Short impeller for a turbomachine

What is claimed is: 1. A subsea multiphase fluid pressure-increasing machine, comprising: an elongated member rotatable about a longitudinal axis; a motor system mechanically engaged to the elongated member so as to rotate the elongated member about the longitudinal axis in a rotation direction; and a plurality of impellers each impeller comprising a plurality of individual blades, each blade having a leading edge, a trailing edge, a suction side, a high pressure side, a first side connected to the elongated member, a second side, a chord length, and a chord line defined by a line between the leading and trailing edges, each impeller being fixedly mounted to the elongated member such that a chord angle of each blade defined by an angle between the chord line and the rotation direction is less than or equal to a stall angle at which a maximum force is exerted on a multiphase fluid in a direction primarily parallel to the longitudinal axis when the elongated member is rotated in the rotation direction; wherein each of the plurality of impellers comprises at least one unobstructed opening extending through each individual blade at a location between the leading edge and the trailing edge, such that the chord length of each blade can be reduced while a specific load on the blade is also reduced; wherein the at least one unobstructed opening comprises a slot on the suction side and at least one orifice, the slot extending from the first side to the second side and defined by a bottom surface, a top surface, and a middle surface extending from the bottom surface to the top surface, the slot disposed between a first portion of the suction side and a second portion of the suction side, the first portion of the suction side extending from the trailing edge to the bottom surface, wherein the first side is partially defined by a first end of the slot and the second side of the blade is partially defined by a second end of the slot, and wherein each orifice of the at least one orifice extends from the high pressure side to the bottom surface; and wherein the machine is configured for subsea deployment and does not experience surge induced by boundary layer separation with any positive multiphase fluid flows. 2. The machine of claim 1 , wherein a product of the number of individual blades and an axial length is substantially constant regardless of the number of blades selected for each impeller. 3. The machine of claim 2 , wherein the number of individual blades is at least 10. 4. The machine of claim 1 , wherein at least some of the impellers are non-cylindrical in shape and the chord line is a mean chord line for the non-cylindrically shaped impellers. 5. The machine of claim 1 , wherein the fluid pressure increasing machine comprises a compressor. 6. The machine of claim 1 , wherein the fluid pressure increasing machine comprises a pump. 7. The machine of claim 1 , wherein the at least one unobstructed opening effectively increases the stall angle of the impeller. 8. The machine of claim 1 , wherein each blade comprises a second opening, wherein the second opening and the at least one unobstructed opening are spaced apart between the leading and trailing edges. 9. A subsea multiphase fluid pressure increasing machine, comprising: an elongated member rotatable about a longitudinal axis; a motor system mechanically engaged to the elongated member so as to rotate the elongated member about the longitudinal axis in a rotation direction; and a plurality of impellers coupled to the elongated member, each impeller comprising a plurality of individual blades, each blade comprising a leading edge, a trailing edge, a suction side, a high pressure side, a first side engaged with the elongated member, a second side, a chord length, and a chord line defined by a line between the leading and trailing edges and each impeller being mounted such that a chord angle of each blade defined by an angle between the chord line and the rotation direction is less than or equal to a stall angle; wherein at least some impellers of the plurality of impellers having at least one unobstructed opening extending through each individual blade at a location between the leading edge and the trailing edge, wherein the at least one unobstructed opening comprises a slot on the suction side, the slot extending from the first side to the second side and defined by a bottom surface, a top surface, and a middle surface extending from the bottom surface to the top surface, the slot disposed between a first portion of the suction side and a second portion of the suction side, the first portion of the suction side extending from the trailing edge to the bottom surface, wherein the first side is partially defined by a first end of the slot and the second side of the blade is partially defined by a second end of the slot; wherein the at least one unobstructed opening further comprises at least one orifice and each orifice of the at least one orifice extends from the high pressure side to the bottom surface; and wherein the machine is configured for subsea deployment and does not experience surge induced by boundary layer separation with any positive multiphase fluid flows. 10. The machine of claim 9 , wherein a product of the number of individual blades and an axial length is substantially constant regardless of the number of individual blades selected for each impeller. 11. The machine of claim 10 , wherein the number of individual blades is at least 12. 12. The machine of claim 10 , wherein the number of individual blades is at least 15. 13. The machine of claim 9 , wherein the at least one unobstructed opening through the individual blades effectively increases the stall angle at which maximum force is exerted on the multiphase fluid in a direction primarily parallel to the longitudinal axis when the elongated member is rotated in the rotation direction. 14. A method of imparting force on a multiphase fluid, comprising: rotating an elongated member about a longitudinal axis in a rotation direction, the elongated member having fixedly mounted thereto a plurality of impellers; providing each impeller with a plurality of individual blades, each blade having a leading edge, a trailing edge, a suction side, a high pressure side, a first side engaged with the elongated member, a second side, a chord length, and a chord line defined by a line between the leading and trailing edges, each impeller being mounted such that a chord angle of each blade defined by an angle between the chord line and the rotation direction is less than or equal to a stall angle at which a maximum force is exerted on the multiphase fluid in a direction primarily parallel to the longitudinal axis; and arranging at least one unobstructed opening through each individual blade at a location between the leading edge and the trailing edge, wherein the at least one unobstructed opening comprises a slot on the suction side and at least one orifice, the slot extending from the first side to the second side and defined by a bottom surface, a top surface, and a middle surface extending from the bottom surface to the top surface, the slot disposed between a first portion of the suction side and a second portion of the suction side, the first portion of the suction side extending from the trailing edge to the bottom surface, wherein the first side is partially defined by a first end of the slot and the second side of the blade is partially defined by a second end of the slot, and wherein each orifice of the at least one orifice extends from the high pressure side to the bottom surface; wherein the impellers are configured for subsea de