US829077A - Means of reducing the resistance to the motion of vessels through water. - Google Patents

Means of reducing the resistance to the motion of vessels through water. Download PDF

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US829077A
US829077A US28770705A US1905287707A US829077A US 829077 A US829077 A US 829077A US 28770705 A US28770705 A US 28770705A US 1905287707 A US1905287707 A US 1905287707A US 829077 A US829077 A US 829077A
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air
vessel
water
resistance
motion
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US28770705A
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Carlo Del Lungo
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B1/00Hydrodynamic or hydrostatic features of hulls or of hydrofoils
    • B63B1/32Other means for varying the inherent hydrodynamic characteristics of hulls
    • B63B1/34Other means for varying the inherent hydrodynamic characteristics of hulls by reducing surface friction
    • B63B1/38Other means for varying the inherent hydrodynamic characteristics of hulls by reducing surface friction using air bubbles or air layers gas filled volumes
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T70/00Maritime or waterways transport
    • Y02T70/10Measures concerning design or construction of watercraft hulls

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  • This invention relates to a method of re ducing the resistance to the motion of a vessel through water.
  • the resistance to the motion of a vessel through water is due to two causesnamely, the resistance offered by the water to cleavage by the hull of the vessel and the friction which is generated between the submerged surface of the hull and the water.
  • the effect of the first of these resistances is modified largely by the shape of the hull of the vessel and the second by the area of the submerged surface of the hull.
  • Each increases ap roximately in proportion to the square of t e velocity of the vessel, so that their sum, which gives the total resistance to the motion of the vessel, also varies with the square of the velocity.
  • the compressed air is conveyed through a system of tubes to the vessels hull, on the external surface of which it escapes below the water-line through a number of small holes, so that the air-bubbles escaping from these orifices brush against the surface of the hull and remain practically always in close contact with or adherent to it, or I make use of one or more tubes extending along the bow and the keel of the vessel for more or less the whole length thereof and having on both sides one or more rows of small perforations.
  • the number and dimension of the holes or perforations are preferably such that the air is ejected in the largest quantity at the bow end of the vessel, at which part the friction is the greatest.
  • the air which is used may be that which is withdrawn by pumps from the condenser, or it may be air obtained directly from the atmosphere, or in lieu of air I can employ the exhaustegases from internal-combustion or explosion engines, either alone or admixed with air.
  • Figure 1 is a longitudinal section of the hull of a vessel provided with suitable means for forcing compressed air from the said hull below the water-line in accordance with the invention.
  • Fig. 2 is a section on the line 2 2, Fig. 1, drawn to a larger scale; and
  • Fig. 3 is a section on the line 3 3, Fig. 1, also drawn to a larger scale.
  • a represents the hull of the vessel, 1) an airpump located within the same, and c and cl two pipes which extend from the airpump and are supplied with compressed air by the same.
  • the pipe 0 extends along the bottom of the hull and is in the form of a semicircular plate with lateral extensions e, by means of whichit can be bolted to the keel-platef, and thus form a closed tube.
  • the keel-plate f is made with a number of orifices or holes g g, placing the interior of the tube in communication with the outside of the vessel.
  • the tube or pipe (1 is designed to supply the compressed air to the bow portion of the vessel, and to this end it extends along the fore part of the vessel parallel to the pipe 0 and on attaining the bow passes up the same to about the level of the water, as shown at h, Fig. 1, being secured in place by means of the side plates 41 i, bolted to the hull of the vessel. Air-nipples or orifice-tubes 7' are inserted through holes in the hull and air-tube. With this arrangement it Will be clear that Whenthe pump 1) is in operation air is forced through the pipes c and d.
  • the air which enters the 'pipe 0 is discharged through the or-h fices g g, leaving the hull below the Water-line in the form of bubbles, which brush against the surface of the hulla and remain more or less in contact With it.
  • the air which is forced'into the pipe d is discharged at the bow of the vessel through the nipples or orifices jand performs the samef-ilIlCljlUII as the air escaping through the holes g.

Description

C..DBL LUNGO.
PATENTED AUG. 21, 1906.
MEANS OF REDUCING THE RESISTANCE TO THE MOTION 0P VESSELS THROUGH WATER.
APPLICATION FILED NOV.16. 190a.
7 a g i 0 v A 5 5 0 E g 0 \H- E o i 8 Q r O E O O O O S Q w o o o o 3 1 l I, S E O o i 5 I o g E i A 4 2 5 5 g e iii 4/ Inventor UNITED STA T ES PATENT or uon.
CARLO DEL LUNGO, OF SPEZIA, ITALY.
MEANS OF REDUCING THE RESISTANCE TO THE MOTION F VESSELS THROUGH WATER.
Specification of Letters Patent.
Patented Aug. 21, 1906.
To all whom it may concern:
. Beit known that I, CARLO DEL LUNGo, a subject of the King of Italy, residing at Regio Liceo, Spezia, in the Kingdom of Italy, have invented a new and useful Means of Reducing the Resistance to the Motion of a Vessel Through ater, of which the following is a specification.
This invention relates to a method of re ducing the resistance to the motion of a vessel through water.
The resistance to the motion of a vessel through water is due to two causesnamely, the resistance offered by the water to cleavage by the hull of the vessel and the friction which is generated between the submerged surface of the hull and the water. The effect of the first of these resistances is modified largely by the shape of the hull of the vessel and the second by the area of the submerged surface of the hull. Each increases ap roximately in proportion to the square of t e velocity of the vessel, so that their sum, which gives the total resistance to the motion of the vessel, also varies with the square of the velocity. Now it has been deduced from experiment that the frictional resistance can be expressed by the following formulanamely, R =K d A V mwhere R equals the resistance; A, the area of the plane surface; V, the velocity; (1, the density of the fluid in which the surface is moving, and K and m two coefficients, the values of which have been found experimentally. It will therefore be seen that to obtain a minimum of friction it is necessary that the factors K and (1 should be as small as possible, and since the factor K is a more or less fixed quantity it will be clear that any diminution of resistance must be effected by an alteration in the value of the factor dthat is to say, the density of the fluid in which the vessel moves. Now according to my invention I obtain this result by mixing air with the water in which the vessel moves. By this means not only is the density of the fluid diminished, but the air-bubbles, which are practically spherical and possess a rotary movement, also appear to reduce the viscosity of the fluid, and thereby 'effect a further diminution in the friction between the fluid and the vessels hull.
In a suitable arrangement for carrying out my invention I make use of an air-compression pump or the like for providing the necessary quantity of air at a pressure sufficient to overcome the friction in the air-passages and theexternal pressure of the waterthat is to say, a pressure amounting to no more than two atmospheres. The compressed air is conveyed through a system of tubes to the vessels hull, on the external surface of which it escapes below the water-line through a number of small holes, so that the air-bubbles escaping from these orifices brush against the surface of the hull and remain practically always in close contact with or adherent to it, or I make use of one or more tubes extending along the bow and the keel of the vessel for more or less the whole length thereof and having on both sides one or more rows of small perforations.
The number and dimension of the holes or perforations are preferably such that the air is ejected in the largest quantity at the bow end of the vessel, at which part the friction is the greatest. The air which is used may be that which is withdrawn by pumps from the condenser, or it may be air obtained directly from the atmosphere, or in lieu of air I can employ the exhaustegases from internal-combustion or explosion engines, either alone or admixed with air.
In the accompanying drawings, Figure 1 is a longitudinal section of the hull of a vessel provided with suitable means for forcing compressed air from the said hull below the water-line in accordance with the invention. Fig. 2 is a section on the line 2 2, Fig. 1, drawn to a larger scale; and Fig. 3 is a section on the line 3 3, Fig. 1, also drawn to a larger scale.
a represents the hull of the vessel, 1) an airpump located within the same, and c and cl two pipes which extend from the airpump and are supplied with compressed air by the same. The pipe 0 extends along the bottom of the hull and is in the form of a semicircular plate with lateral extensions e, by means of whichit can be bolted to the keel-platef, and thus form a closed tube. The keel-plate f is made with a number of orifices or holes g g, placing the interior of the tube in communication with the outside of the vessel. The tube or pipe (1 is designed to supply the compressed air to the bow portion of the vessel, and to this end it extends along the fore part of the vessel parallel to the pipe 0 and on attaining the bow passes up the same to about the level of the water, as shown at h, Fig. 1, being secured in place by means of the side plates 41 i, bolted to the hull of the vessel. Air-nipples or orifice-tubes 7' are inserted through holes in the hull and air-tube. With this arrangement it Will be clear that Whenthe pump 1) is in operation air is forced through the pipes c and d. The air which enters the 'pipe 0 is discharged through the or-h fices g g, leaving the hull below the Water-line in the form of bubbles, which brush against the surface of the hulla and remain more or less in contact With it. The air which is forced'into the pipe d is discharged at the bow of the vessel through the nipples or orifices jand performs the samef-ilIlCljlUII as the air escaping through the holes g.
Having now particularly described and as certained' thenaturezoi my said invention and in What manner the same-is to be perfonmed, I declare that What I' claim is- 1. The combination with a vesselfl of a keel-plate secured thereto and provided With a longitudinally-extending series of' perfora t-ionsgt a pipe extending along said keel -pl'ate said pipe comprising a semicircular" plate provided with lateral extensions bearing upon said keel-plate" and forming an air-passage along said keel-plate oversaicl seriesof perforations therein; an' air-suppl-y' device extendin along thefbre part of" the vessel and upthe boW' to the water line; nipples extending from the interior of said pipefi the hullof' the vessel and connectionsbetween said air-supply" device and said auxil iary pipe, substantially as described.
' CARLO DEL- LUNGO;
Witnesses:
Pro RINALDIN-I, A. RAZZ'I.
rough-
US28770705A 1905-11-16 1905-11-16 Means of reducing the resistance to the motion of vessels through water. Expired - Lifetime US829077A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2754791A (en) * 1954-08-16 1956-07-17 Nieding Arthur Dewey Ship turbulator

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2754791A (en) * 1954-08-16 1956-07-17 Nieding Arthur Dewey Ship turbulator

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