US2391006A - Transport of aqueous emulsions of liquid explosives - Google Patents
Transport of aqueous emulsions of liquid explosives Download PDFInfo
- Publication number
- US2391006A US2391006A US45900842A US2391006A US 2391006 A US2391006 A US 2391006A US 45900842 A US45900842 A US 45900842A US 2391006 A US2391006 A US 2391006A
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- United States
- Prior art keywords
- liquid
- tank
- emulsion
- syphon
- transport
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17D—PIPE-LINE SYSTEMS; PIPE-LINES
- F17D1/00—Pipe-line systems
- F17D1/08—Pipe-line systems for liquids or viscous products
- F17D1/086—Pipe-line systems for liquids or viscous products for explosives
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T137/00—Fluid handling
- Y10T137/2713—Siphons
- Y10T137/272—Plural
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T137/00—Fluid handling
- Y10T137/2713—Siphons
- Y10T137/2774—Periodic or accumulation responsive discharge
Definitions
- the present invention relates to an improved apparatus for transferrin liquid explosives from one place to another.
- the invention relates in particular to the transfer of a liquid explosive comprising one or more nitric esters of polyhydric alcohols, e. g. nitroglycerine or a mixture of nitroglycerine with nitroglycol, nitropolyglycerine or nitrated carbohydrates.
- a liquid explosive comprising one or more nitric esters of polyhydric alcohols, e. g. nitroglycerine or a mixture of nitroglycerine with nitroglycol, nitropolyglycerine or nitrated carbohydrates.
- a detonation occur in the line in which the liquid nitric ester is Howing or in a building connected thereto, it may "be propagated along the liquid nitric ester flowing in the line which may thus communicate a detonation from one building to another.
- the liquid nitric ester is sometimes transported in the form of an aqueous emulsion in which the liquid nitric ester is dispersed in a continuous aqueous phase.
- the aqueous emulsions of liquid nitric esters however, separate easily, and difficulty may be experienced in maintaining the emulsion if it is to be transferred over any considerable distance.
- This invention has as an object to devise an apparatus suitable for transporting liquid nitric esters whether emulsified or not from one place to a desired distant place at a lower level whereby the risk of communication of detonation over the whole distance between the two places is reduced. Further bjects will appear hereinafter.
- the liquid which comprises th nitric ester is caused to flow under gravity to a reservoir from which it is intermittently syphoned and caused to flow to its destination through at least one further reservoir from which it is intermittently removed .by syphom'ng, the intermittent syphoning operations being so timed that they are never all working simultaneously.
- the invention comprises an apparatus for transporting a liquid comprising an explosive nitric ester which apparatus comprises a descendmg line of'ducts havingspaced' along it a plu-- rality of open vessels each having a syphon outlet.
- a plurality of-open vessels are conveniently spaced along a transport line each being provided with a syphon outlet, that part of the apparatus following the first vessel being adapted to carry away the liquid at a faster rate than it is delivered to it, and the syphons being timed to operate so that they are never all simultaneously at work.
- each vessel is provided with stirring means, preferably air stirring means.
- the open parts of the vessel may be protected so as-to prevent foreign bodies from falling into them accidentally.
- the effective capacity of the second is made or adjusted so that'it is not filled to the syphoning level until it receives liquid still in the'transport pipe between the two vessels after the first syphon has broken;
- the distance over which any column of nitric ester emulsion of substantial thickness can exist at one time should be as small as possible and also that the time for which any continuous column of nitric ester emulsion is at its maximum length should be as short as possible. Accordingly, therefore, when more than two open syphomng vessels areemployed it is desirable that the effective capacities ofthe vessels should be such that the second and succeeding vessels are not filled to syphoning level until they receive liquid still in the transport pipe after the preceding syphon has'broken.
- the vessels may conveniently be made with sloping bottoms and provided with means whereby liquid at'the bottom of each vessel may be drained off after the charge has been transported.
- Figures 1 to 4 represent diagrammatically a vertical section through" an apparatus constructed in accordance with our invention, and designed to carry an emulsion of nitroglycerine in water from a point A to a lower point B which is a distance of about feet.
- Figures 1 to 4 represent diagrammatically a vertical section through" an apparatus constructed in accordance with our invention, and designed to carry an emulsion of nitroglycerine in water from a point A to a lower point B which is a distance of about feet.
- Figure 5 is a vertical section through an apparatus designed to carry unemulsified nitric ester.
- I represents the delivery pipe approximately 50 feet long which is adapted to deliver the emulsion of nitroglycerine to the nitroglycerin which may have separated out.
- a syphon 5 isarranged to empty the tank 2 whenever it contains 25 litres of the emulsion, without reckoning the volume of the air bubbles as part of the volume of the emulsion.
- the syphon 5 leads to the pipe 6, and these are adapted to lead emulsion away from the tank 2 at the rate of 100 litres a minute.
- the pipe 6, which is approximately 50 feet lon and will hold approximately 35 litres of nitroglycerine emulsion, leads to tank 1 which, like the tank 2, is fitted with an air stirrer 8, drainage cock 9, and a syphon III leading into a pipe II.
- Pipe I I is again approximately fifty feet long and leads to the point B. The syphon I is so adjusted that it will not commence to empty th tank 1 before the syphon has broken and preferably not until the pipe 6 is almost empty.
- FIG. 1 illustrates the first stage in the cycle of operations, the tank 2 has filled almost to syphoning level.
- the emulsion in the tank is being kept stirred by the streams of bubbles rising from the perforated pipe 3.
- the whole of the system is empty from the syphon 5 to the point B.
- FIG. 2 shows the next stage.
- the syphon 5 has emptied the tank 2 at the rate of 100 litres per minute.
- As the capacity of this pipe is 35 litres the syphon .5 will have broken before any appreciable quantity of emulsion has reached the tank I.
- At this stage there are two breaks in the column of emulsion between A and B. Firstly a small but rapidly increasing gap at the syphon 5, and secondly a long gap, which is maintaining its length, in pipe II.
- FIG. 4 shows the tank 1 empty, the syphon I0 having just broken.
- the tank 2 is two-thirds full. There is a gap in the column of emulsion from syphon 5 to the foot of tank I.
- the tank 2 When the pipe II has emptied, the tank 2 will again be full and the cycle will recommence.
- the tank I will be of such a size-that the syphon Ill will operate with certainty on the 30 gallons which is flowing in each cycle but it is of course possible to vary the size in comparison with the liquid which is carried in each cycle, but the smaller the size of the tank in flows into it. This will greatly reduce the length of the break in the emulsion, and, if the capacity of the pipes is small, may destroy it entirely for a time. The possibility of this occurring will be greatly minimised if three 01' more tanks and syphons are used along the transport pipe instead of two.
- Figure 5 illustrates a form of apparatus suitable for the transport of unemulsified liquid nitric ester. Except for the fact that the air stirrers are omitted this is in all respects similar in form and function to the apparatus illustrated in Figure l and the numbers refer to the corresponding parts in each case.
- This invention is a valuable advance in the art as it provides an apparatus whel'ewith explosive liquid nitric esters can be run from one building to another without forming a column connecting the houses along which a detonation can propagate, this assists in confining any explosion which may occur during manufacture to one building and therefore contributes to the safety of manufacture.
- An apparatus for transporting liquid comprising an explosive nitric ester, which apparatus comprises a plurality of open vessels positioned at descending levels, each vessel containing an inlet and an outlet, siphon means at the outlet of each vessel and conduits connecting the exterior of said siphon means to the inlet of the next vessel, the structure of said conduits, vessels, and outlets being characterized by the fact that the volume of siphon conduits from one vessel is greater than the volume of the effective siphoned height of liquid in that vessel in which the siphoning commences and that the corresponding effective volume of liquid in the vessel into which the conduit empties, nearly approaches the volume of the conduit, and the cross-sectional area of the conduit is such that the first vessel discharges at a greater rate than it fills.
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- Engineering & Computer Science (AREA)
- Health & Medical Sciences (AREA)
- Public Health (AREA)
- Water Supply & Treatment (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)
- Colloid Chemistry (AREA)
Description
Dec. 18, 1945. G. BRYCE HAL TRANSPORT 0F AQUEOUS EMULSIONS OF LIQUID EXPLOSIVES 2 Sheets-Sheet 1 Original Filed Sept. 2, 1941 ,Zfibenbr George firyce and I Ernon/E Williams e. BRYCE ETAL 2,391,006
Original Filed Sept. 2, 1941 2 Sheets-Sheet 2 Q49 and imam/S g3 Vernonll Gear Dec. 18, 1945.
TRANSPORT 0F AQUEOUS EMULSIONS OF LIQUID EXPLOSIVES Patented Dec. 18, 1945 TRANSPORT OF .AQUEQUS EMULS'IQNS OF LIQUID EXPLOSIVES George Bryce, West Kilbridc, and Vernon Harcourt Williams, Ardrossan, Scotland, assignors to Imperial Chemical Industries Limited, a corporation of Great Britain Original appplication September 2, 1941', Serial No. 409,322. Divided and this application September 19, 1942, Serial No. 459,008. In Great Britain September 2, 1940 3 Claims.
The present invention relates to an improved apparatus for transferrin liquid explosives from one place to another. The invention relates in particular to the transfer of a liquid explosive comprising one or more nitric esters of polyhydric alcohols, e. g. nitroglycerine or a mixture of nitroglycerine with nitroglycol, nitropolyglycerine or nitrated carbohydrates. This application is a divisional of our application Serial No. 409,322, filed September 2, 1941, now Patent No. 2,368,638.
Inthe manufacture of nitroglycerine and similar liquid nitric esters it is customary to separate the liquid nitric ester from the refuse nitrating acid and then to wash the separated liquid nitric ester by agitating it with water and usually further with a dilute alkaline solution, after which it is removed from the separating hous tothe final washing house in which it is further washed. For this purpose the partly washed nitric ester is sometimes runto its destination along a line of gutters or pipes. Should, a detonation occur in the line in which the liquid nitric ester is Howing or in a building connected thereto, it may "be propagated along the liquid nitric ester flowing in the line which may thus communicate a detonation from one building to another. In order to avoid the propagation of a detonation through the liquid nitric ester during its transport, the liquid nitric ester is sometimes transported in the form of an aqueous emulsion in which the liquid nitric ester is dispersed in a continuous aqueous phase. The aqueous emulsions of liquid nitric esters, however, separate easily, and difficulty may be experienced in maintaining the emulsion if it is to be transferred over any considerable distance.
This invention has as an object to devise an apparatus suitable for transporting liquid nitric esters whether emulsified or not from one place to a desired distant place at a lower level whereby the risk of communication of detonation over the whole distance between the two places is reduced. Further bjects will appear hereinafter. We have found that the above objects are achieved if the liquid which comprises th nitric ester is caused to flow under gravity to a reservoir from which it is intermittently syphoned and caused to flow to its destination through at least one further reservoir from which it is intermittently removed .by syphom'ng, the intermittent syphoning operations being so timed that they are never all working simultaneously. More specifically the invention comprises an apparatus for transporting a liquid comprising an explosive nitric ester which apparatus comprises a descendmg line of'ducts havingspaced' along it a plu-- rality of open vessels each having a syphon outlet.
In putting the invention into effect a plurality of-open vessels are conveniently spaced along a transport line each being provided with a syphon outlet, that part of the apparatus following the first vessel being adapted to carry away the liquid at a faster rate than it is delivered to it, and the syphons being timed to operate so that they are never all simultaneously at work.
According to a further feature of the invention particularly applicable to the transport of liquid nitric esters in emulsified form each vessel is provided with stirring means, preferably air stirring means. The open parts of the vessel may be protected so as-to prevent foreign bodies from falling into them accidentally.
In the case when only two open vessels are employed, the effective capacity of the second is made or adjusted so that'it is not filled to the syphoning level until it receives liquid still in the'transport pipe between the two vessels after the first syphon has broken;
It is'desirable that the distance over which any column of nitric ester emulsion of substantial thickness can exist at one time should be as small as possible and also that the time for which any continuous column of nitric ester emulsion is at its maximum length should be as short as possible. Accordingly, therefore, when more than two open syphomng vessels areemployed it is desirable that the effective capacities ofthe vessels should be such that the second and succeeding vessels are not filled to syphoning level until they receive liquid still in the transport pipe after the preceding syphon has'broken.
The vessels may conveniently be made with sloping bottoms and provided with means whereby liquid at'the bottom of each vessel may be drained off after the charge has been transported.
The invention is further illustrated by the following drawings of which Figures 1 to 4 represent diagrammatically a vertical section through" an apparatus constructed in accordance with our invention, and designed to carry an emulsion of nitroglycerine in water from a point A to a lower point B which is a distance of about feet. Each of the four figures illustrates the same apparatus but shows different stages in the cycle of carrying the emulsion, while Figure 5 is a vertical section through an apparatus designed to carry unemulsified nitric ester.
Referring to Figure 1, I represents the delivery pipe approximately 50 feet long which is adapted to deliver the emulsion of nitroglycerine to the nitroglycerin which may have separated out.-
comparison with the liquid carried in each cycle the shorter will be the break which it maintains in the column of emulsion; on the other hand, if a tank gets too large with respect to the liquid passing in each cycle there is a danger that a. syphon will fail to work in one cycle, and will operate when the first emulsion of the next cycle The tank 2 is also fitted with a drainage cock 4, q
to facilitate cleaning. A syphon 5 isarranged to empty the tank 2 whenever it contains 25 litres of the emulsion, without reckoning the volume of the air bubbles as part of the volume of the emulsion. The syphon 5 leads to the pipe 6, and these are adapted to lead emulsion away from the tank 2 at the rate of 100 litres a minute. The pipe 6, which is approximately 50 feet lon and will hold approximately 35 litres of nitroglycerine emulsion, leads to tank 1 which, like the tank 2, is fitted with an air stirrer 8, drainage cock 9, and a syphon III leading into a pipe II. Pipe I I is again approximately fifty feet long and leads to the point B. The syphon I is so adjusted that it will not commence to empty th tank 1 before the syphon has broken and preferably not until the pipe 6 is almost empty.
Figure 1 illustrates the first stage in the cycle of operations, the tank 2 has filled almost to syphoning level. The emulsion in the tank is being kept stirred by the streams of bubbles rising from the perforated pipe 3. At this stage the whole of the system is empty from the syphon 5 to the point B.
Figure 2 shows the next stage. The syphon 5 has emptied the tank 2 at the rate of 100 litres per minute. As the tank is filling at the rate of 25 litres per minute approximately 30 litres of nitroglycerine emulsion will have poured into the pipe 6 before the syphon 5 breaks. As the capacity of this pipe is 35 litres the syphon .5 will have broken before any appreciable quantity of emulsion has reached the tank I. At this stage there are two breaks in the column of emulsion between A and B. Firstly a small but rapidly increasing gap at the syphon 5, and secondly a long gap, which is maintaining its length, in pipe II.
The next stage is shown in Figure 3. Here the pipe 6 is almost empty but the tank 1 is full to the syphoning point. The tank 2 is about one third full. There is a long gap in the column of emulsion from the syphon 5 nearly to tank I and still a gap in pipe I I.
Figure 4 shows the tank 1 empty, the syphon I0 having just broken. The tank 2 is two-thirds full. There is a gap in the column of emulsion from syphon 5 to the foot of tank I.
When the pipe II has emptied, the tank 2 will again be full and the cycle will recommence. Preferably the tank I will be of such a size-that the syphon Ill will operate with certainty on the 30 gallons which is flowing in each cycle but it is of course possible to vary the size in comparison with the liquid which is carried in each cycle, but the smaller the size of the tank in flows into it. This will greatly reduce the length of the break in the emulsion, and, if the capacity of the pipes is small, may destroy it entirely for a time. The possibility of this occurring will be greatly minimised if three 01' more tanks and syphons are used along the transport pipe instead of two.
Figure 5 illustrates a form of apparatus suitable for the transport of unemulsified liquid nitric ester. Except for the fact that the air stirrers are omitted this is in all respects similar in form and function to the apparatus illustrated in Figure l and the numbers refer to the corresponding parts in each case.
This invention is a valuable advance in the art as it provides an apparatus whel'ewith explosive liquid nitric esters can be run from one building to another without forming a column connecting the houses along which a detonation can propagate, this assists in confining any explosion which may occur during manufacture to one building and therefore contributes to the safety of manufacture.
As many apparently widely different embodiments of this invention may be made without departing from the spirit and scope thereof, it is to be understood that the invention is not limited to any specific embodiment except as defined in the appended claims.
We claim: I
1. An apparatus for transporting liquid comprising an explosive nitric ester, which apparatus comprises a plurality of open vessels positioned at descending levels, each vessel containing an inlet and an outlet, siphon means at the outlet of each vessel and conduits connecting the exterior of said siphon means to the inlet of the next vessel, the structure of said conduits, vessels, and outlets being characterized by the fact that the volume of siphon conduits from one vessel is greater than the volume of the effective siphoned height of liquid in that vessel in which the siphoning commences and that the corresponding effective volume of liquid in the vessel into which the conduit empties, nearly approaches the volume of the conduit, and the cross-sectional area of the conduit is such that the first vessel discharges at a greater rate than it fills.
2. An apparatus as claimed in claim 1 in which each vessel is provided with stirring means.
3. An apparatus as claimed in claim 1 in which each vessel is provided with air stirring means.
GEORGE BRYCE. VERNON H. WILLIAMS.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US45900842 US2391006A (en) | 1941-09-02 | 1942-09-19 | Transport of aqueous emulsions of liquid explosives |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US409322A US2368638A (en) | 1940-09-02 | 1941-09-02 | Transport of aqueous emulsions of liquid explosives |
US45900842 US2391006A (en) | 1941-09-02 | 1942-09-19 | Transport of aqueous emulsions of liquid explosives |
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US2391006A true US2391006A (en) | 1945-12-18 |
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US45900842 Expired - Lifetime US2391006A (en) | 1941-09-02 | 1942-09-19 | Transport of aqueous emulsions of liquid explosives |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2712395A (en) * | 1950-08-29 | 1955-07-05 | John H Wiggins | Overflow device for liquid storage tanks |
US2976879A (en) * | 1957-12-04 | 1961-03-28 | Whirlpool Co | Dispenser for laundry machine |
US3195436A (en) * | 1962-03-07 | 1965-07-20 | Decrop Louis Lucien | Siphon cover for the daylight developing of dental radiographic film with incorporated developer and fixing material |
US3919455A (en) * | 1972-10-20 | 1975-11-11 | Hoffmann La Roche | Apparatus for the measurement of the volume and flow rate of liquids |
US5628122A (en) * | 1994-10-05 | 1997-05-13 | Peter And Theordore Spinardi Investments | Lint remover for a clothes drying machine |
US20140000725A1 (en) * | 2012-06-29 | 2014-01-02 | Geonica, S.A. | Rain Gauge with Automatic Priming Siphon |
-
1942
- 1942-09-19 US US45900842 patent/US2391006A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2712395A (en) * | 1950-08-29 | 1955-07-05 | John H Wiggins | Overflow device for liquid storage tanks |
US2976879A (en) * | 1957-12-04 | 1961-03-28 | Whirlpool Co | Dispenser for laundry machine |
US3195436A (en) * | 1962-03-07 | 1965-07-20 | Decrop Louis Lucien | Siphon cover for the daylight developing of dental radiographic film with incorporated developer and fixing material |
US3919455A (en) * | 1972-10-20 | 1975-11-11 | Hoffmann La Roche | Apparatus for the measurement of the volume and flow rate of liquids |
US5628122A (en) * | 1994-10-05 | 1997-05-13 | Peter And Theordore Spinardi Investments | Lint remover for a clothes drying machine |
US20140000725A1 (en) * | 2012-06-29 | 2014-01-02 | Geonica, S.A. | Rain Gauge with Automatic Priming Siphon |
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