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  • Development of industrial catalysts for sustainable chlorine production.

Development of industrial catalysts for sustainable chlorine production.

Chimia (2012-12-06)
Cecilia Mondelli, Amol P Amrute, Maximilian Moser, Timm Schmidt, Javier Pérez-Ramírez
ABSTRACT

The heterogeneously catalyzed gas-phase oxidation of HCl to Cl(2) offers an energy-efficient and eco- friendly route to recover chlorine from HCl-containing byproduct streams in the chemical industry. This process has attracted renewed interest in the last decade due to an increased chlorine demand and the growing excess of byproduct HCl from chlorination processes. Since its introduction (by Deacon in 1868) and till recent times, the industrialization of this reaction has been hindered by the lack of sufficiently active and durable materials. Recently, RuO(2)-based catalysts with outstanding activity and stability have been designed and they are being implemented for large-scale Cl(2) recycling. Herein, we review the main limiting features of traditional Cu-based catalysts and survey the key steps in the development of the new generation of industrial RuO(2)-based materials. As the expansion of this technology would benefit from cheaper, but comparably robust, alternatives to RuO(2)-based catalysts, a nov el CeO(2)-based catalyst which offers promising perspectives for application in this field has been introduced.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Cerium(IV) oxide, ≥99.0%
Sigma-Aldrich
Cerium(IV) oxide, powder, 99.995% trace metals basis
Sigma-Aldrich
Cerium(IV) oxide, powder, <5 μm, 99.9% trace metals basis
Sigma-Aldrich
Cerium(IV) oxide, nanopowder, <50 nm particle size (BET), 99.95% trace rare earth metals basis
Sigma-Aldrich
Cerium(IV) oxide, dispersion, 20 wt. % colloidal dispersion in 2.5% acetic acid, 30-50 nm avg. part. size
Sigma-Aldrich
Cerium(IV) oxide, dispersion, nanoparticles, <25 nm particle size, 10 wt. % in H2O
Sigma-Aldrich
Cerium(IV) oxide, nanopowder, <25 nm particle size (BET)