Open AccessSolar Hydrogen Production with a Metal Oxide-Based Thermochemical Cycle
Author(s) -
Anthony H. McDaniel
Publication year - 2014
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/1171559
Subject(s) - cost of electricity by source , capital cost , grid , hydrogen production , polymer electrolyte membrane electrolysis , photovoltaic system , base (topology) , hydrogen , electrolysis , environmental science , materials science , electrical engineering , engineering , chemistry , physics , electricity generation , mathematics , electrode , geometry , organic chemistry , mathematical analysis , power (physics) , quantum mechanics , electrolyte
Discover and characterize suitable materials for two• step, non-volatile metal oxide thermochemical cycles. Design and test particle conveying concepts for a novel • reactor/receiver concept. Test construction materials for compatibility between • ceria and reactor components at high temperature and low oxygen partial pressure. Calculate theoretical system efficiency for various • reactor/receiver operating scenarios. H2A technoeconomic analysis of dish-based particle • reactor/receiver concept.
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