Load balanced power section of progressing cavity device

What is claimed is: 1. A device, of a progressive cavity motor, for imparting a first torque to a drive using fluid that has been pumped along a tubular to the device, the device comprising: a housing coupling in fluid communication with the tubular, the housing having an uphole end and a downhole end and defining a bore therethrough, the uphole end arranged to receive the fluid, the downhole end arranged to discharge the fluid; a stator lining disposed in the bore of the housing and defining an internal profile along a first length of the stator lining, the internal profile at least having a first portion toward the uphole end of the housing and arranged to receive the fluid, the first portion having a first internal dimension being less than a second internal dimension of at least a second portion, the second portion disposed toward the downhole end of the housing and arranged to discharge the fluid, the stator lining comprising an elastomeric material, the elastomeric material comprising a first section toward the uphole end of the housing having a first stiffness being greater than a second stiffness of at least a second section toward the downhole end of the housing; and a rotor having an external profile along a second length of the rotor and disposed in the internal profile of the stator lining, the rotor having an upper end and a lower end, the lower end connected to the drive, the rotor defining a plurality of sealed stage cavities with the stator lining, the rotor being torqued in the stator lining in response to the fluid progressing in the sealed stage cavities from the uphole end to the downhole end and transferring the first torque to the drive connected to the lower end of the rotor toward the downhole end of the housing, the external profile having an outer dimension constant along the second length of the rotor, the device subjected to a reactive torque from the drive connected at the lower end of the rotor, the reactive torque opposed to the first torque imparted by the rotor to the drive and generating heat in the stator lining at least toward the downhole end of the housing, the first portion of the stator lining at least having a first interference fit with the rotor being greater than a second interference fit of the second portion of the stator lining with the rotor, the second interference fit configured to counteract the generated heat due to the reactive torque. 2. The device of claim 1 , wherein the internal profile of the stator lining defines a plurality of first lobes pitched along the first length of the stator lining; and wherein the external profile of the rotor defines a plurality of second lobes pitched along the second length of the rotor and being less in number than the first lobes. 3. The device of claim 1 , wherein the first and second portions each encompass a same number of the sealed stage cavities. 4. The device of claim 1 , wherein the first internal dimension of the first portion of the internal profile is constant along the first length; and wherein the second internal dimension of the second portion tapers therefrom at an increasing angle outward. 5. The device of claim 1 , wherein the first internal dimension of the first portion of the internal profile tapers at a first increasing angle outward; and wherein the second internal dimension of the second portion tapers therefrom at a second increasing angle outward. 6. The device of claim 5 , wherein the first and second angles are the same. 7. The device of claim 1 , wherein the first internal dimension of the first portion of the internal profile tapers at an increasing angle outward; and wherein the second internal dimension of the second portion is constant along the remaining first length. 8. The device of claim 1 , wherein the first and second internal dimensions are constant along the first length and transition one to the other between the first and second portions. 9. The device of claim 1 , wherein the internal passage comprises a third portion further toward the downhole end of the housing with a third internal dimension being greater at least in part than the second internal dimension of the second portion. 10. The device of claim 9 , wherein the first internal dimension of the first portion of the internal profile is constant; wherein the second internal dimension of the second portion tapers therefrom at an increasing angle outward; and wherein the third internal dimension of the third portion is constant. 11. The device of claim 9 , wherein the first, second, and third internal dimensions are each constant respectively along the first, second, and third portions of the first length and transition one to the other. 12. The device of claim 1 , further comprising a coupling of the rotor to a cutting tool of the drive driven with the fluid progressing from the uphole end to the downhole end. 13. The device of claim 1 , wherein the elastomeric material comprises an intermediate section disposed between the first and second sections and having an intermediate stiffness between the first and second stiffnesses. 14. The device of claim 13 , wherein the elastomeric material comprises a first elastomer for the first section, a second elastomer for the second section, and a mix of the first and second elastomers for the intermediate section. 15. The device of claim 1 , wherein the first interference being greater than the second interference fit further comprises the first interference fit between first helical lobe cavities of the internal profile and first helical lobes of the rotor having a tighter clearance than the second interference fit between second helical lobe cavities of the internal profile and second helical lobes of the rotor. 16. A device, of a progressive cavity motor, for imparting a first torque to a drive using fluid that has been pumped along a tubular to the device, the device comprising: a housing coupling in fluid communication with the tubular, the housing having an uphole end and a downhole end and defining a bore therethrough; a stator lining disposed in the bore of the housing and defining an internal profile along a first length of the stator lining, the internal profile at least having a first portion toward the uphole end of the housing with a first internal dimension being less than a second internal dimension of at least a second portion toward the downhole end of the housing, the stator lining comprising an elastomeric material, wherein the elastomeric material of the stator lining comprises a first section toward the uphole end of the housing having a first stiffness being greater than a second stiffness of at least a second section toward the downhole end of the housing, wherein the elastomeric material comprises a third section further toward the downhole end of the housing having a third stiffness being greater than the second stiffness of the second section; and a rotor having an external profile along a second length of the rotor and disposed in the internal profile of the stator lining, the rotor defining a plurality of sealed stage cavities with the stator lining, the rotor being torqued in the stator lining in response to the pumped drilling fluid progressing in the sealed stage cavities from the uphole end to the downhole end and transferring the first torque to the drive toward the downhole end, the external profile having an outer dimension constant along the second length of the rotor, the device subjected to a reactive torque generating heat toward the downhole end of the stator lining, the first portion of the stator lining at least having a first interference