A heat exchanger comprising an outer jacket (9) with an inner set of vertical pipe elements (1) fastened at their opposing ends in upper and lower sieve walls (2, 3), and having a gas combustion chamber (4) located above the upper sieve wall, as well as partitions (5, 6, 7) mounted crosswise of the
A heat exchanger comprising an outer jacket (9) with an inner set of vertical pipe elements (1) fastened at their opposing ends in upper and lower sieve walls (2, 3), and having a gas combustion chamber (4) located above the upper sieve wall, as well as partitions (5, 6, 7) mounted crosswise of the pipe elements. The partitions have openings for the pipe elements. The heat exchanger is also provided with liquid, gas and exhaust fumes inlet and outlet stub pipes. The outer jacket is conically shape with its diameter increasing upwards. An upper sieve wall (2), is essentially flat as viewed from the side, while an upper partition (5) situated below the wall, is shaped as a cone with its vertex pointing down. The upper partition (5) has a central opening (8) in its central region and an outer diameter corresponding to a diameter of the outer jacket (9).
대표청구항▼
1. A heat exchanger, comprising: an outer jacket;an inner set of vertical pipe elements having opposing ends, the pipe elements being fastened at their respective opposing ends between an upper and a lower sieve wall;a gas combustion chamber located above the upper sieve wall;a plurality of partitio
1. A heat exchanger, comprising: an outer jacket;an inner set of vertical pipe elements having opposing ends, the pipe elements being fastened at their respective opposing ends between an upper and a lower sieve wall;a gas combustion chamber located above the upper sieve wall;a plurality of partitions mounted within the outer jacket in crosswise relationship to the vertical pipe elements, the partitions having openings for receiving the pipe elements;wherein the heat exchanger is also provided with liquid, gas and exhaust fumes inlet and outlet stub pipes;the heat exchanger also being further characterized in that the outer jacket is conically shaped with a diameter which increases in an upward direction; andwherein the upper partition which is situated below the upper sieve wall is shaped as a cone having a vertex which points downwardly, the upper partition having a central opening provided in a central region thereof, and an outer diameter which corresponds to a diameter of the outer jacket. 2. The heat exchanger of claim 1, wherein the upper sieve wall forms a planar or near planar surface, as viewed from the side, while the upper partition converges downwardly toward the central opening in a plane which is non-parallel to that of the upper sieve wall, thereby defining a conical surface of a cone, whereby if a divergence angle is drawn which measures a degree of opening or flare of the conical surface of the upper partition, then the planar surface of the upper sieve wall will form a greater divergence angle than the divergence angle drawn for the cone which forms the upper partition. 3. The heat exchanger of claim 2, wherein the divergence angle of the upper sieve wall is greater than 90° but less than or equal to 180°. 4. The heat exchanger of claim 3, wherein the divergence angle of the upper sieve wall is approximately 180°. 5. The heat exchanger of claim 2, wherein the divergence angle of the upper partition is in the range from about 120°-160°. 6. The heat exchanger of claim 5, wherein the cones of the upper partition and lower sieve wall each have the same divergency angle. 7. The heat exchanger of claim 1, wherein the lower sieve wall, like the upper partition, is also shaped as a cone having its vertex directed downwards. 8. The heat exchanger of claim 1, wherein successive partitions located within the outer jacket have alternately an outer diameter corresponding to the diameter of the outer jacket and then smaller than the diameter of the outer jacket, whereas the partitions having an outer diameter corresponding a diameter of the outer jacket also have a central opening in to central region thereof. 9. The heat exchanger of claim 8, wherein the additional openings are located in a locus of points which define one circle or a plurality of concentric circles. 10. The heat exchanger of claim 1, wherein the upper partition is provided with evenly distributed additional openings in the conical surface thereof.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (9)
Rong,Xiaoyang; Cheadle,Brian E., Fuel conversion reactor.
Cook F. Bert (Columbus OH) Petty Stephen E. (Dublin OH) Meacham ; Jr. Howard C. (Upper Arlington OH) Christensen Richard N. (Columbus OH) McGahey Kevin R. (Fairfax VA), Generator for absorption heat pumps.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.