06 December 2024
Ship Blackout – Causes, Recovery, Prevention
Which are the most common causes of blackouts? Let the Ship Nerd provide valuable guidance to help prevent and mitigate potential consequences.
Table of Contents
Introduction
Under certain circumstances – in congested waters, during manoeuvring or in harsh weather – a blackout can lead to loss of life or damage to property, infrastructure and/or the environment. This article highlights some of the most common causes of a blackout and aims to provide ship managers and crews with guidance to help prevent and mitigate potential consequences.
Ships occasionally experience this situation, with a temporary loss of propulsion. Fortunately, most incidents do not have any significant consequences, as they usually occur at open sea.
Nevertheless, such a situation should be avoided. Planning, training, and contingency measures are all essential elements to effectively manage the risk of blackouts, and the combined effect of measures will have the greatest impact on safety.
Our recommendations for preventing blackouts are mainly centred around three main topics:
1. Ensure correct maintenance and operation
Correct maintenance and operation are the most important factors to prevent blackouts. The below list provides practical examples of some failure modes that could lead to blackouts and how to avoid these:
Loss of lube oil pressure
- Ensure correct maintenance of lube oil pumps, purifiers and filters.
- Ensure lube oil sump tanks are topped up, particularly when rough weather is expected.
Fuel-oil-related issues (clogged filters, starvation, etc.)
- Ensure correct maintenance of fuel oil pumps, purifiers and filters.
- Ensure frequent draining of water and sufficient heating.
- Verify free movement of fuel rack and links to the governor actuators.
- Avoid, as far as possible, mixing fuels of different qualities or origins, and do not use fuel until test results are ready and the acceptable fuel quality is confirmed.
- Strictly follow procedures for fuel switchover. The process is usually slow to avoid thermal shock and should be done at a low engine load. Failure to follow this procedure may result in the seizure of the fuel pumps or other thermal-shock-related issues.
- Avoid, as far as possible, fuel switchover during operations
of increased risk such as manoeuvering or passage in
enclosed waters. - Check fuel pump plunger-barrel clearance, in particular in connection with a change to fuel of lower viscosity.
Control, monitoring and safety system malfunctions
- Ensure correct safety device settings for engines and
alternators. - Conduct periodic testing of safety mechanisms and power
management systems and ensure safety devices are triggered
at the correct settings.
Common maintenance-related failures
- Avoid similar maintenance on several auxiliary engines at the same time to prevent failures due to a common maintenance-related issue.
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2. Ensure crew competence through regular blackout testing
The ever-increasing complexity and level of system integration may challenge operators’ ability to understand in-depth how these systems work. This also makes troubleshooting and manual recovery more difficult. Hence, a highly competent and trained crew is more important than ever.
Adequate and extensive blackout testing should be arranged regularly to verify the system responses to different blackout failures and to enhance crew competence on blackout scenarios, such as:
- Identify blackout conditions, observe power system automated actions, and troubleshoot problems if the sequence of blackout recovery fail.
- Learn what manual actions may be required for blackout restoration.
- Verify expected behaviour versus actual behaviour for:
- Power generation start-up
- Power generation connection to main switchboards and synchronization
- Propulsion recovery
- Identify areas for improvement.
- Become more confident with emergency response procedures and checklists.
A proper blackout test involves both the main power system and the emergency generator start-up. This is because a blackout recovery sequence consists of these two parallel processes, which start up independently without any operational delays.
It should be ensured that the blackout test is created by different conditions (i.e. different failures), to verify system response triggered by different circumstances and to prepare the crew for various scenarios. It is important that tests verify the functions of the blackout prevention and recovery measures (i.e. testing a full blackout). The emergency generator should also regularly be tested under realistic loads.
3. Prepare and implement operating procedures for identified high-risk operations
All vessels should have operating procedures, or standing orders, that specify how to prepare for and handle specific situations such as berthing or navigation in heavy weather.
DNV recommends that operators carry out a risk assessment to identify the ship operations for which a blackout would represent a particularly high risk. We further recommend that the vessels’ operating procedures for the identified high-risk ship operations be reviewed to ensure that clear specifications of the required state of machinery and equipment are defined, including:
- Number of generators and propulsion units online and in standby
- Configuration of auxiliaries (common or separated) and bus-tie (closed or open)
- Manning level in different departments and stations
Simple but clear operating procedures can raise the crew’s risk awareness and increase the safety level in situations when a blackout could lead to severe consequences.
Recommendations
To prevent blackouts, and to mitigate the consequences when they occur, DNV suggests that operators review and implement relevant recommendations as described in this news.
Implementing robust operating procedures and ensuring crews’ risk awareness, in combination with correct maintenance and operation of essential equipment, as well as regular blackout testing, undoubtedly have a significant positive impact on vessels’ safety and reliability.
Source: DNV
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