In this study, the development of gravity type collecting device for nuclear dismantling through CFD simulation is shown as follows. As a result of investigating the dust removal efficiency according to the treatment air velocity of 5 m/s (low speed) ～ 30 m/s (high speed), large dusts (80 ～ 100 ㎛) As the wind speed increases, the damping efficiency decreases and the particle size of the dust behavior increases with the increase of the wind speed. As a result, the wind speed (wind speed) 5 m/s is considered to be suitable for improving the vibration damping efficiency.

The study on physical properties of PHC pile and pile filler using blast furnace slag were evaluated. In the results, it was found that compressive strength and workability of PHC pile concrete with 20% of blast furnace slag adjusted S/a 27% were satisfied with desired properties and it was available to improve flow and compressive strength of file filler with 35% of blast furnace slag and TG as additive.