in experiment has been challenging. Here we propose an experimental scheme for the digital simulation of parafermions and their non-Abelian braiding in superconducting circuits by realizing the ℤd plaquette model on a two-dimensional lattice. Two protocols using quantum circuits and non-destructive measurements are introduced to prepare the ground state, on which the parafermion pairs are created by engineering dislocations. We further develop a generalized code deformation approach to realize the fusion and non-Abelian braiding statistics of parafermion modes, in which the concrete example for d=3 parafermions is studied in detail. We also examine the real parameter regime to confirm the feasibility in superconducting devices. This work extends previous methods for twist defects in superconducting qubits to qudit systems, and may open up a way for parafermion-based high-dimensional topological quantum computing with experimental feasibility.