Structured packing and method

We claim: 1. A structured packing comprising: a plurality of corrugated sheets arranged in a juxtaposed relationship, each corrugated sheet comprising: (a) two opposed surfaces; (b) two opposed edges; (c) a plurality of openings located throughout the corrugated sheets and communicating between the two opposed surfaces; and (d) a plurality of corrugations disposed on the opposed surfaces extending between the two opposed edges and arranged in a repeating, undulating pattern having alternating peaks and troughs on the opposed surfaces, and wherein each of the plurality of corrugations further comprise: (i) a first end region disposed proximate one of the two opposed edges and a second end region disposed proximate the other of the two opposed edges, wherein the end regions of the plurality of corrugations further comprise a plurality of straight, parallel sections extending inwardly from the two opposed edges at right angles thereto and wherein each of the straight, parallel sections of the end regions have a length equal to about a corrugation width of the corrugations multiplied by a constant within a range between 2.0 and 3.0; (ii) a main region centrally disposed on the opposed surfaces away from the at least one of the opposed edges, wherein the main regions of the plurality of corrugations further comprise a plurality of straight, parallel sections oriented at an acute angle to the two opposed edges; and (iii) a first transition region disposed between and connecting the first end region and the main region and a second transition region disposed between and connecting the second end region and the main region, wherein the transition regions of the plurality of corrugations further comprise a plurality of arcuate sections connecting the straight, parallel sections of the main regions with the straight, parallel sections of the end regions; wherein a plurality of corrugated sheets are configured such that that apices of the peaks of the corrugations in the straight, parallel sections of the main region are coincident with tangents to the apices of the peaks of the corrugations in the arcuate sections of the transition regions; wherein the plurality of corrugated sheets are oriented such that the end regions, the main region and the transition regions of the corrugations on each of the plurality of corrugated sheets are vertically aligned with one another; and wherein the straight, parallel sections of the main regions of the corrugations on adjacent corrugated sheets are oriented in a crisscrossing relationship. 2. The structured packing of claim 1 , wherein each of the apices is curved and each of the plurality of corrugations has a triangular, transverse cross-section with two equal sides connected by the curved apices. 3. The structured packing of claim 1 , wherein the arcuate sections of the transition regions each have a radius of curvature in a range of between about 25.0 percent and about 75.0 percent of the corrugation width. 4. The structured packing of claim 1 , wherein the radius of curvature is about 50.0 percent of the corrugation width. 5. The structured packing of claim 1 , wherein the length of the straight, parallel sections of the end regions is no less than about 1.27 cm and no greater than about 3.81 cm. 6. The structured packing of claim 1 , wherein the acute angle is between about 40 degrees and 45 degrees.