VMM Engineer

20/06/2025

METHANOL POWERED MAIN ENGINE TECHNOLOGY

By GMM Technologies | 2025-06-07 | Maritime Industry News | MAN Energy Solutions has announced that it will deliver the world’s most powerful two-stroke methanol engine in June 2025. The engine, an MAN B&W 12G95ME-C10.5-LGIM (-Liquid […]

20/03/2025

DUAL FUEL POWERED MAIN ENGINE TECHNOLOGY

assembly by . This 8 tons of will move 40k , and will run on liquid propane.

27/02/2025

STEAM POWERED MAIN ENGINE TECHNOLOGY

of the

The Queen_Elizabeth_2 ( ) underwent a significant propulsion system upgrade during her 1986–1987 refit.

Originally equipped with driving two six-bladed fixed-pitch propellers, the refit replaced these with nine nine-cylinder diesel engines powering two GEC electric propulsion motors. These motors drove two five-bladed, controllable-pitch propellers, each approximately 6 meters in diameter. This upgrade enhanced maneuverability and operational efficiency, allowing for adjustments in blade pitch to control speed and direction without changing the rotational direction of the shafts. The propeller shafts themselves were about 80 meters long, made of solid forged steel, and had a diameter of 590 millimeters.

26/11/2024

MAIN ENGINE SPA 😜😎👌

22/11/2024

NUCLEAR POWERED MAIN ENGINE TECHNOLOGY

By GMM Technologies | 2024-11-05 | Maritime Industry News | ABS has released a new study exploring into the possibility of nuclear technology to power LNG carriers. The study, done in collaboration with Herbert Engineering Corporation […]

22/11/2024

HYDRO POWERED MAIN ENGINE TECHNOLOGY

By GMM Technologies | 2024-10-23 | Ship Building News | Wallenius Marine on Monday christened its new vessel, Future Way, in Emden, Germany. The innovative car carrier is based on the Sleipner design concept and marks a significant […]

10/10/2024

AMMONIAC POWERED MAIN ENGINE TECHNOLOGY

By GMM Technologies | 2024-09-27 | Maritime Industry News | The American Bureau of Shipping (ABS) granted Approval in Principle (AIP) for two autonomous technologies developed by HD Hyundai Heavy Industries and HD Korea Shipbuilding & […]

02/09/2024

❤🇻🇳 HAPPY VIETNAM INDEPENDENCE DAY 🇻🇳❤

❤💜🇻🇳 HAPPY VIETNAM NATIONAL DAY 2/9 🇻🇳💜❤

01/09/2024

MAIN ENGINE SPA 😜😎👌 |

08/07/2024

Do you know what it takes to create the colossal crankshaft for the engine, the world's most powerful diesel engine? This engineering marvel is as fascinating as it is enormous, and its construction is a testament to human ingenuity.

The of the is a massive component, weighing approximately 300 tons. This single piece of machinery is crucial for converting the linear motion of the pistons into the rotational motion needed to drive the propeller of the largest container ships. The engine itself stands 44 feet tall, 87 feet long, and can deliver an astonishing 109,000 horsepower, making it the heart of vessels that transport goods across the world's oceans.

Creating this giant crankshaft begins with selecting the right high-strength steel alloy, which is essential for handling the immense stresses and strains it will encounter. The steel is heated in a furnace to become malleable, then forged into the rough shape of a crankshaft using gigantic presses that can apply millions of pounds of force. This process forms the basic structure of the crankshaft, including its main journals and crankpins.

After forging, the crankshaft undergoes multiple stages of precise machining. Large CNC (Computer Numerical Control) machines are used to cut, grind, and polish the metal to exact specifications. This step is critical as it ensures that the crankshaft's surfaces are smooth and that all dimensions meet the stringent tolerances required for proper engine function. The machining process includes drilling oil passages within the crankshaft to ensure proper lubrication during operation.

To enhance its strength and durability, the crankshaft is subjected to various heat treatments. These treatments, such as quenching and tempering, alter the steel's microstructure, improving its toughness and resistance to fatigue. Given the enormous size of the crankshaft, these processes must be meticulously controlled to achieve uniform properties throughout the component.

Balancing the crankshaft is another vital step. Any imbalance can lead to vibrations that could damage the engine and affect its performance. Engineers use sophisticated balancing machines to detect and correct any imbalances by carefully removing material from specific areas or adding counterweights.
Once the machining and balancing are complete, the crankshaft undergoes rigorous testing to ensure its integrity. Non-destructive testing methods, such as ultrasonic testing, are employed to detect any internal flaws that might compromise its strength. This step is crucial to guarantee that the crankshaft can withstand the extreme conditions it will face in operation.
The RTA96-C engine itself is a two-stroke turbocharged low-speed diesel engine. It features common-rail technology for precise fuel injection control, improving efficiency and reducing emissions. The engine's crosshead design separates the piston and connecting rod from the crankshaft, reducing side loads on the piston and improving lubrication. These features contribute to the engine's exceptional efficiency and performance.

The RTA96-C's crankshaft, with its immense size and intricate construction, exemplifies the pinnacle of marine engineering. It plays a pivotal role in propelling the world's largest , ensuring they operate efficiently and reliably over vast distances.

30/06/2024

The Largest And Most Powerful in The World are some of the largest and heaviest vessels that plough on the seas. They measure up to 1,200 feet in length and can move 10,000 to 16,000, 20-foot steel containers in one trip. To push these vessels through the water require immense amount of energy, that are derived from massive diesel engines. Some of the larger cargo ships have engines that look like this.This is - a two-stroke turbocharged diesel engine designed by the Finnish manufacturer and is currently the largest and most powerful diesel engine in the world. Standing at 13.5 meters high and 26.59 meters long, it is almost as big as a small apartment. It weighs over 2,300 tonnes and its largest 14-cylinder version produces 80,080 kW of power.

The 14-cylinder version was put into service in September 2006 aboard the , a container ship – the largest at that time. The design is based on the older RTA96C engine, but revolutionary common rail technology has done away with the traditional camshaft, chain gear, fuel pumps and hydraulic actuators. The result is better performance at low revolutions per minute (rpm), lower fuel consumption, and lower harmful emissions.One of the most remarkable feature of this behemoth is the high thermal efficiency, which exceeds 50%. This means that 50% of the heat generated by burning fuel is converted to power. For comparison, most automotive and small aircraft engines can only achieve 25-30% thermal efficiency. Even at its most efficient power setting, the big 14-cylinder engine consumes 1,660 gallons of heavy fuel oil per hour.Some stats about the engine:

Bore: 960 mm
Stroke: 2,500 mm
Displacement: 1,820 liters per cylinder
Mean piston speed: 8.5 meters per second
Engine speed: 22–102 RPM
Torque: 7,603,850 newton metres (5,608,310 lbf·ft) @ 102 rpm
Power: up to 5,720 kW per cylinder, 34,320–80,080 kW (46,680–108,920 BHP) total
Mass of fuel injected per cylinder per cycle: ~160 g (about 6.5 ounces) @ full load
Crankshaft weight: 300 tons