Controlling a power output of a nuclear reactor without using control rods

We claim: 1. A method for controlling a nuclear fission reaction, comprising: operating a nuclear power system to initiate a nuclear fission reaction, the nuclear power system comprising: a reactor vessel that comprises a reactor core mounted within a volume of the reactor vessel, the reactor core comprising one or more nuclear fuel assemblies configured to initiate and maintain the nuclear fission reaction during a normal operation, a riser positioned above the reactor core, and a primary coolant flow path that extends from a bottom portion of the volume below the reactor core, through the reactor core, within the riser, and through an annulus between the riser and the reactor vessel back to the bottom portion of the volume; passively circulating without pumping and during a normal operating state of the nuclear power system, a primary coolant through the primary coolant flow path to receive heat from the nuclear fission reaction; transferring the received heat into a power generation system that is fluidly, thermally, or both fluidly and thermally coupled to the primary coolant flow path to generate electric power; and operating a control rod assembly system positioned in the reactor vessel to adjust a position of a plurality of control rods of the control rod assembly system from a first discrete stationary position of only two discrete stationary positions to a second discrete stationary position of the only two discrete stationary positions, such that the plurality of control rods are fully withdrawn from the reactor core in the first discrete stationary position and the plurality of control rods are fully inserted into the reactor core in the second discrete stationary position, wherein the nuclear power system does not include any other control rods positioned within the reactor vessel and configured to control a power output of the nuclear fission reaction. 2. The method of claim 1 , wherein adjusting the plurality of control rods from the first discrete stationary position to the second discrete stationary position comprises at least one of: releasing the plurality of control rods to fall to the second discrete stationary position from the first discrete stationary position; or forcibly urging the plurality of control rods from the first discrete stationary position to the second discrete stationary position. 3. The method of claim 1 , wherein the plurality of control rods are sufficient to shut down the nuclear fission reaction or maintain the nuclear fission reaction at a sub-critical state in the second discrete stationary position. 4. The method of claim 1 , further comprising controlling a power output of the nuclear fission reaction independent of any control rod assemblies during the normal operation. 5. The method of claim 4 , wherein the nuclear power system further comprises a chemical injection system in fluid communication with the primary coolant flow path, the method further comprising: controlling the power output of the nuclear fission reaction independent of any control rod assemblies by controlling one or more parameters of at least one of the power generation system or the chemical injection system during normal operation. 6. The method of claim 4 , further comprising: determining that the power output of the nuclear fission reaction is greater than an upper value or less than a lower value; based on the determination, adjusting an amount of a chemical injected into the reactor core from the chemical injection system to adjust the power output of the nuclear fission reaction; and subsequent to the adjustment, determining that the power output is within a range between the upper and lower values. 7. The method of claim 6 , wherein adjusting the amount of the chemical injected into the reactor core from the chemical injection system comprises at least one of: increasing the amount of the chemical injected into the reactor core from the chemical injection system to decrease the power output of the nuclear fission reaction; or decreasing the amount of the chemical injected into the reactor core from the chemical injection system to increase the power output of the nuclear fission reaction. 8. A method for controlling a nuclear fission reaction, comprising: operating a nuclear power system to generate a power output from the nuclear fission reaction, wherein the nuclear power system includes (a) a reactor vessel housing containing a reactor core configured to generate the nuclear fission reaction and (b) a control rod assembly having a plurality of control rods positioned within the reactor vessel housing; passively circulating, without pumping and during a normal operating state of the nuclear power system, a primary coolant from a bottom portion of the reactor vessel housing upward through the reactor core to a top portion of the reactor vessel housing, and back downward from the top portion of the reactor vessel housing to the bottom portion of the reactor vessel housing; and operating the control rod assembly to adjust a position of the plurality of control rods from a first discrete stationary position of only two discrete stationary positions to a second discrete stationary position of the only two discrete stationary positions, wherein the plurality of control rods are fully withdrawn from the reactor core in the first discrete stationary position, wherein the plurality of control rods are fully inserted into the reactor core in the second discrete stationary position, and wherein the nuclear power system does not include any other control rods positioned within the reactor vessel housing and configured to control a power output of the nuclear fission reaction. 9. The method of claim 8 , wherein operating the control assembly to adjust the position of the plurality of control rods from the first discrete stationary position to the second discrete stationary position comprises releasing the plurality of control rods to permit the plurality of control rods to fall to the second discrete stationary position from the first discrete stationary position. 10. The method of claim 8 , wherein operating the control assembly to adjust the position of the plurality of control rods from the first discrete stationary position to the second discrete stationary position comprises forcibly urging the plurality of control rods from the first discrete stationary position to the second discrete stationary position. 11. The method of claim 8 , wherein the plurality of control rods are positioned to shut down the nuclear fission reaction and/or maintain the nuclear fission reaction at a sub-critical state in the second discrete stationary position. 12. The method of claim 8 , further comprising controlling the power output independent of any control rod assemblies. 13. The method of claim 12 , further comprising controlling the poweroutputviaachemicalinjectionsystemconfiguredtoinjectachemicalintothereactorvessel and remove the chemical from the reactor vessel housing. 14. The method of claim 13 , wherein controlling the power output comprises: determining that the power output is greater than an upper value of a range or less than a lower value of the range; and based on the determination, adjusting an amount of the chemical injected into or removed from the reactor vessel housing by the chemical injection system to adjust the power output. 15. The method of claim 14 , further comprising determining that the power output is within the range after adjusting the amount of the chemical injected into or removed from the reactor vessel housing. 16. The method of claim 12 ,