Patent Number: 052710440
Section: claims

1. A start-up process of a boiling water nuclear reactor having a pressure vessel in which a core loaded with nuclear fuel is incorporated, cooling water is retained and steam is generated, wherein said process comprises: (a) first step of controlling the pressure in the pressure vessel so as to keep the cooling water in the pressure vessel in a single-phase flow state while raising the temperature of the cooling water by heat of nuclear reaction in the core, at the time of starting-up of said rector;  (b) a second step of controlling at least the pressure in the pressure vessel so as to make said cooling water in said pressure vessel transit from said single-phase flow state into a two-phase flow state after said first step; and  (c) a third step of heating said cooling water in said two-phase flow state by heat of nuclear reaction in the core.  said first step includes a step of isolating said pressure vessel by closing said main steam isolation valve and said feed water stop valve, a step of pressurizing the inside of said pressure vessel by said pressure regulator, and a step of heating said cooling water in said single-phase flow state by withdrawing said control rods; and  said second and third steps include a step in which the pressurization by said pressure regulator is released and said main steam isolation valve and said turbine bypass stop valve are opened so that the pressure in said pressure vessel is reduced and a water level is formed in said pressure vessel.  said first step further includes a step of closing said turbine steam stop valve and said turbine bypass stop valve, opening said feed water bypass stop valve and operating said feed water pump to thereby circulate feed water to said condenser, and thereafter pressurizing the inside of said pressure vessel.  a pressure vessel in which a core loaded with nuclear fuel is incorporated, cooling water is retained and steam is generated;  pressure regulating means disposed outside said pressure vessel and made to communicate with said pressure vessel for pressurizing the inside of said pressure vessel at the time of starting-up of said reactor;  control rod drive means for moving control rods for insertion into and withdrawal from the core to control an output power of the core; and  control means for actuating said pressure regulating means and said control rod drive means at the time of starting-up of said reactor in such a manner as to control the pressure in the pressure vessel so as to keep the cooling water in the pressure vessel in a single-phase flow state while raising the temperature of the cooling water by heat of nuclear reaction in the core, and then to control at least the pressure in the pressure vessel so as to make said cooling water in said pressure vessel transit from said single-phase flow state into a two-phase flow state, and thereafter to heat said cooling water in said two-phase flow state by heat of nuclear reaction in the core. 2. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said first step said cooling water is kept in said single-phase flow state by controlling the pressure in said pressure vessel so as to make the pressure in said pressure vessel higher than the saturation pressure of said cooling water corresponding to the temperature of said cooling water in said pressure vessel. 3. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said first step the inside of said pressure vessel is pressurized solely first and thereafter said cooling water is heated while controlling the pressure in said pressure vessel. 4. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said first step the pressurization in the inside of said pressure vessel is started simultaneously with start of heating said cooling water so that the heating of said cooling water and the pressurization in the inside of said pressure vessel are carried out simultaneously and parallelly with each other. 5. A start-up process of a boiling water nuclear reactor according to claim 1, wherein said reactor comprises a start-up feed water line formed by bypassing a feed water line and having a start-up feed water stop valve, a cooling water outlet of said start-up feed water line being connected in a portion below said core in said pressure vessel, and wherein in at least one of said first, second and third steps, said cooling water is heated by nuclear reaction and at the same time said cooling water is forcedly circulated to said core by a feed water pump through said start-up feed water line to thereby increase the core flow rate. 6. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said second step said cooling water is made to transit from said single-phase flow state into said two-phase flow state by controlling the pressure in said pressure vessel so as to make the pressure in said pressure vessel gradually approximate to the saturation pressure of said cooling water corresponding to the temperature of said cooling water in said pressure vessel until predetermined pressure not higher than the rated running pressure of said reactor is reached. 7. A start-up process of a boiling water nuclear reactor according to claim 6, wherein said control on the pressure in said pressure vessel is performed so that the pressure in said pressure vessel is kept to be substantially constant to thereby make the pressure in said pressure vessel gradually approximate to said saturation pressure. 8. A start-up process of a boiling water nuclear reactor according to claim 6, wherein said control on the pressure in said pressure vessel is performed so that the pressure in said pressure vessel is reduced to thereby make the pressure in said pressure vessel gradually approximate to said saturation pressure. 9. A start-up process of a boiling water nuclear reactor according to claim 6, wherein when said control on the pressure in said pressure vessel is performed, the quantity of heat for heating said cooling water is reduced. 10. A start-up process of a boiling water nuclear reactor according to claim 6, wherein when said control on the pressure in said pressure vessel is performed, heating said cooling water is once stopped. 11. A start-up process of a boiling water nuclear reactor according to claim 1, wherein said second and third steps are performed in a single step of continuously controlling the pressure in said pressure vessel so as to make the pressure in said pressure vessel reach the saturation pressure of said cooling water corresponding to the temperature of said cooling water in said pressure vessel at the rated running pressure of said reactor. 12. A start-up process of a boiling water nuclear reactor according to claim 1, wherein said second step includes a step of controlling the pressure in said pressure vessel so as to make the pressure in said pressure vessel reach the saturation pressure of said cooling water corresponding to the temperature of said cooling water in said pressure vessel at predetermined pressure not higher than the rated running pressure of said reactor, and wherein said third step includes a step of increasing the pressure in said pressure vessel by heating said cooling water. 13. A start-up process of a boiling water nuclear reactor according to claim 1, wherein said first step includes a step of calculating a first critical thermal power in said single-phase flow on the basis of respective measured values of the temperature of said cooling water, the pressure in said pressure vessel, and the flow rate of said core to thereby set amounts of withdrawal of control rods for controlling an power of said core so that the thermal power of said core becomes not larger than said first critical thermal power, and wherein said third step includes a step of calculating a second critical thermal power in said two-phase flow on the basis of respective measured values of the temperature of said cooling water, the pressure in said pressure vessel, and the flow rate of said core to thereby set the amounts of withdrawal of said control rods so that the thermal power of said core becomes not larger than said second critical thermal power. 14. A start-up process of a boiling water nuclear reactor according to claim 1, wherein said second and third steps include: a step of controlling related valves so as to keep the water level in said pressure vessel at a proper value on the basis of respective measured values of the pressure and water-temperature in said pressure vessel, the water temperature at an inlet of said core, the water level in said pressure vessel, the power of said core and the amounts of insertion of control rods; and a step of controlling respective openings of the related valves to make a flow rate of feed water proper on the basis of respective measured values of the power of said core and the subcool temperature at the inlet of said core. 15. A start-up process of a boiling water nuclear reactor according to claim 1, said reactor comprising: a main steam line for feeding steam generated in said core to a turbine; a feed water line for feeding condensate water condensed in a condenser after driving of said turbine into said pressure vessel as cooling water; a main steam isolation valve, a turbine steam stop valve for stopping a steam flow into said turbine, and a control valve for controlling a flow rate of a steam flow into said turbine which are arranged in said main steam line; a feed water pump and a feed water stop valve which are arranged in said feed water line; a turbine bypass line for connecting said main steam line to an inlet of said condenser at a portion of said main steam line between said main steam isolation valve and said turbine steam stop valve; a turbine bypass stop valve arranged in said turbine bypass line; control rods for controlling the power of said core; and a pressure regulator provided in at least one of said pressure vessel, said main steam line and said feed water line; wherein 16. A start-up process of a boiling water nuclear reactor according to claim 15, said reactor further comprising a feed water bypass line for connecting said feed water line, at a outlet side of said feed water pump, to said an inlet of said condenser, and a feed water bypass stop valve arranged in said feed water bypass line, wherein 17. A start-up process of a boiling water nuclear reactor according to claim 15, wherein said second step includes a step of inserting said control rods to reduce the power of said core after increase of the cooling water temperature, and said third step includes a step of withdrawing said control rods again to heat said cooling water in said two-phase flow state. 18. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said first step, said cooling water is heated by nuclear reaction while keeping said cooling water in the single-phase flow state by making the pressure P1 in said pressure vessel satisfy the condition P1&gt;P2 while keeping the condition T2&lt;T1-Tb, where T1 represents the saturation temperature of said cooling water at the pressure P1, T2 represents the temperature of said cooling water, P2 represents the saturation pressure corresponding to the temperature T2, and Tb represents the maximum value of core inlet subcool temperature to start boiling. 19. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said second step, said cooling water is made to transit from said single-phase flow state into said two-phase flow state by making the pressure P1 in said pressure vessel satisfy the condition P1&gt;P2 while keeping the condition T1&lt;T2+Ts, where T1 represents the saturation temperature of said cooling water at the pressure P1, T2 represents the temperature of said cooling water, P2 represents the saturation pressure corresponding to the temperature T2, and Ts represents the maximum value of core inlet subcool temperature in a region in which stable boiling occurs. 20. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in said second step, said cooling water is made to transit from said single-phase flow state into said two-phase flow state by making the pressure P1 in said pressure vessel satisfy the condition P1=P2 while keeping the condition T1&lt;T2+Ts, where T1 represents the saturation temperature of said cooling water at the pressure P1, T2 represents the temperature of said cooling water, P2 represents the saturation pressure corresponding to the temperature T2, and Ts represents the maximum value of core inlet subcool temperature in a region in which stable boiling occurs. 21. A start-up process of a boiling water nuclear reactor according to claim 1, wherein said reactor comprises an electric heater provided in at least one of said pressure vessel, said main steam line and said feed water line, and wherein in at least one of said first, second and third steps, said cooling water is heated by nuclear reaction and at the same time heated by said electric heater. 22. A start-up process of a boiling water nuclear reactor according to claim 1, wherein in at least one of said first, second and third steps, said cooling water is heated by nuclear reaction and at the same time heated by heat due to rotation of a feed water pump operated. 23. A start-up process of a boiling water nuclear reactor having a pressure vessel in which a core loaded with nuclear fuel is incorporated, cooling water is retained and steam is generated, wherein the cooling water in the pressure vessel is heated by nuclear reaction in the core while the pressure in said pressure vessel is controlled so as to be made higher than the saturation pressure of the cooling water corresponding to the temperature of the cooling water in said pressure vessel, and thereafter the pressure in said pressure vessel is made substantially coincident with the saturation pressure of the cooling water corresponding to the temperature of the cooling water in said pressure vessel whereupon the cooling water is heated. 24. A boiling water nuclear reactor comprising: 25. A boiling water nuclear reactor according to claim 24, wherein said pressure regulator means includes a pressurized tank connected to a feed water line connected to said pressure vessel for pressurizing the inside the pressure vessel, a high pressure gas tank connected to the pressurized tank for supplying to the pressurized tank a gas of pressure higher than the pressure vessel at the time of initiating starting-up of the reactor, means provided between said pressurized tank and said gas tank for controlling a supply of the gas from said gas tank to said pressurized tank, and means for controlling release of the pressure in the pressure vessel. 26. A boiling water nuclear reactor according to claim 24, wherein said pressure regulator means includes a leakage test system connected to a feed water line for testing leakage of said pressure vessel and a reactor primary cooling water line. 27. A boiling water nuclear reactor according to claim 24, wherein said pressure regulator means includes a pressurized tank connected to a feed water line connected to the pressure vessel and having an electric heater disposed therein for applying to the pressure vessel a pressure higher than the pressure vessel at the time of initiating starting-up of the reactor. 28. An boiling water nuclear reactor according to claim 24, wherein said pressure regulator means includes a high pressure gas tank connected to one of said pressure vessel and main steam line connected to the pressure vessel for supplying a gas of pressure higher than the pressure vessel at the time of initiating starting-up of the reactor.