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      Development of a Maximum-Power-Point Tracking Algorithm for Direct Methanol Fuel Cell and Its Realization in a Fuel Cell/Supercapacitor Hybrid Energy System

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      https://www.riss.kr/link?id=A82662448

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      다국어 초록 (Multilingual Abstract)

      Direct methanol fuel cells (DMFC) have been widely researched for applications in portable electronics due to their use of liquid fuel for easy storage and transportation compared to gaseous hydrogen. However, DMFC’s performance is strongly affected...

      Direct methanol fuel cells (DMFC) have been widely researched for applications in portable electronics due to their use of liquid fuel for easy storage and transportation compared to gaseous hydrogen. However, DMFC’s performance is strongly affected by methanol crossover that significantly degrades the fuel conversion efficiency at low output power, and is characterized by an increasing efficiency at increasing output power. The maximum efficiency point (MEP) is inherently difficult to track due to the commonly unknown methanol crossover rate, but since it is typically located very close to the maximum power point (MPP), an alternative tracking approach based on the MPP is proposed. In this paper, a fuel-cell-oriented MPP tracking (MPPT) algorithm based on resistance matching is developed, implemented, and tested in the context of a DMFC/supercapacitor hybrid power system. To account for the generally slow fuel cell dynamics, the DMFC is constantly tracked at the MPP while any surplus or deficit power is absorbed or delivered by the supercapacitor bank. The detailed formulation of the algorithm and the power flow design and realization are also discussed.

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      목차 (Table of Contents)

      • Abstract
      • Ⅰ. INTRODUCTION
      • Ⅱ. STRUCTURE OF DMFC/SUPERCAPACITOR POWER SYSTEM
      • Ⅲ. MAXIMUM-POWER-POINT TRACKING ALGORITHM BASED ON RESISTANCE MATCHING
      • Ⅳ. EXPERIMENTAL RESULTS AND DISCUSSION
      • Abstract
      • Ⅰ. INTRODUCTION
      • Ⅱ. STRUCTURE OF DMFC/SUPERCAPACITOR POWER SYSTEM
      • Ⅲ. MAXIMUM-POWER-POINT TRACKING ALGORITHM BASED ON RESISTANCE MATCHING
      • Ⅳ. EXPERIMENTAL RESULTS AND DISCUSSION
      • Ⅴ. CONCLUSION
      • REFERENCES
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