Curvilinear electromagnetic pump

What is claimed is: 1. A curvilinear electromagnetic pump, comprising: a first pump section, the first pump section comprising: a first pump housing defining a pump inlet, a first linear fluid flow channel through the first pump housing, and a first collection of outer stators, the first collection of outer stators configured to be electrically driven to create a moving magnetic field; a second pump section, the second pump section comprising: a second pump housing defining a pump outlet, a second linear fluid flow channel, and a second collection of outer stators, the second collection of outer stators configured to be electrically driven to create the moving magnetic field; and wherein the second pump section is coupled to the first pump section and is offset by an angle with respect to the first pump section, wherein the curvilinear electromagnetic pump is positioned within a nuclear reactor vessel and a fluid flow path of the curvilinear electromagnetic pump is configured to follow a circular arc of an outer wall of the nuclear reactor vessel in a circumferential direction, and wherein the pump inlet is configured to be disposed at a location within the nuclear reactor vessel that is higher in elevation than the pump outlet. 2. The curvilinear electromagnetic pump as in claim 1 , further comprising a coupler, the coupler configured to fluidically connect the first pump section and the second pump section together at the angle. 3. The curvilinear electromagnetic pump as in claim 2 , wherein the coupler comprises a third collection of outer stators, the third collection of outer stators configured to be driven sequentially with the first collection of outer stators and the second collection of outer stators to cause the moving magnetic field to travel along the first pump section, the coupler, and the second pump section. 4. The curvilinear electromagnetic pump as in claim 1 , wherein the first linear fluid flow channel is in fluid communication with the second linear fluid flow channel. 5. The curvilinear electromagnetic pump as in claim 1 , wherein the angle is from 5° to 30°. 6. The curvilinear electromagnetic pump as in claim 1 , wherein the first pump section further comprises a first collection of inner stators and the second pump section further comprises a second collection of inner stators. 7. The curvilinear electromagnetic pump as in claim 1 , wherein the nuclear reactor vessel defines a geometric center, and wherein the curvilinear electromagnetic pump is entirely disposed below the geometric center. 8. The curvilinear electromagnetic pump as in claim 1 , wherein the curvilinear electromagnetic pump has an inlet in fluid communication with a heat exchanger and an outlet in fluid communication with an inlet plenum of a reactor core. 9. The curvilinear electromagnetic pump as in claim 1 , further comprising a third pump section, the third pump section comprising: a third pump housing, a third linear fluid flow channel, and a third collection of outer stators, wherein the third pump section is coupled to the second pump section and is offset by the angle with respect to the second pump section. 10. The curvilinear electromagnetic pump as in claim 9 , wherein a centerline of the curvilinear electromagnetic pump is not planar. 11. The curvilinear electromagnetic pump as in claim 1 , wherein the curvilinear electromagnetic pump is disposed within the nuclear reactor vessel in a bottom portion of the nuclear reactor vessel.