US1670762A - Refluxing tower - Google Patents

Refluxing tower Download PDF

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Publication number
US1670762A
US1670762A US740447A US74044724A US1670762A US 1670762 A US1670762 A US 1670762A US 740447 A US740447 A US 740447A US 74044724 A US74044724 A US 74044724A US 1670762 A US1670762 A US 1670762A
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tower
oil
vapors
coil
pool
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US740447A
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Cross Roy
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Gasoline Products Co Inc
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Gasoline Products Co Inc
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D5/00Condensation of vapours; Recovering volatile solvents by condensation
    • B01D5/0057Condensation of vapours; Recovering volatile solvents by condensation in combination with other processes
    • B01D5/006Condensation of vapours; Recovering volatile solvents by condensation in combination with other processes with evaporation or distillation
    • B01D5/0066Dome shaped condensation

Definitions

  • This invention relates to improvements in refluxing towers, and refers more particularly to a refluxing tower or dephlegmatlng means whereby oil vapors may be relieved of their higher boiling point fractions prior to final condensation.
  • a construction in which are positioned a plurality of stages or compartments wherein separate pools are maintained and through which the vapors are caused to bubble or percol'ate in rising from the bottom to the top of the tower; to provide a bubble tower construction wherein the vapors rising from the lower to the upper part of the tower pass in an. opposed direction to the liquid which gravitates downwardly from pool to pool and is drawn off from the bottom of the tower; to provide a construction in which, in addition to being percolated through a relatively cool oil, the vapors are subjected also to the dephlegmating action I of a closed coil through which is circulated a relatively cool medium such as a raw charging stock or distillate which is desired, to be rerun.
  • I The single figure is a sectional side view of the apparatus.
  • the tower is adapted for use on a skimming plant or on a plant utilizing atmospheric conditions and may also be used in connection with a cracking still in which the vapors are treated under pressure.
  • the tower 1 is 0 preferably of a cylindrical steel shell type having a plurality of pans 2 which are removably supported in the tower, each pan having a number of risers 3 throu h which the vapors pass in their travel rom, the lower part to the upper part of the tower.
  • These risers are covered by caps 4 which serve to reverse the travel of the vapors, causing them to pass beneath the liquid level of the separate pools maintained on the pans due to the height of the overflow pipes 5 whose upper extremities are level with the risers on the pans.
  • the lower extremities of these overflow or downcomer pi es are immersed in the' pool carried by t e pan below.
  • the vapors from the still which are to be treated in the tower are introduced through the vapor inlet line 6 and pass up through the successive pools where they are pplrcolated through the oil in each pool and ally pass ofi? through the goos'eneck 7 which is connected to a final condensing stage not shown.
  • the reflux material collected in the bottom of the tower is drawn oil through the pipe 8 which may be controlled by a manually operated valve or a valve 9 controlled by an automatic liquid level regulating device such as is diagrammatically shown at 10.
  • a further means for dephlegmating the vapors is the introduction of a relatively cooler medium, such as the'raw oil charging stock or a rerun distillate circulated through the inlet line 11 connected with the closed. coil 12 positioned in the top of the tower. The discharge end of this coil connects with a vertical pipe 13 which has a plurality of secondary connections 14 in which are interposed valves 15. The function of these secondary connections is to supply the oil circulated through the closed coil and introduced through the line 11 to any of the pools desired.
  • the pool'into which this oil is to be introduced can best be ascertained by its temperature as it is discharged from the closed coil 12, that is, should the oil, as it is discharged from the closed coil, have substantially the same endpoint temperature as the oil in the top pool, then the valve 15 in the upper secondary line may be opened and the lower valves closed in order to direct this preheated liquid into the top pool. By so doing, it will receive the treatment in the tower the same as the reflux material from the oil vapors.
  • a further method of operation would be to permit a portion of the oil to be charged to the upper pool and the remainder to the' lower stages.
  • the main principal is to preheat the oil in' a coil in the top of the tower which assists in the refluxing treatment to which the vapors are subjected in the bubble tower.
  • This preheated oil is then admitted to the tower in a tray or pan containing the oil corresponding, in a general way, or having substantially the same endpoint as that discharged from the closed preheating coil.
  • Several'difi'erent points of introduction are provided in the tower for the purpose of aflording an entrance to the tower at the most advantageous point.
  • the tower has the advantage that any kind of prou'dct may be introduced.
  • Av pressure distillate requiring rerunning can be circulated through the coil and then introduced into the tower below, thus greatly closed coil, it is decidedly increasing the output of the tower.
  • the final distillate was not radically affected by the introduction of the oil nor was there any objectionable fractions which are invariably present Where the charging stock is introduced directly into the top of the tower. Also, the yield of the tower was noticeably increased.
  • An ordinary bubble tower will have from twenty to thirty trays or pans and the temperature decreasing from below upward at the rate of about 5- F. per tray.
  • the purpose of the invention is not onl to increase the capacity of the tower an improve the heat interchange, but to prevent any of the heavier products of the charged stock, when it is being circulated through the closed coil, from being carried over without thorough fractionation in the tower. Ifthe product pumped in has the same endpoint as "the product being rec0vered,'then it is unnecessary to introduce 'the oil to a lower tray or may be charged directly into the upper part of the tower.
  • a refluxing tower of thecharacter described comprising a bubble tower construction, trays adapted to support pools of oil, said pools having relatively different temperatures, positioned at different levels in the tower, a vapor supply line and perfora- "tions in said trays for permitting the vapors to rise and percolate through the pools of oil'maintained on the trays, a closed coil in the upper portion of the tower wherein a cool medium is introduced and circulated and connections to'the dischar e end of the coil for passing the preheate medium to predetermined trays having thereon oil of substantially the same temperature and to a pool of oil maintained beneath the lowermost tray.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Vaporization, Distillation, Condensation, Sublimation, And Cold Traps (AREA)
  • Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)

Description

INVENTOR.
R. CROSS REFLUXING TOWER Filed Sept. 23, 1924 lrliirnlflll i fllill Patented May 22, 1928;
UNITED STATES 1,670,762 PATENT oFFlcE.
ROY GROSS, OF KANSAS CITY, MISSOURI, ASSIGNOR TO GASOLINE PRODUCTS COM- PANY INC, 015 NEW YORK, N. Y., A CORPORATION 01 NEW YORK.
REFLUXIN TOWER.
Application filed September 29, 1924. Serial No. 740,447.
This invention relates to improvements in refluxing towers, and refers more particularly to a refluxing tower or dephlegmatlng means whereby oil vapors may be relieved of their higher boiling point fractions prior to final condensation.
Among the objects of the invention are, to provide a construction in which are positioned a plurality of stages or compartments wherein separate pools are maintained and through which the vapors are caused to bubble or percol'ate in rising from the bottom to the top of the tower; to provide a bubble tower construction wherein the vapors rising from the lower to the upper part of the tower pass in an. opposed direction to the liquid which gravitates downwardly from pool to pool and is drawn off from the bottom of the tower; to provide a construction in which, in addition to being percolated through a relatively cool oil, the vapors are subjected also to the dephlegmating action I of a closed coil through which is circulated a relatively cool medium such as a raw charging stock or distillate which is desired, to be rerun. I The single figure is a sectional side view of the apparatus.
The tower is adapted for use on a skimming plant or on a plant utilizing atmospheric conditions and may also be used in connection with a cracking still in which the vapors are treated under pressure.
Referring to the drawings, the tower 1 is 0 preferably of a cylindrical steel shell type having a plurality of pans 2 which are removably supported in the tower, each pan having a number of risers 3 throu h which the vapors pass in their travel rom, the lower part to the upper part of the tower. These risers are covered by caps 4 which serve to reverse the travel of the vapors, causing them to pass beneath the liquid level of the separate pools maintained on the pans due to the height of the overflow pipes 5 whose upper extremities are level with the risers on the pans. The lower extremities of these overflow or downcomer pi es are immersed in the' pool carried by t e pan below. The vapors from the still which are to be treated in the tower are introduced through the vapor inlet line 6 and pass up through the successive pools where they are pplrcolated through the oil in each pool and ally pass ofi? through the goos'eneck 7 which is connected to a final condensing stage not shown. The reflux material collected in the bottom of the tower is drawn oil through the pipe 8 which may be controlled by a manually operated valve or a valve 9 controlled by an automatic liquid level regulating device such as is diagrammatically shown at 10.
A further means for dephlegmating the vapors is the introduction of a relatively cooler medium, such as the'raw oil charging stock or a rerun distillate circulated through the inlet line 11 connected with the closed. coil 12 positioned in the top of the tower. The discharge end of this coil connects with a vertical pipe 13 which has a plurality of secondary connections 14 in which are interposed valves 15. The function of these secondary connections is to supply the oil circulated through the closed coil and introduced through the line 11 to any of the pools desired. The pool'into which this oil is to be introduced can best be ascertained by its temperature as it is discharged from the closed coil 12, that is, should the oil, as it is discharged from the closed coil, have substantially the same endpoint temperature as the oil in the top pool, then the valve 15 in the upper secondary line may be opened and the lower valves closed in order to direct this preheated liquid into the top pool. By so doing, it will receive the treatment in the tower the same as the reflux material from the oil vapors.
A further method of operation would be to permit a portion of the oil to be charged to the upper pool and the remainder to the' lower stages. The main principal is to preheat the oil in' a coil in the top of the tower which assists in the refluxing treatment to which the vapors are subjected in the bubble tower. This preheated oil is then admitted to the tower in a tray or pan containing the oil corresponding, in a general way, or having substantially the same endpoint as that discharged from the closed preheating coil. Several'difi'erent points of introduction are provided in the tower for the purpose of aflording an entrance to the tower at the most advantageous point.
The tower has the advantage that any kind of prou'dct may be introduced. Av pressure distillate requiring rerunning can be circulated through the coil and then introduced into the tower below, thus greatly closed coil, it is decidedly increasing the output of the tower. In case 450 F. By so doing, the final distillate was not radically affected by the introduction of the oil nor was there any objectionable fractions which are invariably present Where the charging stock is introduced directly into the top of the tower. Also, the yield of the tower was noticeably increased.
An ordinary bubble tower will have from twenty to thirty trays or pans and the temperature decreasing from below upward at the rate of about 5- F. per tray. As mentioned, the purpose of the invention is not onl to increase the capacity of the tower an improve the heat interchange, but to prevent any of the heavier products of the charged stock, when it is being circulated through the closed coil, from being carried over without thorough fractionation in the tower. Ifthe product pumped in has the same endpoint as "the product being rec0vered,'then it is unnecessary to introduce 'the oil to a lower tray or may be charged directly into the upper part of the tower. I claim as my invention': 7
A refluxing tower of thecharacter described, comprising a bubble tower construction, trays adapted to support pools of oil, said pools having relatively different temperatures, positioned at different levels in the tower, a vapor supply line and perfora- "tions in said trays for permitting the vapors to rise and percolate through the pools of oil'maintained on the trays, a closed coil in the upper portion of the tower wherein a cool medium is introduced and circulated and connections to'the dischar e end of the coil for passing the preheate medium to predetermined trays having thereon oil of substantially the same temperature and to a pool of oil maintained beneath the lowermost tray.
ROY CROSS.
US740447A 1924-09-29 1924-09-29 Refluxing tower Expired - Lifetime US1670762A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2419528A (en) * 1944-05-13 1947-04-29 Phillips Petroleum Co Catalytic conversion apparatus

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2419528A (en) * 1944-05-13 1947-04-29 Phillips Petroleum Co Catalytic conversion apparatus

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