Seawater desalination system and energy recovery apparatus

The invention claimed is: 1. An energy recovery apparatus for converting pressure energy of concentrated seawater discharged from a reverse-osmosis membrane-separation apparatus to pressure energy of seawater in a seawater desalination system for producing fresh water from the seawater by supplying the seawater pressurized by a pump to the reverse-osmosis membrane-separation apparatus to separate the seawater into fresh water and concentrated seawater, the energy recovery apparatus comprising: a cylindrical chamber having a space for containing concentrated seawater and seawater therein, the chamber being installed such that a longitudinal direction of the chamber is placed in a vertical direction; a concentrated seawater port provided at a lower part of the chamber for supplying and discharging the concentrated seawater; a seawater port provided at an upper part of the chamber for supplying and discharging the seawater; a flow resistor provided at a concentrated seawater port side in the chamber; and a flow resistor provided at a seawater port side in the chamber; wherein each of the flow resistor provided at the concentrated seawater port side and the seawater port side comprises at least one performed circular plate; and wherein each perforated circular plate has a plurality of holes formed in an outer circumferential area outside a hypothetical circle which is concentric with the perforated circular plate and has a predetermined diameter, the holes being formed so that an aperture ratio is varied in a circumferential direction of the perforated circular plate in the outer circumferential area outside the hypothetical circle having the predetermined diameter. 2. The energy recovery apparatus according to claim 1 , wherein an area of the perforated circular plate that is free of the holes is an area of a polygon which has a circle having a predetermined diameter as an incircle and a circle having a diameter equal to or smaller than the outer diameter of the perforated circular plate and greater than the diameter of the hypothetical circle as a circumcircle. 3. The energy recovery apparatus according to claim 1 , wherein the flow resistor is rotationally symmetric about a central axis of the cylindrical chamber. 4. The energy recovery apparatus according to claim 1 , wherein the perforated circular plate serves as a first perforated plate, and a second perforated plate is provided to be spaced by a predetermined distance from the first perforated plate. 5. The energy recovery apparatus according to claim 1 , further comprising a doughnut-shaped circular plate having an opening at a center thereof provided between one of the concentrated seawater port and the seawater port or both of the concentrated seawater port and the seawater port, and the flow resistor. 6. A seawater desalination system for producing fresh water from seawater by supplying the seawater pressurized by a pump to a reverse-osmosis membrane-separation apparatus to separate the seawater into fresh water and concentrated seawater, the seawater desalination system comprising: an energy recovery apparatus according to claim 1 for converting pressure energy of the concentrated seawater discharged from the reverse-osmosis membrane-separation apparatus to pressure energy of the seawater.