IL300315A

IL300315A - Compact heat exchanger

Info

Publication number: IL300315A
Application number: IL300315A
Authority: IL
Original assignee: Thyssenkrupp Marine Sys Gmbh; Thyssenkrupp Ag
Priority date: 2020-08-13
Filing date: 2021-08-05
Publication date: 2023-04-01
Also published as: DE102020210310A1; WO2022033947A1; EP4196735A1

Claims

thyssenkrupp Marine Systems GmbHthyssenkrupp AG200426P10WO Claims

1. A heat exchanger (10), wherein the heat exchanger (10) is designed as a plate heat exchanger, wherein the heat exchanger (10) has dividing walls (60), wherein the heat exchanger (10) has first regions (50) between the dividing walls (60) for a gaseous heat-releasing medium and second regions (210) between the dividing walls (60) for a heat-absorbing heat exchange fluid, wherein the first regions (50) and the second regions (210) are separated by a multitude of dividing walls (60), wherein alternating first regions (50) and second regions (210) are arranged between every two adjacent dividing walls (60), wherein the heat exchanger (10) has a heat exchange fluid inlet (20) and a heat exchange fluid outlet (40), wherein a heat exchange fluid distribution region is disposed between the heat exchange fluid inlet (20) and the second regions (210), wherein the gaseous medium flows through the heat exchanger (10) from the bottom upward, wherein the heat exchange fluid flows through the heat exchanger (10) from the top downward, wherein the heat exchange fluid inlet (30) is disposed laterally at the upper edge of the heat exchanger (10), characterized in thatthe heat exchange fluid distribution region guide the heat exchange fluid stream through multiple openings (130) into the second regions (210), wherein the openings (130) between the connecting regions (160, 170) and the second regions (210) are of different size, wherein the size of the openings (130) is adjusted such that the same amount of heat exchange fluid flows into each second region in the same period of time.

2. The heat exchanger (10) as claimed in claim 1, characterized in thatthe heat exchange fluid distribution region divides the heat exchange fluid stream into a first substream (140) and a second substream (150), wherein the first substream (140) and the second substream (150) are guided laterally in opposite directions, wherein the heat exchange fluid distribution region has at least a first connecting region (160) and a second connecting region (170), wherein the first connecting region (160) guides the heat exchange fluid from the first substream (140) and the second connecting region (170) guides the heat exchange fluid from the second substream (150) through multiple openings (130) into the second regions (210). thyssenkrupp Marine Systems GmbHthyssenkrupp AG200426P10WO

3. The heat exchanger (10) as claimed in either of the preceding claims, characterized in thatat least a first flow body (180) is disposed between the first substream (140) and the first connecting region (160), with at least a second flow body (190) disposed between the second substream (150) and the second connecting region (170).

4. The heat exchanger (10) as claimed in any of the preceding claims, characterized in thatthe heat exchange fluid inlet (20) is disposed in the middle at the upper edge of the heat exchanger (10).

5. The heat exchanger (10) as claimed in any of the preceding claims, characterized in thatthe second regions (210) have at least three essentially horizontal deflecting walls (110), wherein the deflecting walls (110) extend over 50% to 85% of the width of the second regions (210), wherein the uppermost deflecting wall (110) is on the side of the heat exchange fluid distribution region, wherein the deflecting walls (110) commence in an alternating manner from the opposite sides of the second regions (210), so as to result in a looping flow through the second region (210) for the heat exchange fluid, with corner elements (120) disposed between each deflecting wall (110) and the outer walls of the second region (210), wherein the angle between the corner element (120) and the deflecting wall (110) is not more than 45°, wherein the angle between the corner element (120) and the outer wall is not more than 45°.

6. The heat exchanger (10) as claimed in any of the preceding claims, characterized in thatthe heat exchange fluid inlet (30) has a droplet-shaped cross section.

7. The heat exchanger (10) as claimed in any of the preceding claims, characterized in thatthe first regions (50) have baffle plates (80), wherein the baffle plates (80) are arranged at right angles to the dividing walls (60), wherein the baffle plates (80) are spaced apart from one another, wherein the baffle plates (80) are arranged one on top of another in a zigzag, wherein the zigzag rows of the baffle plates (80) are arranged alongside one another, wherein the side walls of the baffle plates (80) have an angle with the dividing wall (60) of not more than 45°. thyssenkrupp Marine Systems GmbH 200426P10WOthyssenkrupp AG

8. The heat exchanger (10) as claimed in any of the preceding claims, characterized in thatthe baffle plates (80) are each arranged in pairs opposite one another on the opposite dividing walls (60), wherein the opposite baffle plates (80) are connected to one another in the middle between the dividing walls (60).

9. A process for producing a heat exchanger (10) as claimed in any of the preceding claims by means of additive manufacturing techniques.

10. A submarine having a fuel cell device, wherein the fuel cell device includes at least one heat exchanger (10) as claimed in any of claims 1 to 8.