Entrainment-reducing assembly, system including the assembly, and method of reducing entrainment of gases with the assembly

The invention claimed is: 1. A reactor system, comprising: a first container defining a drywell therein; a second container defining a wetwell therein, the second container including an upper portion and a lower portion; a venting arrangement connecting the drywell to the wetwell, the venting arrangement including a proximal end extending into the drywell and a distal end extending into the upper portion of the wetwell; a suction structure extending into the lower portion of the wetwell; and a deflector disposed between the suction structure and the distal end of the venting arrangement within the second container, the deflector having a furrowed or concave side with perforations extending therethrough, the perforations being angled inward toward a furrow or concavity defined by the furrowed or concave side. 2. The reactor system of claim 1 , wherein the second container is in a form of a torus. 3. The reactor system of claim 1 , wherein the venting arrangement includes a vent pipe, a header connected to the vent pipe, and a downcomer connected to the header, the header and the downcomer being within the wetwell, the deflector being between the downcomer and the suction structure. 4. The reactor system of claim 1 , wherein the deflector is secured to the second container such that the deflector does not directly contact the suction structure. 5. A method of reducing entrainment, comprising: discharging gases from a first container to a second container using a venting arrangement such that the gases are discharged into a liquid, the first container defining a drywell therein, the second container defining a wetwell therein, the second container including an upper portion and a lower portion, the venting arrangement connecting the drywell to the wetwell, the venting arrangement including a proximal end extending into the drywell and a distal end extending into the upper portion of the wetwell; alleviating an elevated level of the liquid resulting from condensing gases by performing an extraction of the liquid with a suction structure, the suction structure extending into the lower portion of the wetwell; and shielding the suction structure from the entrainment of uncondensed gases in the liquid with a deflector during the extraction of the liquid, the deflector disposed between the suction structure and the distal end of the venting arrangement within the second container, the deflector having a furrowed or concave side with perforations extending therethrough, the perforations being angled inward toward a furrow or concavity defined by the furrowed or concave side. 6. The method of claim 5 , wherein the shielding includes redirecting the uncondensed gases away from the suction structure with the deflector. 7. The method of claim 5 , wherein the shielding includes providing the perforations such that the perforations extend through the deflector at an angle toward the suction structure such that a Froude number (Fr) is less than 0.31 to allow a flow of the liquid through the perforations while hindering a passage of the uncondensed gases through the perforations, Fr = V L / g ⁡ ( ( ρ l - ρ G ) ρ l ) ⁢ D V L being a velocity of the liquid in the perforations, g being an acceleration due to gravity, ρ t being a density of the liquid, ρ G being a density of the gases, and D being a diameter of the perforations.