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全球航空燃油市场 - 2024-2031Global Aviation Fuel Market - 2024-2031 |
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概述
全球航空燃油市场2023年达到2,115亿美元,预计2031年将达到5.991亿美元,2024-2031年预测期间复合年增长率为13.9%。
航空旅行率的上升和更有效率飞机的持续开发推动了全球航空燃料需求的不断增长。 2010年至2019年期间,国际能源总署观察到每吨公里行驶的燃油效率每年稳定提高1.8%,这主要归功于飞机和发动机技术的进步。
2022年,航空燃油市场出现显着成长,特别是在北美,尤其是美国。等关键措施,为此目的拨款 33 亿美元。目标是到 2031 年实现 SAF 产量达到 30 亿加仑的里程碑。
此外,美国运输部、美国联邦航空局、波音公司和亚太经合组织经济体已联手开发 SAF 并提高支线航空公司的可用性。此外,2023 年 9 月 7 日,Lummus Technology 宣布其乙醇转 SAF 製程技术实现商业化,为减少航空业温室气体排放提供可扩展的解决方案。
动力学
航空活动增加
在 COVID-19 大流行的復苏和航空基础设施的扩张的推动下,全球航空活动激增,是航空燃油市场的关键驱动力。中产阶级人口的不断增长,加上经济和人口扩张带来的可支配收入的增加,正在刺激航空活动,导致航班需求增加。根据国际能源总署(IEA)预测,2035年,全球经济成长预计为每年3%,航空业的空中交通量预计年均成长6%,从而拉动航空燃油的消耗。
此外,在热门航线上提供有竞争力的价格的廉价航空公司的兴起进一步加剧了空中交通,特别是在欧洲等地区。这些航空公司占据了世界运输量的很大一部分,并促使其他航空公司降低机票价格以保持竞争力,从而刺激了航空旅行的需求,从而刺激了航空燃料消耗。
永续航空燃料
在技术进步和支援政策的推动下,对永续航空燃料(SAF)的需求不断增长,是航空燃料市场的重要推动力。虽然 SAF 目前仅占航空燃料消耗的一小部分,但製造商和营运商正在努力测试完全由 SAF 提供燃料的飞行,并有可能整合到现有基础设施、发动机和飞机中。
例如,为了与净零情境保持一致,预测表明,透过产能投资和燃油税和低碳燃油标准等支持性政策,SAF在航空领域的使用将大幅增长,到2031年将达到10%。此外,美国和英国等国家鼓励 SAF 生产的政策以及欧盟拟议的 ReFuelEU 法规也促进了 SAF 的商业采用。
碳排放足迹
与传统航空燃料相关的碳排放对市场成长构成重大限制。作为温室气体排放的主要贡献者,航空业面临越来越严格的审查和减少碳足迹的压力。儘管努力减少排放,但 2022 年 COVID-19 后航空旅行需求的復苏导致全球排放量激增。
航空排放量几乎达到 2019 年疫情前水准的 80%,到 2022 年二氧化碳排放总量接近 800 公吨。预测表明,排放量将继续快速上升,并可能在 2025 年左右超过 2019 年的水平,进一步加剧环境问题并抑制传统航空燃料的成长。
Overview
Global Aviation Fuel Market reached US$ 211.5 billion in 2023 and is expected to reach US$ 599.1 million by 2031, growing with a CAGR of 13.9% during the forecast period 2024-2031.
The increasing demand for aviation fuel globally is fueled by rising air travel rates and the ongoing development of more efficient aircraft. Over the period from 2010 to 2019, the International Energy Agency observed a steady annual improvement of 1.8% in fuel efficiency per revenue ton-kilometer traveled, largely attributed to advancements in aircraft and engine technologies.
In 2022, significant growth was witnessed in the aviation fuel market, particularly in North America, notably U.S. To accelerate the production of sustainable aviation fuel (SAF), U.S. introduced key measures such as tax credits and a competitive grant program under the Inflation Reduction Act, with US$ 3.3 billion allocated for this purpose. The objective is to achieve a production milestone of 3 billion gallons of SAF by 2031.
Additionally, U.S. Department of Transportation, FAA, Boeing and APEC economies have joined forces to develop SAF and increase its availability for regional airlines. Moreover, on September 7, 2023, Lummus Technology announced the commercial availability of its ethanol to SAF process technology, offering a scalable solution to reduce greenhouse gas emissions in the aviation industry.
Dynamics
Increased Aviation Activity
The surge in aviation activity globally, fueled by the recovery from the COVID-19 pandemic and the expansion of aviation infrastructure, is a key driver for the aviation fuel market. The growing middle-class population, coupled with rising disposable incomes due to economic and demographic expansion, is stimulating airline activity, leading to increased demand for flights. According to the International Energy Agency (IEA), with global economic growth projected at 3% annually by 2035, the aviation sector is expected to witness a 6% average annual increase in air traffic, consequently driving up the consumption of aviation fuel.
Moreover, the rise of low-cost airlines offering competitive prices on popular routes has further intensified air traffic, particularly in regions like Europe. The carriers command a significant portion of world traffic and have prompted other airlines to lower ticket prices to stay competitive, thereby fueling the demand for air travel and, consequently, aviation fuel consumption.
Sustainable Aviation Fuel
The increasing demand for Sustainable Aviation Fuels (SAF) is a significant driver for the aviation fuel market, spurred by advancements in technology and supportive policies. While SAF currently represents a small fraction of aviation fuels consumed, ongoing efforts by manufacturers and operators to test flights fueled entirely by SAF are underway, with potential integration into existing infrastructure, engines and aircraft.
For instance, to align with the Net Zero Scenario, projections suggest a substantial growth in SAF use in aviation, reaching 10% by 2031 through investments in production capacity and supportive policies such as fuel taxes and low-carbon fuel standards. Furthermore, the commercial adoption of SAF is bolstered by policies incentivizing SAF production in countries like U.S. and UK, alongside the European Union's proposed ReFuelEU regulation.
Carbon Emission Footprint
The carbon emissions associated with conventional aviation fuel pose a significant restraint on market growth. As a major contributor to greenhouse gas emissions, the aviation industry faces increasing scrutiny and pressure to reduce its carbon footprint. Despite efforts to mitigate emissions, post-COVID-19 air travel demand recovery in 2022 led to a surge in emissions globally.
Aviation emissions nearly reached 80% of their pre-pandemic levels in 2019, totaling close to 800 Mt CO2 in 2022. The rapid growth of CO2 emissions from aviation presents a considerable challenge in addressing climate change concerns. Projections suggest that emissions will continue to rise rapidly and may surpass 2019 levels by around 2025, further exacerbating environmental concerns and restraining the growth of conventional aviation fuel.
The global aviation fuel market is segmented based on fuel, aircraft and region.
Sustainable Fuel Segment is Estimated to grow at Highest CAGR over the Forecast Period.
Based on the Fuel the aircraft fuel market is segmented into Conventional Fuel and Sustainable Fuel. Sustainable Fuel is expected to grow at 15.8% CAGR over the forecast period 2024-2031 by emerhhing as a beacon of hope in aviation's quest for environmental responsibility. The aviation industry is witnessing unprecedented growth, with flight volumes in 2023 anticipated to surpass the peak levels recorded in 2019. However, this surge in air travel raises concerns about its contribution to global carbon emissions, which already stand at 2-3%. As the industry continues to expand, so too will its carbon footprint unless proactive measures are taken.
In response to this challenge, considerable efforts are being directed towards the development and utilization of Sustainable Aviation Fuels (SAFs). These fuels, derived from sources like algae, food crops, food waste, and synthetic options such as green hydrogen or synthetic kerosene, offer a promising avenue for reducing emissions throughout their lifecycle. Despite emitting carbon equivalent to fossil fuels when burned in flight, SAFs demonstrate significant potential for emission reduction owing to their considerably greener lifecycle. However, challenges such as environmental risks, high production costs, and limited supply currently constrain their widespread adoption.
The primary objective now is to scale up SAF production while mitigating environmental risks, ensuring that these fuels truly embody sustainability. While SAFs alone may not completely mitigate aviation's climate impacts, they are deemed a crucial component in the journey towards carbon neutrality. According to the International Air Transport Association (IATA), Sustainable Aviation Fuel (SAF) could contribute approximately 65% of the emissions reduction required for aviation to achieve net-zero CO2 emissions by 2050. Achieving this ambitious goal demands a substantial increase in SAF production to meet escalating demand. The 2030s are anticipated to witness a significant acceleration in SAF production, driven by global policy support, improved competitiveness.
Asia-Pacific's Rising Aviation Sector
Asia-Pacific commands a significant market share in the aviation fuel industry, propelled by the burgeoning growth of aviation activities and initiatives promoting the adoption of sustainable aviation fuel (SAF). Governments across the region are actively endorsing SAF usage to curb greenhouse gas emissions, with Japan proposing legislation mandating a 10% share of SAF in aviation fuel by 2031 and China's Civil Aviation Administration striving to elevate SAF usage while reducing emissions intensity.
Moreover, the region's robust presence in the aviation fuel market is bolstered by increasing domestic fuel demand, particularly as post-COVID-19 travel rebounds. As the aviation industry progresses towards full recovery, the demand for jet fuel is poised to surge, thereby enhancing margins for Asian refiners and driving up crude demand, exerting a significant influence on global prices.
The major global players include Atmosfair, Shell Aviation, World Energy, Neste, Gevo,Inc, Honeywell International, Johnson Matthey, Exxon Mobil Corporation, Chevron Corporation, BP plc.
COVID-19 pandemic made a profound impact on the aviation fuel market, as air travel drastically reduced due to travel restrictions, lockdowns and reduced passenger demand. The sharp decline in air travel led to a surplus of aviation fuel supply, which, in turn, resulted in a large drop in fuel prices in 2020 and the first quarter of 2021. As airlines cut back on flights, airports and fixed-base operators (FBOs) faced a decrease in airport fuel volume, impacting their revenue.
Amidst the pandemic challenges, there was growing interest in sustainable aviation fuel (SAF). Some airlines, airports and maintenance stakeholders explored the use of SAF as they evaluated ways to incorporate sustainability into their operations and reduce their carbon emissions. Despite the pandemic's short-term disruptions, the aviation fuel sector recovered in 2022 with ease in travel restrictions internationally.
Russia-Ukraine War Impact
Russia's invasion of Ukraine and the resulting airspace restrictions have created significant challenges for the global aviation fuel industry. The closure of Russian airspace has forced hundreds of flights to take alternative routes, leading to increased operating costs due to higher fuel consumption. Beyond these difficulties, aviation fuel prices, represented by Aviation Turbine Fuel, have also risen due to soaring crude oil prices.
The crisis has also caused a surge in jet fuel prices, which make up a substantial portion of airlines' operating expenses. The timing of these price increases was unfavorable for the industry, as it occurred just as airlines were starting to recover from the pandemic and still facing significant losses. After one year of invasion, Jet fuel prices in Europe rose by about one-third compared to 2019, further straining airlines' financial situation.
The global aviation fuel market report would provide approximately 53 tables, 46 figures and 181 Pages.
Target Audience 2024
LIST NOT EXHAUSTIVE