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EEStor Provides a Progress Update on the Development of its Electrical Energy Storage Units
May 15, 2012 (04:05 PM EDT)
CEDAR PARK, Texas, May 15, 2012 /PRNewswire/ -- EEStor Inc. ("EEStor") announced today that it is providing an update on the progress of its ultra-capacitor based energy storage technology.
EEStor has been working on the development of single layer Electrical Energy Storage Units (EESUs) as a step toward full commercial units. The single layers are generally around 20 microns in thickness with an area of 0.25 inches square. EEStor has successfully demonstrated a process that yields layers that can handle an operating voltage in excess of 3500 volts, have a dc resistance of greater than 700 terra ohms, and a dissipation factor of 0.005. The process of manufacturing the layers has evolved as EEStor has worked on improving the reliability of the layers. EEStor has recently focused its efforts on elimination of voids within the layers to improve the energy storage capabilities of the EESUs. EEStor has recently made major progress in that it is now successfully producing layers which tests indicate are void free.
The layers now being produced have very small internal self-discharge and crossover losses. These layers have been cycle tested by EEStor and have achieved over 1 million full cycles at a rate of less than 30 seconds per cycle. Each cycle consisted of charging to 3500 volts followed by discharging to zero volts. The EESU layers have better self-discharge characteristics and lower losses in the charge/discharge cycles than other known competitive energy storage technologies. Improvements have been made in the film morphology and fabrication requirements to facilitate the use of automated manufacturing. However, the most recently produced versions of the EESU layers have been tested by EEStor and in EEStor's opinion do not yet achieve the level of permittivity necessary for commercial production. EEStor is now working on improvements in the film morphology which it believes will allow it to significantly increase the permittivity and energy storage capabilities of the layers.
The performance of the EESU layers has not been independently tested. Once EEStor has improved the permittivity of the EESU layers, it will commence third party testing and certification. The third party results will lead to a detailed analysis of the technology's performance. Following independent certification of layers, EEStor intends to build multiple layer EESUs to demonstrate the effectiveness of the technology. EEStor has been developing production systems that have a level of automation and throughput capability that EEStor believes can be improved and scaled quickly.
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