US2269619A

US2269619A - Heat exchanger

Info

Publication number: US2269619A
Application number: US341097A
Authority: US
Inventors: Samuel J Carpenter
Original assignee: Foster Wheeler Inc
Current assignee: Foster Wheeler Inc
Priority date: 1940-06-18
Filing date: 1940-06-18
Publication date: 1942-01-13
Anticipated expiration: 1959-01-13

Description

SAMUEL J. C fre/DEN TEE QN. mwN

S. J. CARPENTER Jah. 13, 1942.

HEAT EXCHANGER v Filed June 18, 1940 Patented Jan. 13, 1942 UNITED STATES PATENT OFFICE HEAT EXCHANGER Samuel J. Carpenter, Woodbridge, N. J., assignor to Foster Wheeler Corporation, New York, N. Y., a corporation of New York Application June 18,1940, serial No. 341,091 l 2 Claims.

This invention relates to heat exchangers of the shell and tube type such as are employed in the heating and cooling of liquids, vapors and gases. More particularly, the invention pertains to improvements in bales used in such heat exchangers. p

'I'he particular features and advantages of the invention will be understood from the following description considered in connection with the accompanying drawing forming a part thereof, and in which:

Fig. l is a longitudinal sectional view of a heat exchanger embodying the invention, and

Fig. 2 is a transverse sectional view taken on line 2--2 of Fig. 1.

Referring to the drawing, the heat exchanger illustrated includes a flanged cylindrical shell Il having an inlet nozzle Il and an outlet nozzle I2. Within the shell and extending between a fixed tube sheet I3 at one end, and a oating tube sheet Il at the other end, are tubes I5. The fixed tube sheet is clamped between shell flange I6 and a stationary channel member I'I by stud bolts I8. The channel member is closed at its outer end by cover plate I9 secured in position by stud bolts 23. A partition 2l divides the channel member I1 into compartments'22 and 23 which communicate respectively with an inlet nozzle 24 and an outlet nozzle 25. At-theopposite end of the shell, the floating tube sheet I4 is clamped between a split ring 26 and return header cover plate 21 by bolts 28.' The shell at this end is closed by shell cover 29 which is secured to shell flange 3D by stud bolts 3l.

One of the heat exchange mediums will ow through the tubes I in two passes from the stationary channel inlet to the outlet thereof, while another liquid, vapor or gas, will flow through the intertube space in the shell from the inlet II to the outlet I2. The floating head to which the tubes are connected at one end will provide for the relative expansion and contraction of the tubes and the shell. Since the clamping ring 26 is split, or comprises a plurality ofseparate parts, it is readily demountable and may be removed, together with the' cover 21 from the oating tube sheet to permit the latter to be withdrawn through the shell with the tube bundle from the stationary tube sheet end for the purpose of inspection or cleaning. A

A plurality of spaced transverse bailes 32 through which the tubes pass, and which are free to move with respect to the inner surface of the shell serve to direct flow through the intertube space in the shell in a zig-zag path, and

to prevent by-passing of any portion of the tube surface. Disposed opposite the shell inlet nozzle I I and in contact with one of the transverse bafiies 32 is an inverted U-shaped removable wrapper plate baille 33. As shown in the drawing, this baille extends longitudinally of the tubes in the space between the outermost tubes of the second tube pass and the shell, and comprises an. upper horizontal portion and vertically inclined portions which extend downwardly and outwardly adjacent the outermost tubes of rows forming the second pass. The arrangement is such that in operation, that portion of the tube bundle which is opposite the shell inletA Ii is shielded from direct impingement of the entering liquid, vapor or gas, a substantial portionv of which is caused to ow substantially longitudinally of the shell towards the oating tube sheet end before coming in contact with the tubes. The wrapper baille is supported and secured in position by relatively

short tie rods

34 and 35 to which the lower edges of the vertically inclined portions of the baille are welded. The tie rods are supported by the transverse baffle 32 which engages the inner end of the wrapper baiile and the adjacent transverse baille Y'32 `through both of which the tie rods extend. The inner ends of the rods are threaded and receive nuts 36 by means of which the assembly is secured together. The

rods

34 and 35 pass through tubular' spacers 3I between the two transverse supporting bailies, which prevent displacement or distortion of the baffles when the nuts 36 are tightened.

A wrapper bailie 38 is disposed adjacent the shell outlet nozzle I2. Baiiie 38 is similar to the wrapper baille 33, excepting that it is disposed in an inverted position. However, it functions mainly as a distributing baille rather than as an impingement preventing device. As indicated by the flow arrows, a substantial portion of liquid, vapor or gas flowing through the shell must pass around the outer end of the baille 38 in contact with the tube surface adjacent the iixed tube sheet before entering the outlet nozzle.

When the tube bundle is removed from the shell for the purpose of inspection or cleaning, the wrapper bailles are removed from the tubes by releasing the nuts 36, and then moving the baiiles together with the tie rods to which they are attached. longitudinally of the tubesrand to,-

wards the adjacent tube sheets until the tie rods are free of the transverse supporting bafes. The bailles may' then be lifted clear of the tube bundle. The distance between the outer end of each wrapper baiiie and the adjacent tube sheet should be great enough to permit the baille to be moved .longitudinally after the nuts 36 have been removed to free the

tie rods

34 and 35 from the transverse bales through which they pass. In prior constructions when wrapper type bailies were employed in apparatus of the kind described, it has been customary to support the baffles by tie rods which extended for the full length of the tube bundle between the tube sheets. Obviously with such an arrangement it was impossible to remove the baies readily Without first severing their connection to the tie rods, which was a costly and awkward procedure.

It will be understood that changes may be made in the form, location and relative arrangement of the several parts of the apparatus disclosed without departing from the principles of the invention which is not to be limited excepting by the scope of the appended claims.

What is claimed is:

1. Heat exchange lapparatus comprising a shell having an opening through which fluid enters the shell and an opening through which fluid leaves the shell, tubes in the shell, spaced baffles disposed transversely of the tubes for directing the flow of fluid through the shell from one of said openings to the other, a wrapper baffle in the shell between the tubes and the shell in the region of at least one of said openings. rods secured to the wrapper battle, said rods extending through and terminating adjacent the far side of a group of transverse bailles adjacent said one opening, and means for removably securing the rods to said group of transverse ballies.

2. Heat exchange apparatus comprising a shell having an opening through which fluid enters the shell and an opening through which fluid leaves the shell, tubes in the shell, spaced baffles disposed transversely of the tubes for directing the ow of fluid through the shell from one of said openings to the other, a wrapper baffle in the shell between the tubes and the shell in the region of at least one of said openings and substantially in engagement with one of said transverse baies. rods secured to the end portions of said Wrapper baille, said rods extending through said one transverse baiiie and the baille adjacent thereto and terminating adjacent the far side of said last mentioned baille, and means for removably securing the rods to said bales.

SAMUEL J. CARPENTER.