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市场调查报告书
商品编码
1700142
第二代生质燃料市场预测(至 2032 年):按生质燃料类型、製程、原料、应用、最终用户和地区进行的全球分析Second Generation Biofuel Market Forecasts to 2032 - Global Analysis By Biofuel Type (Cellulosic Ethanol, Biodiesel, Bio Butanol and Other Biofuel Types), Process, Feedstock, Application, End User and By Geography |
根据 Stratistics MRC 的数据,全球第二代生质燃料市场预计在 2025 年达到 175.2 亿美元,到 2032 年将达到 1,030.3 亿美元,预测期内的复合年增长率为 28.8%。
先进生质燃料,又称第二代生质燃料,由废弃物、木本作物和农业废弃物等非粮食生物质来源製成。这些生质燃料不会像第一代生质燃料那样与粮食供应竞争,而且更具永续性。这些生质燃料是透过热化学或生物化学过程生产的,将木质纤维素生物质转化为合成生物生质燃料、生物柴油和乙醇等燃料。提高能源安全,减少温室气体排放。儘管商业化存在障碍,但第二代生质燃料对于向更清洁能源来源的过渡至关重要。
能源安全与独立
生质燃料使用非粮食生物质,确保稳定且永续的能源供应。各国政府透过颁布立法来支持生质燃料,以提高经济稳定性和国家能源弹性。国内生质燃料生产增强了当地经济,创造了就业机会,并减少了对全球油价波动的依赖。先进的生质燃料提供了更清洁的燃料替代品,促进了长期能源的永续性。随着各国努力实现自给自足,对第二代生质燃料的投资也不断增加,推动了市场扩张。
基础设施和供应链差距
由于精製能力不足和资本投入高,大规模商业化过程被延后。物流网路效率低下,导致原料交付延迟、运输成本高。价格和生产稳定性受到原物料供应波动的影响。燃料混合和加油站基础设施不足阻碍了市场采用,尤其是在运输领域。这些问题使得第二代生质燃料的竞争力不如现有的能源选择。
可再生能源需求不断成长
为了实现永续能源目标,世界各国政府正在透过立法和奖励鼓励使用生质燃料。非粮食生物质用于生产第二代生质燃料,确保永续性,同时不损害粮食安全。生质燃料生产效率的提高使生质燃料成为发电和运输的有竞争力的选择。不断增加的生物精製投资正在推动其商业化和生产能力的提升。消费者意识的增强和企业永续性目标也将推动市场扩张。
来自绿色能源替代品的竞争
太阳能、风能和氢能等替代绿色能源构成了威胁。这些替代能源通常会获得政府的大量补贴和奖励,对投资者更具吸引力。电动车和电池技术的发展正在减少交通运输对生质燃料的需求。此外,生质燃料生产能力的成长速度不如再生能源生产能力的成长速度。此外,由于土地使用问题,生质燃料被认为不太永续性,从而削弱了生质燃料在市场上的地位。这使得第二代生质燃料难以与快速变化的绿色能源格局竞争。
COVID-19的影响
由于供应链限制、运输燃料需求减少以及生质燃料计划延迟,COVID-19 疫情扰乱了第二代生质燃料市场。封锁导致乙醇和生物柴油消费量下降,影响了生产和投资。但这场危机也凸显了对永续能源的需求,并促使政府推出激励措施和政策来加速生质燃料的采用。随着经济復苏,对脱碳、能源安全和减少对石化燃料依赖的更多关注预计将推动长期成长,市场有望反弹。
预计生物柴油市场将成为预测期内最大的市场
预计生物柴油领域将在预测期内占据最大的市场占有率,因为它为传统柴油提供了永续的替代品,并且二氧化碳排放更少。生质柴油可以减少对作物的依赖,因为它利用废油、藻类和农业残留物等非粮食原料。政府推广清洁燃料的政策和激励措施进一步支持了交通运输和工业领域采用生质柴油。生产技术的进步将提高效率并使生物柴油更具成本竞争力。日益增长的环境问题和实现净零排放的动力将加速需求并增强整体市场。
预计航空航太领域在预测期内将实现最高的复合年增长率。
由于碳排放减少,预计航空航太领域将在预测期内实现最高成长率。航空公司和航太公司正在转向使用废油、藻类和农业残留物製成的生质燃料,以满足严格的环境法规。政府的授权和激励措施将进一步加速SAF的发展和与商业飞行的整合。技术进步正在提高燃料效率和扩充性,使生质燃料成为传统喷射机燃料的可行替代品。对净零排放和碳中和的承诺日益增多,正在推动产业更多地采用生质燃料。
由于对永续能源解决方案的需求不断增长,预计亚太地区将在预测期内占据最大的市场占有率。中国、印度和日本等国的政府正在透过政策和奖励来推动生质燃料的生产和采用。源自非食品生物质(如农业废弃物和藻类)的先进生质燃料因其低碳足迹而获得支持。领先的公司正在投资研发以提高效率和扩充性。日益增强的环保意识和技术进步使该地区成为第二代生质燃料创新和商业化的领先中心。
由于政府的大力支持、技术的进步以及对清洁能源的需求不断增长,预计北美地区在预测期内的复合年增长率最高。美国和加拿大是生质燃料生产的主导,其可再生燃料标准(RFS)和低碳燃料标准(LCFS)等政策鼓励采用生质燃料。源自农业残留物、藻类和废弃物的先进生质燃料因其永续性优势而备受关注。研发投资以及能源和生物技术公司之间的合作正在加速商业化,使北美成为全球生质燃料产业的关键参与者。
According to Stratistics MRC, the Global Second Generation Biofuel Market is accounted for $17.52 billion in 2025 and is expected to reach $103.03 billion by 2032 growing at a CAGR of 28.8% during the forecast period. Advanced biofuels known as second-generation biofuels are made from non-food biomass sources like waste materials, woody crops, and agricultural wastes. They provide greater sustainability and don't compete with the food supply like first-generation biofuels do. These biofuels are produced by thermochemical or biochemical processes that transform lignocellulosic biomass into fuels such as synthetic biofuels, biodiesel, and ethanol. They improve energy security and lower greenhouse gas emissions. Second-generation biofuels are essential to the shift to cleaner energy sources, notwithstanding commercialisation obstacles.
Energy security & independence
A steady and sustained energy supply is ensured by the biofuels' utilisation of non-food biomass. Governments support them by enacting laws that improve economic stability and national energy resilience. Local economies are strengthened and employment is created by domestic biofuel production, which also lessens reliance on changes in the price of oil globally. A cleaner substitute that promotes long-term energy sustainability is provided by advanced biofuels. Investments in second-generation biofuels are increasing as countries strive for self-sufficiency, which is driving market expansion.
Infrastructure & supply chain gaps
Large-scale commercialisation is slowed back by inadequate refining facilities and costly capital expenditures. The delivery of raw materials is delayed and transportation expenses are raised by an ineffective logistics network. Price and production stability are impacted by feedstock availability fluctuations. Inadequate infrastructure for blending and fuelling stations hinders market adoption, particularly in the transportation sector. Second-generation biofuels are less competitive than established energy options because of these issues.
Rising demand for renewable energy
Globally, governments encourage the use of biofuels by enacting laws and offering incentives in order to meet sustainable energy goals. Non-food biomass is used to make second-generation biofuels, which guarantee sustainability without compromising the availability of food. Efficiency gains in biofuel production make them a competitive option for power generation and transportation. Growing investments in bio-refineries increase their commercialisation and production capacity. Market expansion is also fuelled by rising consumer awareness and corporate sustainability objectives.
Competition from alternative green energy
Alternative green energy sources like solar, wind, and hydrogen are a threat. Because they frequently get larger government subsidies and incentives, these alternatives are more appealing to investors. Technological developments in electric vehicles and battery storage have decreased the need for biofuels in transportation. Furthermore, facilities for producing biofuel are not growing as quickly as those for renewable electricity. Their standing in the market is further weakened by the belief that biofuels are less sustainable because of land-use issues. Because of this, second-generation biofuels find it difficult to compete with the quickly changing green energy options.
Covid-19 Impact
The COVID-19 pandemic disrupted the second-generation biofuel market due to supply chain constraints, reduced transportation fuel demand, and delays in biofuel projects. Lockdowns led to lower ethanol and biodiesel consumption, impacting production and investments. However, the crisis also highlighted the need for sustainable energy, prompting government incentives and policies to boost biofuel adoption. As economies recover, the market is expected to rebound with increased focus on decarbonization, energy security, and reduced dependence on fossil fuels, driving long-term growth.
The biodiesel segment is expected to be the largest during the forecast period
The biodiesel segment is expected to account for the largest market share during the forecast period by offering a sustainable alternative to conventional diesel with lower carbon emissions. It utilizes non-food feedstocks like waste oils, algae, and agricultural residues, reducing dependency on edible crops. Government policies and incentives promoting cleaner fuels further boost biodiesel adoption in transportation and industrial sectors. Advances in production technologies enhance efficiency, making biodiesel more cost-competitive. Growing environmental concerns and the push for net-zero emissions accelerate its demand, strengthening the overall market.
The aviation & aerospace segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the aviation & aerospace segment is predicted to witness the highest growth rate, due to reduced carbon emissions. Airlines and aerospace companies adopt biofuels made from waste oils, algae, and agricultural residues to meet strict environmental regulations. Government mandates and incentives further accelerate SAF development and integration into commercial flights. Technological advancements improve fuel efficiency and scalability, making biofuels a viable alternative to conventional jet fuel. Increasing commitments to net-zero emissions and carbon neutrality push the industry toward greater biofuel adoption.
During the forecast period, the Asia Pacific region is expected to hold the largest market share due to increasing demand for sustainable energy solutions. Governments in countries like China, India, and Japan are promoting biofuels through policies and incentives, driving production and adoption. Advanced biofuels derived from non-food biomass, such as agricultural waste and algae, are gaining traction due to their lower carbon footprint. Key players are investing in research and development to enhance efficiency and scalability. Growing environmental awareness, coupled with technological advancements, positions the region as a major hub for second-generation biofuel innovation and commercialization.
Over the forecast period, the North America region is anticipated to exhibit the highest CAGR, owing to strong government support, technological advancements, and rising demand for cleaner energy. The U.S. and Canada are leading in biofuel production, with policies like the Renewable Fuel Standard (RFS) and Low Carbon Fuel Standards (LCFS) promoting adoption. Advanced biofuels from agricultural residues, algae, and waste materials are gaining prominence due to their sustainability benefits. Investments in research and development, along with collaborations between energy firms and biotech companies, are accelerating commercialization, making North America a key player in the global biofuel industry.
Key players in the market
Some of the key players profiled in the Second Generation Biofuel Market include Abengoa Bioenergy, Air Liquide, Alto Ingredients, Amyris Inc., Aurora Algae, BBI Biotech, Beta Renewables, BioGasol, BlueFire Renewables, Chemrec, Clariant, ClimeWorks, Danisco, Enerkem, Gevo, GranBio, Indian Oil Corporation (IOC) and Renewable Energy Group (REG).
In November 2024, Air Liquide announced a renewable hydrogen production project at TotalEnergies' La Mede biorefinery in France. Under a long-term contract, Air Liquide will construct, own, and operate a hydrogen production unit with an annual capacity of 25,000 tonnes.
In February 2023, Amyris and Givaudan announced a strategic partnership wherein Givaudan acquired certain cosmetic ingredients from Amyris, including Neossance(R) Squalane, Neossance(R) Hemisqualane, and CleanScreen(TM). This collaboration aimed to leverage Amyris's biotechnology platform to develop sustainable beauty ingredients.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.