主权项 |
1. A reverse osmosis membrane separation device comprising:
a reverse osmosis membrane module configured to separate supply water into permeate water and concentrated water; a supply water line for supplying supply water to the reverse osmosis membrane module; a pressure pump configured to be driven at a rotation speed corresponding to an input drive frequency and to pressure feed supply water which passes through the supply water line to the reverse osmosis membrane module; an inverter equipment configured to output a drive frequency corresponding to an input frequency instruction signal to the pressure pump; a permeate water line for sending the permeate water from the reverse osmosis membrane module; a first flow rate sensor configured to detect a flow rate of the permeate water to output a detected flow rate value corresponding to the flow rate; a concentrated water line for sending the concentrated water from the reverse osmosis membrane module; a drain water line branching from the concentrated water line, to drain a part of the concentrated water outward of the reverse osmosis membrane separation device; a proportional control valve disposed on the drain water line and adjusting a drain flow rate of the concentrated water; a second flow rate sensor disposed on the drain water line and detecting the drain flow rate of the concentrated water; a return water line branching from the drain water line and connected to the supply water line at an upper stream of the pressure pump, the return water line returning a remaining concentrated water to the supply water line; a temperature sensor detecting temperature of the supply water, the permeate water, or the concentrated water; and a control unit including a permeate water flow rate controller and a permeate water recovery rate controller, wherein the permeate water flow rate controller is configured to (i) calculate a drive frequency of the pressure pump by a velocity type digital PID algorithm, such that a detected flow rate value output from the first flow rate sensor becomes a target flow rate value that is set in advance, and (ii) output the frequency instruction signal corresponding to a calculation value of the drive frequency to the inverter equipment to drive the pressure pump at a rotation speed corresponding to the drive frequency, and the permeate water recovery rate controller is configured to (i) calculate permissible concentration rate of silica in the concentrated water, based on silica concentration of supply water obtained in advance and silica solubility determined by a detected temperature value detected by the temperature sensor, (ii) calculate the drain flow rate from a calculation value of the permissible concentration rate and the target flow rate value of the permeate water, and (iii) adjust opening of the proportional control valve such that a detected flow rate value output from the second flow rate sensor becomes a calculation value of the drain flow rate. |