|Publication number||US3772082 A|
|Publication date||Nov 13, 1973|
|Filing date||Apr 3, 1972|
|Priority date||Jul 26, 1967|
|Publication number||US 3772082 A, US 3772082A, US-A-3772082, US3772082 A, US3772082A|
|Original Assignee||Dow Chemical Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (3), Referenced by (11), Classifications (11)|
|External Links: USPTO, USPTO Assignment, Espacenet|
United States Patent 1 [111 3,772,082 Dunn, Jr. Nov. 13, 1973 VAPOR DEGREASING PRDCESS 3,010,853 11/1961 Elliott l34/l0 UX 3,460, 9 819 9 4  Inventor: James L. Dunn, Jr., Lake Jackson, 9 0 l 6 Barday 13 B1 Tex.
Primary Examiner-Norman Yudkoff  Asslgnee: h Dow cllemlcal Company Assistant Examiner-David Edwards Mldland Mich Attorney-Glwynn R. Baker et al.  Filed: Apr. 3, 1972  Appl. No.: 240,487 57 ABSTRACT 60 i ApNphcztmn Data A novel method and apparatus for degreasing metals. g g if 91 S 1969* The method comprises introducing the soiled metal fi g ig y 'f 53 3 into hot solvent or vapors of a solvent, separating the y solids, transporting and vaporizing a portion of the sol-  U S Cl 134/10 134/11 134/40 vent and returning the vapors and hot solvent to the 203/47 cleaning zone. The improved apparatus has means for  lm Cl Bosh 7/04 C23 5/02 removing the particulate soil from the cleaning zone,  Fie'ld 202/170 170 means for generating hot solvent and vapors indepen- 1 1 dent of the cleaning zone but integral withthe apparatus, a means for removing oils, greases, and the like  References Cited from the solvent and means for returning the solvent UNITED STATES PATENTS in a clean condition to the cleaning zone.
1,938,841 12/1933 Koch 134/11 X 2 Claims, 1 Drawing Figure (d/VOU/T WA 76A 515F424 To: 19
rzaw Z4 ram/7:01.
$7AM tum 5r H547 .Z'ICHAA/GEF VAPOQ-Z/QU/D 551 A RA TOR VAPOR DEGREASING PROCESS This is a continuation of application Ser. No. 843,267, filed June 5, I969, now abandoned, which is a division of Ser. No. 656,186, filed July 26, 1967, now U. S. Pat. No. 3,471,372.
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention concerns metal cleaning wherein, for example, a metal part soiled with cutting oils, grinding compounds, particulate metals, etc., is introduced into a solvent or the vapors of a solvent to dissolve the oils and greases and flush the metal fines and turnings and other particulate soils from the part. During the period the part remains in the solvent cleaning zone, its temperature is raised from ambient temperatures to the temperature of the surrounding solvent or vapors. This feature admits of removal of the metal part in a substantially dry condition.
2. Description of the Prior Art The apparatus which is commercially employed to accomplish this type of cleaning is generally a rectangular vessel suitable for holding a liquid. The vessel is either direct fired or heated with steam or by an insulated electric heater to heat the liquid solvent, generally to its boiling point, and thus generate a zone of vapors above the liquid. In order to prevent the loss of large quantities of solvent vapors from the vessel, the side walls are cooled by water flowing through a water jacket normally integral with the walls. The interior of the vessel at about the same level as the water jacket is provided with cooling coils to condense the vapors, thereby maintaining an upper limit to the vapor zone and reducing the amount of solvent lost to the atmosphere. Such an arrangement has been in use for years. These conventional degreasers, with their heating means at or near the bottom of the liquid in the vessel, are subject to several disadvantages which make the degreaser a troublesome apparatus to operate. Firstly, the heat transfer to the solvent is steadily reduced as the passage of time occurs due to fouling of the heat exchange surface with particulate soil as well as decomposition products of the oil, greases and the solvent. It has become somewhat standard practice to shut down the degreaser weekly, drain the solvent and clean the sludge which forms during the weeks operation. Further, it has been necessary to continuously or periodically during the operational week or at least once a week, when shut down, to distill the solvent to remove the accumulated oils and greases. Generally, the still used to accomplish solvent clean-up is a tank containing heating coils and condensing coils, e.g., simple column above a still pot with a condensor on the vapor side, so that the solvent is vaporized, the vapors condensed and collected and clean solvent returned to a storage tank or the degreaser in the liquid form. Such a device being of considerable size requires an inventory of solvent almost as great as that in the degreaser. The still creates certain problems among which is the depletion of certain inhibitors from the solvent. This depletion, or partitioning, as such is known to the trade, of the inhibitors into the pot of the still, removes the inhibitors from the degreaser where they are needed and is one more factor contributing to corrosion of the equipment and degradation of the solvent.
SUMMARY OF THE INVENTION The present invention overcomes many of the prior art disadvantages by removing the'particulate solids from the cleaning zone, removing the heating elements from the cleaning zone, and circulating the solvent through the heating zone, thus accomplishing a twofold purpose, to wit: reducing fouling of the heat transfer surfaces by eliminating the contact therewith of the particulate solids and reducing the deterioration of the solvent due to undue hot spots or higher temperature differentials necessary in the conventional degreaser heaters. These advantages are attributable in part to the turbulent flow of the solvent through the heating zone and to passing only a small portion of the solvent through the heating zone to generate the necessary vapors. The vapors generated in the heating zone move the liquid in a turbulent manner. Further, by utilizing a similar type of heating and fluid moving means to vaporize the solvent in the oil and grease removal section on an intermittent or continuous basis, a more uniformly clean solvent is available.
BRIEF DESCRIPTION OF DRAWING The drawing illustrates one embodiment of the present invention. A generally rectangular vessel 10 suitable for holding liquid and comprising four walls and a bottom is provided with a water-jacket 11 near the upper edges of the four walls to prevent the transfer of heat through the walls above the water-jacket, thus assisting in establishment of a vapor level. Juxtapositioned with respect to the water-jacket 11 and inside the vessel 10 are a set of cooling coils 12 which establish the upper reaches of the vapor level. Directly below the coils 12 is a collecting trough 13 connected through the wall of vessel 10 to a water-separator 14.
'So far, we have described the details which are common to most degreasers in commercial use. From here on, the description of the illustration will differ from that commonly known and familiar to the skilled worker. The base of the vessel 10 has a depressed section or sump 15 extending well below the main lateral portion of the vessel. It is to be understood that the depressed section or sump of the apparatus can also be a longitudinal trough, settling basin, tapered bottom structure or any other design which serves to move and isolate particulate matter in a relatively small but easily definable zone in the base of the apparatus. Within this section or sump 15 is a metal basket or seive 15a which is removable. An outlet from the bottom of the sump 15 is connected to a conduit or pipe 16 which traverses outwardly, and upwardly angularly the wall of vessel 10, re-entering the vessel 10 at a point 16a through the wall below the trough 13. The conduit or pipe 16 is provided along a portion of its length with a heat source such as a steam-jacket (heat exchanger) 17, although an electric heater or other heat source may be employed. This system as described constitutes a vaporgenerator and solvent-lift.
Connected in liquid communication with the upper end of the vapor-generator and solvent-lift system, preferably at the point where conduit 16 enters the wall of vessel 10, is conduit 18. This conduit'18 is provided with an orifice flow control 19 and hand valve 19a ahead of the flow control 19. A conduit 18 then connects orifice flow control 19 through a heat exchanger (steam-jacket) 20 to a vapor-liquid separator 21. The
upper end of the separator 21 is connected to the interior of the vessel below the collecting trough 13. From the separator 21 there is provided an oil-rich solvent drain shown as a U" shaped conduit 22 located so as to control the liquid level in separator 21 when a valve 22a is open. The bottom of separator 21 is connected by a conduit 23 to conduit 18:; at a point prior to the entry of conduit 18a into the heat exchanger 20.
The apparatus just described operates in the following manner: liquid solvent, for example, a chlorinated hydrocarbon solvent such as trichloroethylene (l,l,2 trichloroethylene), is introduced into vessel 10 to es tablish a liquid level sufficient to fill conduit 16 to a level of at least about one-third of the steam-jacketed zone 17. The cooling water is turned on to both the water-jacket l1 and the cooling coils 12. Subsequently, the steam is supplied to the steam-jacket l7 surrounding the conduit 16. The solvent in the lower end of the steam-jacketed section of conduit 16 begins to vaporize, creating bubbles which cause the liquid solvent surrounding them to move further up into the conduit 16 and through the jacketed zone. Solvent enters behind these expanding bubbles, becomes heated, forming more bubbles, expanding and moving solvent still further upwardly into the jacketed section of the conduit 16. Finally, vapors and liquid solvent begin to overflow from conduit 16 into opening 16a thus entering the vessel l0 cleaning zone, establishing a vapor zone and a hot liquid solvent. When the vapor zone has been established work can be introduced for cleaning. Conduit 18 has by then filled with liquid solvent and by opening valve 19a, liquid solvent containing dissolved oil flows through the orifice flow control 19, fills conduit 18a and establishes a liquid level in separator 21. The heat exchanger 20 is supplied with heat to heat the solvent to vaporization temperature, and the so-heated solvent and any oil associated therewith is passed into the separator 21, the solvent vapor bubbles again being the motivating force for moving the liquid through the heat exchanger. The vapors on entering the separator 21 pass upwardly and return to the cleaning zone through conduit 23. The unvaporized material, a liquid rich in oil, falls or drops into the separators 21. This material is recycled to the heat exchanger 20 through conduits 24 and 180. It is thus seen that the major portion of the solvent entering the oil removal system is continuously being removed as vapor and returned to the cleaning zone. The oils are concentrated in the liquid section of the separator 21 and continuously or intermittently withdrawn as the liquid level in the separator 21 rises above the overflow drain 22.
It is thus seen that there has been provided a system for generation of vapors and hot solvent with an attendant clean-up which overcomes to a major extent most of the problems of conventional degreasers. The particulate matter collects in an area removed from the cleaning zone and can be readily and conveniently withdrawn. The heat exchange surfaces are free of the major source of fouling. The solvent is not subjected to decomposition conditions. The oils and greases are maintained within limits which reflect good cleaning practice.
DESCRIPTION OF PREFERRED EMBODIMENT A commercial degreaser manufactured of stainless steel, 4' X 4 X 3 /1 deep, having a water-jacket. cooling coils, condensor trough and water separator, and
having its interior divided into two sections with a dam of about 6 inches high extending across the vessel was employed. A sump was located below the degreaser floor through a hole. The sump had an outlet in its bottom. The sump also was provided with a basket of 100 wire mesh with flanged edges which mated with flanges extending around the opening. The arrangement was such that all liquid had to pass through the basket to obtain access to the clearance area between the basket and the sump walls. The outlet from the sump was connected to a pipe, which traversed the exterior side of the vessel and re-entered through the wall with a tee coupling at a point below the water-jacket. Surrounding the pipe was a jacket provided with couplings for connection to a steam line. The upper end of the pipe through the tee coupling also connected to a pipe which traversed the wall to a tee which had one end connected to an orifice control valve and sight glass. The other end of the tee was fitted with a bushing and a clean-out rod to clean the orifice if necessary. Extending from the orifice and sight glass assembly was a tube which connected to a multiple heat exchanger. The exit from the exchanger was an insulated tubing which connected to a vapor-liquid separator. The upper end of the separator was connected through a tubing to the cleaning zone at a point below the waterjacket. The bottom of the sepparator was connected to the tubing from the separator control prior to entering the heat exchanger, thus forming a recycle path for returning liquid in the separator to the heat exchanger. At a point located to keep the level proper in the separator, a drain provided an overflow from the separator, thus maintaining a predetermined liquid level in the separator.
In operation, this unit was capable of cleaning 60 pounds of parts per minute, these parts had holes, orifices, ground surfaces and the like, coated with oil and grinding compounds, and they contained screw thread turnings, shavings, and general dirt from processing. Each part carried about 1 gram of oil. In the example here set forth, the degreaser contained 1,000 pounds of l,1,l-trichloroethane (methyl chloroform). The oil in the degreaser was permitted to build up to and thereafter maintained at less than 20 percent by weight and the oil leaving the separator contained no more than 10 percent solvent. The steam to the main reboiler was 214F. The condensate was 20.7 pounds per hour. The multiple pass heat exchanger was supplied with psig steam. The condensate collected was 12.34 pounds per hour. After 24 hours of introduction of oily parts, the degreaser was run without any workload 6 hours per day for 6 days to determine the oil stripping ability of the system. The oil in the degreaser at the start of the run was 20 percent by weight and the methyl chloroform content of the oil leaving the separator was 12 percent. At the end of the sixth day, the oil content of the degreaser was negligible and the oil leaving the separator had only 5 percent methyl chloroform,
1. In a method for cleaning metal parts to degrease said part and to remove grinding compounds, polishing compounds, and the like, as well as remove metal fines, turnings, and the like, wherein said metal is contacted with hot liquid and/or hot vapors of said solvent in a cleaning zone, the improvement which comprises continuously removing a portion of the liquid solvent from said cleaning zone, separating the solvent from particulate solids, passing said separated solvent into a vapor generator and solvent lift consisting of a conduit, having its outlet above its inlet, heating means for said solvent in said conduit to convert at least a part of said solvent into vapor, and employing said vapor generator and solvent lift as the sole means for moving liquid and solvent vapor upwardly through said conduit and returning the same to the cleaning zone.
2. In a method for cleaning metal parts to degrease said part and to remove grinding compounds, polishing compounds, and the like, as well as remove metal fines, turnings, and the like, wherein said metal is contacted with hot liquid and/or hot vapors of said solvent in a cleaning zone, the improvement which comprises continuously removing a portion of the liquid solvent from said cleaning zone, separating the solvent from particulate solids, passing said separated solvent into a conduit, having its outlet above its inlet, heating said solvent in said conduit to convert at least a part of said solvent into vapor, thereby moving liquid and solvent vapor upwardly through said conduit and returning the same to the cleaning zone, and additionally of removing continuously or intermittently from the upper end of said conduit a portion of the liquid and directing this so-removed portion into a second conduit, vaporizing the solvent from said liquid in a vaporizing zone of said second conduit, returning the solvent vapors to said cleaning zone, and removing from said vaporizing zone of said second conduit contaminants which have a higher boiling point than said solvent.
2 3 UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,772,082 Dated November 13, 1973 Inventor(s) James L. Dunn, Jr.
It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 4, line 27, delete "sepparator" and insert ---separator--.
Column 4, line 28, delete "separator" and insert -=--flow-.
his 23rd day of April 19714..
Signed and sealed (SEAL) Attost:
EDWARD l IBFLEJTCT-"TEIQJRG C MARSHALL DANN Attesting Officer Commissioner of Patents
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|U.S. Classification||134/10, 134/11, 134/40, 203/47|
|International Classification||C23G5/04, C23G5/02, C23G5/00|
|Cooperative Classification||C23G5/04, C23G5/02|
|European Classification||C23G5/02, C23G5/04|