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PUBLISHER: Inkwood Research | PRODUCT CODE: 1563773

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PUBLISHER: Inkwood Research | PRODUCT CODE: 1563773

North America Hydrogen Fuel Cell Recycling Market Forecast 2024-2032

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KEY FINDINGS

The North America hydrogen fuel cell recycling market is estimated to develop with a CAGR of 11.94% over the forecast period 2024-2032. In terms of revenue, the market is set to reach $297.05 million by 2032.

MARKET INSIGHTS

The North America hydrogen fuel cell recycling market is experiencing substantial growth, driven by the region's increasing commitment to sustainable and circular economy practices. The Inflation Reduction Act (IRA) of 2022, with its substantial funding for clean energy technologies, has indirectly influenced the development of this market by promoting the production and deployment of hydrogen fuel cells. As hydrogen fuel cells gain traction, particularly in transportation and industrial applications, the need for effective recycling processes to manage end-of-life fuel cells is becoming increasingly critical.

REGIONAL ANALYSIS

The North America hydrogen fuel cell recycling market growth evaluation entails the assessment of the United States and Canada. The region's energy landscape is shaped by a growing emphasis on clean energy transitions and waste reduction, both of which are key components of the IRA. This legislation introduces a hydrogen production tax credit (45V), which makes clean hydrogen production more economically viable, thereby driving the proliferation of hydrogen fuel cells. As a result, the market for recycling these cells is expected to expand in parallel with the broader hydrogen economy.

Moreover, the IRA supports the development of infrastructure necessary to produce, store, and distribute hydrogen, including hydrogen refueling stations, which are crucial for the adoption of hydrogen fuel cell vehicles. This infrastructure expansion underscores the importance of establishing robust recycling systems to handle the increasing volume of fuel cells that will eventually reach the end of their operational life, ensuring that the environmental benefits of hydrogen technologies are fully realized.

Technological advancements in hydrogen fuel cell recycling processes have also improved their efficiency and environmental footprint. Innovations in materials recovery and waste management are enabling more sustainable recycling practices, reducing the environmental impact of fuel cells at the end of their lifecycle. These advancements support the overall sustainability goals across North America and contribute to the circular economy by reintroducing valuable materials back into the supply chain.

The regulatory environment in North America is fundamental in shaping the growth trajectory of the hydrogen fuel cell recycling market. Policies like the IRA that incentivize clean energy adoption also encourage the development of recycling infrastructure to manage the waste generated by these technologies. Additionally, state-level initiatives in states like California, which leads the nation in hydrogen infrastructure development, further bolster the market for hydrogen fuel cell recycling.

Investing in infrastructure and modernizing the grid are pivotal for facilitating the growth of the North America hydrogen fuel cell recycling market. As hydrogen technologies become more widespread, integrating recycling processes into current energy networks can bolster energy security, minimize waste, and optimize resource allocation. This integration promises a more dependable and robust energy system, crucial as the region addresses the intricacies of energy transition and climate resilience. Hence, hydrogen fuel cell recycling is well-positioned to meet sustainable energy demands and effectively tackle future challenges in the energy sector.

SEGMENTATION ANALYSIS

The North America hydrogen fuel cell recycling market segmentation includes process and source. The process segment is further expanded into pyrometallurgical, hydrometallurgical, and other processes.

Pyrometallurgical processes involve the use of high temperatures to extract valuable metals from the fuel cells. This method typically includes smelting, where the fuel cell components are melted, allowing for the separation of different metals based on their melting points. Pyrometallurgy is advantageous for its efficiency in recovering a wide range of metals but can be energy-intensive and may generate emissions that require proper management.

As the region advances towards sustainable energy practices and resilience against climate challenges, both physical and chemical recycling methods play crucial roles. They contribute to minimizing environmental impact, reducing waste, and supporting the circular economy. This dual approach aligns with North America's commitment to a balanced energy strategy, ensuring that the growth of hydrogen technologies is complemented by sustainable end-of-life management practices.

COMPETITIVE INSIGHTS

Some of the leading players in the North America hydrogen fuel cell recycling market include Ballard Power Systems Inc, Plug Power Inc, Bloom Energy Corporation, etc.

Ballard Power Systems Inc is a pioneer in the hydrogen fuel cell industry, focusing on the design, development, and manufacturing of PEM fuel cell products. The company operates primarily in transportation, stationary power, and portable power markets, with a presence in North America, Europe, and Asia Pacific. Headquartered in Burnaby, British Columbia, Canada, Ballard Power Systems supports its operations with manufacturing facilities in Canada, the United States, and Denmark, and employs around 1,173 people globally.

Product Code: 93967

TABLE OF CONTENTS

1. RESEARCH SCOPE & METHODOLOGY

  • 1.1. STUDY OBJECTIVES
  • 1.2. METHODOLOGY
  • 1.3. ASSUMPTIONS & LIMITATIONS

2. EXECUTIVE SUMMARY

  • 2.1. MARKET SIZE & ESTIMATES
  • 2.2. MARKET OVERVIEW
  • 2.3. SCOPE OF STUDY
  • 2.4. CRISIS SCENARIO ANALYSIS
    • 2.4.1. IMPACT OF COVID-19 ON THE HYDROGEN FUEL CELL RECYCLING MARKET
  • 2.5. MAJOR MARKET FINDINGS
    • 2.5.1. PYROMETALLURGICAL METHODS ARE THE PRIMARY PROCESSES USED IN HYDROGEN FUEL RECYCLING
    • 2.5.2. THE USE OF HYDROGEN FUEL RECYCLING IN PORTABLE SOURCES IS EXPECTED TO WITNESS SIGNIFICANT GROWTH

3. MARKET DYNAMICS

  • 3.1. KEY DRIVERS
    • 3.1.1. RISING ADOPTION OF HYDROGEN FUEL CELLS ACROSS INDUSTRIES
    • 3.1.2. SCARCITY AND RISING COSTS OF PRECIOUS METALS
    • 3.1.3. TECHNOLOGICAL ADVANCEMENTS
  • 3.2. KEY RESTRAINTS
    • 3.2.1. CHALLENGES IN DISASSEMBLING FUEL CELLS
    • 3.2.2. HIGH COSTS ASSOCIATED WITH RECYCLING

4. KEY ANALYTICS

  • 4.1. PARENT MARKET ANALYSIS
  • 4.2. KEY TECHNOLOGY TRENDS
    • 4.2.1. ADVANCEMENTS IN RECYCLING TECHNOLOGIES
    • 4.2.2. DEVELOPMENT OF ADVANCED SEPARATION TECHNIQUES
    • 4.2.3. EMERGENCE OF ELECTROCHEMICAL RECYCLING METHODS
  • 4.3. PORTER'S FIVE FORCES ANALYSIS
    • 4.3.1. BUYERS POWER
    • 4.3.2. SUPPLIERS POWER
    • 4.3.3. SUBSTITUTION
    • 4.3.4. NEW ENTRANTS
    • 4.3.5. INDUSTRY RIVALRY
  • 4.4. GROWTH PROSPECT MAPPING
    • 4.4.1. GROWTH PROSPECT MAPPING FOR NORTH AMERICA
  • 4.5. MARKET MATURITY ANALYSIS
  • 4.6. MARKET CONCENTRATION ANALYSIS
  • 4.7. VALUE CHAIN ANALYSIS
    • 4.7.1. RAW MATERIAL SOURCING
    • 4.7.2. CATALYST PREPARATION
    • 4.7.3. MEMBRANE ELECTRODE ASSEMBLY (MEA) FABRICATION
    • 4.7.4. BIPOLAR PLATE MANUFACTURING
    • 4.7.5. FUEL CELL STACK ASSEMBLY
    • 4.7.6. BALANCE OF PLANT COMPONENTS
    • 4.7.7. QUALITY CONTROL AND TESTING
    • 4.7.8. DEPLOYMENT AND INTEGRATION
  • 4.8. KEY BUYING CRITERIA
    • 4.8.1. COST EFFECTIVENESS
    • 4.8.2. ENVIRONMENTAL IMPACT
    • 4.8.3. REGULATORY COMPLIANCE
    • 4.8.4. TECHNOLOGY AND PROCESS EFFICIENCY
    • 4.8.5. RELIABILITY AND CONSISTENCY
  • 4.9. HYDROGEN FUEL CELL RECYCLING MARKET REGULATORY FRAMEWORK

5. MARKET BY PROCESS

  • 5.1. PYROMETALLURGICAL
    • 5.1.1. MARKET FORECAST FIGURE
    • 5.1.2. SEGMENT ANALYSIS
  • 5.2. HYDROMETALLURGICAL
    • 5.2.1. MARKET FORECAST FIGURE
    • 5.2.2. SEGMENT ANALYSIS
  • 5.3. OTHER PROCESSES
    • 5.3.1. MARKET FORECAST FIGURE
    • 5.3.2. SEGMENT ANALYSIS

6. MARKET BY SOURCE

  • 6.1. STATIONARY
    • 6.1.1. MARKET FORECAST FIGURE
    • 6.1.2. SEGMENT ANALYSIS
  • 6.2. TRANSPORT
    • 6.2.1. MARKET FORECAST FIGURE
    • 6.2.2. SEGMENT ANALYSIS
  • 6.3. PORTABLE
    • 6.3.1. MARKET FORECAST FIGURE
    • 6.3.2. SEGMENT ANALYSIS

7. GEOGRAPHICAL ANALYSIS

  • 7.1. NORTH AMERICA
    • 7.1.1. MARKET SIZE & ESTIMATES
    • 7.1.2. KEY PLAYERS IN NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET
    • 7.1.3. COUNTRY ANALYSIS
      • 7.1.3.1. UNITED STATES
      • 7.1.3.1.1. UNITED STATES HYDROGEN FUEL CELL RECYCLING MARKET SIZE & OPPORTUNITIES
      • 7.1.3.2. CANADA
      • 7.1.3.2.1. CANADA HYDROGEN FUEL CELL RECYCLING MARKET SIZE & OPPORTUNITIES

8. COMPETITIVE LANDSCAPE

  • 8.1. KEY STRATEGIC DEVELOPMENTS
    • 8.1.1. MERGERS & ACQUISITIONS
    • 8.1.2. PRODUCT LAUNCHES & DEVELOPMENTS
    • 8.1.3. PARTNERSHIPS & AGREEMENTS
    • 8.1.4. BUSINESS EXPANSIONS AND DIVESTITURES
  • 8.2. COMPANY PROFILES
    • 8.2.1. BALLARD POWER
      • 8.2.1.1. COMPANY OVERVIEW
      • 8.2.1.2. PRODUCTS
      • 8.2.1.3. STRENGTHS & CHALLENGES
    • 8.2.2. BASF
      • 8.2.2.1. COMPANY OVERVIEW
      • 8.2.2.2. PRODUCTS
      • 8.2.2.3. STRENGTHS & CHALLENGES
    • 8.2.3. BLOOM ENERGY
      • 8.2.3.1. COMPANY OVERVIEW
      • 8.2.3.2. PRODUCTS
      • 8.2.3.3. STRENGTHS & CHALLENGES
    • 8.2.4. DOOSAN CORPORATION
      • 8.2.4.1. COMPANY OVERVIEW
      • 8.2.4.2. PRODUCTS
      • 8.2.4.3. STRENGTHS & CHALLENGES
    • 8.2.5. GANNON & SCOTT
      • 8.2.5.1. COMPANY OVERVIEW
      • 8.2.5.2. PRODUCTS
      • 8.2.5.3. STRENGTHS & CHALLENGES
    • 8.2.6. HENSEL RECYCLING
      • 8.2.6.1. COMPANY OVERVIEW
      • 8.2.6.2. PRODUCTS
      • 8.2.6.3. STRENGTHS & CHALLENGES
    • 8.2.7. HYTECHCYLING
      • 8.2.7.1. COMPANY OVERVIEW
      • 8.2.7.2. PRODUCTS
      • 8.2.7.3. STRENGTHS & CHALLENGES
    • 8.2.8. JOHNSON MATTHEY
      • 8.2.8.1. COMPANY OVERVIEW
      • 8.2.8.2. PRODUCTS
      • 8.2.8.3. STRENGTHS & CHALLENGES
    • 8.2.9. KLEIN ANLAGENBAU
      • 8.2.9.1. COMPANY OVERVIEW
      • 8.2.9.2. PRODUCTS
      • 8.2.9.3. STRENGTHS & CHALLENGES
    • 8.2.10. PROTON MOTOR FUEL CELL
      • 8.2.10.1. COMPANY OVERVIEW
      • 8.2.10.2. PRODUCTS
      • 8.2.10.3. STRENGTHS & CHALLENGES
    • 8.2.11. PLUG POWER INC
      • 8.2.11.1. COMPANY OVERVIEW
      • 8.2.11.2. PRODUCTS
      • 8.2.11.3. STRENGTHS & CHALLENGES
    • 8.2.12. SK ECOPLANT
      • 8.2.12.1. COMPANY OVERVIEW
      • 8.2.12.2. PRODUCTS
      • 8.2.12.3. STRENGTHS & CHALLENGES
    • 8.2.13. SUEZ
      • 8.2.13.1. COMPANY OVERVIEW
      • 8.2.13.2. PRODUCTS
      • 8.2.13.3. STRENGTHS & CHALLENGES
    • 8.2.14. TENOVA
      • 8.2.14.1. COMPANY OVERVIEW
      • 8.2.14.2. PRODUCTS
      • 8.2.14.3. STRENGTHS & CHALLENGES
    • 8.2.15. UMICORE
      • 8.2.15.1. COMPANY OVERVIEW
      • 8.2.15.2. PRODUCTS
      • 8.2.15.3. STRENGTHS & CHALLENGES
Product Code: 93967

LIST OF TABLES

  • TABLE 1: MARKET SNAPSHOT - HYDROGEN FUEL CELL RECYCLING
  • TABLE 2: NORTH AMERICA REGULATORY FRAMEWORK
  • TABLE 3: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY PROCESS, HISTORICAL YEARS, 2018-2022 (IN $ MILLION)
  • TABLE 4: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY PROCESS, FORECAST YEARS, 2024-2032 (IN $ MILLION)
  • TABLE 5: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY SOURCE, HISTORICAL YEARS, 2018-2022 (IN $ MILLION)
  • TABLE 6: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY SOURCE, FORECAST YEARS, 2024-2032 (IN $ MILLION)
  • TABLE 7: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY COUNTRY, HISTORICAL YEARS, 2018-2022 (IN $ MILLION)
  • TABLE 8: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY COUNTRY, FORECAST YEARS, 2024-2032 (IN $ MILLION)
  • TABLE 9: KEY PLAYERS OPERATING IN NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET
  • TABLE 10: LIST OF MERGERS & ACQUISITIONS
  • TABLE 11: LIST OF PRODUCT LAUNCHES & DEVELOPMENTS
  • TABLE 12: LIST OF PARTNERSHIPS & AGREEMENTS
  • TABLE 13: LIST OF BUSINESS EXPANSIONS AND DIVESTITURES

LIST OF FIGURES

  • FIGURE 1: KEY TECHNOLOGY TRENDS
  • FIGURE 2: PORTER'S FIVE FORCES ANALYSIS
  • FIGURE 3: GROWTH PROSPECT MAPPING FOR NORTH AMERICA
  • FIGURE 4: MARKET CONCENTRATION ANALYSIS
  • FIGURE 5: VALUE CHAIN ANALYSIS
  • FIGURE 6: KEY BUYING CRITERIA
  • FIGURE 7: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, GROWTH POTENTIAL, BY PROCESS, IN 2023
  • FIGURE 8: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY PYROMETALLURGICAL, 2024-2032 (IN $ MILLION)
  • FIGURE 9: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY HYDROMETALLURGICAL, 2024-2032 (IN $ MILLION)
  • FIGURE 10: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY OTHER PROCESSES, 2024-2032 (IN $ MILLION)
  • FIGURE 11: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, GROWTH POTENTIAL, BY SOURCE, IN 2023
  • FIGURE 12: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY STATIONARY, 2024-2032 (IN $ MILLION)
  • FIGURE 13: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY TRANSPORT, 2024-2032 (IN $ MILLION)
  • FIGURE 14: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, BY PORTABLE, 2024-2032 (IN $ MILLION)
  • FIGURE 15: NORTH AMERICA HYDROGEN FUEL CELL RECYCLING MARKET, COUNTRY OUTLOOK, 2023 & 2032 (IN %)
  • FIGURE 16: UNITED STATES HYDROGEN FUEL CELL RECYCLING MARKET, 2024-2032 (IN $ MILLION)
  • FIGURE 17: CANADA HYDROGEN FUEL CELL RECYCLING MARKET, 2024-2032 (IN $ MILLION)
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Jeroen Van Heghe

Manager - EMEA

+32-2-535-7543

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Christine Sirois

Manager - Americas

+1-860-674-8796

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