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CMA CGM to develop fully-electric barge to serve inland waterways in Vietnam

e-barge will transport goods between Binh Duong and Cai Mep, on a 180 km round trip, achieving zero greenhouse gas emissions and avoiding 778 tonnes of CO2 annually.

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CMA CGM to develop fully-electric barge to serve inland waterways in Vietnam

French shipping giant CMA CGM on Tuesday (17 December) said it will build and deploy for operation a brand-new zero emissions inland transport solution in Vietnam – a 100% green electricity barge coupled with dedicated charging infrastructures supplied by a new solar farm at Gemalink terminal in Cai Mep (25% owned by CMA CGM Group).

From Binh Duong Province to the deep-sea terminal of Gemalink, the e-barge will make the 180km return journey emitting zero greenhouse gas emissions, enabling to reduce by 778 tonnes of CO2 emissions every year, powered by electric batteries only.

The e-barge, an innovation co-designed by CMA CGM’s New Build and R&D teams in partnership with CATL for the battery technology, will be recharged using 100% certified renewable electricity and will transport over 50 000TEUs annually.

NIKE has committed to optimise the use of the e-barge for NIKE shipments between Binh Duong Province and Gemalink. The e-barge is expected to begin operations in 2026.

A new dedicated solar farm on the premises of Gemalink will produce 1GWH of green electricity annually to recharge the e-barge.

CMA CGM is creating a scalable land connectivity solution that includes the development of an e-barge, charging station, and solar farm. This model, in line with Vietnam’s Net Zero by 2050 ambitions, is designed to be replicated in other countries.

CMA CGM Group has been present in Vietnam since 1989, currently operating 5 offices in Ho Chi Minh City, Hanoi, Haiphong, Danang and Quy Nhon with more than 550 employees. The group operates 29 weekly mainline services in 7 ports across the country, connecting major global destinations to a cutting-edge intermodal network through CEVA Logistics.

Christine Cabau-Woehrel, Executive Vice-President Assets and Operations at CMA CGM, said: “It has been a great achievement to design and promote this project with NIKE’s partnership for commitment of usage in Vietnam waterways but can be replicated easily in other geographies and with other major customers.”

“We are looking forward to duplicating and adapting this innovative solution with other cargo owners wishing to find solutions towards more sustainable transport modes.”

 

Photo credit: CMA CGM
Published: 18 December, 2024

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ICCT: China’s electric cargo ship fleet grows 950% in three years

In its latest blog, ICCT says vessel sizes for electric cargo ships have grown significantly, indicating that China is testing the feasibility of electrification for increasingly larger ships.

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CHUTTERSNAP MT

The International Council on Clean Transportation (ICCT) recently said China’s fleet of electric cargo ships has grown by 950%, from just four vessels in 2022 to 42 in 2025.

According to its latest blog, electrification is rapidly expanding along inland waterways in the country, offering a pathway to cut emissions, improve air quality, and lower operating costs.

ICCT said electric cargo ships are entering real-world operation at a rapidly growing pace

“Ship types have diversified, from bulk carriers and container ships to multi-purpose cargo ships. At the same time, vessel sizes have grown significantly, with the maximum deadweight tonnage (DWT) rising from around 3,000 tonnes in 2022 to approximately 14,000 tonnes in 2025,” it said.

“This indicates that China is testing the feasibility of electrification for increasingly larger ships.”

Although battery capacity constraints continue to limit sailing range per charge—which typically hovered between 150 km and 400 km from 2022 to 2025—trends show steady improvement; by 2025, electric cargo ships with a range of up to 500 km were already in operation in China.

Inland waterways have become the primary testing ground for electric cargo ship deployment. 

By the end of 2025, 86% of electric cargo ships in China were operating on internal rivers. 

“Nine provinces and municipalities have already launched pilot projects, covering major waterways such as the Yangtze River, the Pearl River, and the Beijing-Hangzhou Grand Canal,” ICCT added.

The blog also explored the opportunities, challenges, and policy actions that could accelerate the shift to electric inland shipping.

“Developing an enhanced subsidy that favors electric vessels, on top of the current vessel trade-in subsidy program, could help reduce the upfront investment burden for electric vessel adoption,” it recommended.

ICCT added that tightening ship engine emission standards toward world-leading levels could increase the compliance costs of conventional-fuel vessels and improve the relative competitiveness of electric ships.

“The electrification of inland shipping in China is already underway; what is needed now is smart policy to accelerate the transition,” it said.

 

Photo credit: CHUTTERSNAP on Unsplash
Published: 6 July, 2026

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Consortium validates grid-independent hydrogen power hub for ports

Consortium demonstrated that large vessels can already be powered at berth using existing hydrogen, battery, fuel cell and electrical technologies integrated into a modular floating system.

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Consortium validates grid-independent hydrogen power hub for ports

ELIRE Maritime and consortium partners on Monday (25 May) announced the successful completion of the UKRI-funded Clean Maritime Demonstrator Competition Round 6 (CMDC6) programme.

CMDC6 is a GBP 1 million (USD 1.3 million) feasibility programme and initiative delivered by Innovate UK in partnership with the UK Shipping Office for Reducing Emissions (UK SHORE), part of the UK Department for Transport.

The partners are Ricardo UK, Schneider Electric, Rux Energy UK, Triton Anchor Europe, OREC (Offshore Renewable Energy Catapult), and the University of Strathclyde. 

The programme successfully validated one of the world’s first fully grid-independent Hydrogen Floating Power Hub systems capable of delivering clean power directly to vessels at berth without requiring traditional shore-side grid infrastructure. 

The consortium demonstrated that large vessels can realistically be powered at berth today using existing hydrogen, battery, fuel cell, and electrical technologies integrated into a modular floating maritime system designed for rapid deployment across global ports.

The solution can now be deployed and would be expected to support the reduction of up to 500,000 tonnes of CO₂ emissions globally over the next decade through a scalable maritime clean energy infrastructure capable of operating independently from constrained port grids.

“Ports are under increasing pressure to decarbonise while facing major infrastructure constraints,” said Luke Jenkinson, Founder and CEO of ELIRE Maritime. 

“The Hydrogen Power Hub proves that ports do not need to wait years for grid upgrades to begin reducing emissions. We have validated a practical, scalable, and deployable system capable of delivering clean power directly where it is needed most.”

The Hydrogen Power Hub establishes a new category of maritime infrastructure by moving energy and power generation as well as storage onto water rather than relying on fixed, land-based systems constrained by grid access, cost, permitting, and land availability.

At full configuration, this particular validated system is capable of delivering 5MW of continuous clean power output directly to vessels at berth, enough to support medium-sized cruise vessels and other large maritime assets requiring both 6.6kV and 11kV shore power connections. This system integrates three modular hexagonal floating platforms with a combined 1,200 sqm footprint, approximately 45MWh of battery energy storage capacity, modular fuel cell systems, hydrogen-powered generation, onboard renewable generation, and advanced grid-forming AC/DC electrical architecture.

The consortium confirmed the platform can deliver approximately 91MWh of energy per week while supporting repeated vessel charging operations without requiring major civil works, land reclamation, or expensive grid reinforcement.

The system uses approximately 7,500 to 8,000kg of hydrogen weekly, stored within modular ISO-compatible low-pressure storage containers integrated directly into the floating infrastructure. The current layout accommodates seven onboard hydrogen tanks, with refuelling operations expected approximately twice weekly, enabling ports to adopt hydrogen incrementally without requiring permanent hydrogen infrastructure during early deployment phases.

Instead of relying on oversized generators, the platform uses modular 1.3MW fuel cells operating continuously throughout the week to gradually charge the onboard batteries before rapidly dispatching energy when vessels arrive at berth.

 

Photo credit: ELIRE Maritime
Published: 26 May, 2026

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Wah Kwong NatPower backs Greater Bay Area zero-carbon shipping initiative

Initiative will focus on deploying electric vessels and establishing shore-side battery swapping and charging infrastructure across key ports in Guangdong province and Hong Kong.

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Wah Kwong NatPower backs Greater Bay Area zero-carbon shipping initiative

Wah Kwong NatPower Marine (WK NatPower), a joint venture between Wah Kwong Maritime Transport and NatPower Marine, on Wednesday (20 May) said it is supporting a new initiative to develop zero-carbon shipping routes across China’s Greater Bay Area, following a recent broader Memorandum of Understanding (MoU) with Guangzhou Port Group.

Under this MoU, WK NatPower will support maritime electrification by advancing the development of shore power infrastructure across Hong Kong, Greater China, and Asia. 

The initiative will focus on deploying electric vessels and establishing shore-side battery swapping and charging infrastructure across key ports in Guangdong province and Hong Kong, supporting the transition toward low-emission shipping operations.

WK NatPower will play a central role in developing a scalable electrification network, supplying clean electricity to vessels both at berth and for propulsion. The project aligns with China’s “dual carbon” targets and reflects broader efforts to integrate energy systems and port infrastructure at scale.

Guangzhou Port, a major international hub, is advancing its green port strategy through expanded shore power deployment and increased use of clean energy. The collaboration aims to establish standardised charging and battery-swapping infrastructure across the Greater Bay Area, enabling the development of integrated zero-carbon shipping corridors.

The partners will also explore the use of alternative marine fuels, including methanol and ammonia, as part of a broader decarbonisation pathway.

“Delivering zero-carbon shipping at scale requires alignment across ports, energy providers and shipping lines,” said Vincent Ni, General Manager of WK NatPower. 

“This initiative represents a significant step toward building the infrastructure needed to support electrified maritime operations across the region.”

WK NatPower is part of a broader strategy to develop a comprehensive maritime electrification infrastructure network across Asia, combining Wah Kwong’s maritime expertise with NatPower Marine’s global energy infrastructure capabilities.

 

Photo credit: Wah Kwong NatPower Marine
Published: 21 May, 2026

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