Well servicing pump with electric motor

The invention claimed is: 1. A hydraulic fracturing system comprising: a hydration system; a blender system, the blender system configured to receive a fluid flow from the hydration system; and a well servicing pump, the well servicing pump including: a first permanent magnet motor, the first permanent magnet motor including a first rotor; a second permanent magnet motor, the second permanent magnet motor including a second rotor; a crankshaft positioned in a power section; a first gearbox, the first gearbox operatively coupled between the first rotor of the first permanent magnet motor and the crankshaft at a first end of the crankshaft; a second gearbox, the second gearbox operatively coupled between the second rotor of the second permanent magnet motor and the crankshaft at a second end of the crankshaft; a third permanent magnet motor, the third permanent magnet motor including a third rotor, the third permanent magnet motor positioned adjacent to and abutting the first permanent magnet motor, the third rotor is mechanically coupled to the first rotor, the first gearbox, and the crankshaft such that the third rotor is directly coupled to the first rotor and such that rotation of the third rotor is coaxial with the rotation of the first rotor; a fluid section, the fluid section including an inlet, a pressurization chamber, and an outlet, the inlet and outlet fluidly coupled to the pressurization chamber; and a plunger, the plunger mechanically coupled to the crankshaft, the plunger at least partially positioned within the pressurization chamber; wherein the inlet of the fluid section of the well servicing pump is configured to receive fracturing fluid from the blender system; and wherein the outlet of the fluid section is fluidly coupled to a well. 2. The hydraulic fracturing system of claim 1 , wherein the power section comprises a housing, and the first and second permanent magnet motors are mounted to the housing. 3. The hydraulic fracturing system of claim 2 , wherein: the first permanent magnet motor comprises a first stator and a first housing positioned about the first rotor; the second permanent magnet motor comprises a second stator and a second housing positioned about the second rotor; and wherein the first housing and second housing are mechanically coupled to the housing of the power section, positioned about the crankshaft. 4. The hydraulic fracturing system of claim 3 , wherein the permanent magnet motor comprises a plurality of coil windings circumferentially arrayed about the stator and a plurality of magnets circumferentially arrayed about the rotor. 5. The hydraulic fracturing system of claim 1 , comprising a variable frequency drive configured to provide electrical energy to the first permanent magnet motor. 6. The hydraulic fracturing system of claim 1 , further comprising a cooling system, the cooling system including a liquid-based system configured to circulate a cooling liquid flow through at least one of the first and second permanent magnet motors. 7. A well servicing pump system comprising: a first permanent magnet motor, the first permanent magnet motor including a first rotor; a second permanent magnet motor, the second permanent magnet motor including a second rotor; a crankshaft; a first gearbox, the first gearbox operatively coupled between the first rotor of the first permanent magnet motor and the crankshaft at a first end of the crankshaft; a second gearbox, the second gearbox operatively coupled between the second rotor of the second permanent magnet motor and the crankshaft at a second end of the crankshaft; a third permanent magnet motor, the third permanent magnet motor including a third rotor, the third permanent magnet motor positioned adjacent to and abutting the first permanent magnet motor, the third rotor is mechanically coupled to the first rotor, the first gearbox, and the crankshaft such that the third rotor is directly coupled to the first rotor and such that rotation of the third rotor is coaxial with the rotation of the first rotor; a fluid section, the fluid section including an inlet, a pressurization chamber, and an outlet, the inlet and outlet fluidly coupled to the pressurization chamber; and a plunger, the plunger mechanically coupled to the crankshaft, the plunger at least partially positioned within the pressurization chamber. 8. The well servicing pump system of claim 7 , further comprising a power section, wherein the power section comprises a housing, and the first and second permanent magnet motors and first and second gearboxes are mounted to the housing. 9. The well servicing pump system of claim 8 , wherein: the first permanent magnet motor comprises a first stator and a first housing positioned about the first rotor; the second permanent magnet motor comprises a second stator and a second housing positioned about the second rotor; and wherein the first housing and second housing are mechanically coupled to the housing of the power section, positioned about the crankshaft via the first and second gearboxes, respectively. 10. The well servicing pump system of claim 9 , wherein the permanent magnet motor comprises a plurality of coil windings circumferentially arrayed about the stator and a plurality of magnets circumferentially arrayed about the rotor. 11. The well servicing pump system of claim 7 , comprising a variable frequency drive configured to provide electrical energy to the first permanent magnet motor. 12. The well servicing pump system of claim 7 , further comprising a cooling system, the cooling system including a liquid-based system configured to circulate a cooling liquid flow through at least one of the first and second permanent magnet motors.