A.G. Venetsanos scite author profile

In April 2018, the International Maritime Organisation adopted an ambitious plan to contribute to the global efforts to reduce the Greenhouse Gas emissions, as set by the Paris Agreement, by targeting a 50% reduction in shipping’s Green House Gas emissions by 2050, benchmarked to 2008 levels. To meet these challenging goals, the maritime industry must introduce environmentally friendly fuels with negligible, or low SOX, NOX and CO2 emissions. Ammonia use in maritime applications is considered promising, due to its high energy density, low flammability, easy storage and low production cost. Moreover, ammonia can be used as fuel in a variety of propulsors such as fuel cells and can be produced from renewable sources. As a result, ammonia can be used as a versatile marine fuel, exploiting the existing infrastructure, and having zero SOX and CO2 emissions. However, there are several challenges to overcome for ammonia to become a compelling fuel towards the decarbonisation of shipping. Such factors include the selection of the appropriate ammonia-fuelled power generator, the selection of the appropriate system safety assessment tool, and mitigating measures to address the hazards of ammonia. This paper discusses the state-of-the-art of ammonia fuelled fuel cells for marine applications and presents their potential, and challenges.

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Analysis of data from spilling experiments performed with liquid hydrogen

Statharas

Venetsanos

Bartzis

et al. 2000

Journal of Hazardous Materials

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CFD simulations of the wind environment around an airport terminal building

Neofytou

Venetsanos

Vlachogiannis

et al. 2006

Environmental Modelling & Software

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CFD modelling of hydrogen release, dispersion and combustion for automotive scenarios

Venetsanos

Baraldi

Adams

et al. 2008

Journal of Loss Prevention in the Process Industries

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A.G. Venetsanos

An inter-comparison exercise on the capabilities of CFD models to predict the short and long term distribution and mixing of hydrogen in a garage

Review on the Safe Use of Ammonia Fuel Cells in the Maritime Industry

Analysis of data from spilling experiments performed with liquid hydrogen

CFD simulations of the wind environment around an airport terminal building

CFD modelling of hydrogen release, dispersion and combustion for automotive scenarios

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