GET THE APP

Hybrid Conversion Solar System (HYCSOS): Affordable solar electricity by doubling the power from sunshine
..

Journal of Material Sciences & Engineering

ISSN: 2169-0022

Open Access

Hybrid Conversion Solar System (HYCSOS): Affordable solar electricity by doubling the power from sunshine


4th International Conference and Exhibition on Materials Science & Engineering

September 14-16, 2015 Orlando, USA

Dieter M Gruen

Dimerond Technologies LLC, USA

Keynote: J Material Sci Eng

Abstract :

Solar electricity today is still too expensive by about a factor of two compared to electricity generated by using fossil or nuclear fuels. The Hybrid Conversion Solar System (HYCSOS) is being developed to make solar electricity competitive in the market place by converting sunlight to electricity much more efficiently than has ever been possible before. HYCSOS technology accomplishes this by combining Photo-Voltaic (PV or direct) and thermal (indirect) conversion in a single facility with the combined power output of separate PV and thermal power plants. This approach would lower the cost of solar electricity by about a factor two by strongly reducing plant capital costs. HYCSOS technology disposes a new generation of solar cells in thermal contact with the heat receiving elements of Concentrating Solar Power (CSP) plants. These special solar cells use wide band-gap aligned nanowire cores coated with graphene to operate efficiently at a temperature of 400Ã?Â?C where CSP plants convert heat to electricity. In this way, light is converted to electricity using both PV and thermal conversion simultaneously. The special HYCSOS cells are designed in such a way as to incorporate and to take full advantage of two major recent advances in nanotechnology: the discovery of graphene for which the 2000 Nobel Prize in Physics was awarded and certain astounding, recently explored properties of self-assembled nanowire arrays. The program to construct and test such cells is based on at least two highly favorable considerations: the existence of graphene/wide band-gap semiconductor diodes that show current rectification properties at temperatures as high as 900Ã?Â?C and recent experiments supported by quantum mechanical calculations showing that charge transfer at graphene/wide band-gap semiconductor junctions exceeds electron/ hole recombination rates. Experiment and theory combine therefore strongly to encourage the further development of the HYCSOS concept.

Biography :

Dieter M. Gruen received his Ph.D. in Chemical Physics from the University of Chicago. He has published over 400 peer reviewed papers and holds more than 60 US patents. Dr. Gruen began his scientific career as a member of the Manhattan Project team working at Oak Ridge Tennessee on the separation of Uranium isotopes. He has been the recipient of many honors and distinctions. His 25years of pioneering research in various aspects of nanocarbon physics and chemistry were highlighted by the award of the year 2000 Medal of the Materials Research Society for the discovery, synthesis and characterization of ultrananocrystalline diamond films (UNCD), a new and exceedingly useful form of nanocarbon. Dr. Gruen was an Associate Director of the Materials Science Division at Argonne National Laboratory and is an Argonne Distinguished Fellow, Emeritus. Currently he occupies the position of President of Dimerond Technologies, LLC which is developing the Hybrid Conversion Solar System (HYCSOS) designed to generate affordable solar electricity by doubling the power from sunshine.

Email: dietergruen@comcast.net

Google Scholar citation report
Citations: 3677

Journal of Material Sciences & Engineering received 3677 citations as per Google Scholar report

Journal of Material Sciences & Engineering peer review process verified at publons

Indexed In

 
arrow_upward arrow_upward