(a) Describe. with the aid of a sketch, how the alignment of a propeller transmission shaft system may be checked. (8)
(b) State the indications of a high bearing when the shaft is running.(2)
Question 7. Many attempt to describe aligning two shafts together rather than checking the alignment of the shafting. Candidates describe measuring along the shaft rather than the height of the bearings.
The alignment of a propeller transmission shaft system.
The alignment of a propeller transmission shaft system refers to the precise positioning and orientation of various components within the system, ensuring they work harmoniously to efficiently transmit power from the engine to the propeller.
1. Importance of a proper marine shaft alignment – Solé Diesel
Key Components and their Alignment:
- Engine:
- The engine’s crankshaft and flywheel are the starting point of the propulsion system. Their alignment is crucial for smooth power transfer and minimizing vibrations.
- Gearbox (if present):
- The gearbox, which steps down the engine’s high rotational speed to a suitable speed for the propeller, must be aligned with the engine’s crankshaft.
- Misalignment can lead to increased wear on gears, bearings, and seals, resulting in reduced efficiency, noise, and potential failure.
- Shaft Couplings:
- These connect the various shaft sections (crankshaft to gearbox, gearbox to intermediate shaft, intermediate shaft to propeller shaft).
- Proper alignment ensures efficient power transmission and minimizes stress on the couplings, bearings, and shafts.
- Different types of couplings exist (rigid, flexible) each with specific alignment requirements.
- Intermediate Shafting:
- The shaft(s) connecting the gearbox to the propeller shaft, supported by bearings along their length.
- Alignment of these shafts ensures they rotate true and minimize bending stresses, reducing wear on bearings and seals, and preventing vibrations.
- Propeller Shaft and Stern Tube:
- The propeller shaft passes through the stern tube, supported by bearings at both ends. 1. Stern Tube Seals – Lagersmit www.lagersmit.com
- Proper alignment is critical to minimize friction, wear, and vibration, ensuring the smooth rotation of the propeller and preventing damage to the bearings and seals.
- Propeller:
- The propeller itself must be properly aligned with the propeller shaft to avoid imbalance and excessive vibration, which can affect performance and cause damage.
Importance of Proper Alignment:
- Reduced Vibrations: Misalignment can cause vibrations that lead to noise, discomfort, and potential damage to the vessel’s structure, machinery, and equipment.
- Increased Efficiency: Proper alignment minimizes friction and energy losses, improving the overall efficiency of the propulsion system and reducing fuel consumption.
- Extended Component Life: By reducing stress and wear on bearings, seals, couplings, and shafts, proper alignment extends the lifespan of these components, reducing maintenance costs and downtime.
- Improved Safety: A well-aligned system minimizes the risk of shaft or bearing failure, which could lead to loss of propulsion and potential safety hazards.
Alignment Methods:
Various techniques are used to achieve and verify proper alignment, including:
- Laser Alignment: Utilizes laser beams to measure and adjust the alignment of components with high accuracy. 1. Propeller Shaft Alignment Techniques Using Microgage 2D Laser pinpointlaser.com
- Dial Indicators: Mechanical dial indicators are used to measure shaft runout and misalignment at various points along the system.
- Feeler Gauges: Used to measure gaps and clearances between coupling faces to assess alignment.
Alignment Checks:
- Cold Alignment: Performed when the system is at rest and at ambient temperature.
- Hot Alignment: Carried out when the system is at its normal operating temperature to account for thermal expansion of components.
Conclusion:
Proper alignment of the propeller transmission shaft system is critical for the efficient, reliable, and safe operation of a vessel’s propulsion system. It minimizes vibrations, reduces wear and tear on components, and improves overall performance and fuel economy. Regular alignment checks and adjustments are essential parts of a vessel’s maintenance program to ensure the system remains in good working order.
Checking the alignment of a propeller transmission shaft system
Checking the alignment of a propeller transmission shaft system is a critical maintenance procedure that ensures efficient power transmission, minimizes wear and tear on components, and reduces the risk of vibrations and damage. Several methods can be used to check the alignment, each with its own advantages and suitable applications.
1. Importance of a proper marine shaft alignment – Solé Diesel
- Feeler Gauges (Gap and Sag Method)
- Principle: This traditional method involves measuring the gaps between the coupling faces at various points around their circumference using feeler gauges. 1. Importance of a proper marine shaft alignment – Solé Diesel soleadvance.com
- Procedure:
- The coupling bolts are loosened or removed to create a small gap between the coupling faces.
- Feeler gauges of varying thicknesses are inserted into the gap at different points (top, bottom, sides) to measure the clearance. 1. A Complete Guide to Feeler Gauges – RS Components uk.rs-online.com
- The shaft is rotated, and measurements are taken at each position to determine if the gaps are consistent, indicating proper alignment. 1. Importance of a proper marine shaft alignment – Solé Diesel soleadvance.com
- Advantages:
- Simple and cost-effective method.
- Can be performed with basic tools.
- Disadvantages:
- Requires physical access to the couplings.
- Can be time-consuming and less accurate than other methods, especially for larger shafts or complex systems.
- Dial Indicators
- Principle: Dial indicators are precision measuring instruments used to measure shaft runout (deviation from a straight line) and misalignment between coupling faces.
- Procedure:
- Dial indicators are mounted on magnetic bases or fixtures attached to the shaft or coupling. 1. Dial Indicator Alignment Basics – Acoem www.acoem.com
- As the shaft is rotated, the dial indicators measure any radial or axial movement, indicating misalignment.
- Advantages:
- Provides more accurate measurements than feeler gauges.
- Can be used to check alignment at various points along the shafting system.
- Disadvantages:
- Requires specialized equipment and skilled operators.
- Can be time-consuming for complex systems.
- Laser Alignment Systems:
- Principle: Laser alignment systems use laser beams and detectors to measure the precise alignment of the shafting components with high accuracy. 1. Advantages of Laser Shaft Alignment| HARtech www.har-tech.com
- Procedure:
- Laser transmitters and receivers are mounted on the shaft couplings or bearings.
- The laser beam is projected along the shaftline, and the receivers measure its position, providing data on misalignment. 1. What is shaft laser alignment? – MR Engineering Group www.mrengineering.co.uk
- Software analyzes the data and provides guidance on adjustments needed to achieve proper alignment.
- Advantages:
- Highly accurate and efficient method. 1. Top 12 reasons for using laser alignment easylaser.com
- Can measure both angular and offset misalignment. 1. Laser Alignment Tools: An Overview – Reliable Plant www.reliableplant.com
- Provides real-time feedback during adjustments. 1. OPTALIGN Touch | Laser Shaft Alignment System | PRUFTECHNIK www.pruftechnik.com
- Disadvantages:
- Most expensive method, requiring specialized equipment and training.
- Other Methods:
- Straight Edge and Line: A simple but less precise method using a straight edge and a line to visually check for gross misalignment.
- Telescope and Target: A telescope and target system can be used for long shaftlines, but it requires clear line of sight and skilled operators.
Factors Affecting Alignment:
- Vessel Loading: The vessel’s loading condition can influence shaft alignment, especially in larger ships. 1. Optimising alignment: a crucial commitment – Riviera Maritime Media www.rivieramm.com
- Thermal Expansion: Temperature changes can cause components to expand or contract, affecting alignment.
- Wear and Tear: Wear on bearings, couplings, or the shaft itself can lead to misalignment over time.
Importance of Regular Checks:
Regular alignment checks, typically performed during dry-docking or major maintenance periods, are crucial to ensure the propulsion system’s efficiency, reliability, and longevity. Early detection and correction of misalignment can prevent costly repairs and downtime.
The choice of alignment method depends on the vessel’s size, complexity of the shafting system, budget constraints, and desired level of accuracy. However, regardless of the method used, ensuring proper alignment is essential for the safe and efficient operation of the vessel’s propulsion system.
The indications of a high bearing when the shaft is running.
Here are some indications that a bearing might be running high (experiencing excessive friction or wear) when the shaft is running:
- Elevated Temperature: This is one of the most common and easily detectable signs. A high bearing will generate more heat due to increased friction, leading to a noticeable rise in temperature around the bearing housing. You can often feel this by touching the housing (carefully!) or using an infrared thermometer. 1. Temperature Field Analysis of High-Speed Bearings Considering Frictional Heat and Interactive Effects | IIETA www.iieta.org
- Unusual Noise: A high bearing might produce abnormal sounds like grinding, squealing, or rumbling noises, different from the normal operating sounds of the machinery.
- Excessive Vibration: Increased friction and wear in the bearing can lead to vibrations that can be felt or measured using vibration analysis equipment.
- Oil Leakage or Discoloration: In oil-lubricated bearings, excessive heat can cause oil to leak past seals or change color (darkening) due to degradation.
- Difficulty in Turning the Shaft: If the shaft becomes difficult to turn by hand or requires increased power from the motor, it could indicate a high bearing with excessive friction.
- Smells: In extreme cases, a burning smell might be noticeable due to overheating of the bearing or lubricant.
Specific to Stern Tube Bearings:
- Overheating of Stern Tube: The stern tube itself might become excessively hot to the touch due to heat transfer from the high bearing.
- Increased Cooling Water Temperature: If the stern tube is water-cooled, the cooling water outlet temperature might rise significantly due to the heat generated by the bearing.
- Unusual Water Leakage: In severe cases, a high bearing can cause damage to seals, leading to increased water leakage into the stern tube.
It’s important to note that:
- Early detection: The earlier a high bearing is detected, the better the chances of preventing further damage and costly repairs.
- Multiple indicators: Often, multiple indicators will be present, and it’s essential to consider them together for a proper diagnosis.
- Prompt action: If any of these signs are observed, the machinery should be stopped as soon as safely possible, and the bearing should be inspected and repaired or replaced as needed.
Safety first: Always prioritize safety when inspecting or working on machinery. Follow proper lockout/tagout procedures, wear appropriate PPE, and be aware of hot surfaces and rotating parts.