The Third Family Hypercharge Model predicts a Z^prime gauge boson with flavour dependent couplings which has been used to explain anomalies in meson decay processes which involve the brightarrow smu ^+mu ^- transition. The model predicts that a TeV-scale Z^prime should decay to particle-antiparticle pairs of muons, taus, top quarks and bottom quarks with appreciable branching ratios. We reinterpret various ATLAS and CMS search limits for Z^prime production followed by such decays at the LHC over a parameter space of the model that results from a successful combined fit to the brightarrow s l^+ l^- data and precision electroweak observables. Current exclusions in parameter space and expected sensitivities of the various different channels in the high-luminosity run are compared. We find that the high-luminosity run of the LHC will significantly increase the sensitivity to the model beyond the existing empirical limits, which we find to be surprisingly weak.