Urea manufacturing method

1 . In a urea manufacturing plant, a method for manufacturing urea from manufacturing raw materials including ammonia and carbon dioxide, wherein the urea manufacturing plant comprises a plurality of processing units including a reactor, a stripper and a condenser, and a plurality of lines connecting the plurality of processing units, and the inner wall surfaces of the plurality of processing units and the plurality of lines are made of a stainless steel, and at least some of the plurality of lines is made of an austenitic stainless steel, the urea manufacturing method comprising: forming a passivation film on the inner wall surfaces of the plurality of processing units and the plurality of lines by supplying carbon dioxide of the manufacturing raw material with added oxygen; continuously measuring a wall thickness of the line made of the austenitic stainless steel; and adjusting a supply amount of the oxygen in response to a measurement value of the wall thickness to control a corrosion rate and a reaction yield of urea. 2 . In a urea manufacturing plant, a method for manufacturing urea from manufacturing raw materials including ammonia and carbon dioxide, wherein the urea manufacturing plant comprises a plurality of processing units including a reactor, a stripper and a condenser, and a plurality of lines connecting the plurality of processing units, and the inner wall surfaces of the plurality of processing units and the plurality of lines are made of a stainless steel, and at least some of the plurality of lines is made of an austenitic stainless steel, the urea manufacturing method comprising: forming a passivation film on the inner wall surfaces of the plurality of processing units and the plurality of lines by supplying carbon dioxide of the manufacturing raw material with added oxygen; measuring a concentration of iron, chromium or nickel dissolved in urea or ammonia and an operating temperature; and adjusting a supply amount of the oxygen in response to measurement values of the concentration and the operating temperature to control a corrosion rate and a reaction yield of urea. 3 . In a urea manufacturing plant, a method for manufacturing urea from manufacturing raw materials including ammonia and carbon dioxide, wherein the urea manufacturing plant comprises a plurality of processing units including: a reactor to produce a urea synthesis liquid using carbon dioxide and ammonia as raw materials; a stripper to separate a mixed gas including unreacted ammonia and unreacted carbon dioxide from the urea synthesis liquid produced in the reactor by heating the urea synthesis liquid; and a condenser to condense at least a portion of the mixed gas obtained in the stripper by absorption onto an absorption medium and to generate a low-pressure steam using heat generated at the time of the condensation, and a plurality of lines connecting the plurality of processing units, and the inner wall surfaces of the plurality of processing units and the plurality of lines are made of a stainless steel, and at least some of the plurality of lines is made of an austenitic stainless steel, the urea manufacturing method comprising performing any one or any two or three of the following control methods (A) to (C): (A) a control method in which, in the urea manufacturing method, a passivation film is formed on the inner wall surfaces of the plurality of processing units and the plurality of lines by supplying carbon dioxide of the manufacturing raw material with added oxygen, a wall thickness of the line made of the austenitic stainless steel is continuously measured, and a supply amount of the oxygen is adjusted in response to a measurement value of the wall thickness to control a corrosion rate and a reaction yield of urea; (B) a control method in which a concentration of iron, chromium or nickel dissolved in urea or ammonia and an operating temperature are measured, and a supply amount of the oxygen is adjusted in response to measurement values of the concentration and the operating temperature to control a corrosion rate and a reaction yield of urea; and (C) a control method in which operating pressures of the plurality of processing units and their respective operating temperatures, a flow rate of carbon dioxide introduced as the raw material, an oxygen amount in the raw material carbon dioxide and a flow rate of ammonia introduced as the raw material are measured to calculate respective corrosion rates of the plurality of processing units and corrosion rates of the plurality of lines connecting the plurality of processing units, and a supply amount of the oxygen is adjusted thereby to control a corrosion rate and a reaction yield of urea. 4 . The method for manufacturing urea according to claim 3 , comprising, when the control methods (A), (B) and (C) are performed in this order: determining, based on a corrosion rate in the control method (A), whether to increase the oxygen supply amount to the raw material carbon dioxide, not performing the control methods (B) and (C) when the oxygen supply amount is increased, and proceeding to the control method (B) when the oxygen supply amount is not increased; when proceeding to the control method (B), determining, based on a corrosion rate in the control method (B), whether to increase the oxygen supply amount to the raw material carbon dioxide, and not performing the control method (C) when the oxygen supply amount is increased, and proceeding to the control method (C) when the oxygen supply amount is not increased; and when proceeding to the control method (C), determining, based on a corrosion rate in the control method (C), whether to increase the oxygen supply amount to the raw material carbon dioxide, not performing further processes when the oxygen supply amount is increased, and, when the oxygen supply amount is not increased, determining whether to maintain the current oxygen supply amount to the raw material carbon dioxide or to decrease the oxygen supply amount to the raw material carbon dioxide, based on the respective corrosion rates in the control methods (A) to (C).