The primary segment, the main bridge, connects the vessel to the offshore structure. Manufactured with high-strength materials, it is meticulously designed to withstand the immense weight of multiple personnel and equipment. It is a safe bridge, allowing people, our crew, and supplies, usually tools and spare parts, to move easily between the ship and the offshore platform. It has a very strong construction, made of galvanized steel and aluminium, which guarantees safety and smooth operations in tough sea conditions.
Anchoring the gangway to the vessel, the pedestal base is pivotal in maintaining stability during the transfer process. Made carefully, it has special rotating parts that let it adjust to the ship's movements. This means the gangway will always stay tightly connected to the ship, no matter how it moves, making sure there's a steady bridge between them.
The gangway can also stretch out or pull in, thanks to its sliding parts. Whether the offshore structure is close or near a considerable distance, these telescopic extensions effortlessly bridge the gap, providing a seamless connection.
The grip system is the unsung hero of the gangway structure, responsible for ensuring the secure attachment between the gangway and the offshore structure. This smart system always ensures nothing unplugs by accident when people are moving. Thanks to its strong build and modern tech, people can trust and feel safe when walking on the gangway.
All these parts are essential for the gangway to work well. Together, they make a sturdy system that lets people and goods move safely from the ship to the platform. Whether it's the main bridge, pedestal base, telescopic extensions, or grip system, each component has been meticulously engineered to meet the highest standards of quality and performance, ensuring the smooth and safe movement of personnel and equipment in the challenging offshore environment.
One of the key technological features of a walk-to-work gangway is its capability to adjust to the vessel's movements, maintaining a secure link. This steady feel comes from smart motion compensation systems that use a mix of both active and passive methods.
Let’s start with Active Motion Compensation which utilizes sensors strategically placed on the gangway and vessel to detect the slightest movements. These sensors constantly track the ship's movement and send the information to a main control centre. The motion compensation system adjusts in real-time to the gangway's position by adjusting and ensuring that it remains stable and secure. By actively counteracting the vessel's movement, active motion compensation technology guarantees a safe and reliable connection between the vessel and the walk-to-work gangway.
In contrast to active motion compensation, the passive one relies on hydraulic or mechanical systems to absorb the motion of the vessel. Though passive motion compensation does not actively adjust the gangway's position, it plays a crucial role in maintaining stability.
Both of these solutions are important parts of a walk-to-work system. Whether it's the precise adjustments made by the active motion compensation or the reliable dampening provided by the passive motion compensation, these systems are at the forefront of enhancing the offshore experience, enabling seamless operations in challenging conditions.
In offshore operations, it is crucial to prioritize safety for personnel welfare, but it requires understanding the various elements. One element of creating a safe workspace is implementing slip-resistant flooring. This type of floor effectively reduces potential slip incidents and provides secure traction in wet environments.
Equally essential are the handrails and guardrails. Not only to afford stability but also to act as a preventive barriers in areas where falling is potentially high risk. The pervasive deployment of these aids considerably attenuates accident probabilities, bolstering a secure work ambience.
Further, the integration of an emergency release mechanism stands paramount. This system warrants swift detachment from the offshore structure (you name it - oil rig, wind turbine or another vessel) during exigencies, making boarding and deboarding of the vessel safe for the personnel, thereby reducing vulnerability to potential hazards.
Complementing these measures is the adoption of redundant grip systems. Characterized by their dual-locking features, they obviate inadvertent releases. Such systems accentuate operational confidence, alleviating concerns over unplanned disengagements.
Additionally, holistic monitoring systems are indispensable to a failsafe offshore milieu. These systems, embedded with advanced sensors, incessantly assess environmental parameters, load metrics, and the overall health of the installation. Through real-time diagnostics, emergent risks are promptly flagged and addressed, safeguarding both the personnel and the structural integrity.
Enhancing the safety measures is the Real Time Location Systems feature of staff through the walk-to-work gangway. Registering all the movements through the gangway to and from Oil Rigs or Wind Turbines provides in-depth data on their entry and exit times and elevates awareness of the situation but also assists in detailed staff oversight. The auto-refresh of the Personnel On Board (POB) list guarantees that you're consistently updated about individuals entering or departing via the gangway, promoting informed decision-making.
The next one - the Sensor Integration system - employs advanced AI algorithms that analyze data from any kind of devices: gyroscopes, accelerometers, and load cells to provide real-time monitoring of gangway conditions. By constantly scanning for potential hazards, it ensures the safety of individuals and equipment. Whether it's detecting an unstable platform or identifying an object obstructing the gangway, the system's high accuracy and precision enable it to take proactive measures to prevent accidents before they happen. Consistent oversight of the gangway’s stability and weight balance safeguards operations, facilitating rapid adaptive responses when needed.
Another solution, a breakthrough in gangway advancements, is the integration of Augmented Reality features. Through AR-enabled devices, like specialized glasses, operators can access a blend of real-world views with virtual insights, spanning from operation steps to safety protocols.
Today's gangway systems are safer and work better thanks to these new technologies. Thanks to Sensor Integration, remote control, and AR tools, these systems are top-notch for places using them. As tech keeps improving, we can expect even better safety and ways of working with Walk-to-work gangway systems in the future.
Since offshore operations are getting bigger and more complex, it's important to have multiple ways to safely move people and things. Apart from the usual walk-to-work gangway systems, helicopters and baskets are considered and used as additional options.
Helicopters, often used for moving crews, are especially helpful in far-off places where boat transfers take too long or are too dangerous due to rough seas. The main benefit of using helicopters is their speed; they can quickly go long distances, which is perfect for last-minute trips. Plus, helicopters can usually handle conditions that might be too tough for boats, especially when the sea is very choppy. But there are some downsides. Weather can sometimes stop helicopters from flying, causing delays. They also can't carry as many workers and as much cargo as boats can. Looking closer into profitability, helicopters can be more expensive to run and maintain.
For safety, anyone travelling by helicopter over the sea must take special training, called HUET - Helicopter Underwater Escape Training, to know what to do if the helicopter has to make an emergency landing in the water.
Another method brings us back to vessels. But not with the gangway, but - basket. Those transfers involve using a large basket to transport personnel between a vessel and a platform. Personnel stand inside the basket, which is then lifted by a crane. Basket transfers offer several advantages, including quick transfers, especially when only a small number of personnel need to be transported. In such cases, it can be faster than using a gangway. Additionally, baskets can be utilized in varied sea conditions, where the vessel might be unable to dock closely for a gangway transfer. However, basket transfers have their disadvantages. Personnel are exposed to open sea conditions during transfers, which can be harsh and potentially risky. They also have limited capacity, typically allowing only a few people to be transferred at once, making it less efficient for larger crews.
Specific safety measures are implemented to ensure the safety of personnel during basket transfers. All personnel in the basket should wear safety harnesses that can be attached to the basket, preventing falls and ensuring their security. Additionally, personnel should be adequately trained in the proper procedure to enter, stand, and exit the basket, ensuring smooth and safe transfers.
When considering the three methods - walk-to-work gangways, helicopter transfers, and basket transfers - it is crucial to evaluate various factors before choosing the most suitable method. These factors include the distance from the mainland or another platform, the urgency of the transfer, sea and weather conditions, and the number of personnel or the size/weight of equipment being transferred. Every method has its own pros and cons, but keeping people and cargo safe is the top concern. As things change and improve in offshore jobs, we can look forward to new and improved ways to move things around safely and quickly.
In addition to the key safety considerations mentioned earlier, there are several other crucial factors to keep in mind when deploying and utilizing gangways in the offshore environment. One of the primary concerns is regular inspection and maintenance, like ensuring the ongoing structural integrity of the walk-to-work gangways. Keeping a walk-to-work gangway in top shape is crucial. This means doing regular checks to spot any problems, like damage or rust, that might make it less stable and safe.
Making sure the gangways are properly attached to other offshore structures involves utilizing robust and reliable fastening systems that can withstand the dynamic forces exerted by the movement of the gangways and the fluctuations of the offshore environment.
It's very important to provide training and clear communication with personnel involved in using and maintaining gangways. This means understanding dangers, how to use equipment right, and what to do in emergencies - knowing and following the rules, makes the workplace safer.
Clear emergency plans should tell workers what to do if there's bad weather, equipment problems, or someone gets hurt. Regular drills and rehearsals should ensure that all personnel are familiar with the emergency procedures and can respond effectively in high-pressure situations.
Paying attention to load restrictions is important to prevent the gangways from overloading, which could lead to structural failure or instability. These load restrictions should be clearly communicated and enforced to ensure that the gangways are not subjected to excessive weight or stress beyond their design capabilities.
Automated crew monitoring involves using modern technology (personal tags, readers and software) to keep a close watch on crew members in challenging settings, like offshore platforms. If an emergency arises, being able to pinpoint the exact whereabouts of all crew members can speed up rescue efforts and might even be a deciding factor in saving lives. Supervisors and emergency response teams can act swiftly and efficiently with real-time updates on crew members' whereabouts.
With ongoing data collection, a real-time location system helps managers, operators, and supervisors - you name it - to spot trends and areas that need improvement. Systems' software is the main point for collecting, handling, and showing data from wearable items, like tags or wristbands. It provides an overview of the crew's positions, allowing supervisors to monitor, plan and manage crew members' activities more effectively.
An integral part of automated crew monitoring systems is the emergency alert system. In the event of an anomaly or emergency, the system can automatically notify the relevant supervisors, ensuring prompt action and response and helping with eMustering to significantly reduce time.
What is the oil and gas walk to work?
A W2W also known as a Walk-to-Work solution, is a flexible and efficient method for transferring offshore personnel.
At its core, a W2W solution is all about seamless integration - unlike helicopters or boat landings, which may be limited by weather conditions or availability, a W2W solution offers a more dependable and consistent means of transportation.
The centrepiece of a W2W solution is the purpose-built vessel. A crucial component of the W2W solution is the gangway. This specially designed walkway connects the vessel to the offshore facility, allowing personnel to walk directly from the vessel onto the platform. In addition to the vessel and gangway, a W2W solution integrates offshore facilities and onshore support bases.
What is SOV?
Service operation vessels are important for offshore wind work, making sure wind turbines in the ocean run well. These ships are like a home for the crew and need strong systems to move and position accurately when working with turbines.
The movement systems, called propulsion systems, are very important. They help the ship move smoothly and handle tough ocean conditions, so they can get to any wind turbine easily to do repairs or checks.
Safety is also very key. Everyone on the ship trusts the propulsion systems to work safely so they can do their jobs without extra danger. Even if the weather is bad, the system keeps the ship stable and safe for the crew.
Special movement systems allow these ships to move and position just right. Being able to park the ship close to the turbines is very helpful for repairs and checks. The ship uses things like azimuth thrusters, which can turn in any direction, to move and position accurately. Along with high-tech controls, these help the ship stay exactly where it's supposed to be.
From traditional crew transfer methods to present-day tech-driven solutions, offshore operations have witnessed a paradigm shift. The risks have not diminished, but our capacity to mitigate and manage them has significantly increased, courtesy of technological interventions.
While we heavily depend on technology, the human element remains irreplaceable. Training crew members, instilling a strong safety culture, and ensuring that everyone understands the importance of the protocols in place are as crucial as the tech tools themselves.
The future of offshore operations looks promising, with the integration of even more advanced technologies, such as Artificial Intelligence and Augmented Reality. In the end, using technology for safety in offshore jobs shows how we adapt and move forward despite challenges. The industry keeps finding new ways to make sure offshore areas are safe and productive—and a walk-to-work gangway is such one.
Dive deeper into one of our core topics: Personnel on Board
Sources:
(1) Salzmann, D. Cerda, Prezzi, J., ten Haaf, S., and S. Groenteman. "Walk To Work Offshore Using Motion Compensated Gangways." Paper presented at the OTC Brasil, Rio de Janeiro, Brazil, October 2015. doi: https://doi.org/10.4043/26197-MS
Note: This article was updated on the 6th of November 2024