Add to ORKGPresented at the 2002 Fuel Cell Seminar, Palm Springs, CA, November 2002For the past 12 years, the Schatz Energy Research Center (SERC) has operated the Schatz Solar Hydrogen Project (SSHP). SSHP is a stand-alone renewable energy system that uses hydrogen as the energy storage medium and a proton exchange membrane (PEM) fuel cell as the regeneration technology [1,2]. Recently, a new 36-cell, 140 cm2 PEM fuel cell was installed at SSHP. We report operating results, cell voltage decay rates, and general utility of the fuel cell in providing power in this integrated system.Louis W. Schat
Residential buildings claim a large share of the total energy use. Fuel cells in combination with el...
With the demand of energy for our daily needs ever increasing and the supply of fossil fuels (Earth ...
The chlor-alkali industry produces high amounts of hydrogen as a by-product of processes based on el...
Presented at the 6th Annual National Hydrogen Association Meeting, Alexandria, VA, 1995For the past ...
Fuel cells have the potential to provide distributed power generation. Four types of fuel cells are ...
Fuel cell technology is considered to be a key technology in the 21"s"t century. A variety...
Presented at the 2002 Fuel Cell Seminar, Palm Springs, CA, November 2002The Schatz Energy Research C...
This paper presents the results of an experimental analysis performed on a miniaturized, 6We Proton ...
Increasing attention is given to fuel cells for micro combined heat and power systems for local hous...
The need for an efficient, low-polluting power source for vehicles in urban environments has resulte...
Poylmer electrolyte membrane (PEM) fuel cells are a promising technology for power supply. They are ...
The main scope of this study provides a research insight on direct solar Hydrogen-proton exchange me...
Previously, HySA Systems reported about integration of an MH extension tank in electric forklift wit...
A major technological challenge in 21st century is the transition from fossil-fuel based energy to r...
The paper provides a brief investigation on suitability of Proton-exchange membrane fuel cells (PEM...
Residential buildings claim a large share of the total energy use. Fuel cells in combination with el...
With the demand of energy for our daily needs ever increasing and the supply of fossil fuels (Earth ...
The chlor-alkali industry produces high amounts of hydrogen as a by-product of processes based on el...
Presented at the 6th Annual National Hydrogen Association Meeting, Alexandria, VA, 1995For the past ...
Fuel cells have the potential to provide distributed power generation. Four types of fuel cells are ...
Fuel cell technology is considered to be a key technology in the 21"s"t century. A variety...
Presented at the 2002 Fuel Cell Seminar, Palm Springs, CA, November 2002The Schatz Energy Research C...
This paper presents the results of an experimental analysis performed on a miniaturized, 6We Proton ...
Increasing attention is given to fuel cells for micro combined heat and power systems for local hous...
The need for an efficient, low-polluting power source for vehicles in urban environments has resulte...
Poylmer electrolyte membrane (PEM) fuel cells are a promising technology for power supply. They are ...
The main scope of this study provides a research insight on direct solar Hydrogen-proton exchange me...
Previously, HySA Systems reported about integration of an MH extension tank in electric forklift wit...
A major technological challenge in 21st century is the transition from fossil-fuel based energy to r...
The paper provides a brief investigation on suitability of Proton-exchange membrane fuel cells (PEM...
Residential buildings claim a large share of the total energy use. Fuel cells in combination with el...
With the demand of energy for our daily needs ever increasing and the supply of fossil fuels (Earth ...
The chlor-alkali industry produces high amounts of hydrogen as a by-product of processes based on el...