Review and evaluation of clean hydrogen production by the copper–chlorine thermochemical cycle
This paper focuses on the various development areas of the copper-chlorine (Cu–Cl) cycle
for hydrogen production which have been actively advanced over the past decade. Recent …
for hydrogen production which have been actively advanced over the past decade. Recent …
Review of low temperature water splitting cycles for thermochemical hydrogen production
Given its promising potential to displace fossil fuels and function as an effective energy
carrier for storage applications, hydrogen has recently become a leading contender as a …
carrier for storage applications, hydrogen has recently become a leading contender as a …
A comparative assessment of thermodynamic and exergoeconomic performances of three thermochemical water-splitting cycles of chlorine family for hydrogen …
Hydrogen production processes utilizing hydrocarbon-based sources as feedstocks have
severe environmental implications (when not incorporating carbon capturing and storage …
severe environmental implications (when not incorporating carbon capturing and storage …
A comparative exergoenvironmental evaluation of chlorine-based thermochemical processes for hydrogen production
Environmental impact assessment of energy generation processes is essential to evaluate
their contributions toward the global carbon footprint. Even though hydrogen is a non …
their contributions toward the global carbon footprint. Even though hydrogen is a non …
Process integration of hydrolysis and hydrogen generation processes in the six-step Cu-Cl cycle for green hydrogen production
RS Kadam, GD Yadav - International Journal of Hydrogen Energy, 2024 - Elsevier
The ICT-OEC six-step Cu-Cl cycle dissociates water thermochemically to produce hydrogen
and oxygen. In the Cu-Cl cycle integrating the hydrolysis and hydrogen processes poses a …
and oxygen. In the Cu-Cl cycle integrating the hydrolysis and hydrogen processes poses a …
Metal Chloride‐Induced Hydrogen Transfer Enables Efficient Conversion of Aromatic Hydrocarbons for Sodium Storage
The cost‐effective synthesis of high‐performance hard carbons (HCs) is a key step of
sodium‐ion batteries toward practical applications. Considering the rich resource of low …
sodium‐ion batteries toward practical applications. Considering the rich resource of low …
Exergoenvironmental analysis of the integrated copper-chlorine cycle for hydrogen production
Thermochemical water-splitting cycles have the potential of producing large-scale and cost-
effective sustainable hydrogen in an environmentally benign manner. Limited …
effective sustainable hydrogen in an environmentally benign manner. Limited …
A novel clean hydrogen production system combining cascading solar spectral radiation and copper-chlorine cycle: Modeling and analysis
B Zhang, S Shan, Z Zhou - Journal of Cleaner Production, 2022 - Elsevier
In this work, a novel integrated hydrogen production system was proposed. A detailed
analysis of the efficiency limit, energy requirement, and parametric impact was theoretically …
analysis of the efficiency limit, energy requirement, and parametric impact was theoretically …
Continuous CuCl2 Hydrolysis in the Six-Step Cu–Cl Thermochemical Cycle for Green Hydrogen Production
Thermochemical production of green hydrogen by using a closed loop Cu–Cl cycle has
been established by us and is patented. This article outlines a noncatalytic reaction of cupric …
been established by us and is patented. This article outlines a noncatalytic reaction of cupric …
A specific exergy costing assessment of the integrated copper-chlorine cycle for hydrogen production
In this study the specific exergy costing (SPECO) approach is employed on a four-step
integrated thermochemical copper-chlorine (Cu Cl) cycle for hydrogen production for a …
integrated thermochemical copper-chlorine (Cu Cl) cycle for hydrogen production for a …