石油煉製藍氫市場規模 - 依技術（蒸汽甲烷重整、自熱重整、部分氧化重整）、區域展望與預測，2024 - 2032 年

Petroleum Refining Blue Hydrogen Market Size - By Technology (Steam Methane Reforming, Autothermal Reforming, Partial Oxidation Reforming), Regional Outlook & Forecast, 2024 - 2032

出版日期: 2024年05月06日 | 出版商:

Global Market Insights Inc. | 英文 70 Pages | 商品交期: 2-3個工作天內

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簡介目錄

受可擴展性的推動，全球石油煉製藍氫市場從 2024 年到 2032 年的複合年成長率將超過 8%，這對於滿足不斷成長的工業需求至關重要。這種可擴展性使煉油廠能夠根據需要擴大生產，並滿足低碳燃料和化學品不斷成長的市場需求。 IEA報告預計到2030年可再生氫生產成本將降低30%。與再生氫的潛在整合增強了其多功能性和永續性，將藍氫定位為邁向綠色能源未來的過渡解決方案。這種適應性支持當前的工業應用，並為能源部門轉型奠定基礎，與全球遏制碳排放和提高能源安全的努力保持一致。

大眾的認知和接受度對石油煉製藍氫市場構成了重大挑戰。儘管藍氫的碳足跡低於傳統化石燃料，但對藍氫碳足跡的擔憂限制了消費者和投資者的信心。隨著人們越來越認知到綠色氫作為一種更清潔的替代品，人們的偏好可能會從藍色氫轉移。解決這些認知挑戰並有效展示環境效益對於克服市場採用和永續性的障礙至關重要。

整個石油煉製藍氫產業根據技術和地區進行細分。

到 2032 年，汽車熱重整 (ATR) 領域將因其在石油煉製過程中高效生產氫氣而獲得重要的石油煉製藍氫市場佔有率。 ATR 具有同步重整和氧化反應等優點，與傳統重整方法相比，可產生更高的氫氣產量。這種效率可以節省煉油廠的成本並提高生產率，使 ATR 成為提高氫氣生產能力的首選。此外，隨著煉油廠尋求最佳化營運和減少碳足跡，ATR 整合碳捕獲技術的能力進一步增強了其在實現永續發展目標方面的吸引力。

2024年至2032年間，北美煉油藍氫市場將呈現強勁的複合年成長率。北美強勁的煉油廠符合嚴格的環境法規，激勵煉油廠採用更乾淨的氫氣生產方法。豐富的天然氣是生產藍氫的關鍵原料，具有成本效益優勢。政府透過補貼和激勵措施支持碳減排舉措，鼓勵對藍氫基礎設施的投資。這些因素共同為藍氫在北美石油煉製領域的擴張創造了有利的環境。

Global Petroleum Refining Blue Hydrogen Market will register over 8% CAGR from 2024 to 2032, catapulted by scalability, essential for meeting rising industrial demands. This scalability enables refineries to expand production as needed, accommodating growing market needs for low-carbon fuels and chemicals. IEA report projects a 30% cost reduction in renewable hydrogen production by 2030. Declining renewable energy costs and amplified hydrogen production scale contribute to this forecast, signaling considerable potential in sustainable energy markets. The potential integration with renewable hydrogen enhances its versatility and sustainability, positioning blue hydrogen as a transitional solution toward a greener energy future. This adaptability supports current industrial applications as well as lays a foundation for energy sector transformation, aligning with global efforts to curb carbon emissions and improve energy security.

Public perception and acceptance pose significant challenges for the petroleum refining blue hydrogen market. Concerns about the carbon footprint of blue hydrogen, despite being lower than traditional fossil fuels, constrain consumer and investor confidence. As awareness grows about green hydrogen as a cleaner alternative, there's a risk of preference shifting away from blue hydrogen. Addressing these perception challenges and demonstrating the environmental benefits effectively are crucial for overcoming barriers to market adoption and sustainability.

The overall petroleum refining blue hydrogen industry is segmented based on technology and region.

By 2032, the auto thermal reforming (ATR) segment will secure a significant petroleum refining blue hydrogen market share because of its efficiency in hydrogen production within petroleum refining processes. ATR offers advantages such as simultaneous reforming and oxidation reactions, leading to higher hydrogen yields compared to conventional reforming methods. This efficiency translates into cost savings and increased productivity for refineries, making ATR a preferred choice for enhancing hydrogen production capacities. Moreover, as refineries seek to optimize operations and reduce carbon footprints, ATR's capability to integrate carbon capture technologies further enhances its appeal in meeting sustainability goals.

Between 2024 and 2032, the North America petroleum refining blue hydrogen market will exhibit a strong CAGR. North America's robust refining industry, in line with strict environmental regulations, incentivizes refineries to adopt cleaner hydrogen production methods. The abundance of natural gas, a key feedstock for blue hydrogen production, provides a cost-effective advantage. Government support through subsidies and incentives for carbon reduction initiatives encourages investment in blue hydrogen infrastructure. These factors collectively create a favorable environment for the expansion of blue hydrogen within the petroleum refining sector in North America.

Chapter 1 Research Methodology

1.1 Research design
1.2 Base estimates & calculations
1.3 Forecast model
1.4 Primary research & validation
- 1.4.1 Primary sources
- 1.4.2 Data mining sources

Chapter 2 Executive summary

2.1 Industry 360° synopsis, 2019 - 2032

Chapter 3 Industry Insights

3.1 Industry ecosystem
3.2 Regulatory landscape
3.3 Industry impact forces
- 3.3.1 Growth drivers
- 3.3.2 Industry pitfalls & challenges
3.4 Growth potential analysis
3.5 Porter's analysis
- 3.5.1 Bargaining power of suppliers
- 3.5.2 Bargaining power of buyers
- 3.5.3 Threat of new entrants
- 3.5.4 Threat of substitutes
3.6 PESTEL analysis

Chapter 4 Competitive landscape, 2023

4.1 Introduction
4.2 Strategic outlook
4.3 Innovation & sustainability landscape

Chapter 5 Market Size and Forecast, By Technology, 2021-2032 (USD Billion)

5.1 Key trends
5.2 Steam methane reforming
5.3 Autothermal reforming
5.4 Partial oxidation

Chapter 6 Market Size and Forecast, By Region, 2021 - 2032 (MT & USD Billion)

6.1 Key trends
6.2 North America
- 6.2.1 U.S.
- 6.2.2 Canada
- 6.2.3 Mexico
6.3 Europe
- 6.3.1 Germany
- 6.3.2 France
- 6.3.3 UK
- 6.3.4 Italy
- 6.3.5 Netherlands
- 6.3.6 Russia
6.4 Asia Pacific
- 6.4.1 China
- 6.4.2 Japan
- 6.4.3 India
- 6.4.4 Australia
6.5 Middle East & Africa
- 6.5.1 Saudi Arabia
- 6.5.2 Oman
- 6.5.3 UAE
- 6.5.4 Kuwait
- 6.5.5 Qatar
- 6.5.6 South Africa
6.6 Latin America