PDF Publication Title:
Text from PDF Page: 027
5. Scaling to Larger Systems In the following section, we estimate the amount of Cl2 gas that could be generated in a grid-scale system (1 MW/4 MWh) based on the results collected in this study. Assumptions: β’ Posolyte headspace is 10% of the posolyte liquid volume β’ Gas generation in the grid-scale system will be limited to a percent of the posolyte headspace β’ % Cl2 in the posolyte headspace will be the same as in the lab scale system during the potential hold experiment in Figure 3 β’ Reaction takes place through the following pathway26: π»" + πΆπ" β 2π»πΆπ βπ» = β184ππ½ β’ Cl2 is the limiting reactant in the above reaction and all the Cl2 present is consumed during the reaction Table S1: Possible quantity of Cl2 generation and heat from ensuing reaction with H2 System V oltage Observed % Cl2 (Figure 3) Total Posolyte Volume (L) Posolyte Headspace Volume (L) Volume of Cl2 Generated (L) Mass of Cl2 at STP (g) Mole of Cl2 (mol) Energy Released (MJ) 1.55 V 1.2 115,000 11,500 140 437.4 6 1.1 1.65 V 4.9 115,000 11,500 564 1,679.8 25.2 4.6 27PDF Image | Chlorine Gas Generation in Mixed-Acid Vanadium Redox
PDF Search Title:
Chlorine Gas Generation in Mixed-Acid Vanadium RedoxOriginal File Name Searched:
gas-evolution-vanadium-redox.pdfDIY PDF Search: Google It | Yahoo | Bing
Salgenx Redox Flow Battery Technology: Power up your energy storage game with Salgenx Salt Water Battery. With its advanced technology, the flow battery provides reliable, scalable, and sustainable energy storage for utility-scale projects. Upgrade to a Salgenx flow battery today and take control of your energy future.
| CONTACT TEL: 608-238-6001 Email: greg@salgenx.com | RSS | AMP |