The Bunsen reaction is the center reaction for both the sulfur–iodine water splitting cycle for
hydrogen production and the novel hydrogen sulfide splitting cycle for hydrogen and sulfuric …

Sulfur-Iodine thermochemical water splitting cycle coupled is one of the most promising
methods for hydrogen production using a nuclear reactor as the primary energy source …

In order to optimize the sulfur–iodine thermochemical cycle, a series of experiments were
conducted to investigate the separation characteristics of the liquid–liquid phase in the …

Studies on the iodine-sulfur (IS) thermochemical cycle for hydrogen production has been
carried out since about 2005 by the Institute of Nuclear and New Energy Technology …

Process simulations of HI decomposition via reactive distillation in the Sulfur–Iodine (S–I)
cycle have been performed using heat pumps for energy recovery and a recently developed …

To continuously operate an integrated sulfur–iodine (SI) hydrogen production process, the
HI x solution (HI–I 2–H 2 O) could be recycled from the HI decomposition section as a …

The effects of SO2 flow rate, SO2 mole fraction, iodine content and water content on the
Bunsen reaction were experimentally studied for the thermochemical iodine–sulfur cycle for …

This work presents the kinetic and thermodynamic studies of the Bunsen reaction in the
sulfur–iodine thermochemical cycle for hydrogen production by water splitting. A series of …

Bunsen reaction was carried out in a two-compartment membrane electrolysis cell having
Nafion 117 as a separator between the compartments. Platinum and graphite, used as …

In the sulfur–iodine cycle flowsheet, HI may exist in the feeds of Bunsen reaction. The effects
of the initial HI and the operating temperature on the kinetic process and thermodynamic …