A heat exchanger unit includes tube units arranged within a duct unit for heat exchange with combustion gas supplied from a furnace of a thermal power plant, and heat exchanger fins longitudinally formed on outer peripheral surfaces of the tube units and having different thickness and sizes while he
A heat exchanger unit includes tube units arranged within a duct unit for heat exchange with combustion gas supplied from a furnace of a thermal power plant, and heat exchanger fins longitudinally formed on outer peripheral surfaces of the tube units and having different thickness and sizes while heat exchange with the combustion gas is performed through the heat exchanger fin.
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1. A heat exchanger unit comprising: tube units arranged within a duct unit configured for heat exchange with combustion gas supplied from a furnace of a thermal power plant; andheat exchanger fins formed on outer peripheral surfaces of the tube units, wherein the heat exchanger fins have a width si
1. A heat exchanger unit comprising: tube units arranged within a duct unit configured for heat exchange with combustion gas supplied from a furnace of a thermal power plant; andheat exchanger fins formed on outer peripheral surfaces of the tube units, wherein the heat exchanger fins have a width side, a length side and a thickness side, and the length side is longer than the width side and the thickness side, and a direction of the length side of the heat exchanger fins traverses a direction of a longitudinal length of the tube units, the heat exchanger fins having different thickness and sizes, configured to perform heat exchange with the combustion gas. 2. The heat exchanger unit according to claim 1, wherein the tube units have different diameters. 3. The heat exchanger unit according to claim 1, wherein the tube units consist of linear parts, each extending by a predetermined length in the duct unit, and curved parts extending outward from ends of the linear parts, and the linear parts and curved parts are alternately repeated. 4. The heat exchanger unit according to claim 1, wherein the tube units comprise a first tube unit with which the combustion gas first comes into contact, and second to nth tube units arranged in order and adjacent to the first tube unit, and the tube units have increasing diameters in a direction toward the nth tube unit from the first tube unit. 5. The heat exchanger unit according to claim 4, wherein the heat exchanger fins have increasing thicknesses that become thicker in a direction toward the nth tube unit from the first tube unit. 6. The heat exchanger unit according to claim 5, wherein a spaced distance between the heat exchanger fins becomes smaller in a direction toward the nth tube unit from the first tube unit. 7. The heat exchanger unit according to claim 5, wherein the heat exchanger fin located adjacent to an inner side of the duct unit has a thinner thickness than the heat exchanger fin located at a center of the duct unit. 8. The heat exchanger unit according to claim 5, wherein each of the heat exchanger fins has one of a flat shape, a trapezoidal shape that has a decreased width outward of the tube units, or a spiral shape that has a predetermined width and thickness in a longitudinal direction of the tube units. 9. The heat exchanger unit according to claim 1, further comprising a plurality of heat exchanger protrusions arranged on an outer peripheral surface of each of the heat exchanger fins in a longitudinal direction of the heat exchanger fins and extending in a width direction of the heat exchanger fin, wherein the heat exchanger fin comprises protrusion parts protruding from front and rear surfaces thereof and rounded in forward and rearward directions, respectively. 10. The heat exchanger unit according to claim 9, wherein each of the heat exchanger protrusions comprises a rounded part protruding outward from the outer peripheral surface of the heat exchanger fin, and the rounded part has a radius which decreases in a direction toward a rear end of the heat exchanger fin from a front end thereof. 11. The heat exchanger unit according to claim 9, wherein each of the heat exchanger protrusions has upper and lower surfaces inclined downward in a direction from a front end of the heat exchanger fin to a rear end thereof. 12. The heat exchanger unit according to claim 9, wherein the heat exchanger protrusions comprise first heat exchanger protrusions arranged to face the tube units, and second heat exchanger protrusions arranged so as not to face the tube units, and the first heat exchanger protrusions each have a shorter extension length than the second heat exchanger protrusions. 13. The heat exchanger unit according to claim 1, further comprising heat exchanger ribs protruding from an outer peripheral surface of each of the heat exchanger fins and corrugated in a width direction thereof, wherein each of the heat exchanger ribs comprises a guide rib, a center of which is connected to a protruding end of the heat exchanger ribs, the guide rib extending vertically so as to guide movement of the combustion gas along the heat exchanger rib, and the guide rib extends to have the same length in upward and downward directions at the protruding end of the heat exchanger rib, or is perpendicular to the protruding end of the heat exchanger rib to extend outward. 14. The heat exchanger unit according to claim 1, further comprising heat exchanger ribs, wherein each of the heat exchanger ribs comprises a guide rib, a center of which is connected to a protruding end of the guide rib, the guide rib being rounded toward the heat exchanger fins so as to guide movement of the combustion gas along the heat exchanger rib, and the guide rib comprises a first extension part, a center of which is connected to the protruding end of the heat exchanger rib, the first extension part extending vertically to have a predetermined length, and second extension parts respectively bent toward the heat exchanger fins from ends of the first extension part. 15. A heat exchanger unit comprising: tube units arranged within a duct unit configured for heat exchange with combustion gas supplied from a furnace of a thermal power plant; andheat exchanger fins formed on outer peripheral surfaces of the tube units, wherein the heat exchanger fins have a width side, a length side, and a thickness side, and the length side is longer than the width side and the thickness side, and a direction of the length side of the heat exchanger fins traverses a direction of a longitudinal length of the tube units, and the heat exchanger fins having different thickness and sizes and configured to perform heat exchange with the combustion gas,wherein the heat exchanger fins are arranged in a zigzag formation along a movement direction of the combustion gas, andwherein the tube units consist of linear parts, each extending by a predetermined length in the duct unit, and curved parts extending outward from ends of the linear parts, the linear parts and curved parts being alternately repeated, or the tube units comprises a first tube unit with which the combustion gas first comes into contact, and second to nth tube units arranged adjacent to the first tube unit, the tube units having increasing diameters as directed toward the nth tube unit from the first tube unit. 16. The heat exchanger unit according to claim 15, wherein the heat exchanger fins arranged in the zigzag formation comprise: first heat exchanger fins arranged to be inclined at a first angle of inclination to the movement direction of the combustion gas in the first tube unit; andsecond heat exchanger fins arranged to be inclined at a second angle of inclination that is in a direction opposite to an inclined direction of the first heat exchanger fins in the second tube unit adjacent to the first tube unit, the first and second heat exchanger fins being alternately repeated in a longitudinal direction of the duct unit. 17. The heat exchanger unit according to claim 16, wherein the first angle of inclination is an angle of 10 to 15 degrees, and the second angle of inclination is an angle of −10 to −15 degrees. 18. A heat exchanger unit comprising: a plurality of tube units arranged within a duct unit configured for heat exchange with combustion gas supplied from a furnace of a thermal power plant;heat exchanger fins formed on outer peripheral surfaces of the tube units, wherein the heat exchanger fins have a width side, a length side and a thickness side, and the length side is loner than the width side and the thickness side, and a direction of the length side of the heat exchanger fins traverse a direction of a longitudinal length of the tube units, the heat exchanger fins having different thickness and sizes and configured to perform heat exchange with the combustion gas; anda diffusion part defining a predetermined space in the duct unit configured for diffusion of the combustion gas. 19. The heat exchanger unit according to claim 18, wherein: the tube units comprise a first tube unit which the combustion gas first comes into contact with, and second to nth tube units arranged adjacent to the first tube unit; andthe diffusion part is formed between the first to nth tube units, or defines spaces having different sizes in a longitudinal direction of the duct unit. 20. The heat exchanger unit according to claim 19, wherein when the diffusion part is configured of a plurality of diffusion parts in the longitudinal direction of the duct unit, areas of spaces defined by the diffusion parts are decreased toward a rear end of the duct unit in the longitudinal direction thereof.
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이 특허에 인용된 특허 (5)
Gianni Sebastian J. (Wethersfield CT) Seeley William M. (Brewster NY), Concentric tube heat exchange assembly with improved internal fin structure.
Grebe Karl (Starnberg DEX) Glaser Peter (Munich DEX) Baechle Georg (Germering DEX), Heating device, particularly vehicle auxiliary heating device with a quadrangular heat exchanger.
Suzuki, Yoshio; Hiramatsu, Michio, Method of assembling a heat exchanger including a method of determining values of parameters in a heat exchanger, and determining whether the efficiency of the heat exchanger is acceptable.
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