Bio-LNG: The Clean Bridge to Zero-Emission Shipping

66

  • Bio-LNG offers a transitional solution, reducing emissions by up to 80% while the shipping industry scales up zero-emission fuels.
  • Existing LNG infrastructure and engines can seamlessly accommodate bio-LNG, making it a practical and future-ready option.
  • While bio-LNG is a cleaner fuel, challenges like limited production and methane slip remain, emphasizing the need for continuous innovation.

The shipping industry is at a crossroads as it strives to meet the International Maritime Organization’s (IMO) goal of net-zero greenhouse gas emissions by 2050. While the ultimate objective is to adopt zero-emission green fuels, the journey begins with transitional solutions like bio-LNG. Acting as a bridge fuel, bio-LNG facilitates immediate emissions reduction and prepares vessels for the shift to sustainable fuels, reports Wartsila.

The Role of Bridge Fuels in Shipping’s Transition

To achieve net-zero emissions by 2050, the shipping industry must adopt transitional fuels like fossil LNG and bio-LNG. These bridge fuels extend the lifespan of existing vessels and provide immediate benefits by reducing harmful emissions.

LNG, a cleaner alternative to heavy fuel oil, already helps ships comply with IMO regulations by cutting CO2 emissions by up to 20%.

What Sets Bio-LNG Apart?

Bio-LNG, derived from organic waste, offers a substantial environmental advantage over fossil LNG, cutting carbon emissions by up to 80%.

Unlike fossil fuels, bio-LNG recycles carbon already in the natural cycle, making it a near-carbon-neutral option. Its low sulphur content and fewer impurities also minimize harmful by-products during combustion.

Compatibility with Existing Infrastructure

One of the most significant advantages of bio-LNG is its seamless compatibility with LNG-capable engines and infrastructure. Ships using fossil LNG can switch to bio-LNG without retrofits, saving costs and time.

Furthermore, bio-LNG’s compatibility ensures vessels are future-proofed for eventual transitions to zero-emission fuels like green hydrogen or ammonia.

Challenges in Scaling Bio-LNG

Despite its benefits, bio-LNG faces hurdles such as limited production capacity. Current estimates suggest bio-LNG could meet 3.1% of shipping fuel demand by 2030 and 12.6% by 2050. Additionally, methane slip—unburned methane escaping during combustion—remains a concern.

However, advancements like Wärtsilä’s NextDF technology are addressing this issue, reducing methane emissions by over 50%.

Practical Adoption and Real-World Use Cases

Shipping companies are already exploring bio-LNG. For instance, Royal Caribbean’s Utopia of the Seas used bio-LNG for a transatlantic journey, demonstrating its viability.

Starting with fossil LNG and transitioning to bio-LNG prepares ships for the future, enabling immediate reductions in emissions while zero-emission alternatives scale up.

Did you subscribe to our daily Newsletter?

It’s Free Click here to Subscribe!

Source: Wartsila