A comprehensive and interactive dashboard that predicts LNG demand and enables scenario modelling in Australia was developed as a result of the East Coast Australia LNG Joint Industry Project (EC JIP).
Facilitated by DNV GL, project partners included oil & gas suppliers, LNG infrastructure consultants, ship owners and operators, charterers, industry associations, governmental agencies, and regulators. The EC JIP was recently concluded in October and the dashboard will be made available to the public via subscription soon.
Economic feasibility of LNG-fuelled bulk carrier
Green Corridor JIP 2018 examined the economic feasibility of LNG-fuelled bulk carrier designs
With increasingly stringent international regulations to decarbonise shipping and Australia's unique position as the world's largest LNG exporter, the EC JIP brought together key representatives in Australia from all parts of the logistics chain to explore the uptake of LNG on the continent’s East Coast as a transition to lower emission marine fuels.
Established in 2019, this project builds on the successful Green Corridor JIP in 2018, where major stakeholders examined the economic feasibility of LNG-fuelled bulk carrier designs for transporting iron ore and coal between Australia and China.
LNG as ship fuel
“Reducing greenhouse gas emissions is crucial for the future of the shipping industry,” said Cristina Saenz de Santa Maria, Regional Manager for South East Asia, Pacific & India at DNV GL Maritime.
“By working together with supply chain partners, we hope that this project charts a way forward for the uptake of LNG as ship fuel in Australia, offering them clear insights on how to meet the challenges and opportunities ahead.”
Green Corridor project
In the Green Corridor project, we saw that there are significant differences in the commercial and technical viability"
"In the Green Corridor project, we saw that there are significant differences in the commercial and technical viability between the West Coast and the East Coast of Australia,” added Cristina.
“For the latest East Coast LNG project, the partners focused on scrutinising the demand for LNG as a marine fuel as well as looked into an expanded scope of multiple trade routes for bulk, container and passenger vessels, which are major segments trading in this part of Australia," said Jonathan Abrahams, Head of Maritime Advisory, Australia & New Zealand at DNV GL - Maritime.
LNG fuelled shipping
Apart from assessing the business case for LNG as a marine fuel from 2022, the project also sought to address challenges faced by key stakeholders and to position Australia at the forefront of LNG fuelled shipping.
The project was carried out in two phases. In Phase 1, the project concluded with a suitable scenario model structure to calculate the key demand forecast. The East Coast LNG project went on to develop infrastructure concepts for selected bunkering solutions in Phase 2, looking into specific technical and operational parameters.
Low emissions shipping
The results are presented in a unique dashboard. It incorporates vessel arrival information and fuel consumption data for 2018–2019 as the baseline and enables detailed analysis and forecasting based on ship type, size, age, port of origin, alternative fuel uptake, and fleet development through to 2050.
Ports identified as important facilities should develop scalable infrastructures for different ship types
With LNG gaining momentum as an optimal fuel for low emissions shipping, the dashboard shows that there is a huge growth potential for Australia with the presence of abundant production facilities. Ports identified as important facilities for LNG supply, namely Newcastle, Port Kembla, and Hastings, should develop scalable infrastructures to support the growing demand for different ship types.
Energy transition
"DNV GL is proud to have facilitated this project, which is modelled after the forecast methodology of our annual energy transition publication, the Maritime Forecast to 2050.”
“With an interactive dashboard hosted on our open industry platform Veracity, it consolidates data from multiple sources onto a single interface and allows for constant iterations to reflect an up-to-date scenario model to support decisions on adopting LNG as a fuel," added Jonathan Abrahams.
