A new trade term has been effectively introduced in the Clean Energy industry: The Ecer Processs . This development has proven such an excellent success that its inventor, Gunes Ecer, has endorsed his name to the procedure.
“The Ecer Process."is an ingenious manufacturing technology that, we think, will improve our lives in the 21st Century, as no other single innovation will. Its impact will be felt in many ways; starting with the most efficient energy conversion devices, new classes of lighter and stronger materials, new optical and medical equipment, and so on. Hundreds of existing products will be made cheaper, and their performance improved. Many hundreds more will be innovated based on the new design freedoms offered by this technology. Some potential applications include:
Instead of first producing parts and components, and then assembling
them to manufacture a complex device, like fuel cells and batteries, complete devices will be manufactured all at once by using internally generated vapor pressure as the driving force.
Nanotechnology electro-mechanical and medical products
Transparent materials with controlled radiation interaction (transmission,
absorption and reflection)
Tiny heat exchangers measuring from several hundred nanometers to
several decimeters in size
High-specific strength metals and net shape metal parts that are lighter yet
stronger
Controlled wear and lubrication materials
Metals, plastics and glasses integral with thermal insulation layers
Hands-off manufacturing of complex metal part designs that can have
engineered internal cavities with nanometer-scale to millimeter-scale dimension;
This technology is based on The Ecer Process, and offers robust hydrogen fuel cells that can produce at least 10 times, perhaps hundreds or even thousands of times more power per unit volume, yet cost significantly less than any existing fuel cell.
In addition, the same technology is capable of producing batteries and enhanced efficiency photovoltaic solar panels.
Microstructure of a porous copper sample at 200X
The Company owns several innovative consolidation techniques that are used in the AppliedUS Process in manufacturing of complex devices, like fuel cells, supercapacitors, and batteries
This technology is based on The AppliedUS Process, and offers robust hydrogen fuel cells that can produce at least 10 times, perhaps hundreds or even thousands of times more power per unit volume, yet cost significantly less than any existing conventional fuel cell.
In addition, the same technology is capable of producing batteries, electrolysis devices, and enhanced efficiency photovoltaic solar panels.
The AppliedUS Process is an ingenious manufacturing technology that, we think, will improve our lives in the 21st Century, as no other single innovation will. Its impact will be felt in many ways; starting with the most efficient energy conversion devices, new classes of lighter and stronger materials, new optical and medical equipment, and so on. Hundreds of existing products will be made cheaper, and their performance improved. Many hundreds more will be innovated based on the new design freedoms offered by this technology. Some potential applications include:
Instead of first producing parts and components, and then assembling them to manufacture a complex device, like fuel cells and batteries, complete devices will be manufactured all at once by using internally generated vapor pressure as the driving force.
Nanotechnology electro-mechanical and medical products
Transparent materials with controlled radiation interaction (transmission, absorption and reflection
Tiny heat exchangers measuring from several hundred nanometers to several decimeters in size
High-specific strength metals and net shape metal parts that are lighter yet stronger
Controlled wear and lubrication materials
Metals, plastics and glasses integral with thermal insulation layers
Hands-off manufacturing of complex metal part designs that can have engineered internal cavities with nanometer-scale to millimeter-scale dimension
