A catalytic reactor/heat exchange device (10) is provided for generating a catalytic reaction in a reaction fluid flow (12) and transferring heat to a cooling fluid flow (14). The device includes reaction flow channels (20) with turbulators (30) therein. The turbulators (30) include an initial porti
A catalytic reactor/heat exchange device (10) is provided for generating a catalytic reaction in a reaction fluid flow (12) and transferring heat to a cooling fluid flow (14). The device includes reaction flow channels (20) with turbulators (30) therein. The turbulators (30) include an initial portion (40) and a selected portion (34) that includes a catalytic layer or coating (36) to initiate the desired catalytic reaction at a location (38) located downstream from the initial portion (40). In some preferred forms, each of the selected portions (34) of the turbulators (30) include at least one downstream section (103, 120) wherein the heat transfer performance has been intentionally reduced to improve performance of the device (10) during start up conditions.
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The invention claimed is: 1. A catalytic reactor/heat exchange device for generating a catalytic reaction in a reaction fluid flow and transferring heat to a cooling fluid flow, the catalytic reactor/heat exchange device comprising: a reaction flow inlet; a reaction flow outlet; a set of reaction f
The invention claimed is: 1. A catalytic reactor/heat exchange device for generating a catalytic reaction in a reaction fluid flow and transferring heat to a cooling fluid flow, the catalytic reactor/heat exchange device comprising: a reaction flow inlet; a reaction flow outlet; a set of reaction flow channels extending between the reaction flow inlet to the reaction flow outlet to direct the reaction fluid flow through the device; a set of cooling flow channels interleaved with the reaction flow channels to direct the cooling fluid flow in heat exchange, counterflow relation with the reaction fluid flow; and turbulators in each of the reaction flow channels, a selected portion of each of the turbulators including a catalytic layer to initiate said catalytic reaction at a location spaced downstream from said reaction flow inlet, said catalytic layer beginning at said location and extending toward said reaction flow outlet, an initial portion of each of the turbulators extending between the reaction flow inlet to said location and being free of said catalytic layer to delay said catalytic reaction until the reaction fluid flow reaches said location. 2. The catalytic reactor/heat exchange device of claim 1 wherein said selected portion of each of said turbulators is a separate piece from said initial portion of each of said turbulators. 3. The catalytic reactor/heat exchange device of claim 1 wherein said selected portion and said initial portion of each of said turbulators are a unitary construction. 4. The catalytic reactor/heat exchange device of claim 1 wherein each of said reaction flow channels is bounded by a pair of spaced, generally planar heat transfer surfaces, and each of said turbulators includes a plurality of alternating peaks and valleys joined by wall sections, each of said peaks adjacent one of said pair of heat transfer surfaces, each of said valleys adjacent the other of said pair of heat transfer surfaces, each of said selected portions including a downstream section wherein said wall surfaces are interrupted by louvers having lengths that extend generally parallel to said pair of heat transfer surfaces. 5. The catalytic reactor/heat exchange device of claim 4 wherein said turbulators are lanced-and-offset fins. 6. The catalytic reactor/heat exchange device of claim 1 wherein each of said reaction flow channels is bounded by a pair of spaced, generally planar heat transfer surfaces, and each of said turbulators includes a plurality of alternating peaks and valleys joined by wall sections, each of said peaks adjacent one of said pair of heat transfer surfaces, each of said valleys adjacent the other of said pair of heat transfer surfaces, each of said selected portions including a downstream section wherein the peaks and valleys are spaced closer to each other than the peaks and valleys of the remainder of said selected portion in a direction transverse to the planes of said pair of heat transfer surfaces and are spaced from the pair of heat transfer surfaces to minimize the transfer of heat from said downstream section to the pair of heat transfer surfaces. 7. The catalytic reactor/heat exchange device of claim 6 wherein said turbulators are lanced-and-offset fins. 8. The catalytic reactor/heat exchange device of claim 1 wherein each of said reaction flow channels is bounded by a pair of spaced, generally planar heat transfer surfaces, and each of said turbulators includes a plurality of alternating peaks and valleys joined by wall sections, each of said peaks adjacent one of said pair of heat transfer surfaces, each of said valleys adjacent the other of said pair of heat transfer surfaces, each of said selected portions including an upstream section wherein the peaks and valleys are brazed to the pair of heat transfer surfaces, and a downstream section wherein the peaks and valleys are not brazed to the pair of heat transfer surfaces to minimize the transfer of heat from said downstream section to the pair of heat transfer surface. 9. The catalytic reactor/heat exchange device of claim 8 wherein said turbulators are lanced-and-offset fins. 10. The catalytic reactor/heat exchange device of claim 1 wherein each of said reaction flow channels is bounded by a pair of spaced, generally planar heat transfer surfaces, and each of said turbulators includes a plurality of alternating peaks and valleys joined by wall sections, each of said peaks adjacent one of said pair of heat transfer surfaces, each of said valleys adjacent the other of said pair of heat transfer surfaces, each of said selected portions including a downstream section wherein the peaks and valleys are removed to minimize the transfer of heat from said downstream section to the pair of heat transfer surfaces. 11. The catalytic reactor/heat exchange device of claim 1 wherein said reaction and flow channels are defined by plates located between each of said channels and bars located between each of the plates. 12. The catalytic reactor/heat exchange device of claim 11 wherein said turbulators are lanced-and-offset fins. 13. The catalytic reactor/heat exchange device of claim 1 wherein said flow channels are defined by drawn cup plates located between each of said channels with embossment that extend from each of the plates to contact adjacent plates to bound said flow channels. 14. The catalytic reactor/heat exchange device of claim 13 wherein: each of said flow plates includes a reaction flow inlet opening in fluid communication with said reaction flow inlet, a reaction flow outlet opening in fluid communication with a reaction flow outlet, a cooling flow inlet opening, and a cooling flow outlet opening; each of said reaction flow channels includes a pair of flow directing inserts therein, one of said inserts surrounding an aligned pair of said cooling flow outlet openings and including a profiled surface extending across said reaction flow channel from an aligned pair of said reaction flow inlet openings to direct the reaction fluid flow therefrom across said reaction flow channel, the other of said inserts surrounding an aligned pair of said cooling flow inlet openings and including a profiled surface extending across said reaction flow channel from an aligned pair of said reaction flow outlet openings to direct the reaction fluid flow across said reaction flow channel to said aligned pair of reaction flow outlet openings; and each of said cooling flow channels includes another pair of flow directing inserts therein, one of said inserts surrounding an aligned pair of said reaction flow outlet openings and including a profiled surface extending across said cooling flow channel from an aligned pair of said outlet flow inlet openings to direct the cooling fluid flow therefrom across said cooling flow channel, the other of said inserts surrounding an aligned pair of said reaction flow inlet openings and including a profiled surface extending across said cooling flow channel from an aligned pair of said cooling flow outlet openings to direct the cooling fluid flow across said reaction flow channel to said aligned pair of cooling flow outlet openings. 15. The catalytic reactor/heat exchange device of claim 1 wherein each of said initial portions occupies about 25% to 50% of the corresponding reaction flow channel. 16. The catalytic reactor/heat exchange device of claim 15 wherein each of said initial portions occupies about 25% of the corresponding reaction flow channel.
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