Commercial Advantages
Upcycles a common waste product
More efficient Cl2 workup compared to current HCl conversion technologies
Low energy consumption
Applications
Large-scale industrial chemistry
Hydrogen chloride (HCl) is a waste product in several industrial processes at massive scale, such as in the preparation of isocyanates which are crucial to many industries. One way to repurpose HCl waste is to upcycle it into chlorine (Cl2), a valuable starting material used in industrial chemistry. Current methods of converting HCl to Cl2 include the Deacon process, an equilibrium reaction that consists of the aerobic oxidation of HCl to Cl2 and water. A disadvantage to all single-stage Deacon Process concepts is the expensive workup (i.e. separation of Cl2 from other products in the equilibrium mixture). A more efficient continuous process involves molten salt-based chemical looping with three interconnected reactors containing reactive salts.
Researchers at the University of California, Santa Barbara have realized continuous production of Cl2 from HCl with a three-reactor molten salt chemical looping system. This three-stage process consists of (I) the oxidation of CuCl, (II) the chlorination of Cu2OCl2, and (III) thermal decomposition of CuCl2. The most essential component of this technology is the reactor system comprising three inter-connected bubble lift columns that are placed in a sand bath to provide uniform heating. The system’s relatively-low KCl concentration allows for a high space-time yield, as well as relatively low temperature differences between the reactors. Additionally, this technology can be operated with notably low energy consumption. The Cl2 produced can be used to manufacture other commercially valuable products and simultaneously curtail the emissions of waste HCl.
Upcycles a common waste product
More efficient Cl2 workup compared to current HCl conversion technologies
Low energy consumption
Large-scale industrial chemistry