Sammendrag
This work presents a continuous reactor designed to be
produced by 3D printing with the ultimate objective of performing fast,
exothermic, and corrosive reactions. The dilution of sulfuric acid with water
was used as a model for reactor design. A good mixing inside the reactor will
promote the dilution and at the same time increase the heat transfer. Fast heat
transfer is important to avoid vaporization of reactants/products and to
control corrosion inside the reactor. The reactor was designed using a genetic
algorithm to maximize the surface area of a prespecified reactor volume while
ensuring a good mixing of the reactants. We have experimentally demonstrated
that dilution of sulfuric acid can be done continuously in a Hartridge−
Roughton mixer with lattices for enhanced heat transfer. Selected designs with
internal and external lattices for enhanced heat exchange were manufactured
by 3D printing using the Ti64 alloy. Different printing services were used to
compare the quality of reactors that can be achieved by new industrial players that do not possess a 3D printer. One important item
that should be considered when 3D printing is used for corrosive reactions is cross-contamination with other metals, since that can
significantly affect the life and safety conditions of the reactors.
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