KR870000970Y1 - Lost energy reseizing devices for a ship - Google Patents

Abstract

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Description

Vessel Loss Energy Recovery System

1 is a cross-sectional view of the stern of the ship equipped with the subject innovation.

2 is a perspective view of the present invention Rudd (LERD).

3 is the trajectory of the rear whey of the right-turning propeller.

4 is a principle diagram of thrust generation by rudder.

5 is a principle diagram of thrust generation by the rud.

6 is a perspective view of a conventional apparatus.

* Explanation of symbols for main parts of the drawings

1: propeller 2: wing

3: boss 4: support stand

5: rim 6: other supporting material

7: bed support

The present invention relates to a ship cabin energy recovery device (LERD: LOST ENERGY RESEIZING DEVICES) for recovering a part of the energy lost by providing rotational energy to the surrounding fluid by the propeller rotation.

As a result of the second oil surge, the price of petroleum products increased sharply and the oil supply and demand situation worsened, causing not only severe damage to marine transportation and ocean fishing but also fuel costs to occupy a large portion of the operating costs. Parkyong machinery manufacturers and shipbuilders have studied ways to curb fuel consumption.

In general, there are two ways to reduce fuel consumption in ships: first, to develop an optimal linearity in terms of surplus resistance, or second, to prevent roughness and regular cleaning of the hull surface in terms of overall resistance, and Fourth, the development of propulsion engines, fourth, propulsion efficiency improvement of propellers and flow control devices, and fifth, how to recover lost energy can be studied.

On the other hand, when the ship's propulsion performance is observed from two points, one of them is to minimize the loss of energy, and the other is to recover the lost energy. The present inventors have devised fuel saving by recovering the lost energy. .

Conventionally, there was a recovery device of lost energy in which the rudder plate was placed behind the propeller and the wings attached laterally to both sides of the rudder plate and the height of the wing was positioned above the propeller rotation center. The effect of was unstable.

The present invention solves the above-mentioned problems and improves the propulsion performance and the horsepower reduction effect, so that a foil-shaped wing is radially installed around the boss, and the upper and lower ends of the rim are burned. It is an object of the present invention to provide a recovery device for ship loss energy fixedly coupled to a paper stock and a shoulder stand.

The configuration, operation, and effects of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is located at the rear of the propeller (1), the cross section of the foil-shaped wing (2) is installed radially around the boss (3), the cross section at the middle and the end of the wing (2) is also Foil-type support bar (2) and the rim (5) are respectively installed to support the wings (2), the upper and lower ends of the rim (5) is fixed to the other support member (6) and the support base (7) respectively It is structured.

Unmarked 8 is rudder, 9 is Rudd, 10 is Pin,

a is the flow direction in the other part,

b is the flow direction in the lower part,

D is drag, L is lift, L 'is the combined force of lift and drag, and T is thrust.

The present invention having the structure as described above is a simple structure and low installation cost, as a device that can be installed without a great difficulty in the ship already in operation, the principle is the same as the other (8). In other words, the present invention is located directly behind the propeller 1 to convert a part of the energy of the rotational flow into the thrust. Looking at the principle that the thrust is generated, as shown in Figure 3 generated by the propeller 1 The free vortices are slightly contracted as the flow progresses while drawing the helical sheet, and the range of the fluid having the rotational energy by the propeller 1 behind the propeller 1 is limited. It is similar to the trajectory of the propeller (1) of the city, and also the fluid flow here, in the case of the right-turn propeller (1) flows out from the upper side to the lower side, and from the port side to the lower side, In consideration of the inflow direction of this flow, the thrust synergistic effect is large when the rud 9 is attached.

The screw propeller 1 is an efficient propulsion device that applies the principle of the blade 2, but since it needs to be rotated for its operation, a rotating flow having an angular momentum equivalent thereto is released as a reaction of the required torque. The energy of this rotary flow still remains as kinetic energy immediately after the propeller 1. Therefore, when the rudder 8 is disposed in the whey, the kinetic energy due to the rotation of the propeller 1 is converted into the thrust generated in the rudder 8, and the one shown in FIG. Although the direction of incidence of the flow is different in the upper and lower parts, the direction of thrust due to the lift force generated is the same, and in general, the lower part has a deeper depth than the upper part, and thus the pressure of the water is greater, so that the effect of the lower part is slightly larger. Accordingly, it can be seen from FIG. 4 that the magnitude of thrust by b is slightly larger than that by a.

In addition, FIG. 5 illustrates the basic principle of the present invention, that is, the lift force (L) and drag force (D) are induced in the hydrofoil (HYDROFOLL) in the thrust generation principle by Rudd (9), and the force (L ') is It is a vector amount which uses (D, L) as a component power. On the other hand, the direction of drag D is the same as the direction of the inflow, and the direction of lift L is the direction perpendicular to the inflow and is independent of the attack angle α. And the lift (L) and drag (D) can be expressed as follows.

L = C _L (Rn, α) X ₁ /2e.SV ²

D = C _D (Rn, α) X ₁ /2e.SV ²

Here, C _L is the lift coefficient, C _D is the drag coefficient, R n is the Reynolds number, C _L , C _D is obtained by the experiment, C _L is 10 ² larger than C _D.

C _D (Rn.α) C _F (Rn) + C _P (α)

C _L (Rn.α) C _L (α)

Where C _F is the frictional drag coefficient and C _P is the pressure drag coefficient.

On the other hand, since the fluid flow is viscous, there is an energy loss accompanied by friction of the hull surface, and even in the throat flow propeller 1 which functions by rotation, the energy of the rotational motion due to the reaction of the required torque is rearward. Is given to the fluid, and can be considered a loss because this energy does not contribute to the ship's pursuit.

In this way, the hull or propeller 1 can recover to some extent the energy of various types that cannot be given to the fluid by some methods, and the present invention can be regarded as one of the most suitable methods.

However, no matter how good the discharge energy recovery by the additional device is, the effect of the hull resistance is large, not only decreases the effect, but may also increase the overall resistance. There is a difficulty in energy recovery by the additional device.

The present invention can obtain the thrust component of the lift force generated by the flow flowing in and outward while rotating toward the rud 9 by the wing 2 as the foil section, and supports the anora wing 2. The support bar 4 and the rim 5 are also formed in the cross section of the foil to obtain a larger thrust component. Accordingly, in the case of a small ship speed, a factor that greatly influences the overall resistance, the effect of improving the propulsion performance or the horsepower reduction can be more reliably expected, and the structure is simple and the installation cost is relatively low. There is also an advantage that can be installed without a big ship.

Claims (1)

In the device equipped with a blade having a blade having a foil cross section at the rear of the propeller, the blade 9 is installed radially around the boss (3) in the middle of the wing (2) A recovery device for ship loss energy, characterized in that the cross section is formed of a support bar (4).