Overview of the YM Tutorial
The YM Tutorial is a comprehensive guide designed to enhance maritime operations, focusing on efficient cargo management, environmental sustainability, and advanced tracking technologies for optimal performance.
The YM Tutorial is a specialized resource developed to guide maritime professionals in optimizing vessel operations, cargo handling, and environmental performance. It serves as a comprehensive platform for understanding advanced shipping technologies and sustainable practices. The tutorial emphasizes the importance of real-time tracking, energy efficiency, and safety protocols, making it an essential tool for modern maritime operations. By integrating detailed technical specifications and operational insights, the YM Tutorial provides a holistic approach to managing container ships effectively. Its focus on emissions reduction, hull optimization, and cargo security ensures that users can navigate the complexities of global shipping with precision and compliance.
1.2 Key Features of the YM Tutorial
The YM Tutorial offers a range of innovative features tailored for maritime professionals. It includes detailed sections on technical specifications, operational insights, and environmental efficiency. The tutorial highlights advanced cargo management systems, such as refrigerated container plugs, ensuring the safe transport of perishable goods. It also integrates real-time tracking technologies like AIS for monitoring vessel movements. Additionally, the YM Tutorial emphasizes hull optimization and emissions reduction strategies, aligning with global sustainability goals. These features make it a valuable resource for optimizing ship performance, enhancing operational efficiency, and ensuring compliance with maritime regulations. By focusing on these key areas, the YM Tutorial provides a comprehensive toolkit for modern shipping operations.
1.3 Importance of the YM Tutorial in Maritime Industry
The YM Tutorial plays a pivotal role in the maritime industry by providing critical insights and tools for modern shipping operations. It enhances operational efficiency through detailed technical specifications and real-time tracking capabilities. The tutorial’s focus on environmental sustainability, such as emissions reduction and hull optimization, supports industry efforts to meet global climate goals. Additionally, its emphasis on cargo security and perishable goods transport ensures safe and reliable delivery of sensitive shipments. By offering comprehensive resources, the YM Tutorial aids in improving safety standards, reducing operational costs, and promoting compliance with international maritime regulations. This makes it an indispensable resource for professionals seeking to modernize and optimize their shipping practices.
Technical Specifications
The YM Tutorial is classified as a container ship with IMO 9792618 and MMSI 636021690, built in 2022, featuring a TEU capacity of 11714 and draft of 13.4m.
2.1 IMO and MMSI Details
The YM Tutorial is registered with the IMO number 9792618 and MMSI 636021690, which are unique identifiers for maritime vessels. These codes are essential for global tracking and communication. The IMO number ensures compliance with international safety and environmental regulations, while the MMSI enables real-time identification through AIS systems. Together, they facilitate seamless operations and monitoring across the world’s oceans.
2.2 Ship Type and Flag
The YM Tutorial is classified as a Container Ship, specializing in the transportation of containerized cargo. It is registered under the flag of Liberia, a common choice for international vessels due to its favorable maritime regulations and tax efficiencies. The Liberian flag ensures compliance with global shipping standards and provides a robust legal framework for operations. This registration also highlights the vessel’s commitment to adhering to international maritime laws and safety protocols, ensuring smooth sailing across global waters.
2.3 Technical Specifications: TEU Capacity, Length, Draught
The YM Tutorial boasts impressive technical specifications, including a TEU capacity of 11,714, making it a high-capacity container ship capable of transporting a large volume of cargo. Its overall length is 364 meters, providing ample space for container storage while maintaining operational efficiency. The vessel’s draught is recorded at 13.4 meters, ensuring stability and optimal performance in various marine conditions. These dimensions enable the ship to navigate major shipping routes effectively, supporting global trade and logistics. The balance of size and capacity underscores the YM Tutorial’s role as a reliable and efficient maritime asset in modern container shipping.
2.4 Builder and Year Built
The YM Tutorial was constructed by Imabari Shipbuilding Hiroshima, a renowned shipbuilding company known for its advanced engineering and high-quality vessel construction. The ship was built in 2022, making it a relatively new addition to the maritime industry. With a lifespan of just over 3 years as of 2025, the YM Tutorial represents modern shipping standards, combining efficiency with durability. Its construction reflects cutting-edge technology and design principles aimed at optimizing performance and reducing environmental impact. The vessel’s builder and recent completion underscore its role as a state-of-the-art container ship in today’s competitive global shipping landscape.
Operational Details
The YM Tutorial is currently navigating the Strait of Malacca, en route to Cai Mep, with an estimated time of arrival and a draft of 13.4 meters.
3.1 Current Position and Voyage
The YM Tutorial is currently positioned in the Strait of Malacca, with its last reported coordinates at 50.5487° N, -1.0529° W. The vessel is en route to Cai Mep, Vietnam, maintaining a steady speed of 17.0 knots. AIS data indicates that the ship is progressing smoothly on its voyage, with all operational systems functioning optimally. The current draft of the vessel is 13.4 meters, which is within the safe operating range for its class. Real-time tracking systems are actively monitoring the ship’s progress, ensuring timely updates for stakeholders. This information is crucial for logistics planning and maritime safety.
3.2 Port Calls and Destination
The YM Tutorial is scheduled to make its next port call at Cai Mep, Vietnam, a key hub for international trade. Prior to this, the vessel successfully completed a port call in Singapore, ensuring the timely delivery of cargo. The ship’s itinerary is carefully planned to optimize transit times and maintain operational efficiency. Its current voyage includes multiple destinations across Asia, supporting the transportation of perishable goods and other critical cargo. The vessel’s route is designed to minimize delays, ensuring reliable service for its clients. Real-time AIS tracking provides updates on its progress, enabling stakeholders to monitor its journey seamlessly.
3.3 Estimated Time of Arrival (ETA)
The YM Tutorial is currently en route to its destination, with an estimated time of arrival (ETA) that is meticulously calculated to ensure timely delivery. The ETA is influenced by factors such as weather conditions, ship speed, and route adjustments. Real-time updates from the AIS system provide accurate estimates, enabling stakeholders to plan accordingly. The vessel’s advanced navigation systems and skilled crew work together to maintain schedule adherence. While the ETA is subject to change due to operational factors, the YM Tutorial is committed to minimizing delays and ensuring cargo reaches its destination efficiently. This focus on punctuality underscores its reliability in the maritime industry. The ETA is a critical component of its operational excellence.
Cargo and Capabilities
The YM Tutorial specializes in transporting perishable goods, equipped with numerous refrigerated container plugs to ensure optimal conditions for sensitive cargo during long-distance voyages, enhancing its operational versatility.
4.1 Refrigerated Container Plugs
The YM Tutorial is equipped with a significant number of refrigerated container plugs, enabling it to securely transport perishable goods across vast distances. These plugs provide consistent power supply to refrigerated containers, maintaining optimal temperatures for sensitive cargo such as food, pharmaceuticals, and other temperature-controlled products. The system ensures minimal temperature fluctuations, preserving cargo quality throughout the voyage. This capability makes the YM Tutorial a reliable choice for shippers requiring precise temperature control. The high number of plugs allows for efficient management of diverse refrigerated cargo, enhancing the vessel’s operational versatility in global trade routes.
4.2 Perishable Goods Transport
The YM Tutorial excels in the transport of perishable goods, leveraging its advanced refrigerated container plugs to maintain precise temperature control. This ensures the integrity of sensitive cargo, such as fresh produce and pharmaceuticals, during long voyages. The vessel’s capabilities in this area are crucial for global supply chains, providing a reliable solution for shippers needing to transport temperature-sensitive items. By integrating state-of-the-art cooling systems, the YM Tutorial minimizes spoilage and ensures goods arrive in optimal condition. This expertise underscores its role as a leader in the maritime industry, catering to the growing demand for efficient and reliable perishable goods transportation worldwide.
4.3 Cargo Security Measures
The YM Tutorial employs robust cargo security measures to ensure the safety and integrity of goods during transit. These include advanced surveillance systems, encrypted data transmission, and secure container seals to prevent unauthorized access. The vessel adheres to strict access controls, with restricted entry to cargo areas, ensuring only authorized personnel can handle shipments. Additionally, the ship is equipped with state-of-the-art monitoring technology to detect and respond to potential security breaches. These measures are complemented by regular audits and compliance with international maritime security regulations, ensuring a high level of protection for all cargo on board. Such rigorous protocols make the YM Tutorial a trusted choice for secure and reliable cargo transportation.
Environmental and Energy Efficiency
The YM Tutorial incorporates advanced hull optimization and emissions reduction technologies to enhance energy efficiency and minimize environmental impact during maritime operations.
5.1 Emissions Reduction
The YM Tutorial employs cutting-edge technologies to significantly reduce emissions, ensuring compliance with international environmental regulations. Its advanced systems minimize fuel consumption while maintaining operational efficiency, contributing to a greener maritime industry.
5.2 Hull Optimization
The YM Tutorial features an optimized hull design, engineered to enhance fuel efficiency and reduce environmental impact. This advanced hull form minimizes drag, enabling smoother navigation and lower energy consumption. Built by Imabari Shipbuilding Hiroshima in 2022, the vessel incorporates innovative structural enhancements to support energy savings. These optimizations not only improve performance but also align with global efforts to reduce emissions in maritime operations. By integrating cutting-edge engineering, the YM Tutorial sets a benchmark for sustainable shipping practices.
Ownership and Management
The YM Tutorial is owned by Shoei Kisen Kaisha Ltd, a renowned shipping company, and is registered under the Liberia flag, ensuring compliance with international maritime standards.
6.1 Owner: Shoei Kisen Kaisha Ltd
Shoei Kisen Kaisha Ltd, a prominent global shipping company, owns the YM Tutorial. With extensive experience in maritime operations, the company ensures efficient management and compliance with international standards. Renowned for its focus on innovation and sustainability, Shoei Kisen Kaisha Ltd operates a diverse fleet, including container ships like the YM Tutorial. The company’s commitment to quality and environmental responsibility aligns with the vessel’s advanced features, making it a reliable asset in global trade. This ownership structure underscores the YM Tutorial’s role in modern maritime logistics.
6.2 Registered Under Liberia Flag
The YM Tutorial is registered under the flag of Liberia, a widely recognized flag of convenience known for its favorable maritime regulations. Registration under the Liberian flag offers several advantages, including tax efficiencies and adherence to international maritime standards. This flag state ensures compliance with global shipping laws, facilitating seamless operations across international waters. Liberia’s reputation as a trusted flag state enhances the vessel’s credibility and operational efficiency. The registration underscores the vessel’s commitment to legal and regulatory compliance, ensuring smooth port calls and global trade activities. This aspect is crucial for maintaining the YM Tutorial’s reputation as a reliable container ship in the maritime industry.
Tracking and Monitoring
The YM Tutorial utilizes advanced AIS technology for real-time tracking, enabling precise monitoring of its position, speed, and course, ensuring efficient route planning and timely deliveries.
7.1 AIS Technology for Real-Time Tracking
The YM Tutorial employs AIS (Automatic Identification System) technology to enable real-time tracking of its position, speed, and course. This system provides precise data, such as its current location at 50.5487, -1.0529, and its journey toward destinations like Cai Mep. AIS technology ensures transparency and efficiency in maritime operations by sharing critical information with nearby vessels and coastal authorities; The YM Tutorial maintains a speed of 17.0 knots and operates under the Liberia flag, with its draught recorded at 13.4 meters. This advanced tracking capability is essential for monitoring its progress, ensuring timely arrivals, and optimizing route planning for enhanced operational efficiency.
7.2 Using YM Tutorial for Tracking
The YM Tutorial provides a user-friendly platform for tracking maritime operations, offering real-time updates on vessel positions, port calls, and estimated arrival times. By utilizing AIS technology, users can monitor the YM Tutorial’s journey, including its current location, speed, and course. This tool is essential for logistics planning, enabling stakeholders to track shipments efficiently. The system also provides detailed voyage information, such as the vessel’s heading to Cai Mep with a speed of 17.0 knots. Additionally, the YM Tutorial’s tracking features support cargo security and operational efficiency, ensuring timely deliveries and seamless communication between parties involved in the maritime supply chain.
The YM Tutorial is a container ship equipped with advanced features like refrigerated plugs and AIS tracking, ensuring efficient maritime operations and environmental sustainability.
8.1 Summary of Key Points
The YM Tutorial is a container ship with IMO 9792618 and MMSI 636021690, sailing under the Liberia flag. It is owned by Shoei Kisen Kaisha Ltd and built by Imabari Shipbuilding Hiroshima in 2022. The vessel features a TEU capacity of 11714, a length of 300 meters, and a draught of 13.4 meters, with a speed of 17 knots. Equipped with refrigerated container plugs, it efficiently transports perishable goods. Utilizing AIS technology, the ship provides real-time tracking, enhancing operational transparency. Currently en route to Cai Mep, the YM Tutorial emphasizes environmental efficiency through hull optimization. This ship plays a vital role in the maritime industry, balancing cargo needs with sustainable practices. Its registration under Liberia underscores its global operational capabilities.
References
The information provided is based on publicly available data from various maritime and shipping sources, including IMO and MMSI records, as well as AIS tracking systems. Specific details were sourced from VesselFinder, MarineTraffic, and other reputable maritime databases. Additional information on the vessel’s technical specifications and operational details was obtained from official shipbuilding and shipping company publications. For real-time tracking and positional data, AIS signals and ship monitoring platforms were utilized. The environmental and efficiency measures were referenced from industry reports and technical briefs. All data is subject to change and should be verified through official channels for the most accurate and up-to-date information.