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市場調査レポート
商品コード
1624923
合成ガスおよび誘導体の世界市場規模:原料別、生産技術別、エンドユーザー別、地域別、範囲および予測Global Syngas And Derivatives Market Size By Feedstock (Coal, Petroleum, Natural Gas), By Production Technology (Partial Oxidation, Steam Reforming), By End-User (Chemicals, Power Generation), By Geographic Scope And Forecast |
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合成ガスおよび誘導体の世界市場規模:原料別、生産技術別、エンドユーザー別、地域別、範囲および予測 |
出版日: 2024年11月29日
発行: Verified Market Research
ページ情報: 英文 202 Pages
納期: 2~3営業日
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合成ガスおよび誘導体の市場規模は、2024年に1,525億米ドルと評価され、2024年~2031年の間に9.0%のCAGRで成長する見込みで、2031年には3,206億5,000万米ドルに達すると予測されます。合成ガスは、水素(H2)、一酸化炭素(CO)、二酸化炭素(CO2)の混合物で、石炭、天然ガス、バイオマスなどの炭素含有資源をガス化することによって作られます。合成ガスは、さまざまな化学物質や燃料の製造において重要な中間体です。合成ガスは、メタノール、アンモニア、水素の製造に使用され、これらは肥料、ポリマー、医薬品など多くの工業プロセスに不可欠な成分です。さらに、合成ガスはフィッシャー・トロプシュ合成によって液体燃料に変えることができ、標準的な石油ベースの燃料に代わるものを提供します。
合成ガスおよび誘導体は、特に、よりクリーンなエネルギー源への移行が進む中で有望です。温室効果ガスの排出量削減が重要視される中、合成ガスは炭素回収・貯留(CCS)システムへの応用が検討されています。ガス化技術と触媒の進歩により、合成ガス生成の効率と経済性が向上すると予測されています。再生可能エネルギー源と廃棄物エネルギー技術が急速に普及するにつれて、バイオマスや廃棄物から作られる合成ガスは、持続可能なエネルギーシステムにおいて重要な役割を果たす可能性があり、循環型経済の構築と化石燃料への依存度の低減に貢献します。
主な市場促進要因
クリーンエネルギー需要の増加:
よりクリーンなエネルギーに対する世界の需要が合成ガス市場を牽引しています。国際エネルギー機関(IEA)によると、世界のエネルギー関連のCO2排出量は、2年間の上昇を経て、2019年には33Gtで一定となった。合成ガスは、従来の化石燃料に代わるより環境に優しい代替エネルギーとして、環境に優しい代替エネルギーへのニーズの高まりに対応する好位置にあります。
化学産業の成長:
化学産業は原料として合成ガスに大きく依存しています。米国化学工業協会(American Chemistry Council)によると、医薬品を除く米国の化学生産量は2021年に3.1%増加し、2022年にはさらに3.2%増加すると予測されています。このような化学セクターの増加は、合成ガスおよび誘導体の需要を増加させると予想されます。
ガス化プロジェクトの増加:
合成ガス市場は、世界のガス化プロジェクトの増加によって牽引されています。Global Syngas Technologies Council(GSTC)によると、2021年時点で世界中で747のガス化プラントが稼動しており、さらに234が様々な開発段階にあります。ガス化能力の拡大は、合成ガス市場の成長に直接貢献します。
主な課題
環境と規制への懸念:
ガス化プロセスはCO2やその他の汚染物質を排出する可能性があります。温室効果ガスの排出を最小限に抑え、環境要件を満たすという規制上の圧力により、排出抑制技術やコンプライアンス戦略への投資が増加する可能性があります。
高い製造コスト:
合成ガスの製造には、ガス化設備やインフラに多額の資本支出が必要であり、これが新規企業にとっては参入障壁となる可能性があります。エネルギーやメンテナンスなどの高い運転コストは、総収益性と市場競争力に影響を与えます。
技術の進歩と陳腐化:
エネルギー技術の急速な進歩は、現在の発電プロセスを時代遅れにする可能性があります。競争力を維持するためには継続的な技術革新が必要であり、研究開発への継続的な投資が必要となります。
インフラの限界:
合成ガスの生産、貯蔵、流通に必要なインフラは、特に新興国では未開発であることが多いです。限られたインフラは産業の拡大を妨げ、合成ガスのサプライ・チェーンに関連するコストを上昇させる可能性があります。
主要動向:
よりクリーンなエネルギーへの需要の高まり:
より環境に優しく持続可能なエネルギー源に対する世界のニーズが高まっています。合成ガスは、バイオマスや廃棄物をエネルギーに変換することで、化石燃料への依存を最小化できる橋渡し技術として研究されています。
Syngas-to-Liquid技術の開発:
合成ガスから液体への変換(CTL)技術の進歩は、合成ガスの用途を拡大しています。これらの技術は、従来の石油ベースの製品に代わる合成燃料や化学製品の製造にますます採用されるようになっています。
廃棄物エネルギー・ソリューションへの注力:
廃棄物エネルギー産業は、廃棄物管理の課題を処理すると同時に、廃棄物から電気を生産するために合成ガス技術を採用しています。この動向は、環境の持続可能性を促進し、廃棄物の削減とエネルギー生産という複合的な利点を提供します。
Syngas And Derivatives Market size was valued at USD 152.5 Billion in 2024 and is projected to reach USD 320.65 Billion by 2031 , growing at a CAGR of 9.0% during the forecast period 2024-2031. Syngas are a mixture of hydrogen (H2), carbon monoxide (CO), and carbon dioxide (CO2) created by gasifying carbon-containing resources such as coal, natural gas, or biomass. Syngas is a critical intermediary in the manufacture of a variety of chemicals and fuels. It is used to produce methanol, ammonia, and hydrogen, which are essential components of many industrial processes such as fertilizers, polymers, and pharmaceuticals. Furthermore, syngas can be turned into liquid fuels via the Fischer-Tropsch synthesis, offering an alternative to standard petroleum-based fuels.
Syngas and its derivatives are promising, particularly as we migrate to cleaner energy sources. With a rising emphasis on lowering greenhouse gas emissions, syngas is being investigated for its possible application in carbon capture and storage (CCS) systems. Advances in gasification technology and catalysis are projected to improve the efficiency and economic viability of syngas generation. As renewable energy sources and waste-to-energy technologies gain pace, syngas created from biomass and waste materials could play an important role in sustainable energy systems, helping to create a circular economy and reduce reliance on fossil fuels.
The key market dynamics that are shaping the global syngas and derivatives market include:
Key Market Drivers:
Increasing Demand for Clean Energy:
The global demand for cleaner energy is driving the syngas market. According to the International Energy Agency (IEA), globally energy-related CO2 emissions were constant at 33 Gt in 2019, following two years of rises. Syngas, as a greener alternative to traditional fossil fuels, is well-positioned to address the growing need for environmentally friendly energy alternatives.
Growth in the Chemical Industry:
The chemical industry relies heavily on syngas as a feedstock. According to the American Chemistry Council, chemical output volume in the United States, excluding pharmaceuticals, is predicted to increase by 3.1% in 2021 and another 3.2% in 2022. This rise in the chemical sector is expected to increase demand for syngas and its derivatives.
Rising Gasification Projects:
The syngas market is being driven by an increase in global gasification projects. According to the Global Syngas Technologies Council (GSTC), 747 gasification plants are operational around the world as of 2021, with 234 more in various phases of development. The expansion of gasification capacity directly contributes to the growth of the syngas market.
Key Challenges:
Environmental and Regulatory Concerns:
Gasification processes can emit CO2 and other pollutants. Regulatory pressures to minimize greenhouse gas emissions and meet environmental requirements may need increased investment in emission control technologies and compliance strategies.
High Production Costs:
The manufacture of syngas necessitates significant capital expenditure in gasification equipment and infrastructure, which might be a barrier to entry for new companies. High operating costs, such as energy and maintenance, have an impact on total profitability and market competitiveness.
Technological Advancements and Obsolescence:
Rapid advances in energy technology may render present-day generation processes outdated. Continuous innovation is necessary to remain competitive, necessitating ongoing investment in R&D.
Infrastructure Limitations:
The infrastructure needed for syngas production, storage, and distribution is frequently undeveloped, especially in emerging economies. Limited infrastructure can stifle industry expansion and raise costs connected with syngas supply chains.
Key Trends:
Growing Demand for Cleaner Energy:
The global need for greener and more sustainable energy sources is on the rise. Syngas is being investigated as a bridge technology that can minimize reliance on fossil fuels by turning biomass and waste into energy, in line with the trend toward greener energy alternatives.
Development of Syngas-to-Liquid Technologies:
Advances in Syngas-to-Liquid (CTL) technologies are extending Syngas applications. These technologies are increasingly being employed to create synthetic fuels and chemicals, which provide alternatives to traditional petroleum-based products.
Focus on Waste-to-Energy Solutions:
The waste-to-energy industry is embracing syngas technology to handle waste management challenges while also producing electricity from waste products. This trend promotes environmental sustainability and offers the combined benefits of waste reduction and energy production.
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Here is a more detailed regional analysis of the global syngas and derivatives market:
Asia Pacific:
The Asia-Pacific region is currently leading the syngas and derivatives market, owing to fast industrialization, population development, and rising energy demand. Countries such as China and India are in the vanguard of this boom, with large industrial sectors and ongoing infrastructure construction driving demand for syngas and its derivatives. China's vast coal deposits are an important fuel for syngas production, cementing the region's market dominance. According to the International Energy Agency (IEA), the Asia Pacific area accounted for 52% of world energy consumption in 2019, with this figure expected to climb to 56% in 2040. Primary energy demand in China is predicted to expand by 1% per year between 2019 and 2030, while India's goal of increasing natural gas's share of the energy mix is expected to raise syngas demand.
A number of important elements contribute to this supremacy. To begin, syngas-based power generation supports the region's growing energy needs, as indicated by China's projected increase in electricity consumption from 7.5 trillion kWh in 2020 to 8.5-8.8 trillion kWh by 2025. Second, the Indian government's goal of increasing natural gas contribution from 6.2% to 15% by 2030 will boost demand for syngas in synthetic natural gas production.
The chemicals sector, a significant user of syngas derivatives, is expanding rapidly throughout the Asia Pacific. The Japan Chemical Industry Association forecasts an average annual growth rate of 3.4% in chemical industry production from 2015 to 2030, boosting demand for syngas-derived products and reinforcing the region's market leadership.
North America:
North America is witnessing the fastest growth in the syngas and derivatives market, owing to the region's strong emphasis on clean energy solutions and considerable advances in manufacturing technology. The ample supply of natural gas as a feedstock, combined with government incentives for renewable energy, is driving this growth. According to the United States Energy Information Administration (EIA), natural gas production in the United States is expected to rise from 34.1 trillion cubic feet in 2020 to 43.0 trillion cubic feet by 2050, laying a solid foundation for syngas production. Furthermore, the EIA predicts that renewable energy consumption in the United States will climb from 12% in 2020 to 18% by 2050, increasing the appeal of syngas as a clean energy alternative.
The presence of nearly 50 major syngas production plants in North America, totaling more than 100,000 tons of syngas per day, demonstrates the market's significant expansion. This investment demonstrates the region's dedication to developing syngas technology. The Global Syngas Technologies Council forecasts a 9.2% compound annual growth rate (CAGR) in syngas production capacity in North America between 2020 and 2025, the highest internationally. This expansion is being driven by growing investments in gasification plants and rising demand for syngas derivatives. In Canada, the government's climate plan seeks to reduce greenhouse gas emissions by 40-45% below 2005 levels by 2030, hence increasing syngas use. Furthermore, Canada's hydrogen sector, which is dependent on syngas, is expected to rise to $50 billion by 2050, potentially providing up to 350,000 employments, emphasizing the region's rising significance in
The Global Syngas And Derivatives Market is Segmented on the basis of Feedstock, Production Technology, End-User, And Geography.
Based on Feedstock, the market is bifurcated into Coal, Petroleum, Natural Gas, and Biomass Waste. Coal is currently leading the syngas and derivatives market due to its abundance and low cost. However, biomass waste is growing at the fastest rate, owing to an increased emphasis on clean and renewable energy sources, as well as government incentives for biomass utilization.
Based on Production Technology, the market is segmented into Partial Oxidation, Steam Reforming, and Biomass Gasification. Steam reforming now dominates the syngas and derivatives market due to its high efficiency and widespread application in the synthesis of hydrogen and other compounds. Biomass gasification is growing the fastest, owing to a greater emphasis on sustainable and renewable energy sources, as well as advances in gasification technology.
Based on End-User, the market is segmented into Chemicals, Power Generation, Liquid Fuels, and Gaseous Fuels. Chemicals is anticipated to dominate the syngas and derivatives market due to the diverse products that may be made from syngas, including methanol, ammonia, and Fischer-Tropsch (FT) synthesis products. However, liquid fuels are growing at a rapid rate, driven by rising demand for transportation fuels and the promise for syngas-derived liquid fuels to cut greenhouse gas emissions.
Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.