Dust solidification system and dust solidification method

1 . A dust solidification system for solidifying dust containing a fume and a solidification-inhibiting substance that has a greater mass and size than the fume, the dust solidification system comprising: a preduster for sucking dust with a negative pressure generated by a negative pressure generating source, removing the solidification-inhibiting substance from the sucked dust, and making the dust with a reduced solidification-inhibiting substance content rate flow toward the negative pressure generating source; a dust capturing mechanism for capturing the dust flowing from the preduster due to the negative pressure and allowing the dust to fall; a storage tank for storing the dust captured by and falling from the dust capturing mechanism; and a dust solidifying mechanism for solidifying the dust in a forming chamber; and further comprising one or more of the following: a dust re-scattering prevention mechanism for preventing re-scattering of the dust falling from the dust capturing mechanism; a stirring mechanism for stirring the dust loaded into the dust solidifying mechanism; and an air releasing mechanism for preventing air from entering the forming chamber by releasing air flowing into the storage tank from the dust solidifying mechanism due to the negative pressure. 2 . The dust solidification system of claim 1 , wherein the dust re-scattering prevention mechanism comprises a plurality of re-scattering prevention units disposed adjacently in a direction traversing a direction in which the dust from the dust capturing mechanism falls, wherein each of the plurality of re-scattering prevention units comprises a pair of plate bodies joined to form an inverted V-shape in a side view, a ridge line portion, formed by the joining of the pair of plate bodies, is disposed facing the dust capturing mechanism above, and a slit is provided in a portion along a lower edge of the plate bodies to allow the dust to pass through downward. 3 . The dust solidification system of claim 2 , wherein the dust re-scattering prevention mechanism further comprises an inclined side wall outside the plate bodies included in an outermost located re-scattering prevention unit among the plurality of re-scattering prevention units, and the slit is provided between lower edges of the plate bodies included in the re-scattering prevention units that are adjacent to one another and between the outermost located re-scattering prevention unit and the inclined side wall. 4 . The dust solidification system of claim 3 , wherein the dust re-scattering prevention mechanism comprises: an upper re-scattering prevention unit group and a lower re-scattering prevention unit group, formed by the plurality of re-scattering prevention units, and the ridge line portion of each re-scattering prevention unit in the lower re-scattering prevention unit group is, in a plan view, disposed in the slit formed in the upper re-scattering prevention unit group. 5 . A dust solidification method for solidifying dust containing a fume and a solidification-inhibiting substance that has a greater mass and size than the fume, the dust solidification method comprising: sucking dust with a negative pressure generated by a negative pressure generating source, removing the solidification-inhibiting substance from the sucked dust, and making the dust with a reduced solidification-inhibiting substance content rate flow toward the negative pressure generating source; capturing the dust flowing due to the negative pressure and allowing the dust to fall; storing the captured and falling dust in a storage tank; and solidifying the dust by a dust solidifying mechanism in a forming chamber; and further comprising one or more of the following: preventing re-scattering of the falling dust by a dust re-scattering prevention mechanism; stirring the dust loaded into the dust solidifying mechanism; and releasing air flowing into the storage tank from the dust solidifying mechanism due to the negative pressure.