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Investigation of an integrated hydrogen production system based on nuclear and renewable energy sources: a new approach for sustainable hydrogen production via copper-chlorine thermochemical cycles
(2011-10)
Hydrogen production via thermochemical water decomposition is a potential process for direct utilization of nuclear thermal energy to increase efficiency and thereby facilitate energy savings. Thermochemical water splitting ...
An exergy-cost-energy-mass analysis of a hybrid copper-chlorine thermochemical cycle for hydrogen production
(2010-05)
An exergoeconomic assessment using exergy-cost-energy-mass (EXCEM) analysis is reported of a copper-chlorine (Cu-Cl) thermochemical water splitting cycle for hydrogen production. The quantitative relation is identified ...
Concentrated photovoltaic thermal (CPVT) solar collector systems: Part I - Fundamentals, design considerations and current technologies
(2015-10)
Concentrated photovoltaic thermal (CPVT) solar collectors have been gaining ever-increasing attention from the scientific community and industrial developers due to their promising potential to pave the way for the penetration ...
Investigation of an integrated hydrogen production system based on nuclear and renewable energy sources: Comparative evaluation of hydrogen production options with a regenerative fuel cell system
(2015-08)
Hydrogen has risen as a sustainable and efficient energy carrier option in reducing environmental pollution, and is seen as a potential solution for the current energy crisis. Hydrogen production via water decomposition ...
Process simulation and analysis of a five-step copper-chlorine thermochemical water decomposition cycle for sustainable hydrogen production
(2014-01)
A process model of a five-step copper–chlorine (Cu–Cl) cycle is developed and simulated with the Aspen Plus simulation code. Energy and mass balances, stream flows and properties, heat exchanger duties, and shaft work are ...
Design and simulation of a UOIT copper-chlorine cycle for hydrogen production
(Wiley, 2013-08)
A design and simulation study of the four-step copper–chlorine (Cu–Cl) cycle using Aspen Plus software (Aspen Technology Inc., Cambridge, MA)is reported. The simulation consists of four main sections: hydrolysis, ...
Approaches for integrated hydrogen production based on nuclear and renewable energy sources: Energy and exergy assessments of nuclear and solar energy sources in the United Arab Emirates
(Elsevier, 2017-01-26)
The United Arab Emirates (UAE) has for a long time been using oil and gas for its electricity production. However, with increasing demand in energy, rises in oil and gas prices and their future possible depletion, the UAE ...
Integrated hydrogen production options based on renewable and nuclear energy sources
(2012-10)
Due to varied global challenges, potential energy solutions are needed to reduce environmental impact and improve sustainability. Many of the renewable energy resources are of limited applicability due to their reliability, ...
Exergy analysis of heat exchangers in the copper-chlorine thermochemical cycle to enhance thermal effectiveness and cycle efficiency
(2011-08)
Most existing nuclear power plants in North America are typically water-cooled and operate at 250–5008C. For this temperature level, the copper–chlorine (Cu–Cl) cycle is one of the most promisingcycles that can be integrated ...
Coupling of copper-chloride hybrid thermochemical water splitting cycle with a desalination plant for hydrogen production from nuclear energy
(2010-02)
Energy and environmental concerns have motivated research on clean energy resources. Nuclear energy has the potential to provide a significant share of energy supply without contributing to environmental emissions and ...