Air quality and health effects of a transition to ammonia-fueled shipping in Singapore

Sagar Rathod, Morgan R Edwards, Chaitri Roy, Laura Warnecke, Peter Rafaj, Gregor Kiesewetter, Zbigniew Klimont
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Abstract

Abstract Ammonia has been proposed to replace heavy fuel oil in the shipping industry by 2050. When produced with low-carbon electricity, ammonia can reduce greenhouse gas emissions. However, ammonia emissions also contribute to local air pollution via the formation of secondary particulate matter. We estimate the potential ammonia emissions from storage and bunkering operations for shipping in Singapore, a port that accounts for 20% of global bunker fuel sales, and their impacts on air quality and health. Fuel storage and bunkering can increase total gaseous ammonia emissions in Singapore by up to a factor of four and contribute to a 25-50% increase in ambient PM2.5 concentration compared to a baseline scenario with heavy fuel oil, leading to an estimated 210-460 premature mortalities in Singapore (30-70% higher than the baseline). Proper abatement on storage and bunkering can reduce these emissions and even improve ambient PM2.5 concentrations compared to the baseline. Overall, while an energy transition from heavy fuel oil to ammonia in the shipping industry could reduce global greenhouse gas and air pollutant burdens, local policies will be important to avoid negative impacts on the communities living near its supply chain.
新加坡向氨燃料航运过渡对空气质量和健康的影响
摘要到2050年,氨气将取代航运业的重质燃料油。当用低碳电力生产氨时,可以减少温室气体的排放。然而,氨的排放也通过形成二次颗粒物而造成当地空气污染。我们估计了新加坡这个占全球船用燃料销售20%的港口的船舶储存和加油作业可能产生的氨排放,以及它们对空气质量和健康的影响。与使用重燃料油的基准情景相比,燃料储存和加油可使新加坡的气态氨排放总量增加四倍,并导致环境PM2.5浓度增加25-50%,导致新加坡估计有210-460人过早死亡(比基准高出30-70%)。适当减少储存和加油可以减少这些排放,甚至可以改善环境PM2.5浓度。总体而言,虽然航运业从重质燃料油向氨的能源转型可以减少全球温室气体和空气污染物的负担,但地方政策对于避免对其供应链附近的社区产生负面影响至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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