This paper reviews the technologies and opportunities for process intensification (PI) in
nuclear effluent treatment. PI is an area that has already created many innovations within the …

Digitalisation and industry 4.0 are set to profoundly change the way chemical and materials
discovery and development work. The integration of multiple enabling technologies such as …

The continuous oscillatory baffled reactor (OBR) is a particular type of tubular reactor, which
has drawn increasing attention over the past few decades due to the benefits it provides in …

Sulfur compounds are major contaminants in diesel fuels and cause significant negative
impacts on the environment, human health, and petroleum product quality. Oxidative …

Plug flow characteristics are advantageous in various manufacturing processes for fine/bulk
chemicals, pharmaceuticals, biofuels, and waste treatment as they contribute to maximising …

Additive manufacturing has enabled the fabrication of advanced reactor geometries,
permitting larger, more complex design spaces. Identifying promising configurations within …

Optimizing complex reactor geometries is vital to promote enhanced efficiency. We present a
framework to solve this nonlinear, computationally expensive, and derivative-free problem …

Additive manufacturing enables the fabrication of geometries previously unavailable via
conventional means. Here, a helically coiled channel containing a secondary helical coil …

New manufacturing techniques such as 3D printing have recently enabled the creation of
previously infeasible chemical reactor designs. Optimizing the geometry of the next …

A helical oscillatory flow reactor with orifice baffles (HOBR) is proposed for use in slow
biochemical and pharmaceutical processes. The new reactor geometry with 10 mm diameter …