Abstract
Conventional (diesel-electric) submarines can provide improved stealth compared to nuclear submarines once submerged. This is because nuclear submarines are generally larger and are required to operate their nuclear reactors at all times, unlike diesel-electric submarines which are generally smaller and can run exclusively on batteries when submerged which generally requires fewer moving parts. These characteristics normally result in a smaller acoustic, thermal and magnetic signature which afford diesel-electric submarines greater stealth when submerged. However, the current underwater range and endurance is limited by the energy storage or generation for submerged operation. The application of emerging energy storage technology seeks to address this limitation and provide significant tactical and operational advantages to the conventional submarine operator. From a fire safety perspective, the potential addition of technologies such as rechargeable lithium-ion batteries, Air Independent Propulsion (AIP) systems and increasingly sophisticated electronic equipment dramatically changes the risk space in an already challenging and unforgiving underwater environment. This study reviews the functions, failure modes and maturity of emerging technologies that have serious submarine fire safety implications. A semi-quantitative assessment of the fire risk associated with potential large future conventional submarine design options for batteries and AIP is provided. This assessment concludes that lithium-ion batteries pose the greatest challenge with regard to integration into conventional submarines without compromising reliability or safety.
Highlights
Fire dynamics are well understood in many industries, including the maritime industry, where various regulations, guidelines, technologies and engineering expertise have served to reduce the risk associated with fires
The primary purpose of this study is to review a range of possible technologies that may be integrated into the future submarines and provide a risk-based assessment of fire safety and mitigation options
This paper has reviewed the key emerging technologies that may form part of large generation conventional submarines
Summary
Fire dynamics are well understood in many industries, including the maritime industry, where various regulations, guidelines, technologies and engineering expertise have served to reduce the risk associated with fires. The UK Ministry of Defence (MoD) reported 266 fire incidents on its nuclear submarines in the last 25 years, 20 of which required significant on-board resources to contain [1]. The current geo-political and maritime security environment dictate that conventional, diesel-electric submarines are still a popular choice for many nations such as Australia. Conventional submarines can provide improved stealth compared to nuclear submarines once submerged. Submarines may be required to travel large distances and avoid detection to maintain security of national interests such as shipping lanes. This requires long underwater range and endurance which is currently generally provided by lead-acid battery storage that, when depleted, require submarines to surface to charge with diesel generators
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