Propulsion And Manoeuvring Systems

Marine Online
11 Dec 201620:08

Summary

TLDRThis script offers an in-depth look at various ship propulsion and maneuvering systems, emphasizing the importance of hull form and engine power for optimal performance. It discusses traditional single propeller setups, controllable pitch propellers for thrust optimization, and advanced rudder systems like flap, rotor, and Schilling rudders that enhance maneuverability. The script also touches on diesel and steam turbine engines, the impact of rudder design on steering, and the use of autopilots for precise navigation.

Takeaways

  • 🚢 The chapter provides an overview of common propulsion and maneuvering systems in ships, emphasizing the importance of hull form, engine power, and propeller and rudder systems for optimal performance.
  • 🔄 Most ships use a traditional single fixed propeller and rudder, which can be challenging for maneuvering in confined waters.
  • 🛠 Some vessels are equipped with alternative propeller and rudder systems to balance maneuverability and economy more effectively.
  • 💡 Diesel engines are widely used due to their cost-effectiveness, with low-speed engines operating directly onto the shaft and medium to high-speed engines often used in smaller vessels.
  • ⚙️ The response time of steam turbines to control orders is slow, which requires careful planning when maneuvering.
  • ⚓ Controllable pitch propellers (CPP) allow for thrust optimization under different load conditions and can be adjusted using a hydraulic mechanism.
  • 🔄 The direction of a ship's turn can be influenced by the rotation direction of the propeller, with most sea propellers being left-handed, moving anti-clockwise.
  • 🌀 Ducted propellers provide increased power output and better steering, especially at low speeds, by utilizing a shroud that forces water through a smaller aperture.
  • 🛳 Conventional rudders are a compromise between economy and necessity, with different designs like spade, balanced, and semi-balanced rudders serving different types of vessels.
  • 🛑 Advanced rudder systems like flap, rotor, and T rudders offer improved maneuverability and turning performance, though they come at a higher cost.
  • 🕹 The Schilling rudder system uses a fixed-pitch propeller with two synchronized rudders controlled by a joystick, providing unique maneuvering capabilities.
  • 🔄 The direction of a ship's turn can be influenced by the design of the propellers, with twin-screw ships often having right-hand turning starboard propellers and left-hand turning port propellers to reduce cavitation and enhance transverse thrust.

Q & A

  • What is the main focus of the chapter discussed in the transcript?

    -The chapter focuses on an overview of the most common propulsion and maneuvering systems used in ships, including the relationship between hull form, engine power, and propeller and rudder systems.

  • Why do traditional single fixed propellers pose a challenge for ship handlers?

    -Traditional single fixed propellers are designed primarily for economical travel from point A to B, which can be challenging for ship handlers when maneuvering in confined waters due to limited maneuverability.

  • What are controllable pitch propellers and how do they optimize thrust?

    -Controllable pitch propellers are a type of propulsion system that allows for the modification of the pitch to optimize thrust under different load conditions, improving maneuverability and fuel efficiency.

  • How do diesel engines operate in ships, and what are some considerations for ship handlers?

    -Diesel engines, especially low-speed ones, operate directly onto the shaft. Ship handlers must consider the difficulty of starting the engine when making headway and the potential limitations of starter availability.

  • What is the main drawback of steam turbines from a ship handler's perspective?

    -Steam turbines have a slow response to control orders for changing the direction of shaft rotation, which requires careful planning of each movement when maneuvering the ship.

  • What are ducted propellers and what advantages do they offer?

    -Ducted propellers are enclosed in a tube or tunnel with the propeller inside. They offer more output power, reduced propeller wash, better steering at low speeds, and improved turning characteristics.

  • What is the difference between a conventional rudder and a flap rudder?

    -A flap rudder has an additional flap on the trailing edge for steering, allowing up to twice the steering power compared to a traditional rudder, making the ship more maneuverable.

  • What is the purpose of the rotor rudder, and how does it improve ship turning performance?

    -The rotor rudder is a conventional rudder with a rotating cylinder mounted vertically on the edge. It smooths the water flow at high rudder angles, improving the ship's turning performance.

  • What is the Schilling rudder system, and how does it differ from other rudder systems?

    -The Schilling rudder system features a fixed-pitch propeller that is constantly running, with two rudders that can rotate through a total arc of 145 degrees. It is controlled by a single joystick, offering a unique and efficient maneuvering capability.

  • How do twin-screw ships achieve better maneuverability, and what factors contribute to this?

    -Twin-screw ships achieve better maneuverability through a combination of factors including propeller configuration, the effect of talk, transverse thrust, the pivot point, and the skill of the ship handler.

  • What is the importance of planning turns in confined waters, and how can autopilots assist with this?

    -Planning turns in confined waters is crucial for navigational safety and precision. Modern autopilots with preset turning radius or fixed rate of turn modes can assist in executing and controlling turns accurately.

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Étiquettes Connexes
Ship PropulsionManeuvering SystemsDiesel EnginesControl SystemsPropeller DesignRudder SystemsTurbulence EffectsSteering EfficiencyAutopilot FeaturesNavigation Planning
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