PDF Publication Title:
Text from PDF Page: 001energies Article Experimental Evaluation of the Effect of the Anode Diffusion Layer Properties on the Performance of a Passive Direct Methanol Fuel Cell Beatriz A. Braz, Vânia B. Oliveira * and Alexandra M. F. R. Pinto * CEFT-DEQ, Faculdade de Engenharia da Universidade do Porto (FEUP), Rua Roberto Frias, 4200-465 Porto, Portugal; firstname.lastname@example.org * Correspondence: email@example.com (V.B.O.); firstname.lastname@example.org (A.M.F.R.P.) Received: 15 July 2020; Accepted: 23 September 2020; Published: 5 October 2020 Abstract: Passive direct methanol fuel cells (pDMFCs) are promising devices to replace the conventional batteries in portable electronic devices, due to their higher energy densities, autonomies, and instant recharging. However, some challenges, such as their costs, efficiency, and durability, need to be overcome before their commercialization. Towards that, this work presents the effect of the anode diffusion layer (ADL) properties on the performance of a pDMFC using a membrane electrode assembly (MEA) with reduced loadings on both anode and cathode catalysts (3 mg/cm2 Pt/Ru on the anode and 1.3 mg/cm2 of Pt on the cathode). The pDMFC behavior was evaluated through polarization and electrochemical impedance spectroscopy measurements, which allow identifying and quantifying the different losses that affect these systems. The results showed better performances when a diffusion layer with a dual-layer structure was used using higher methanol concentrations. The maximum power density achieved was 3.00 mW/cm2, using carbon cloth with a microporous layer, CC_MPL, as ADL, and a methanol concentration of 5 M. In this work, a tailored and low-cost MEA, using the materials available in the market, was proposed to achieve higher performances working under higher methanol concentrations. This work demonstrates that performing modifications on the fuel cell structure/design is an efficient way to achieve optimized performances. Keywords: passive direct methanol fuel cell; anode diffusion layer; diffusion layer structure; carbon-based materials; electrochemical impedance spectroscopy; performance 1. Introduction In emerging countries and rural areas where the grids are unreliable, small and decentralized power systems are seen as a promising power solution to provide the power needed by the population. Among these systems, fuel cells (FCs) are in the Energy Agenda since were target as the ideal technology to provide power to education, auxiliary and back-up power systems, recreational, medical, and military applications. Furthermore, compact and small FCs, which use methanol as fuel, known as direct methanol fuel cells (DMFCs), emerge as a promising solution to develop advanced small and portable FCs to overcome the limitations of the conventional batteries, providing back-up and small-decentralized power. Additionally, a passive DMFC produces electricity without power consumption, since uses natural forces, such as diffusion and convection to achieve all the processes that occur in a working fuel cell. Hence, these systems are simpler and more compact being for these reasons more suitable for providing energy for portable and small power sources. However, significant efforts should be done towards its commercialization in order to overcome its different scientific challenges, which include its higher costs, due to the use of noble metals as catalysts with higher loadings (usually, 4 mg/cm2 Pt/Ru and 4 mg/cm2 of Pt), and lower power outputs, due to the Energies 2020, 13, 5198; doi:10.3390/en13195198 www.mdpi.com/journal/energies
PDF Image | Anode Diffusion Layer Properties on Direct Methanol Fuel Cell
PDF Search Title:Anode Diffusion Layer Properties on Direct Methanol Fuel Cell
Original File Name Searched:energies-13-05198.pdf
DIY PDF Search: Google It | Yahoo | Bing
SeaMerlin The SeaMerlin Engine is a water based gas leverage turbine for marine propulsion, seawater distillation, oceanwater CO2 harvesting, and more.
About: More about Infinity Turbine and the quest for the Xprize... More Info
Strategy and Consulting Services: Renewable energy strategy, Organic Rankine Cycle, CO2 energy, and Sonification technology consulting... More Info
@elonmusk XPrize $100 million CO2 Challenge: Carbon Removal Prize Challenge Sponsored by Elon Musk... More Info
CO2 Phase Change Demonstrator: Experiment with gas to liquids (CO2 to alcohol) using Nafion and our phase change demonstrator cart (we can ship worldwide)... More Info
CO2 GTL Gas to Liquids Experimental Platform: Experiment with gas to liquids (CO2 to alcohol) using Nafion (electrolyzer membrane) and our phase change demonstrator cart (we can ship worldwide). CO2 goes supercritical at 31 C. This is a experimental platform which you can use to demonstrate phase change with low heat. Includes integration area for small CO2 turbine, static generator, Nafion pellets, Nafion membrate, or Nafion tubes... More Info
Concept: The concept of the SeaMerlin Engine is to convert or supplement existing marine vessel propulsion to a gas leverage turbine which scavenges CO2 from saltwater at the same time it provides vessel thrust.
CONTACT TEL: 608-238-6001 Email: email@example.com (Standard Web Page)