全球綠色鋼鐵市場（2023-2033）

全球綠色鋼鐵市場正在擴大，蒂森克虜伯股份公司最近為其綠色鋼鐵生產計劃獲得了德國政府 20 億歐元的國家補貼。 許多主要鋼鐵製造商正在規劃綠色鋼鐵戰略和規模化生產。 到2033年，成本降低和政策激勵相結合，預計綠色鋼鐵產量將超過2.3億噸。

本報告研究和分析全球綠色鋼鐵市場，提供市場趨勢和驅動因素、最新行業趨勢和創新、市場收入和預測、公司簡介等。

目錄

第一章研究方法

第 2 章縮寫詞列表

第 3 章簡介

• 當前煉鋼工藝
• 什麼是綠鋼？
  • 脫碳目標和政策
  • 清潔生產技術進展
  • 生產技術
  • 特點
• 綠鋼先進材料
  • 複合電極
  • 固體氧化物材料
  • 儲氫金屬
  • 碳複合鋼
  • 塗層、膜
  • 可持續粘合材料
  • 鐵礦石催化劑
  • 碳回收材料
  • 廢氣利用
• 綠色鋼材的優點和缺點
• 市場和應用

第四章全球綠色鋼鐵市場

• 世界鋼鐵產量
  • 鋼材價格
  • 綠色鋼材價格
• 當前和計劃中的綠色鋼鐵工廠和生產
• 市場地圖
• SWOT分析
• 市場趨勢和機遇
• 工業發展、融資和創新（2022-2023 年）
• 市場驅動因素
• 市場挑戰
• 最終用途行業
  • 汽車
  • 建築
  • 家用電器
  • 機器
  • 鐵路
  • 包裝
  • 電子
• 全球市場需求和收入（2018-2033 年）
  • 整個市場（2018-2033）
  • 按最終用途行業
  • 按地區
• 競爭狀況
• 未來市場展望

第五章公司簡介（44家公司簡介）

第 6 章參考文獻

Steel is the most commonly used metal globally. There is a high environmental cost associated with traditional steelmaking, with greenhouse gas (GHG) emissions from steelmaking account for an estimated 8-9% of the total global fossil and industrial emissions. The industry is seeking to develop more environmentally friendly production processes and products, driven by net-zero emission targets set by governments and industries. The steel industry is facing a significant challenge s regarding carbon emission reduction, resulting in the development of green steel.

Green steel refers to steel produced through more sustainable and low-carbon methods resulting in significantly lower lifetime emissions compared to conventional steelmaking. Key production routes include use of hydrogen direct reduced iron, renewable energy, electrolysis, and carbon capture and storage.

Motivation for green steel is to lower the carbon footprint of steel production, which accounts for 7-9% of global carbon emissions. The market is growing and Thyssenkrupp AG recently received a 2 billion euros package of state subsidies from the German government for its proposed green steel production. Many major steel producers have green steel strategies and large scale production in the pipeline. By 2033, estimates project green steel could surpass 230 million tons as costs decrease and policy incentives align.

Report contents include:

• Opportunities and challenges for green steel.

• The role of hydrogen in green steel production.

• Analysis of green steel production processes.
  • Hydrogen Direct Reduced Iron (DRI)
  • Electrolysis
  • Carbon Capture and Storage/Use
  • Biochar replacing coke
  • Hydrogen Blast Furnace
  • Renewable energy powered processes
  • Flash ironmaking
  • Hydrogen Plasma Iron Ore Reduction
  • Ferrous Bioprocessing
  • Microwave Processing

• Analysis of advanced materials in green steel.
  • Composite electrodes
  • Solid oxide materials
  • Hydrogen storage metals
  • Carbon composite steels
  • Coatings and membranes
  • Sustainable binders
  • Iron ore catalysts
  • Biosteel metallics
  • Carbon capture materials
  • Waste gas utilization

• Market analysis including prices, plants, market maps, SWOT analysis, market trends and opportunities, recent industry developments and innovations, market growth drivers, market challenges and end-use industries including automotive, construction, machinery, electronics etc.

• Global market revenues, historical and forecast to 2033, segmented by end-use industry and region.

• 44 company profiles. Company profiles include production processes, planned capacities, collaborations and agreements, future strategies. Companies profiled include ArcelorMittal, Blastr, Boston Metal, GravitHy, H2 Green Steel, Nippon Steel, SSAB and Thyssenkrupp.

TABLE OF CONTENTS

1. RESEARCH METHODOLOGY

2. LIST OF ACRONYMS

3. INTRODUCTION

• 3.1. Current Steelmaking processes
• 3.2. What is green steel?
  • 3.2.1. Decarbonization target and policies
    • 3.2.1.1. EU Carbon Border Adjustment Mechanism (CBAM)
  • 3.2.2. Advances in clean production technologies
  • 3.2.3. Production technologies
    • 3.2.3.1. The role of hydrogen
    • 3.2.3.2. Comparative analysis
    • 3.2.3.3. Hydrogen Direct Reduced Iron (DRI)
    • 3.2.3.4. Electrolysis
    • 3.2.3.5. Carbon Capture, Utilization and Storage (CCUS)
    • 3.2.3.6. Biochar replacing coke
    • 3.2.3.7. Hydrogen Blast Furnace
    • 3.2.3.8. Renewable energy powered processes
    • 3.2.3.9. Flash ironmaking
    • 3.2.3.10. Hydrogen Plasma Iron Ore Reduction
    • 3.2.3.11. Ferrous Bioprocessing
    • 3.2.3.12. Microwave Processing
    • 3.2.3.13. Additive Manufacturing
    • 3.2.3.14. Technology readiness level (TRL)
  • 3.2.4. Properties
• 3.3. Advanced materials in green steel
  • 3.3.1. Composite electrodes
  • 3.3.2. Solid oxide materials
  • 3.3.3. Hydrogen storage metals
  • 3.3.4. Carbon composite steels
  • 3.3.5. Coatings and membranes
  • 3.3.6. Sustainable binders
  • 3.3.7. Iron ore catalysts
  • 3.3.8. Carbon capture materials
  • 3.3.9. Waste gas utilization
• 3.4. Advantages and disadvantages of green steel
• 3.5. Markets and applications

4. THE GLOBAL MARKET FOR GREEN STEEL

• 4.1. Global steel production
  • 4.1.1. Steel prices
  • 4.1.2. Green steel prices
• 4.2. Green steel plants and production, current and planned
• 4.3. Market map
• 4.4. SWOT analysis
• 4.5. Market trends and opportunities
• 4.6. Industry developments, funding and innovation 2022-2023
• 4.7. Market growth drivers
• 4.8. Market challenges
• 4.9. End-use industries
  • 4.9.1. Automotive
    • 4.9.1.1. Market overview
    • 4.9.1.2. Applications
  • 4.9.2. Construction
    • 4.9.2.1. Market overview
    • 4.9.2.2. Applications
  • 4.9.3. Consumer appliances
    • 4.9.3.1. Market overview
    • 4.9.3.2. Applications
  • 4.9.4. Machinery
    • 4.9.4.1. Market overview
    • 4.9.4.2. Applications
  • 4.9.5. Rail
    • 4.9.5.1. Market overview
    • 4.9.5.2. Applications
  • 4.9.6. Packaging
    • 4.9.6.1. Market overview
    • 4.9.6.2. Applications
  • 4.9.7. Electronics
    • 4.9.7.1. Market overview
    • 4.9.7.2. Applications
• 4.10. Global market for demand and revenues 2018-2033
  • 4.10.1. Total market 2018-2033
    • 4.10.1.1. Tons
    • 4.10.1.2. Revenues
  • 4.10.2. By end-use industry
  • 4.10.3. By region
    • 4.10.3.1. North America
    • 4.10.3.2. Europe
    • 4.10.3.3. China
    • 4.10.3.4. India
    • 4.10.3.5. Asia-Pacific (excl. China)
    • 4.10.3.6. Middle East & Africa
    • 4.10.3.7. South America
• 4.11. Competitive landscape
• 4.12. Future market outlook

5. COMPANY PROFILES (44 company profiles)

6. REFERENCES

List of Tables

• Table 1. Global Decarbonization Targets and Policies related to Green Steel
• Table 2. Estimated cost for iron and steel industry under the Carbon Border Adjustment Mechanism (CBAM)
• Table 3. Hydrogen-based steelmaking technologies
• Table 4. Comparison of green steel production technologies
• Table 5. Advantages and disadvantages of each potential hydrogen carrier
• Table 6. CCUS in green steel production
• Table 7. Biochar in steel and metal
• Table 8. Hydrogen blast furnace schematic
• Table 9. Applications of microwave processing in green steelmaking
• Table 10. Applications of additive manufacturing (AM) in steelmaking
• Table 11. Technology readiness level (TRL) for key green steel production technologies
• Table 12. Properties of Green steels
• Table 13. Coatings and membranes in green steel production
• Table 14. Advantages and disadvantages of green steel
• Table 15. Markets and applications: green steel
• Table 16. Green steel plants, current and planned
• Table 17. Industry developments and innovation in Green steel, 2022-2023
• Table 18. Summary of market growth drivers for Green steel
• Table 19. Market challenges in Green steel
• Table 20. Supply agreements between green steel producers and automakers
• Table 21. Applications of green steel in the automotive industry
• Table 22. Applications of green steel in the construction industry
• Table 23. Applications of green steel in the consumer appliances industry
• Table 24. Applications of green steel in machinery
• Table 25. Applications of green steel in the rail industry
• Table 26. Applications of green steel in the packaging industry
• Table 27. Applications of green steel in the electronics industry
• Table 28. Global market revenues for Green steel, 2018-2033 (Million Metric Tons)
• Table 29. Global market revenues for Green steel, 2018-2033 (Billions USD)
• Table 30. Global market revenues for Green steel, by end-use industry, 2018-2033 (Billions USD)
• Table 31. Global market revenues for Green steel, by region, 2018-2033 (Billions USD)
• Table 32. Key players in Green steel, location and production methods

List of Figures

• Figure 1. Share of (a) production, (b) energy consumption and (c) CO2 emissions from different steel making routes
• Figure 2. Transition to hydrogen-based production
• Figure 3. CO2 emissions from steelmaking (tCO2/ton crude steel)
• Figure 4. CO2 emissions of different process routes for liquid steel
• Figure 5. Hydrogen Direct Reduced Iron (DRI) process
• Figure 6. Molten oxide electrolysis process
• Figure 7. Steelmaking with CCS
• Figure 8. Flash ironmaking process
• Figure 9. Hydrogen Plasma Iron Ore Reduction process
• Figure 10. Green steel market map
• Figure 11. SWOT analysis: Green steel
• Figure 12. Global market revenues for Green steel, 2018-2033 (Million Metric Tons)
• Figure 13. Global market revenues for Green steel, 2018-2033 (Billions USD)
• Figure 14. Global market revenues for Green steel, by end-use industry, 2018-2033 (Billions USD)
• Figure 15. Global market revenues for Green steel, by region, 2018-2033 (Billions USD)
• Figure 16. Global market revenues for Green steel, in North America, 2018-2033 (Billions USD)
• Figure 17. Global market revenues for Green steel, in Europe, 2018-2033 (Billions USD)
• Figure 18. Global market revenues for Green steel, in China, 2018-2033 (Billions USD)
• Figure 19. Global market revenues for Green steel, in India, 2018-2033 (Billions USD)
• Figure 20. Global market revenues for Green steel, in Asia-Pacific, 2018-2033 (Billions USD)
• Figure 21. Global market revenues for Green steel, in Middle East and Africa, 2018-2033 (Billions USD)
• Figure 22. Global market revenues for Green steel, in South America, 2018-2033 (Billions USD)
• Figure 23. ArcelorMittal decarbonization strategy
• Figure 24. HYBRIT process schematic
• Figure 25. Schematic of HyREX technology
• Figure 26. EAF Quantum