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20 Marinčić, N. Materials balance in primary batteries. II. Lithium inorganic batteries at high discharge rates. Journal of Applied Electrochemistry 6, 51-58, doi:10.1007/BF01058870 (1976). 21 Spotnitz, R. M., Yeduvaka, G. S., Nagasubramanian, G. & Jungst, R. Modeling self-discharge of Li/SOCl2 cells. Journal of Power Sources 163, 578-583, doi:https://doi.org/10.1016/j.jpowsour.2006.09.025 (2006). 22 Morrison, M. M. & Marincic, N. Studies in lithium oxyhalide cells for downhole instrumentation Use of lithium tetrachlorogallate electrolyte in Li/SOCl2 cells. Journal of Power Sources 45, 343-352, doi:https://doi.org/10.1016/0378-7753(93)80023-I (1993). 23 Barpanda, P., Oyama, G., Nishimura, S.-i., Chung, S.-C. & Yamada, A. A 3.8-V earth-abundant sodium battery electrode. Nature Communications 5, 4358, doi:10.1038/ncomms5358 (2014). 24 Zhu, C., Kopold, P., van Aken, P. A., Maier, J. & Yu, Y. High Power–High Energy Sodium Battery Based on Threefold Interpenetrating Network. Advanced Materials 28, 2409-2416, doi:10.1002/adma.201505943 (2016). 25 Liu, J. et al. Extension of The Stöber Method to the Preparation of Monodisperse Resorcinol– Formaldehyde Resin Polymer and Carbon Spheres. Angewandte Chemie International Edition 50, 5947- 5951, doi:10.1002/anie.201102011 (2011). 26 Klinedinst, K. A. & McLaughlin, M. L. Solubilities of sulfur and sulfur dioxide in thionyl chloride with and without 1.8 M lithium tetrachloroaluminate. Journal of Chemical & Engineering Data 24, 203- 206, doi:10.1021/je60082a017 (1979). 27 Gross, S. & Society, E. Proceedings of the Symposium on Battery Design and Optimization. (Battery Division, Electrochemical Society, 1979). 28 Abraham, K. M., Mank, R. M. & Holleck, G. L. Investigations of the safety of Li/SOCl2 batteries. (1979). 29 Fujii, K. et al. Unusual Li+ Ion Solvation Structure in Bis(�uorosulfonyl)amide Based Ionic Liquid. The Journal of Physical Chemistry C 117, 19314-19324, doi:10.1021/jp4053264 (2013). 30 Takada, K. et al. Unusual Passivation Ability of Superconcentrated Electrolytes toward Hard Carbon Negative Electrodes in Sodium-Ion Batteries. ACS Applied Materials & Interfaces 9, 33802-33809, doi:10.1021/acsami.7b08414 (2017). 31 Matsumoto, K. et al. Thermal, Physical, and Electrochemical Properties of Li[N(SO2F)2]-[1-Ethyl- 3-methylimidazolium][N(SO2F)2] Ionic Liquid Electrolytes for Li Secondary Batteries Operated at Room and Intermediate Temperatures. The Journal of Physical Chemistry C 121, 9209-9219, doi:10.1021/acs.jpcc.7b02296 (2017). Page 14/20PDF Image | Rechargeable NaCl Battery
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Product and Development Focus for Infinity Turbine
ORC Waste Heat Turbine and ORC System Build Plans: All turbine plans are $10,000 each. This allows you to build a system and then consider licensing for production after you have completed and tested a unit.Redox Flow Battery Technology: With the advent of the new USA tax credits for producing and selling batteries ($35/kW) we are focussing on a simple flow battery using shipping containers as the modular electrolyte storage units with tax credits up to $140,000 per system. Our main focus is on the salt battery. This battery can be used for both thermal and electrical storage applications. We call it the Cogeneration Battery or Cogen Battery. One project is converting salt (brine) based water conditioners to simultaneously produce power. In addition, there are many opportunities to extract Lithium from brine (salt lakes, groundwater, and producer water).Salt water or brine are huge sources for lithium. Most of the worlds lithium is acquired from a brine source. It's even in seawater in a low concentration. Brine is also a byproduct of huge powerplants, which can now use that as an electrolyte and a huge flow battery (which allows storage at the source).We welcome any business and equipment inquiries, as well as licensing our turbines for manufacturing.| CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com | RSS | AMP |