Kawasaki Heavy Industries, Ltd. announced today that it has concluded a shipbuilding contract for an 86,700 m3 liquefied petroleum gas (LPG) and liquefied ammonia gas (NH3) carrier powered by LPG fuel for KUMIAI NAVIGATION (PTE) LTD. This is the third LPG/NH3 carrier for KUMIAI NAVIGATION (PTE) LTD, according to the company's release.
The vessel is equipped with separate cargo tanks designed to carry LPG and NH3 at the same time. This contract represents their 82th LPG carrier, 19th LPG-fueled LPG carrier and 12th LPG/NH3 carrier to be constructed by Kawasaki. Kawasaki plans to complete the construction of the vessels at its Sakaide Works in 2026.
The advantage of this dual-purpose vessel is its capability to simultaneously carry LPG, which is already used as a low-carbon energy source, and NH3, a new fuel contributing to the establishment of a decarbonized society. Another feature is the greater capacity of the cargo tanks as compared to conventional carriers, which was achieved without significantly changing the vessel’s length, breadth, or other main specifications.
Fueled by low-sulfur fuel oil and LPG (which significantly reduces the emission volumes of sulfur oxides [SOx], CO2, and other pollutants in the exhaust gases as compared to marine fuel oil), the vessel meets SOx emission standards set by the International Maritime Organization (IMO), as well as the IMO’s Energy Efficiency Design Index (EEDI) Phase 3 regulations, which are applicable to adopt stricter CO2 emission standards in 2022.
To meet environmental standards being tightened globally, and to implement action plans set forth in the Sustainable Development Goals (SDGs) adopted by the United Nations and other initiatives, Kawasaki plans to develop and build more LPG-fueled LPG carriers and other commercial vessels that meet environmental standards, as well as to develop other eco-friendly marine technologies, to contribute to the establishment of a low-carbon/decarbonized society. These products include vessels for transporting liquefied hydrogen, considered to be the next-generation energy source.