Design and Development of Air Cushion Vehicle
A hovercraft, also known as an air-cushion automobile or ACV, is an amphibious craft capable of traveling over land, water, dust, ice, and other surfaces. Hovercraft use blowers to provide a large extent of air under the hull, or air cushion, this is barely above atmospheric pressure. They?re now us
2025-06-28 16:26:15 - Adil Khan
Design and Development of Air Cushion Vehicle
Project Area of Specialization Electrical/Electronic EngineeringProject SummaryA hovercraft, also known as an air-cushion automobile or ACV, is an amphibious craft capable of traveling over land, water, dust, ice, and other surfaces. Hovercraft use blowers to provide a large extent of air under the hull, or air cushion, this is barely above atmospheric pressure. They’re now used in the course of the arena as specialized transports in catastrophe relief, coastguard, navy and survey applications, as well as for sport or passenger carrier.
Project Objectives- For rescue purposes in remote areas.
- The access to different areas is very fast.
- Runs under hard circumstances very smoothly.
- Carry military operations smoothly.
The main purpose of the project is to build the design and improvement of a hovercraft prototype with full hovercraft fundamental functions is said. The layout method is pretty similar to that of boat and plane. In-intensity research become performed to determine the components of a hovercraft device and their basic features; and mainly its principle of operation. Unique layout analysis changed into done to decide the scale of aspect parts, pretty according with relevant general requirements as applicable within the air cushion model. Test performance changed into accomplished and the prototype changed into found to fulfill design expectancies giving an air cushion of 0.3 inch. Similarly studies is suggested to enhance at the performance of the craft.
Benefits of the Project- Commercially during disaster’s time
- Military operations
ARCHIMEDES’ PRINCIPLE OR THE LAW OF BUOYANCY
With the intention to carry the Hovercraft on water floor, the pressurized air ought to push against the surface of the water. This may be explained by way of Archimedes’ precept or the regulation of Buoyancy which states the “while a body is immersed in fluid at relaxation, it reviews an upward force or buoyant force which is equal to the load of the fluid displaced through the body”. Archimedes’ principle says that a buoyant pressure will push the body upwards whilst the frame is positioned inside the water, and the electricity of the force can be identical to the load of the water that the frame pushed out of the manner. The same component happens with boats. While a boat is placed in water, a part of the boat goes underneath the surface of the water and pushes the water out of the manner. The boat floats inside the water due to the fact the upward buoyant force is same to the downward weight of the boat. For you to do calculations the usage of this precept, we want to recognize the burden of a sure quantity of water this is displaced, or the load density of water.
4.3.2 NEWTON'S THIRD LAW
The third law states that “all forces exist in pairs: if one frame (say X) reports a force Fx on different body (say Y), then simultaneously the second one body (i.e. Y) exerts a force Fy on first body (i.e. X) however in opposite course and consequently, the two forces are identical and opposite: Fx = ?Fy. The Newton 1/3 law describes the forces between completely special bodies as forces of interplay, and therefore there may be no such issue as a unidirectional pressure or a pressure that acts on just one body. This law is usually mentioned as the motion-reaction regulation, with Fx because the "action" and Fy as the "response". The two forces are acting simultaneous, so it does now not remember which force is termed as movement and which one as response. The 2 forces are the part of the single interaction and, therefore no pressure exists without the alternative force. For this reason, the 2 forces in Newton's 0.33 law are of comparable kind.
4.3.3 AERODYNAMICS
Aerodynamics is defined because the department of fluid physics that research the forces exerted through air or other gases in movement. Hovercraft works on aerodynamic main because it float on cushion of air created by means of the air evolved via propellers. This air fashioned underneath the hovercraft help to reduce the friction among the hovercraft and ground. This discount on friction because of air cushion will increase the velocity as well as efficiency of hovercraft. For max efficiency, the aim is generally to design the form of an object to supply a streamlined go with the flow, with at the very least turbulence inside the transferring air.
| Item Name | Type | No. of Units | Per Unit Cost (in Rs) | Total (in Rs) |
|---|---|---|---|---|
| Total in (Rs) | 36650 | |||
| Bldc motors | Equipment | 2 | 6500 | 13000 |
| High speed motor 775 4600 rpm | Equipment | 1 | 5000 | 5000 |
| PVC sheet | Equipment | 1 | 1500 | 1500 |
| PVC glue | Equipment | 1 | 200 | 200 |
| Propellers | Equipment | 5 | 600 | 3000 |
| Rf transmitter and receiver | Equipment | 1 | 10000 | 10000 |
| Arduino | Equipment | 1 | 1450 | 1450 |
| Parachute cloth | Equipment | 1 | 1000 | 1000 |
| Transportation | Miscellaneous | 5 | 300 | 1500 |