Autor/Autorin: Ramasamy Subramanian
M.Sc., M.phil.,D.C.P.I.C.,D.C.H., P.G.D.P.C Research Scholar, Department of Chemistry, Manonmaniam Sundaranar University, Tirunelveli, Tamil Nadu, India-627 012. E-Mail:rsmani84@gmail.com
The research investigated the permeability in polymer membranes for direct alcohol fuel cell. A deillegalscription of fuel cell operating principles, types of fuel cell, applications and advantages of fuel cells. The properties of proton exchange membrane such as porosity, water and aqueous alcoholic solution uptake, and ion exchange capacity were determined. The permeability of various alcohols through nafion-115 and nafion-1135 was determined using cyclic voltammetry technique. Nafion membrane porosity decreases with increase in membrane thickness. Nafion 115 has lower membrane porosity than Nafion-1135 in water, 1M Methanol, 1M Ethanol and 1M isopropyl alcohol solutions. Nafion- 115 with higher thickness, lower permeability, and lesser porosity is suggested as a better polymer electrolyte membrane for direct alcohol fuel cells.
The research investigated the permeability in polymer membranes for direct alcohol fuel cell. A deillegalscription of fuel cell operating principles, types of fuel cell, applications and advantages of fuel cells. The properties of proton exchange membrane such as porosity, water and aqueous alcoholic solution uptake, and ion exchange capacity were determined. The permeability of various alcohols through nafion-115 and nafion-1135 was determined using cyclic voltammetry technique. Nafion membrane porosity decreases with increase in membrane thickness. Nafion 115 has lower membrane porosity than Nafion-1135 in water, 1M Methanol, 1M Ethanol and 1M isopropyl alcohol solutions. Nafion- 115 with higher thickness, lower permeability, and lesser porosity is suggested as a better polymer electrolyte membrane for direct alcohol fuel cells.
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Klappentext
The research investigated the permeability in polymer membranes for direct alcohol fuel cell. A deillegalscription of fuel cell operating principles, types of fuel cell, applications and advantages of fuel cells. The properties of proton exchange membrane such as porosity, water and aqueous alcoholic solution uptake, and ion exchange capacity were determined. The permeability of various alcohols through nafion-115 and nafion-1135 was determined using cyclic voltammetry technique. Nafion membrane porosity decreases with increase in membrane thickness. Nafion 115 has lower membrane porosity than Nafion-1135 in water, 1M Methanol, 1M Ethanol and 1M isopropyl alcohol solutions. Nafion- 115 with higher thickness, lower permeability, and lesser porosity is suggested as a better polymer electrolyte membrane for direct alcohol fuel cells.
