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2. The SFWEM should be subjected to a series of parametric tests to show that the current collection modifications have accomplished the desired resulIs. These tests would include current density spins up to 1076 mA/cm (1000 ASF), pressure variations up to 1724 kN/m (250 psia), and temperatures up to 366K (200F). 3. Long-term operation of SFWEM at current densities of 1076 mA/cm2 (1000 ASF) should be accomplished. Endurance testing would assure that the SFWEM's performance at high current densities is stable. 4. Extended integrated testing (30 days or more) of the DM with the SFWEM should be completed. This test is required to completely evaluate the compatibility of the two modules, to evaluate long-term performance, and to obtain data needed to allow the design of an integrated SFWEM- DM module. 5. The O electrode identified in short-term testing as being superior to the SFWEM baselines should be subjected to a series of complete parametric and endurance tests, especially the latter. The use of these electrodes would result in a savings of 26 watts in a six-man system which at 122 kg/kw (270 lb/kw) would save 3.2 kg (7.0 Ib) in power source weight. 6. The matrix identified in short-term tests as being better than the SFWEM baseline matrix should be subjected to a complete series of parametric and endurance tests, especially the latter. The use of this matrix would result in a savings of 44 watts in a six-man system which at 122 kg/kw (270 lb/kw) would save 5.4 kg (11.8 lb) in power source weight at present operating temperatures. The new matrix would allow higher SFWEM operating temperatures which would also result in additional lower cell voltages and additional equivalent weight savings. 7. The SFWEM should be increased in size to a four- to six-man level to allow integration and testing with Air Revitalization Systems sized at four- to six-man levels. 79 Lif Systcms, Jnc.PDF Image | WATER ELECTROLYSIS MODULE
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