Containership engines are inefficient at low loads – 5 new options to consider

Containership engines built more than five years ago are now likely to be sailing inefficiently at low engine loads. Here are 5 options to think about.

Concept

If you’re operating a containership that is more than five years old, it was probably designed for an operating profile that is now out of date. Its 2-stroke engine is likely optimized for much higher speeds than today’s market demands. It’s like owning a gas-guzzling sports car in a city where the maximum speed limit is 30 km/h – not the most efficient mode of transport. So what are your options?

Containership engines built before the era of emission-limiting regulations were typically designed for sailing speeds of up to 30 knots. Today, operators need to abide by regulations like the energy efficiency existing ship index (EEXI) and carbon intensity indicator (CII).

This means containership engines scoring speeds of around 18 knots have become the norm – about 2/3 of the speed for which the engines were optimized. The result is that old containership engines are running very inefficiently at low loads, consuming far more fuel and producing much more CO2 than they need to.

In 2022 an analysis of the global fleet predicted that more than 1/3 of containership engines would be non-compliant in 2023 if no action taken.

Furthermore by 2030, if no action is taken, 80% of containerships will be in the lowest CII category. Container ship owners have five main options when faced with this problem:

1. Recycle the vessel
2. Slow down even more
3. Use drop-in biofuels
4. Install energy-saving technologies
5. Retrofit the engine to optimize efficiency.

1 – Recycle the vessel

If your vessel is coming towards the end of its life, the payback time for any investment needed to keep it compliant may be too long. Shipping association BIMCO estimates that shipowners will scrap twice as many ships over the next 10 years compared to the previous decade due to tighter emission control.

In any other case, scrapping due to the containership engines should be the last resort. In addition to the financial and environmental costs of this process, you also need to bear in mind the considerable cost of replacing the vessel.

Slots at shipyards fill up fast, and the longer you can keep the CO2 footprint that comes with recycling or building a ship off your company’s books the better your sustainability figures will look.

2 – Slow down even more

Slowing down your containership engines reduces fuel consumption and emissions but at the price of competitiveness. When you slow down below market speeds you enter a downward spiral: slower speeds equals fewer ports visited per year, which leads to less cargo transported and results in less profit.

As regulations tighten even further, speeds will have to drop even more. Depending on market demand, you might need more ships to do the same amount of work – and before long your business simply won’t be able to compete.

And even though sailing slower reduces fuel consumption, it leaves you with even more inefficient containership engines because it is operating even further away from the speed for which it was optimized.

3 – Use drop-in biofuels

Biofuels are an interesting alternative for the containership engines segment because of their potential as a carbon-neutral energy source. Biofuels are largely compatible with existing fuel supply and storage technologies, making them a simple, low-cost decarbonization option. Drop-in blends of up to 30% biofuel are allowed under the IMO NOx regulations without requiring any additional emission measurements.

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Biofuels can be made from things like vegetable oils, animal waste, crop residues, sewage from wastewater treatment, and food waste from industry and households. They come in both liquid and gaseous forms. The three biofuels that are considered most relevant for shipping are hydrotreated vegetable oil (HVO), fatty acid methyl ester (FAME), and bioLNG.

All three of these options can be used as drop-in fuels without modifying existing containership engines, fuel supply, or storage technologies. However, due to the higher price of biofuels, containership engines efficiencies still need to be addressed.

4 – Install energy-saving technologies

Energy-saving technologies (ESTs) such as rotor sails or efficiency-boosting add-ons like propeller and rudder retrofits are the low-hanging fruit when it comes to reducing the amount of energy it takes to push your ship through the water.

They are relatively inexpensive, quick to install, and proven to cut fuel consumption and emissions. The trick to ensuring compliance and maximizing fuel savings is to find exactly the right combination for your vessel and its current operating profile before moving to (more expensive) alternative fuels in the future.

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So, ESTs are a no-brainer, but you’ve still done nothing that improves the efficiency of the beating heart of your ship – the containership engines. You can polish the sports car and take the wing mirrors off – that will help cut the amount of energy needed to move it forward – but look under the hood and that big, thirsty V8 is still growling at you.

5 – Retrofit your containership engines

The more efficient the containership engines are, the more value all the other measures you take will create. Adding a range of ESTs to a vessel with an engine running at a low load is not as effective as adding them to a vessel with an engine running at the load it has been designed for.

What you need is a way to derate the engine to bring it into line with today’s operational reality. This way, you get to keep everything that’s great about the sports car – even its power – but its engine is now optimized for those 30 km/h city streets instead of the highway.

You can cut fuel consumption by around 3–4% with fuel-efficiency boosting upgrades that modify your engine’s fuel injection system and optimize engine parameters. But with radical derating, you can go even further and get leaner, healthier, and better-optimized containership engines that can be 10–15% more fuel efficient. This is particularly beneficial if you are considering switching to more expensive alternative fuels or carrying out a fuel conversion for your vessel.

Radical derating involves reducing the engine bore size. Reducing the bore size by 25% while significantly improving combustion efficiency. It also includes a new combustion chamber design that enables the engine to run at optimal loads. This cuts both fuel consumption and greenhouse gas emissions.

Sounds like a long time out of the water, you might think. What about all that lost business? In fact, radically derating your ship’s engine like this can take just 30 days with no dry dock needed.

Essentially you get a brand-new engine with its maintenance clock reset to zero and lower lifecycle costs. As an added bonus the derating solution prepares the engine for future fuel conversions because extra installation positions for alternative fuel injectors are reserved on the cylinder cover.

Keep your container ship compliant and profitable for longer

If your containership is coming up for its 15-year major overhaul it will have to be drydocked and have key engine components like pistons, valves, cylinders, and liners replaced anyway. Radically derating the containership engines at the same time means no additional off-hire but results in a vessel that will benefit more from energy-saving technologies and that is ready to use future fuels as efficiently as possible. Most importantly, you will also have a vessel that will be compliant and profitable for longer.

Source: Wärtsilä

See Also

MAN Energy Solutions has signed a Conversion Commitment Agreement with Seaspan Corporation (Seaspan), a global leader in containership ownership and management in collaboration with Hapag-Lloyd, one of the leading global liner shipping companies. Under the terms of the Agreement, MAN PrimeServ, MAN Energy Solutions’ after-sales division, will deliver 15 methanol engines retrofit solutions for the conversion of vessels powered by individual MAN B&W S90-type fuel-oil-powered engines from the Seaspan and Hapag-Lloyd fleets to dual-fuel ME-LGIM methanol engines capable of running on green methanol. This Agreement includes 45 optional methanol engines retrofit solution. Each conversion can provide a CO2 reduction of 50.000–70.000 Tonnes each year, when operating on green methanol.

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