Patent Number: 039473198
Section: claims

1. A nuclear reactor plant intended for supplying heat to a steam generator comprising a primary circuit filled with a heat-transferring medium which is different from water and equipped with at least a nuclear reactor, a pump and the primary section of a heat exchanger; a secondary circuit filled with a heat-transferring medium which is different from water and equipped with at least the secondary section of said heat exchanger, the primary section of said steam generator and a second pump; a tertiary circuit filled with water and steam and equipped at least with the secondary section of said steam generator, a steam turbine with controllable shut-off valve, a condenser with a condensate pump, a feed water pump and a feed water conduit provided with a controllable feed water valve and extending from the pressure side of the feed water pump to said steam generator; and a first regulating means to control the mass-flows in said primary circuit and said secondary circuit in a manner dependent on the steam power supplied to the turbine and wherein said feed water conduit and the devices forming part thereof are so constructed and dimensioned as to cause at full load between the ends of the feed water conduit a pressure difference of at least 10 bars. 2. A nuclear reactor plant according to claim 1, in which the feed water conduit and the devices forming part thereof are so constructed and dimensioned as to cause at a load of 30 percent between the ends of the feed water conduit a pressure difference of at least 20 bars. 3. A nuclear reactor plant according to claim 1 wherein said feed water conduit includes a liquid turbine for bringing about the realization of at least part of said pressure difference. 4. A nuclear reactor according to claim 1 in which said steam generator includes an evaporator and a superheater and wherein there is provided, between said evaporator and said superheater, a water separator, the water discharge conduit of which contains a controllable valve and is connected with the feed water conduit, and in which there are provided a second regulating means to control said valve contained in the water discharge conduit of said water separator in a manner dependent on the position of the water level in said separator and a third regulating means to control the feed water valve in a manner dependent on the mass flow in said water discharge conduit. 5. A nuclear reactor plant according to claim 4, in which there is provided a fourth regulating means to control the feed water pump in a manner dependent on the pressure difference across the feed water valve. 6. A nuclear reactor plant according to claim 1, in which said first regulating means is so constructed and connected as to control the mass flow in the secondary circuit in a manner dependent on the quantity of steam supplied per unit of time to the turbine and as to control the mass flow in the primary circuit in a manner dependent on the mass flow in the secondary circuit. 7. A nuclear reactor plant according to claim 6, in which said first regulating means is also so constructed and connected as to control the mass flow in the secondary circuit in a manner dependent on the pressure of said steam. 8. A nuclear reactor plant according to claim 6, in which there are provided a regulating means to maintain the temperature of the medium flowing and the temperature of the reactor constant at a certain value, and a regulating means to adjust said certain value in a manner dependent on the mass flow in the secondary circuit. 9. A three-circuit nuclear reactor plant intended for supplying heat to a steam generator, said plant comprising: a primary circuit containing a non-water, heat-transferring medium and including a nuclear reactor, a primary pump and a primary section of a heat exchanger;  a secondary circuit connected between said primary circuit and said steam generator, and containing a non-water, heat-transferring medium, and including the secondary section of said heat exchanger and a secondary pump;  a tertiary circuit filled with water and steam, connected to said steam generator, and including a steam turbine with controllable shut-off valve, a condenser with condensate pump, a feed water pump having a pressure side and a steam generator side, and a feed water conduit extending between said pressure side and said steam generator; and  control means connected to said primary, secondary and tertiary circuits for controlling the mass flow in said primary circuit and said secondary circuit in a manner dependent on the quantity of steam supplied to said turbine in said tertiary circuit; and  wherein said tertiary circuit additionally includes means in said feed water conduit for introducing a large flow resistance therein so as to cause a pressure difference not less than ten bars at full load to be imposed along the length of said feed water conduit. 10. A nuclear reactor plant as recited in claim 9 wherein said flow resistance introduced in said feed water conduit by the means last mentioned causes said pressure difference to be not less than 20 bars at 30 percent load. 11. A nuclear reactor plant as recited in claim 9 wherein said last mentioned means is a hydraulic turbine. 12. A nuclear reactor plant for the supply of heat to a steam generator, said plant comprising three hydraulically separated circuits which are adapted to convey said heat and are thermally coupled to each other, one of said circuits being a water-steam-circuit which is equipped with a steam generator, a feed water conduit provided with a feed water control valve and a steam turbine, another one of said circuits being a primary circuit which includes a reactor and which is equipped with a primary circulation pump and is filled with a heat-transferring medium which is different from water, the remaining circuit constituting a secondary circuit which hydraulically separates the primary circuit and the water-steam-circuit and contains a heat-transferring medium which is different from water, a secondary circulation pump being provided in said secondary circuit, a first heat exchanger which thermally couples the primary reactor circuit to the secondary circuit, a second heat exchanger thermally coupling said secondary circuit to said water-steam-circuit and providing an evaporator for said water-steam-circuit, and a third heat exchanger thermally coupling said secondary circuit to said water-steam-circuit and providing a superheater for said water-steam-circuit, said superheater and said evaporator constituting together the said steam generator, said water-steam-circuit including a water separator connected between said evaporator and said superheater and being adapted to separate water from the water-steam-mixture produced in said evaporator and to return said water to the feed water conduit, and in which the plant is so controlled as to have the feed water control valve being controlled itself by an impulse coming from the measured amount of water separated in said external water separator said second and third heat exchangers causing during operation a relatively small pressure drop and both said feed water conduit and said feed water control valve being so dimensioned as to ensure that at full load the pressure drop caused by them is greater than 10 bars.