The hybrid sulfur cycle (HyS) is a two-step water-splitting process intended to be used for hydrogen production. Based on sulfur oxidation and reduction, it is classified as a hybrid thermochemical cycle because it uses an electrochemical (instead of a thermochemical) reaction for one of the two steps. The remaining thermochemical step is shared with the sulfur-iodine cycle.

The Hybrid sulphur cycle (HyS)was initially proposed and developed by Westinghouse Electric Corp. in the 1970s,^[1] so it is also known as the "Westinghouse" cycle. Current development efforts in the United States are being led by the Savannah River National Laboratory.

Process description[edit]

The two reactions in the HyS cycle are as follows:^[2]

1. H₂SO_4(aq) → H₂O_(g) + SO_2(g) + ½ O_2(g) (thermochemical, T > 800 °C)
2. SO_2(aq) + 2 H₂O_(l) → H₂SO_4(aq) + H_2(g) (electrochemical, T = 80-120 °C)

Net reaction: H₂O_(l) → H_2(g) + ½ O_2(g)

Sulfur dioxide acts to depolarize the anode of the electrolyzer. This results in a significant decrease in the reversible cell potential (and, therefore, the electric power requirement) for reaction (2). The standard cell potential for reaction (2) is -0.158 V at 298.15 K, compared to -1.229 V for the electrolysis of water (with oxygen evolution as the anodic reaction).^[3]

See also[edit]

• Cerium(IV) oxide-cerium(III) oxide cycle
• Copper-chlorine cycle
• Iron oxide cycle
• Sulfur-iodine cycle
• Zinc zinc-oxide cycle

References[edit]