全球氫燃料電池回收市場

2030年，全球氫燃料電池回收市場規模將達15億美元

全球氫燃料電池回收市場規模預計在2024年達到6.615億美元，預計2024年至2030年期間的複合年成長率為14.1%，到2030年將達到15億美元。火法冶金製程是本報告分析的細分領域之一，預計其複合年成長率為14.7%，到分析期結束時規模將達到9.401億美元。濕式冶金製程細分領域在分析期間的複合年成長率預計為12.0%。

美國市場規模估計為 1.739 億美元，中國市場預計複合年成長率為 13.2%

美國氫燃料電池回收市場規模預計2024年達到1.739億美元。預計到2030年，作為世界第二大經濟體的中國市場規模將達到2.257億美元，在分析期間（2024-2030年）的複合年成長率為13.2%。其他值得關注的區域市場包括日本和加拿大，預計在分析期間的複合年成長率分別為13.0%和12.1%。在歐洲，預計德國的複合年成長率為10.2%。

全球氫燃料電池回收市場－主要趨勢與促進因素摘要

燃料電池回收為何在氫經濟領域受到關注

隨著氫燃料電池在交通運輸、備用電源和工業應用中的普及，回收廢棄燃料電池組件已成為一項策略重點。燃料電池包含寶貴且有限的材料，包括鉑族金屬、碳基催化劑、薄膜和特殊聚合物。這些組件的報廢處理不僅對於符合環保要求至關重要，而且對於確保昂貴且受地域限制的原料供應也至關重要。隨著全球氫能部署的擴大，回收可以確保稀有元素的循環使用，並降低供應鏈風險。

用於車輛、固定電源和物料輸送設備的燃料電池系統通常在5-10年內達到使用壽命。隨著大規模部署的成熟，尤其是在移動出行車隊和備用系統中，預計廢棄電池的數量將大幅增加。這種轉變需要強大的回收基礎設施，能夠安全地處理拆卸、物料輸送和回收，而不會劣化可用資源的利用率。氫能價值鏈上的相關人員已開始將回收計畫納入系統設計和供應合約中。

有哪些新興技術和製程可以實現高效率的材料回收？

氫燃料電池的處理涉及多個步驟，包括拆解、化學處理和淨化。其中一個核心過程是回收催化劑中使用的鉑和釕，這需要專門的浸出和電化學方法。目前正在進行研究，以提高催化劑的回收率並降低處理過程中的能源強度。由於聚合物結構複雜且有污染風險，膜回收面臨額外的挑戰，但溶劑型和機械分離技術的進步正在提高其可回收性。

目前正在測試自動化和熱預處理技術，以簡化拆卸和預分類階段，特別適用於運輸應用中使用的電池。混合回收方法結合了機械、熱和化學方法，是選擇性回收材料並最大限度地減少劣化的有前景的方法。在某些情況下，回收的催化劑和碳材料可以再加工成新的電池組件，從而減少對原生採礦和精煉的依賴。正在進行的可回收性設計工作，例如模組化組件配置和無損電池外殼，有助於簡化拆卸。

哪些產業將推動回收需求和基礎設施成長？

交通運輸業，尤其是公車和卡車等重型燃料電池汽車，正在成為氫燃料電池回收需求的主要驅動力。使用週期明確的車輛可以預測報廢車輛數量，從而可以將回收計畫納入車輛處置計畫。倉庫中使用的物料輸送設備，例如堆高機和物流車，也是可回收燃料電池堆日益成長的來源。安裝在通訊塔和關鍵基礎設施中的固定電源也是報廢系統的新興來源。

制定國家氫能戰略的國家正開始為燃料電池製造的循環性投入資金並制定相關法規。汽車製造商、燃料電池供應商和回收專家正在夥伴關係開發閉合迴路系統。先導計畫正在啟動，以評估各地區回收的經濟性、材料純度和環境影響。隨著氫能基礎設施的發展，回收能力正被納入長期供應鏈規劃，尤其是在北美和東亞地區。

推動氫燃料電池回收市場成長的因素是什麼？

氫燃料電池回收市場的成長受到多種因素的推動，包括燃料電池系統在交通運輸和固定設備領域的日益普及、對鉑族金屬回收的日益關注，以及催化分離和膜回收技術的進步。隨著清潔氫氣需求的不斷成長，減少對原料的依賴和環境影響的需求正推動產業相關人員建立循環供應模式。浸出、電化學精煉和混合回收製程的技術進步正在提高回收系統的經濟性和材料純度。

商用車輛、電訊備用設備、工業電力系統和鐵路運輸等終端應用的不斷擴大，產生了可預測的廢棄電池組數量，從而推動了對專用回收基礎設施的投資。以延伸生產者責任規定和資源回收獎勵形式提供的監管支持也發揮關鍵作用。同時，燃料電池製造商開始設計更易於拆卸和再利用的組件。這些因素，加上關鍵金屬的全球供應風險，將支持氫燃料電池回收市場的長期成長，因為永續性已成為氫能系統部署的核心。

部分

製程（火法冶金製程、濕式冶金製程、其他製程）；污染源（固定源、運輸源、攜帶式源）

受訪公司範例

• Ballard Power Systems Inc.
• BASF SE
• Bloom Energy Corporation
• Doosan Corporation
• EKPO Fuel Cell Technologies
• Electrocycling GmbH
• Gannon & Scott Inc.
• Hensel Recycling Group
• Heraeus Precious Metals
• HYTECHCYLING
• Johnson Matthey plc
• Klein Anlagenbau AG
• Proton Motor Fuel Cell GmbH
• Plug Power Inc.
• SK Ecoplant Co., Ltd.
• Tenova SpA
• Umicore NV
• American Manganese Inc.
• Doosan Fuel Cell America, Inc.
• SFC Energy AG

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目錄

第1章調查方法

第2章執行摘要

• 市場概覽
• 主要企業
• 市場趨勢和促進因素
• 全球市場展望

第3章市場分析

• 美國
• 加拿大
• 日本
• 中國
• 歐洲
• 法國
• 德國
• 義大利
• 英國
• 其他歐洲國家
• 亞太地區
• 其他地區

第4章 比賽

Global Hydrogen Fuel Cell Recycling Market to Reach US$1.5 Billion by 2030

The global market for Hydrogen Fuel Cell Recycling estimated at US$661.5 Million in the year 2024, is expected to reach US$1.5 Billion by 2030, growing at a CAGR of 14.1% over the analysis period 2024-2030. Pyrometallurgical Process, one of the segments analyzed in the report, is expected to record a 14.7% CAGR and reach US$940.1 Million by the end of the analysis period. Growth in the Hydrometallurgical Process segment is estimated at 12.0% CAGR over the analysis period.

The U.S. Market is Estimated at US$173.9 Million While China is Forecast to Grow at 13.2% CAGR

The Hydrogen Fuel Cell Recycling market in the U.S. is estimated at US$173.9 Million in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$225.7 Million by the year 2030 trailing a CAGR of 13.2% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 13.0% and 12.1% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 10.2% CAGR.

Global Hydrogen Fuel Cell Recycling Market - Key Trends & Drivers Summarized

Why Is Fuel Cell Recycling Gaining Attention in the Hydrogen Economy?

As hydrogen fuel cell adoption increases in transportation, power backup, and industrial applications, recycling of spent fuel cell components is becoming a strategic priority. Fuel cells contain valuable and limited materials such as platinum group metals, carbon-based catalysts, membranes, and specialty polymers. End-of-life processing of these components is critical not only for environmental compliance but also for securing raw materials that are expensive and geographically constrained. Recycling ensures circular use of rare elements and reduces supply chain risk as global hydrogen adoption scales.

Fuel cell systems used in vehicles, stationary power units, and material handling equipment often reach the end of their service life within 5 to 10 years. As large-scale deployments mature, especially in mobility fleets and backup systems, the volume of spent cells is expected to increase significantly. This shift requires robust recycling infrastructure that can safely handle disassembly, material separation, and recovery without degrading usable resources. Stakeholders across the hydrogen value chain are beginning to incorporate recycling planning into system design and supply agreements.

What Technologies and Processes Are Emerging for Efficient Material Recovery?

Recycling of hydrogen fuel cells involves multiple steps including dismantling, chemical treatment, and purification. One of the core processes is the recovery of platinum and ruthenium used in catalysts, which requires specialized leaching and electrochemical methods. Research is underway to enhance catalyst recovery yields and reduce energy intensity during processing. Membrane recovery presents additional challenges due to complex polymer structures and contamination risks, but advancements in solvent-based and mechanical separation techniques are improving recyclability.

Automation and thermal pre-treatment are being tested to streamline dismantling and pre-sorting stages, especially for cells used in transport applications. Hybrid recovery methods combining mechanical, thermal, and chemical approaches are showing promise for selective recovery with minimal material degradation. In some cases, recovered catalysts and carbon materials can be reprocessed into new cell components, reducing dependence on primary mining and refining. Ongoing efforts in design for recyclability, such as modular component configuration and non-destructive cell casing, are supporting easier disassembly.

Which Sectors Are Driving Recycling Demand and Infrastructure Growth?

The transportation sector, particularly heavy-duty fuel cell vehicles such as buses and trucks, is emerging as a primary driver of hydrogen fuel cell recycling demand. Fleets with defined service cycles generate predictable end-of-life volumes, allowing recycling programs to be structured into vehicle retirement planning. Material handling equipment, such as forklifts and logistics carts used in warehouses, also present a growing source of recyclable fuel cell stacks. Stationary power units in telecom towers and critical infrastructure provide an additional stream of spent systems.

Countries with national hydrogen strategies are beginning to allocate funds and regulations for circularity in fuel cell manufacturing. Automotive manufacturers, fuel cell suppliers, and recycling specialists are forming partnerships to develop closed-loop systems. Pilot projects are being launched to assess recovery economics, material purity, and environmental impact across regions. As hydrogen infrastructure grows, recycling capacity is being integrated into long-term supply chain planning, particularly in Europe, North America, and East Asia.

What Is Driving Growth in the Hydrogen Fuel Cell Recycling Market?

Growth in the hydrogen fuel cell recycling market is driven by several factors including increasing deployment of fuel cell systems across transportation and stationary sectors, rising focus on platinum group metal recovery, and improvements in catalyst separation and membrane recycling techniques. As demand for clean hydrogen rises, the need to reduce raw material dependency and environmental impact is pushing industry stakeholders to build circular supply models. Technological advancements in leaching, electrochemical refining, and hybrid recovery processes are improving the economics and material purity of recycling systems.

End-use expansion across commercial fleets, telecom backup units, industrial power systems, and rail transport is generating predictable volumes of end-of-life stacks, encouraging investment in dedicated recycling infrastructure. Regulatory support in the form of extended producer responsibility mandates and resource recovery incentives is also playing a key role. In parallel, fuel cell manufacturers are beginning to design components for easier disassembly and reusability. These factors, combined with global supply risks for critical metals, are supporting long-term growth in the hydrogen fuel cell recycling market as sustainability becomes central to hydrogen system deployment.

SCOPE OF STUDY:

The report analyzes the Hydrogen Fuel Cell Recycling market in terms of units by the following Segments, and Geographic Regions/Countries:

Segments:

Process (Pyrometallurgical Process, Hydrometallurgical Process, Other Processes); Source (Stationary Source, Transport Source, Portable Source)

Geographic Regions/Countries:

World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; and Rest of Europe); Asia-Pacific; Rest of World.

Select Competitors (Total 32 Featured) -

• Ballard Power Systems Inc.
• BASF SE
• Bloom Energy Corporation
• Doosan Corporation
• EKPO Fuel Cell Technologies
• Electrocycling GmbH
• Gannon & Scott Inc.
• Hensel Recycling Group
• Heraeus Precious Metals
• HYTECHCYLING
• Johnson Matthey plc
• Klein Anlagenbau AG
• Proton Motor Fuel Cell GmbH
• Plug Power Inc.
• SK Ecoplant Co., Ltd.
• Tenova S.p.A.
• Umicore NV
• American Manganese Inc.
• Doosan Fuel Cell America, Inc.
• SFC Energy AG

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TABLE OF CONTENTS

I. METHODOLOGY

II. EXECUTIVE SUMMARY

• 1. MARKET OVERVIEW
  • Influencer Market Insights
  • World Market Trajectories
  • Tariff Impact on Global Supply Chain Patterns
  • Hydrogen Fuel Cell Recycling - Global Key Competitors Percentage Market Share in 2025 (E)
  • Competitive Market Presence - Strong/Active/Niche/Trivial for Players Worldwide in 2025 (E)
• 2. FOCUS ON SELECT PLAYERS
• 3. MARKET TRENDS & DRIVERS
  • Rising Deployment of Fuel Cell Vehicles and Stationary Systems Drives Need for Scalable Hydrogen Fuel Cell Recycling Solutions
  • Growing Concern Over Platinum Group Metal Recovery Strengthens Business Case for Closed-Loop Fuel Cell Material Recovery
  • Expansion of Hydrogen Mobility Ecosystems Fuels Demand for Sustainable End-of-Life Management of PEM and SOFC Cells
  • OEM Focus on Cost Reduction Through Material Reuse Enhances Commercial Viability of Recycling-Centric Fuel Cell Lifecycles
  • Increasing Regulatory Pressure on E-Waste and Green Manufacturing Throws Spotlight on Fuel Cell Recycling Infrastructure
  • Surge in Electrolyzer and Fuel Cell Stack Retirements Supports Development of Specialized Recycling Supply Chains
  • Technological Advancements in Catalyst Separation and Membrane Processing Improve Efficiency of Fuel Cell Recovery Systems
  • Government Incentives and Circular Economy Policies Accelerate Investment in Fuel Cell Material Reclamation Facilities
  • OEM Collaboration with Recycling Firms and Precious Metal Refineries Enables Vertical Integration of Fuel Cell Recovery Operations
  • Rising Adoption of Fuel Cells in Public Transit and Commercial Fleets Generates Volume Streams for High-Value Recycling
  • Expansion of Second-Life Fuel Cell Use Cases Promotes Recovery and Repurposing of Non-Degraded Components
• 4. GLOBAL MARKET PERSPECTIVE
  • TABLE 1: World Hydrogen Fuel Cell Recycling Market Analysis of Annual Sales in US$ Thousand for Years 2014 through 2030
  • TABLE 2: World Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 3: World 6-Year Perspective for Hydrogen Fuel Cell Recycling by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets for Years 2025 & 2030
  • TABLE 4: World Recent Past, Current & Future Analysis for Pyrometallurgical Process by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 5: World 6-Year Perspective for Pyrometallurgical Process by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
  • TABLE 6: World Recent Past, Current & Future Analysis for Hydrometallurgical Process by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 7: World 6-Year Perspective for Hydrometallurgical Process by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
  • TABLE 8: World Recent Past, Current & Future Analysis for Other Processes by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 9: World 6-Year Perspective for Other Processes by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
  • TABLE 10: World Recent Past, Current & Future Analysis for Stationary Source by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 11: World 6-Year Perspective for Stationary Source by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
  • TABLE 12: World Recent Past, Current & Future Analysis for Transport Source by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 13: World 6-Year Perspective for Transport Source by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
  • TABLE 14: World Recent Past, Current & Future Analysis for Portable Source by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 15: World 6-Year Perspective for Portable Source by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030

III. MARKET ANALYSIS

• UNITED STATES
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United States for 2025 (E)
  • TABLE 16: USA Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 17: USA 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 18: USA Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 19: USA 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• CANADA
  • TABLE 20: Canada Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 21: Canada 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 22: Canada Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 23: Canada 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• JAPAN
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Japan for 2025 (E)
  • TABLE 24: Japan Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 25: Japan 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 26: Japan Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 27: Japan 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• CHINA
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in China for 2025 (E)
  • TABLE 28: China Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 29: China 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 30: China Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 31: China 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• EUROPE
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Europe for 2025 (E)
  • TABLE 32: Europe Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
  • TABLE 33: Europe 6-Year Perspective for Hydrogen Fuel Cell Recycling by Geographic Region - Percentage Breakdown of Value Sales for France, Germany, Italy, UK and Rest of Europe Markets for Years 2025 & 2030
  • TABLE 34: Europe Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 35: Europe 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 36: Europe Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 37: Europe 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• FRANCE
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in France for 2025 (E)
  • TABLE 38: France Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 39: France 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 40: France Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 41: France 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• GERMANY
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Germany for 2025 (E)
  • TABLE 42: Germany Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 43: Germany 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 44: Germany Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 45: Germany 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• ITALY
  • TABLE 46: Italy Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 47: Italy 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 48: Italy Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 49: Italy 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• UNITED KINGDOM
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United Kingdom for 2025 (E)
  • TABLE 50: UK Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 51: UK 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 52: UK Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 53: UK 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• REST OF EUROPE
  • TABLE 54: Rest of Europe Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 55: Rest of Europe 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 56: Rest of Europe Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 57: Rest of Europe 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• ASIA-PACIFIC
  • Hydrogen Fuel Cell Recycling Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Asia-Pacific for 2025 (E)
  • TABLE 58: Asia-Pacific Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 59: Asia-Pacific 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 60: Asia-Pacific Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 61: Asia-Pacific 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030
• REST OF WORLD
  • TABLE 62: Rest of World Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Process - Pyrometallurgical Process, Hydrometallurgical Process and Other Processes - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 63: Rest of World 6-Year Perspective for Hydrogen Fuel Cell Recycling by Process - Percentage Breakdown of Value Sales for Pyrometallurgical Process, Hydrometallurgical Process and Other Processes for the Years 2025 & 2030
  • TABLE 64: Rest of World Recent Past, Current & Future Analysis for Hydrogen Fuel Cell Recycling by Source - Stationary Source, Transport Source and Portable Source - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
  • TABLE 65: Rest of World 6-Year Perspective for Hydrogen Fuel Cell Recycling by Source - Percentage Breakdown of Value Sales for Stationary Source, Transport Source and Portable Source for the Years 2025 & 2030

IV. COMPETITION