Nuclear fuel assembly support grid

What is claimed is: 1. A fuel assembly for a nuclear reactor comprising: a parallel, spaced array of a plurality of elongated nuclear fuel rods supported between a lower nozzle and an upper nozzle and having an axial length along the elongated dimension of the nuclear fuel rods; and a plurality of spaced support grids arranged in tandem along the axial length of the fuel rods, between the upper nozzle and the lower nozzle, at least partially enclosing an axial portion of a circumference of each fuel rod within a corresponding support cell of the support grids to maintain a lateral spacing between fuel rods, at least one of the support grids comprising; a plurality of elongated, intersecting straps that define the support cells at an intersection of each four adjacent straps that surround the nuclear fuel rods, a length of each strap along its elongated dimension, between the intersections of the four adjacent straps forming a wall of the corresponding support cell, wherein an intersection of each wall that surrounds a part of the circumference of the fuel rods, with an adjoining wall that surrounds a part of the circumference of the fuel rods, supports a mixing vane that extends over the corresponding support cell; and wherein the mixing vanes are directly attached to and supported at the intersection from a stem that has a rounded cross section facing the support cell with the stem extending over the intersection and into the support cells with a radius of curvature of the rounded cross section of the stem decreasing as the stem extends into the support cell. 2. The fuel assembly of claim 1 wherein the mixing vanes that extend on opposite sides of the walls that support the fuel rods are tilted in an opposite direction to form a counter rotating effect on reactor coolant. 3. The fuel assembly of claim 1 wherein the mixing vanes that extend on opposite sides of the walls that support the fuel rods are tilted in the same direction to reinforce a flow pattern on reactor coolant. 4. The fuel assembly of claim 1 wherein the stem extends and is tapered above an attachment of the vanes to the stem and the stem is rounded at its upper most and lower most extensions. 5. The fuel assembly of claim 4 wherein the stem has a streamlined torpedo body. 6. The fuel assembly of claim 1 wherein the stem has an elongated body and a lower end of at least some of the stems have diametrically extending slits that fit over the walls extending from the intersection. 7. The fuel assembly of claim 6 wherein the stem is welded to the walls. 8. The fuel assembly of claim 7 wherein the stem is welded at the slits. 9. The fuel assembly of claim 8 wherein the mixing vanes have either a flat or curved shape such that the pressure drop, heat transfer and critical heat flux performance is optimized.