System for reducing vibrations in a pressure pumping fleet

What is claimed is: 1. A hydraulic fracturing system for fracturing a subterranean formation comprising: an electrically powered fracturing pump having a discharge side; a discharge branch of piping having therein pressurized fracturing fluid supplied from the fracturing pump; and swivel connections strategically located in the discharge branch of piping, so that when pressurized fracturing fluid flows through the discharge branch of piping, a section of the discharge branch of piping is axially rotatable with an adjacent section of the discharge branch of piping. 2. The hydraulic fracturing system of claim 1 , further comprising at least one helical coil supporting discharge branches of piping at a strategically located position. 3. The hydraulic fracturing system of claim 1 , wherein at least one of the helical coils has an axis that is disposed oblique with an axis of an adjacent amount of piping. 4. The hydraulic fracturing system of claim 1 , wherein the fracturing pump is a first fracturing pump, wherein the discharge branches intersect with discharge piping that are in fluid communication with a second fracturing pump, and wherein the discharge branch intersections are at locations that are each spaced away from a surface on which the first fracturing pump is supported. 5. The hydraulic fracturing system of claim 4 , wherein the surface on which the first fracturing pump is supported comprises a trailer, truck, or skid. 6. The hydraulic fracturing system of claim 1 , further comprising a generator for generating electricity used for powering the fracturing pump. 7. The hydraulic fracturing system of claim 1 , further comprising a controller that uses vibration data to monitor and/or adjust control commands of the system. 8. A hydraulic fracturing system for fracturing a subterranean formation comprising: an electrically powered fracturing pump having a suction side; a suction branch of piping having fracturing fluid therein; and a tubular suction lead having an end mounted to the suction side and an opposite end coupled to an end of the suction branch by a grooved connection, and which is pivotal with respect to the suction branch; and a discharge branch of piping having therein the pressurized fracturing fluid supplied from the fracturing pump; and swivel connections strategically located in the discharge branch of piping, so that when the pressurized fracturing fluid flows through the discharge branch of piping, a section of the discharge branch of piping is axially rotatable with an adjacent section of the discharge branch of piping. 9. The hydraulic fracturing system of claim 8 , further comprising helical coils supporting suction branches of piping at strategically located positions. 10. The hydraulic fracturing system of claim 8 , wherein at least one of the helical coils has an axis that is disposed oblique with an axis of an adjacent amount of piping. 11. The hydraulic fracturing system of claim 8 , further comprising a pulsation dampener in fluid communication with the suction branch and adjacent the section lead. 12. The hydraulic fracturing system of claim 8 , wherein the fracturing pump is a first fracturing pump, wherein the suction branches intersect with suction piping that are in fluid communication with a second fracturing pump, and wherein the suction branch intersections are at locations that are each spaced away from a surface on which the first fracturing pump is supported. 13. The hydraulic fracturing system of claim 12 , wherein the surface on which the first fracturing pump is supported comprises a trailer, truck, or skid. 14. The hydraulic fracturing system of claim 8 , further comprising a generator for generating electricity used for powering the fracturing pump. 15. The hydraulic fracturing system of claim 8 , further comprising a controller that uses vibration data to monitor and/or adjust control commands of the system.