High chord bucket with dual part span shrouds and curved dovetail

What is claimed is: 1. A turbine bucket comprising: an entry dovetail; an airfoil portion extending from the entry dovetail, the airfoil portion having a leading edge, a trailing edge, a pressure side and a suction side; and radially-inner and radially-outer part-span shrouds on each of the pressure side and the suction side of the airfoil portion, radially between the entry dovetail and an outer tip of the airfoil portion, the radially-inner and radially-outer part-span shrouds on both the pressure side and the suction side of the airfoil portion having faces adapted to engage and slide relative to faces of corresponding radially-inner and radially-outer part-span shrouds on adjacent buckets, wherein at least the radially-inner part-span shrouds have airfoil-shaped cross sections, the airfoil-shaped cross-sections being formed with a chord aspect ratio in the range of 1.05 to 1.2, each of the radially-inner part-span shroud on the pressure side and the radially-inner part-span shroud on the suction side having a leading edge and a trailing edge, a span of the radially-inner part-span shrouds being measured as a sum of 1) a distance from the pressure side of the airfoil portion along the leading edge of the radially-inner part-span shroud on the pressure side to the face of the radially-inner part-span shroud on the pressure side and 2) a distance from the suction side of the airfoil portion along the leading edge of the radially-inner part-span shroud on the suction side to the face of the radially-inner part-span shroud on the suction side, wherein the radially inner part-span shroud lies in a range of from 20-60% of a radial length of the airfoil portion, as measured from a radially innermost end of the airfoil portion, wherein the radially outer part-span shroud lies in a range of from 60-90% of a radial length dimension of the airfoil portion as measured from a radially innermost location on the airfoil portion, wherein the entry dovetail is curved from a leading edge of the airfoil portion to a trailing edge of the airfoil portion, wherein an outermost end of the bucket is provided with a squealer tip, and wherein said faces of at least said radially outer part-span shrouds are substantially Z-shaped and include a pair of parallel surfaces connected by an angled surface, the angled surface defining an angle of between 20 and 80 degrees relative to an axis of a turbine rotor shaft. 2. The turbine bucket of claim 1 wherein at least the outer part-span shrouds extend 20-75% of a width dimension of the airfoil portion as measured between the leading and trailing edges of the airfoil portion. 3. The turbine bucket of claim 1 wherein a radial distance between the radially-inner and radially-outer part-span shrouds is at least 10% of a radial length of the airfoil portion as measured from a radially-innermost end of the airfoil portion. 4. A rotor wheel for a turbine comprising a row of buckets mounted about an outer periphery of the rotor wheel, each bucket comprising: an entry dovetail; an airfoil portion extending radially outwardly from the entry dovetail; and radially-inner and radially-outer part-span shrouds on each of the pressure side and the suction side of the airfoil portion, radially between the entry dovetail and a radially-outer tip of the airfoil portion, the radially-inner and radially-outer part-span shrouds on both the pressure side and the suction side of the airfoil having faces adapted to engage and slide relative to faces of corresponding part-span shrouds on adjacent buckets at turbine operating temperature, wherein the radially-inner part-span shrouds and the radially-outer part-span shrouds have airfoil-shaped cross sections, the airfoil-shaped cross-sections being formed with a chord aspect ratio in the range of 1.05 to 1.2, a span of the radially-inner part-span shrouds and the radially-outer part-span shrouds being measured as a distance between the airfoil portion and a respective adjacent bucket, wherein the radially inner part-span shroud lies in a range of from 20-60% of a radial length of the airfoil portion, as measured from a radially innermost end of the airfoil portion, wherein the radially outer part-span shroud lies in a range of from 60-90% of a radial length dimension of the airfoil portion as measured from a radially innermost location on the airfoil portion, wherein the entry dovetail is curved from a leading edge of the airfoil portion to a trailing edge of the airfoil portion, wherein an outermost end of the bucket is provided with a squealer tip, and wherein said faces of at least said radially outer part-span shrouds are substantially Z-shaped and include a pair of parallel surfaces connected by an angled surface, the angled surface defining an angle of between 20 and 80 degrees relative to an axis of a turbine rotor shaft. 5. The rotor wheel of claim 4 wherein a radial distance between the radially-inner and outer part-span shrouds is at least 10% of a radial length of the airfoil portion as measured from a radially-innermost end of the airfoil portion. 6. A turbine rotor provided with at least one wheel supporting a row of buckets on a periphery of said at least one wheel, each rotor comprising: a turbine bucket comprising an entry dovetail; an airfoil portion extending from the entry dovetail; and radially-inner and radially-outer part-span shrouds on each of the pressure side and the suction side of the airfoil portion, radially between the entry dovetail and an outer tip, the radially-inner and radially-outer part-span shrouds on both the pressure side and the suction side of the airfoil portion having faces adapted to engage and slide relative to corresponding part-span shrouds on adjacent buckets at turbine operating temperature, wherein the radially-inner part-span shrouds and the radially-outer part-span shrouds have airfoil-shaped cross sections, the airfoil-shaped cross-sections being formed with a chord aspect ratio in the range of 1.05 to 1.2, a span of the radially-inner part-span shrouds and the radially-outer part-span shrouds being measured as a distance between the airfoil portion and a respective adjacent bucket, wherein the entry dovetail is curved from a leading edge of the airfoil portion to a trailing edge of the airfoil portion, wherein an outermost end of the bucket is provided with a squealer tip, and wherein said faces of at least said radially outer part-span shrouds are substantially Z-shaped and include a pair of parallel surfaces connected by an angled surface, the angled surface defining an angle of between 20 and 80 degrees relative to an axis of a turbine rotor shaft, wherein the radially inner part-span shroud lies in a range of from 20-60% of a radial length of the airfoil portion, as measured from a radially innermost end of the airfoil portion, and the radially outer part-span shroud lies in a range of from 60-90% of the radial length dimension; and wherein each of the radially inner and radially-outer part-span shrouds extend 20-75% of a width dimension of the airfoil portion as measured between leading and trailing edges of the airfoil portion; and further wherein a radial distance between the radially-inner and radially-outer part-span shrouds is at least 10% of the radial length.