Oxygen Reduction and Methanol Oxidation Reaction in Alkaline Methanol Fuel Cell Tam Duong, Toby Liu, Yan Yushan Ph.D Department of Chemical and Environmental.

Slides:

Advertisements

Similar presentations

Fuel Cells and a Nanoscale Approach to Materials Design Chris Lucas Department of Physics Outline PEM fuel cells (issues) A nanoscale approach to materials.

Advertisements

PH 0101 Unit-5 Lecture-61 Introduction A fuel cell configuration Types of fuel cell Principle, construction and working Advantage, disadvantage and application.

B Y A LLEN D E A RMOND AND L AUREN C UMMINGS.  Generates electric power using a fuel and an oxidant  Unlike a battery, chemicals are not stored in the.

Unit 6 Fuel Cells

Electricity from Chemical Reactions

Study Of Fuel Cell By:- Sunit Kumar Gupta

Hydrogen Fuel Cell. Trends in the Use of Fuel 19 th century: steam engine 20 th century: internal combustion engine 21 st century: fuel cells.

Electrochemical Energy Systems (Fuel Cells and Batteries)

We have learnt that ionic compounds conduct electricity when molten or aqueous. When an electric current passes through such compounds, the compounds.

Cells & Batteries. Primary Cells these cells cannot be easily re-charged; once they die… they stay dead.

 Fuel cell: A device that converts chemical energy into electrical energy.  In the hydrogen- oxygen fuel cell, both cathode and anode are made of porous.

Hydrogen Fuel Cells David Lorse ESS 315. What is a hydrogen fuel cell? Hydrogen fuel cells (HFCs) are a type of electrochemical cell. HFCs generate electricity.

Nanotechnology in Hydrogen Fuel Cells By Morten Bakker "Energy & Nano" - Top Master in Nanoscience Symposium 17 June 2009.

Development of an Electrochemical Micro Flow Reactor (EMFR) for electrocatalytic studies of methanol oxidation and fuel cell applications. Nallakkan Arvindan*,

1 Fuel Cells ME 252 Thermal-Fluid Systems G. Kallio.

ELECTRICAL ENGINEERING SCIENCE

Fuel Cells and Rechargeable Batteries C5. C.5.1 Describe how a hydrogen oxygen fuel cell works. Alkaline fuel cells usually use a mobilized or immobilized.

Hydrogen Fuel Cells Maddie Droher. What is a fuel cell? An energy conversion device set to replace combustion engines and additional batteries in a number.

Batteries and Fuel Cells

By: Adam B and Marshall L.  What are the different types of fuel cells? Compare, Contrast and describe at least three.

WHAT IS A “FUEL CELL?” Generates electricity by a chemical reaction Produces heat, water, and at times nitrogen oxide Hydrogen and Oxygen Individual cells.

Fuel Cells & Rechargeable Batteries By Anisha Kesarwani 2013.

Section 18.1 Electron Transfer Reactions 1.To learn about metal-nonmetal oxidation–reduction reactions 2.To learn to assign oxidation states Objectives.

Electrochemistry. Electrochemical Cells  Electrons are transferred between the particles being oxidized and reduced  Two types –Spontaneous = Voltaic.

Alkaline Methanol Fuel Cell Tam Duong Dr. Yushan Yan.

Figure 6 Voltage transient curve In fig.6, it is obvious that there is a significant voltage drop and transient at 1400s even though the load is not changed.

ELECTROLYSIS Decomposition using an electric current.

Fuel cells. Fuel cell history  First demonstrated in principle by British Scientist Sir Willliam Robert Grove in  Grove’s invention was based.

Hydrogen Fuel Cell. Trends in the Use of Fuel 19 th century: steam engine 20 th century: internal combustion engine 21 st century: fuel cells.

MATERIALS FOR CLEAN ENERGY TECHNOLOGIES ARUMUGAM MANTHIRAM Electrochemical Energy Laboratory

Fuel cells Learning objectives: Revise the work covered so far on module 2 of EEE. Explain that a fuel cell uses the energy from the reaction of a fuel.

Microbial Fuel Cells for Renewable Energy - Characterization Study

Chapter 21.  Two types: ◦ Voltaic cell: electrons flow spontaneously ◦ Electrolytic cell: electrons are forced to flow.

Fuel Cell Fundamentals. PEM Fuel Cell Types of Fuel Cells For polymer electrolyte membrane and phosphoric acid fuel cells, protons move through the electrolyte.

Cell potential is related to concentrations Electrodes can be used that are sensitive to specific ions They measure concentrations of specific ions which.

Chapter 17 Corrosion and Degradation of Materials.

Fuel cells An electrochemical conversion device Chemical reactions cause electrons (current) to flow Requires a fuel, an oxidant and an electrolyte ( a.

Electrochemical cells L.O.:  Appreciate that electrochemical cells can be used as a commercial source of electrical energy.  Appreciate that cells can.

Lecture 22 Fuels. Reaction Rate. Electrolysis. Liquid, Solid, and Gaseous Fuels Reaction Rates Oxidation and Reduction Chapter 11.6 

Electrochemical Cells in Actions Batteries and Fuel Cells Chapter 15.

Hydrogen Fuel Cell & Photovoltaics. Photovoltaics.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Chemistry FIFTH EDITION by Steven S. Zumdahl University of Illinois.

Fuel Cells. What is a Fuel Cell? Quite simply, a fuel cell is a device that converts chemical energy into electrical energy, water, and heat through electrochemical.

Extracting metals. Methods of extracting metals The Earth's crust contains metals and metal compounds such as gold, iron oxide and aluminium oxide, but.

 Fuel cells transform chemical energy from fuels such as hydrogen and methanol into electrical energy  The fuel is oxidised by oxygen from the air.

By: Adam B and Marshall L.  What are the different types of fuel cells? Compare, Contrast and describe at least three.

Date of download: 6/1/2016 Copyright © ASME. All rights reserved. From: High Temperature Direct Methanol Fuel Cell Based on Phosphoric Acid PBI Membrane.

May 2013 by; OM PRAKASH MEENA PANKAJ PINGOLIYA RAKESH JOTAR.

FUEL CELL. How Fuel Cells Work Fuel Cells Making power more efficiently and with less pollution.

Fuel Cells Device that produces electricity from external supplies of fuel and oxidant. Types of Fuel cells 1)Proton Exchange membrane Fuel Cell (PEMFC)

FUEL CELLS Chapter 7. Types of Fuel Cells Fuel CellOperating Conditions Alkaline FC (AFC)Operates at room temp. to 80 0 C Apollo fuel cell Proton Exchange.

Oxidation-Reduction Reactions

Engineering Chemistry CHM 406

Hydrogen Fuel Cells.

Presentation on Hydrogen Fuel Cells

Engineering Chemistry

Cells & Batteries.

Storage cells and fuel cells

10/11/ /11/2018 Energy Changes AQA 2016 Chemistry topic 5.

An Introduction to Sediment Microbial Fuel Cells

Hydrogen Fuel Cells.

Chemistry Final Review Electrochemistry

Electrolysis Pass an electrical current through water and obtain H

Composition and Electrocatalytic Property of

Redox in Electrochemistry

Presentation transcript:

Oxygen Reduction and Methanol Oxidation Reaction in Alkaline Methanol Fuel Cell Tam Duong, Toby Liu, Yan Yushan Ph.D Department of Chemical and Environmental Engineering Motivation: -Methanol is really easy to store because it is in liquid state at room temperature. That makes transportation becomes more effectively.. -Fuel cell can act like a battery that does not really go down or need to be charged if methanol and oxidizer continue to be supplied. Fuel cell can produce V for a long period of time. Therefore, it is highly promising to serve as a power source of cell phones, or laptops. -Reducing pollution by reducing the amount of CO 2. Introduction: -The cost of platinum which is the catalyst used for oxygen reduction reaction (ORR) and methanol oxidation reaction (MOR) in fuel cell activity is still really high. Other catalysts have been tested in acidic solution to substitute platinum; however, the better activities are found in alkaline solution. There are more choices of metals which can be used as catalysts in alkaline solution. With the Nafion membrane, many catalysts with different loadings have been used to test the ability of replacing platinum. -Although many catalysts work out for the oxygen reduction reaction and methanol oxidation reaction, they are not really able to replaced platinum. However, AgNW has given a promising result. Materials and Experiments: Table of Samples -System: three-electrode  Electrodes: Hg/HgO reference electrode, platinum wire, glassy carbon electrod -Electrolyte: 0.1 M KOH -Membrane: 0.05% Nafion -Others: Gas vent and micro-pipet Results: Figure 1 ORR of AgNW 600 µg/cm 2 compare to Platinum catalyst Figure 2 MOR of AgNW 600 µg/cm 2 compare to Platinum catalyst Figure 3 HOR of AgNW 600 µg/cm 2 compare to Platinum catalyst Tested Samples Loadings (µg/cm 2 ) Ag/C50 Ag/C100 AgNW50 AgNW100 AgNW600 Au100 SeNW300 PdNT50 Pd/Pt100 Pd/Pt150 Ni320 Current Acknowledgement: We thank Shaun Alia for making us all the needed samples. We thank Shaung Gu for the TPQOH membrane besides Nafion.05%. We also thank Tierui Zhang for letting us using his iron and iron/cobalt samples. This program is supported by NSF (National Science Foudation. Conclusion: -In summary, all of the samples work out for Oxygen reduction reaction (ORR) even with the presence of Methanol; however, not all of them work out for Methanol and Hydrogen oxidation reaction (MOR or HOR). Good performance in ORR (with or without Methanol) shows that the catalyst can be used at the cathode without worrying about Methanol cross-over. Good performance in MOR or HOR shows that the catalyst is good to used at the anode. - In comparison to the commercial catalyst, platinum, Silver nanowires have better performance than other catalysts. Future Work -Silver nanowire synthesis -Platinum/Silver alloy will be testing -Carbon will be testing for Oxygen Reduction Reaction. (Testing with Nafion membrane and TPQPOH Alkaline binder). -Fe 3 CoPANI will be also testing