Abstract: Exact application of the well-known laws of non-relativistic quantum mechanics to the structures and properties of matter leads to equations that are generally too complicated to be soluble. Provided herein are practical methods to overcome these complications in making quantitatively accurate first-principles quantum-mechanical predictions of the structures and properties of forms of matter which are important in a broad range of scientific and technological disciplines.

Abstract: Disclosed are apparatus and methods used to preheat a working fluid for a subsequent solar-driven dissociation reaction. The working fluid is first passed through a blackbody receiver where it absorbs thermal energy, and is subsequently exposed to direct solar radiation. The present invention allows the working fluid to absorb relatively large amounts of solar energy at elevated temperatures, while the blackbody absorber remains at a relatively low temperature, thus minimizing energy losses through reradiation and enhancing the efficiency of the overall energy exchange. Also disclosed is a non-driven-flow fluid absorption receiver for preferred use with a Stirling engine incorporating absorption of infrared radiation.

Abstract: Disclosed are an apparatus and method used to preheat a working fluid for a subsequent solar-driven dissociation reaction. The working fluid is first passed through a blackbody receiver where it absorbs thermal energy, and is subsequently exposed to direct solar radiation. The present invention allows the working fluid to absorb relatively large amounts of solar energy at elevated temperatures, while the blackbody absorber remains at a relatively low temperature, thus minimizing energy losses through reradiation and enhancing the efficiency of the overall energy exchange.

Abstract: Disclosed are an apparatus and method used to preheat a working fluid for a subsequent solar-driven dissociation reaction. The working fluid is first passed through a blackbody receiver where it absorbs thermal energy, and is subsequently exposed to direct solar radiation. The present invention allows the working fluid to absorb relatively large amounts of solar energy a elevated temperatures, while the blackbody absorber remains at a relatively low temperature, thus minimizing energy losses through reradiation and enhancing the efficiency of the overall energy exchange.

Abstract: A receiver is described for a solar dynamic power generator. The generator has a heat cycle engine to generate power. The receiver has a working fluid including a radiant eneryg absorber selected from halogens and interhalogens. The receiver also has a hollow, cylindrical containment for containing the working fluid having a first end, a second end and an inner wall. A hollow, cylindrical member, is disposed within the containment. The cylindrical member has an inner wall an and outer wall, and defines a toroidal working fluid flow space within the containment and a receiving space within the inner wall of the cylindrical member. A window is disposed in the first end of the containment for admitting solar radiation in the receiving space and heating working fluid contained in the receiving space. The heated working fluid in the receiving space travels toward the first end of the containment.