Tungsten (W) is a candidate material for plasma-facing materials (PFMs) in the D-T fusion reactors. For PFMs will be exposed to fuel particles and neutrons, these irradiation defects lead to the enhancement of hydrogen isotope retention. Previous reports described K-doped W (W-K) was suppressed the embrittlement of W due to high thermal loads and irradiation defects. However, its hydrogen solubility isn’t fully understood. In this study, for W and W-K with irradiation defects introduced by Fe2+ irradiation, these samples were evaluated for the deuterium retention behavior by D+ irradiation, TDS, and the size of defects by PAS. In W-K, the broad peak was observed in the atomic vacancy region. This suggests many small vacancy clusters were generated along grain boundaries.