Abstract: The present invention generally relates to devices, systems, and methods for detecting and measuring the radiant power and emissivity of nonthermal far infrared radiation (FIR) in 3-16 ?m wavelength spectrum from the surface of a FIR-photons emitting object and, more specifically, in 8-14 ?m wavelength range.

Abstract: This invention relates to a ceramic composite that may be used for various purposes including for assembly into a therapeutic device for treating a human or animal body with irradiation of nonthermal far infrared (FIR) radiation. More specifically, while all FIR-related prior art is only radiating broadband blackbody thermal radiation, said ceramic composite can emit not only the usual blackbody thermal radiation but also the inventive nonthermal FIR-photon radiation in the 3 - 16 µm wavelength spectrum. As a result, the overall measurable radiation in 8 - 14 µm wavelength range from said ceramic composite has an approximated blackbody temperature that is at least 1° C. higher than the actual temperature of said ceramic composite, signifying an effective emissivity greater than 1.0, while 1.0 emissivity is a theoretical limit assigned to an ideal black body and thus unsurpassable.

Abstract: This invention relates to a therapeutic device for treating a human or animal body, comprising an array of infrared-emitting elements disposed on or within a flexible substrate and attached to the body part to be treated using an attachment means, said array comprising a first plurality of infrared-emitting ceramic elements having a specific spectral luminance covering at least a part of the 3-7 micrometer wavelength spectrum and having a peak wavelength between 3 and 7 micrometers, and a second plurality of infrared-emitting ceramic elements having a specific spectral luminance covering at least a part of the 7-14 micrometer wavelength spectrum and having a peak wavelength between 7 and 14, that provides an effective means to healing the body.

Abstract: This invention relates to a ceramic module for assembly into a therapeutic device for treating a human or animal body with irradiation of far infrared. More specifically, said ceramic module can simultaneously emit blackbody-like thermal radiation and stimulated FIR-photons radiation in 3-16 ?m wavelength spectrum, while the overall radiation in 8-14 ?m wavelength range is measured to be an approximated blackbody radiation at a temperature that is at least 1 °K. (or 1 °C.) higher than the actual body temperature of said ceramic module, signifying an effective emissivity greater than 1.0. Said ceramic module may be used alone or serve as components of a therapeutic device for increasing physiologic performance, immune competence, health, and mean lifespan of human or animal.

Abstract: This invention relates to a ceramic module for assembly into a therapeutic device for treating a human or animal body with irradiation of far infrared radiation and low dose ionizing radiation based on radiation hormesis effect. More specifically, the invention relates to a ceramic module that simultaneously emits far infrared radiation within 3-16 ?m wavelength spectrum and ionizing radiation at a specific dose rate in the range of 0.1-11 ?Sv/h (micro-Sieverts per hour). Said ceramic module may be used alone or serve as components of a therapeutic device for increasing physiologic performance, immune competence, health, and mean lifespan of human or animal.

Abstract: This invention relates to a therapeutic device for treating a human or animal body, comprising an array of infrared-emitting elements disposed on or within a flexible substrate and attached to the body part to be treated using an attachment means, said array comprising a first plurality of infrared-emitting ceramic elements having a specific spectral luminance covering at least a part of the 3-7 micrometer wavelength spectrum and having a peak wavelength between 3 and 7 micrometers, and a second plurality of infrared-emitting ceramic elements having a specific spectral luminance covering at least a part of the 7-14 micrometer wavelength spectrum and having a peak wavelength between 7 and 14, that provides an effective means to healing the body.

Abstract: This invention relates to a therapeutic device for treating a human or animal body, comprising an array of infrared-emitting elements in an attachment means for attaching to the body part to be treated, said infrared-emitting elements being in the form of sintered ceramic plates and made from a mixture of infrared-emitting oxides having specific spectral luminance covering at least a part of the 3-7 micrometer wavelength spectrum and having a peak wavelength between 3 and 7 micrometers, that provides an effective means to healing the body. A locally administrable heating means may be used for escalated healing effects.

Abstract: This invention relates to a therapeutic device for treating a human or animal body, comprising an array of infrared-emitting elements in an attachment means for attaching to the body part to be treated, said infrared-emitting elements being in the form of sintered ceramic plates and made from a mixture of infrared-emitting oxides having specific spectral luminance covering at least a part of the 3-7 micrometer wavelength spectrum and having a peak wavelength between 3 and 7 micrometers, that provides an effective means to healing the body. A locally administrable heating means may be used for escalated healing effects.

Abstract: This invention relates to a ceramic composite that comprises of a mixture of infrared-emitting metal oxides having specific spectral luminance in 3-20 ?m (micrometers) wavelength range and an effective amount of pyroelectric material that helps enhance infrared emissions of said oxides in said wavelength range. Said ceramic composite can be deviced to provide an effective means of improving hydrocarbon fuel efficiency in internal combustion engines for better engine performance with increased torque and power, improved fuel economy, and reduced exhaust emissions. Such ceramic composites can also be used in other applications that utilize infrared emissions in said wavelength range.

Abstract: This invention relates to a system and a method for generating emulsified fuels for improved fuel efficiency of combustion devices with reduced specific fuel consumption rate and emissions, comprising at least a continuous phase fuel, a dispersed phase component, and an infrared radiation source whose infrared radiation spans at least a portion of 3-16 micrometers wavelength spectrum. In said system the continuous phase fuel and/or dispersed phase component are exposed to said infrared before or during emulsification. The continuous phase fuel may be selected from fossil fuels, biofuels, alcohol fuels, vegetable oils, or any combustible liquid fuels, while the dispersed phase component may be oxygen, hydrogen, nitrogen, carbon monoxide, methane, propane, butane, any petroleum gas, hydrogen peroxide, or water. The emulsified fuels can be used in combustion devices such as internal combustion engines, boilers, burners, or gas turbines.

Abstract: This invention relates to a system and a method for generating emulsified fuels for improved fuel efficiency of combustion devices with reduced specific fuel consumption rate and emissions, comprising at least a continuous phase fuel, a dispersed phase component, and an infrared radiation source whose infrared radiation spans at least a portion of 3-16 micrometers wavelength spectrum. In said system the continuous phase fuel and/or dispersed phase component are exposed to said infrared before or during emulsification. The continuous phase fuel may be selected from fossil fuels, biofuels, alcohol fuels, vegetable oils, or any combustible liquid fuels, while the dispersed phase component may be oxygen, hydrogen, nitrogen, carbon monoxide, methane, propane, butane, any petroleum gas, hydrogen peroxide, or water. The emulsified fuels can be used in combustion devices such as internal combustion engines, boilers, burners, or gas turbines.

Abstract: This invention relates to a system and a method for achieving efficient production of hydrogen in a hydrogen generator, comprising at least a hydrogen generator, a liquid in said hydrogen generator to produce hydrogen from, and a ceramic that emits infrared at wavelengths covering at least a portion of 3-20 micrometers range so that said liquid can be excited with infrared at said wavelengths before or during the production of hydrogen for improved hydrogen production efficiency. The use of infrared-excited electrolyte solution in a hydrogen generator helps reduce the energy consumption, lower operating voltage, and thus reduce the cost of the production of hydrogen.

Abstract: This invention relates to a ceramic composite that comprises of a mixture of infrared-emitting metal oxides having specific spectral luminance in 3-20 ?m (micrometers) wavelength range and an effective amount of pyroelectric material that helps enhance infrared emissions of said oxides in said wavelength range. Said ceramic composite can be deviced to provide an effective means of improving hydrocarbon fuel efficiency in internal combustion engines for better engine performance with increased torque and power, improved fuel economy, and reduced exhaust emissions. Such ceramic composites can also be used in other applications that utilize infrared emissions in said wavelength range.

Abstract: This invention relates to a ceramic composite that comprises of a mixture of infrared-emitting metal oxides having specific spectral luminance in 3-20 ?m (micrometers) wavelength range and an effective amount of pyroelectric material that helps enhance infrared emissions of said oxides in said wavelength range. Said ceramic composite can be deviced to provide an effective means of improving hydrocarbon fuel efficiency in internal combustion engines for better engine performance with increased torque and power, improved fuel economy, and reduced exhaust emissions. Such ceramic composites can also be used in other applications that utilize infrared emissions in said wavelength range.

Abstract: This invention relates to a system and a method for achieving efficient combustion of hydrocarbon fuels in internal combustion engines to enhance the engine performance with reduced fuel consumption and emissions, comprising at least an infrared radiation source emitting infrared at wavelengths covering at least a portion of 3-20 micrometers wavelength range for exciting the hydrocarbon fuel and a hydrogen source providing hydrogen gas to be burned along with the infrared-excited hydrocarbon fuel in engine cylinder. The hydrocarbon fuel can be any of hydrocarbon-based fuels, including methane, propane, gasoline, ethanol, diesels, biodiesels, and renewable fuels, that are used to power internal combustion engines. The expectation is to provide an effective means of improving hydrocarbon fuel efficiency in engines for better engine performance with increased torque and power, improved fuel economy, and reduced exhaust emissions.

Abstract: This invention relates to a therapeutic device for treating human or animal body, comprising an array of infrared-emitting elements in an attachment means that follows the contour of the body part to be treated, said infrared-emitting element being an infrared-emitting ceramic plate made of a mixture of infrared-emitting oxides having specific spectral luminance covering at least a part of 3-20 um (micrometer) wavelength spectrum, that provides an effective means to healing the body. A locally administrable heating means may be used for escalated healing effects.

Abstract: This invention relates to a system and a method for generating emulsified fuels for improved fuel efficiency of combustion devices with reduced specific fuel consumption rate and emissions, comprising at least a continuous phase fuel, a dispersed phase component, and an infrared radiation source whose infrared radiation spans at least a portion of 3-16 micrometers wavelength spectrum. In said system the continuous phase fuel and/or dispersed phase component are exposed to said infrared before or during emulsification. The continuous phase fuel may be selected from fossil fuels, biofuels, alcohol fuels, vegetable oils, or any combustible liquid fuels, while the dispersed phase component may be oxygen, hydrogen, nitrogen, carbon monoxide, methane, propane, butane, any petroleum gas, hydrogen peroxide, or water. The emulsified fuels can be used in combustion devices such as internal combustion engines, boilers, burners, or gas turbines.

Abstract: This invention relates to a system and a method for achieving efficient production of hydrogen in a hydrogen generator, comprising at least a hydrogen generator, a liquid in said hydrogen generator to produce hydrogen from, and a ceramic that emits infrared at wavelengths covering at least a portion of 3-20 micrometers range so that said liquid can be excited with infrared at said wavelengths before or during the production of hydrogen for improved hydrogen production efficiency. The use of infrared-excited electrolyte solution in a hydrogen generator helps reduce the energy consumption, lower operating voltage, and thus reduce the cost of the production of hydrogen.

Abstract: This invention relates to a system and a method for achieving efficient combustion of hydrocarbon fuels in internal combustion engines to enhance the engine performance with reduced fuel consumption and emissions, comprising at least an infrared radiation source emitting infrared at wavelengths covering at least a portion of 3-20 micrometers wavelength range for exciting the hydrocarbon fuel and a hydrogen source providing hydrogen gas to be burned along with the infrared-excited hydrocarbon fuel in engine cylinder. The hydrocarbon fuel can be any of hydrocarbon-based fuels, including methane, propane, gasoline, ethanol, diesels, biodiesels, and renewable fuels, that are used to power internal combustion engines. The expectation is to provide an effective means of improving hydrocarbon fuel efficiency in engines for better engine performance with increased torque and power, improved fuel economy, and reduced exhaust emissions.

Abstract: This invention relates to a ceramic composite that comprises of a mixture of infrared-emitting metal oxides having specific spectral luminance in 3-20 ?m (micrometers) wavelength range and an effective amount of pyroelectric material that helps enhance infrared emissions of said oxides in said wavelength range. Said ceramic composite can be deviced to provide an effective means of improving hydrocarbon fuel efficiency in internal combustion engines for better engine performance with increased torque and power, improved fuel economy, and reduced exhaust emissions. Such ceramic composites can also be used in other applications that utilize infrared emissions in said wavelength range.