes through high-frequency radio waves tuned to the nuclear magnetic resonance (NMR) frequency of a target material in the mixture to produce a LNE product material, and then separating the LNE product material from other materials within the mixture by enhancing gravity separation based on the opposite signs of respective dipole magnetic moments (DMM) to cause attraction of the product material, such as Lithium, to the South magnetic pole away from another product material, such as Beryllium, that is attracted to the North magnetic pole.

Abstract: A Solar Processing Unit (SPU) for the conversion of solar energy to electric power comprising: a heterostructure of sheets of two (2)-dimensional materials; wherein the heterostructure is utilized to produce, in the third (3rd) dimension, a crystalline structure wherein elemental Boron (B) and elemental Nitrogen (N), contained in sheets of hexagonal Boron Nitride (hBN), are located as bookends to one or more Cs, contained in sheet or sheets of Graphene in between; wherein each absorbed photon, or part thereof, produces Multi-Excitation Generation wherein more than one electron is generated; and wherein the SPU produces a spin motion of the Boron atoms, in one rotation, and the Nitrogen atoms, in the opposite rotation, in hBN around its on axis by placing an external fixed magnetic field located perpendicular to the sheet of hBN and a second orthogonal magnetic paired to the strength of the fixed magnetic field and tuned to the resonant magnetic frequency of Nitrogen-15 followed by Boron-11 that combine to

Abstract: An additive has been prepared for blending with gasoline that facilitates a cylinder resident reaction, in high compression internal combustion engines (ICEs), to produce an increase in engine's mechanical energy output. A method of increasing mechanical efficiency of an internal combustion engine (ICE) comprising blending an amount of additive with gasoline to perform hydrolysis of olefin hydrocarbons, represented by octene (C8) into petroleum gas hydrocarbons, represented by butane (C4), wherein the additive facilitates cylinder-resident reaction, aided by a low concentration of organometallic catalyst, to utilize the elements of the water combustion product, to hydrolyze olefin hydrocarbons such as octene, resident in the gasoline, into petroleum gas hydrocarbons such as butane, and to increase the ICE's efficiency of utilization of the energy of the fuel.

Abstract: The invention relates to a method of increasing the American Petroleum Institute (API) gravity of feedstocks by reacting one or more mono-cyclic ether solvents such as oxolane with the asphaltene resident in bitumen or crude oils, at an ambient or elevated temperature, and at ambient or elevated pressure, to increase the API gravity and the economic value of the bitumen or crude oil, and a method for in situ manufacturing a mono-cyclic ether, oxolane, to rejuvenate bitumen or heavy crude oils into their younger lighter crude oils by blending methyl linoleate and methanol in a ratio; heating to produce oxolane; and contacting the oxolane as a solvent with the asphaltene resident in bitumen and heavy crude oils to release not only aromatic compounds, represented by toluene, but also the paraffinic alkanes, represented by n-heptane, making the feedstocks ready for extraction, separation of sand, pipeline transport and refining.

Abstract: A Solar Processing Unit (SPU) for the conversion of solar energy to electric power comprising: a heterostructure of sheets of two (2)-dimensional materials; wherein the heterostructure is utilized to produce, in the third (3rd) dimension, a crystalline structure wherein elemental Boron (B) and elemental Nitrogen (N), contained in sheets of hexagonal Boron Nitride (hBN), are located as bookends to one or more Cs, contained in sheet or sheets of Graphene in between; wherein each absorbed photon, or part thereof, produces Multi-Excitation Generation wherein more than one electron is generated; and wherein the SPU produces a spin motion of the Boron atoms, in one rotation, and the Nitrogen atoms, in the opposite rotation, in hBN around its on axis by placing an external fixed magnetic field located perpendicular to the sheet of hBN and a second orthogonal magnetic paired to the strength of the fixed magnetic field and tuned to the resonant magnetic frequency of Nitrogen-15 followed by Boron-11 that combine to

Abstract: The invention relates to a method of increasing the American Petroleum Institute (API) gravity of feedstocks by reacting one or more mono-cyclic ether solvents such as oxolane with the asphaltene resident in bitumen or crude oils, at an ambient or elevated temperature, and at ambient or elevated pressure, to increase the API gravity and the economic value of the bitumen or crude oil, and a method for in situ manufacturing a mono-cyclic ether, oxolane, to rejuvenate bitumen or heavy crude oils into their younger lighter crude oils by blending methyl linoleate and methanol in a ratio; heating to produce oxolane; and contacting the oxolane as a solvent with the asphaltene resident in bitumen and heavy crude oils to release not only aromatic compounds, represented by toluene, but also the paraffinic alkanes, represented by n-heptane, making the feedstocks ready for extraction, separation of sand, pipeline transport and refining.

Abstract: A method of chemically changing extra-heavy/heavy crude oil into lighter crude oil and incrustation deposits in the down well casing's perforation using a chemical formulation under the following condition: 1) a working solution comprising heavy naphtha mixed with the chemical formulation is added to extra-heavy/heavy crude oil at ambient temperature by circulating through a centrifugal pump until the conversion of the heavy crude oil to lighter crude oil is complete and the crude oil is ready for transportation through pipeline or other means; or 2) thermal energy and equivalent to the normal pressure present, is artificially duplicated, at the down well location of perforations to contact the asphaltene incrustations with the formulation without dilution with naphtha or the energy imparted by a centrifugal pump.

Abstract: A system for converting solar energy to electric power and a glass for a layer of solar cells in the system. A solar panel installation comprises a solar panel with at least one solar cell formed with a stack of plural layers of photovoltaic wafer material. Each layer of wafer material has an edge direction from a recipient edge to a back edge, and the solar cell is retained within the solar panel installation with the photovoltaic wafer material disposed with the edge direction aligned with incident solar direction. Reflective material applied to facing surfaces of the photovoltaic wafer material facilitates internal reflection of photons. A glass layer has plural sheets of Graphene layered to form a Graphene Cube constructed to exhibit Multiple Excitation Generation (MEG). A method for assembling the glass fixes a top glass above a bottom glass with photovoltaic wafer material establishing a fixed distance therebetween.

Abstract: A method of chemically changing extra-heavy/heavy crude oil into lighter crude oil and incrustation deposits in the down well casing's perforation using a chemical formulation under the following condition: 1) a working solution comprising heavy naphtha mixed with the chemical formulation is added to extra-heavy/heavy crude oil at ambient temperature by circulating through a centrifugal pump until the conversion of the heavy crude oil to lighter crude oil is complete and the crude oil is ready for transportation through pipeline or other means; or 2) thermal energy and equivalent to the normal pressure present, is artificially duplicated, at the down well location of perforations to contact the asphaltene incrustations with the formulation without dilution with naphtha or the energy imparted by a centrifugal pump.

Abstract: An additive has been prepared for blending with gasoline that facilitates a cylinder resident reaction, in high compression internal combustion engines (ICEs), to produce an increase in engine's mechanical energy output. A method of increasing mechanical efficiency of an internal combustion engine (ICE) comprising blending an amount of additive with gasoline to perform hydrolysis of olefin hydrocarbons, represented by octene (C8) into petroleum gas hydrocarbons, represented by butane (C4), wherein the additive facilitates cylinder-resident reaction, aided by a low concentration of organometallic catalyst, to utilize the elements of the water combustion product, to hydrolyze olefin hydrocarbons such as octene, resident in the gasoline, into petroleum gas hydrocarbons such as butane, and to increase the ICE's efficiency of utilization of the energy of the fuel.

Abstract: A system and method for the synthesis of light-nuclei elements (LNEs), including the battery element Lithium, in high-purity form. The method eliminates the need for high-energy proton collision in Cosmic Rays to produce Nitrogen-15. LNEs are produced by placing a mixture with carbon, nitrogen, and oxygen (CNO) source material in a strong, fixed magnetic field, then introducing instability to the CNO's stable isotopes through high-frequency radio waves tuned to the nuclear magnetic resonance (NMR) frequency of a target material in the mixture to produce a LNE product material, and then separating the LNE product material from other materials within the mixture by enhancing gravity separation based on the opposite signs of respective dipole magnetic moments (DMM) to cause attraction of the product material, such as Lithium, to the South magnetic pole away from another product material, such as Beryllium, that is attracted to the North magnetic pole.

Abstract: A fuel additive comprising a core polar material blended with a stabilizing and enhancing combustive mixture, which pairing is further combined with a base combustive fuel, to form a synthetic fuel that, in an internal combustion engine, releases and combines combustive and detonative potential energy so as to produce more effective torque on the engine's drive piston than can be obtained from combustion alone. The base combustive fuel's heat energy not used to work the IC engine synergistically powers the fuel additive's solvation and detonative or explosive endothermic reactions.

Abstract: Through staged and monitored control of gas, liquid, and solid source materials, the highly-efficient enzymatic ‘natural factory’ of specific methanotropic bacteria, which evolved dual, alternative, metabolic channels, can be manipulated for human goals. The first stage sets these bacteria to producing liquid methanol by oxidation of methane gas under aerobic conditions (their high-energy channel), which is harvested at the peak. The second stage, by establishing anaerobic conditions and providing supplementary metals, forces the bacteria to use their lower-energy channel for inorganic hydrogen-donor to organic-energy-transport, during which the older and weaker organisms become ‘food’ for newer and (relatively) stronger organisms.

Abstract: A non-ring, non-alkene, nitrated n-alkane base scaffold combined with at least one trioxynitrate provides a differentiated-mean combustive performance in a stabilized and sufficiently polar molecule as to be miscible, and thus serve as a high-energy-density component of a fuel additive that, when mixed with existing fuels at appropriate dilution ratios, will impart equivalent combustive efficiency to that of standardized, petroleum distillate, gasoline and diesel in various blends including aviation fuel and heating oil over the full-temperature-range of use; and a specific embodiment of this non-ring, non-alkene nitrated n-alkane base scaffold is described which, when blended with a petroleum diesel, biodiesel, or combination of B-20 standard biodiesel (80% diesel, 20% biodiesel) wherein the additive comprises less than 5% of the total mix, produces at least a 10% or greater combustive energy density as compared to the base fuel.