Combining LC‐OCD analysis with design‐of‐experiments methods to optimize an advanced oxidation process for the treatment of industrial wastewater

Abstract: Advanced oxidation (AO) is widely used as a pre‐treatment and/or polishing step for the treatment of wastewater from industrial processes and the destruction of particular contaminants in water sources. It has a high treatment efficacy for many different compounds and thus is ideally suited as a treatment technology for specialized facilities that receive shipments of wastewater from networks of industrial, manufacturing, and commercial facilities. The primary challenge is how to optimize the process because b… Show more

“…The factorial designer (FD) as statistical tool for optimizations has been applied to a wide variety of AOPs and micropollutants over the last years [20][21][22][23], aiming at achieving either fast processing times or high mineralization degree. For these processes, the radiation UV promotes the generation of hydroxyl radical % OH that acts as a powerful no-specific oxidant.…”

Rapid mineralization rate of acetylsalicylic acid in a tubular photochemical reactor: The role of the optimized excess of H2O2

“…The factorial designer (FD) as statistical tool for optimizations has been applied to a wide variety of AOPs and micropollutants over the last years [20][21][22][23], aiming at achieving either fast processing times or high mineralization degree. For these processes, the radiation UV promotes the generation of hydroxyl radical % OH that acts as a powerful no-specific oxidant.…”

Rapid mineralization rate of acetylsalicylic acid in a tubular photochemical reactor: The role of the optimized excess of H2O2

“…As a means of tackling harmful waterborne organic molecules, there is significant interest in the use of advanced oxidation processes (AOPs). With these processes, non‐biodegradable and toxic trace contaminating chemicals are oxidized and decomposed by generated hydroxyl radicals, or other oxidizing species such as Fe 2+ and H 2 O 2 …”

“…With these processes, non-biodegradable and toxic trace contaminating chemicals are oxidized and decomposed by generated hydroxyl radicals, [1] or other oxidizing species such as Fe 2þ and H 2 O 2 . [2] Ultraviolet (UV) photocatalytic oxidation is a subset of AOPs. [3] As an electromagnetic wave, light from the UV-Vis region of the spectrum can drive transitions from the valence to the conduction band in semiconductors; when absorbing UV energy, the valence electrons can jump from valence band to the conduction band to form an electric current, and, meanwhile, positive holes are formed on the valence band, which is a necessary condition of photocatalytic reactions.…”

A corrugated plate photocatalytic reactor for degradation of waterborne organic contaminants

Preface of the 66^th Canadian Chemical Engineering Conference: “Sustainability and Prosperity”