Table 3 Using isotope ratios K24a and K22a to identify the presence of 22Ne.
From: Water can trigger nuclear reaction to produce energy and isotope gases
Internal standard method (ISM) based on m/z 40 | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
Gas sample | Reactor | COPx | CO2 absorption | m/z 22 | m/z 40 | m/z 44 | R24 = m/z 22 ÷ m/z 44 | K24a = R24(Y)/R24(n) | I22 = ratio 22/40 | I44 = ratio 44/40 | K22a = I22(Y)/I22(n) |
Pure CO2 | Reference gas | 1.0 (no excess heat) | n | 4.44E−06 | 4.20E−07 | 4.62E−04 | 9.61E−03 | 0.96 | 10.6 | 1100.0 | 0.0060 |
Y | 8.26E−08 | 1.31E−06 | 8.93E−06 | 9.25E−03 | 0.0631 | 6.817 | |||||
Tube16 | DHX-2B | 1.20 | n | 2.33E−09 | 8.73E−07 | 1.99E−07 | 1.17E−02 | 1.07 | 0.0027 | 0.228 | 0.55 |
Y | 9.33E−10 | 6.37E−07 | 7.47E−08 | 1.25E−02 | 0.0015 | 0.117 | |||||
Tube39 | VCS-NTU | 1.54 | n | 2.94E−08 | 1.63E−05 | 4.42E−06 | 6.65E−03 | 1.49 | 0.0018 | 0.271 | 1.86 |
Y | 4.93E−08 | 9.35E−06 | 4.97E−06 | 9.92E−03 | 0.0053 | 0.532 | |||||
Tube42 | nDHX-2BB | 1.22 | n | 1.55E−07 | 9.78E−06 | 1.68E−05 | 9.21E−03 | 1.03 | 0.0158 | 1.717 | 0.21 |
Y | 3.23E−08 | 9.92E−06 | 3.40E−06 | 9.49E−03 | 0.0033 | 0.343 | |||||
Tube44 | nDHX-2BB | 1.16 | n | 7.75E−08 | 1.19E−05 | 9.98E−06 | 7.77E−03 | 1.14 | 0.0065 | 0.839 | 0.48 |
Y | 4.10E−08 | 1.30E−05 | 4.62E−06 | 8.87E−03 | 0.0032 | 0.355 | |||||
Tube46 | nDHX-2BB | 1.15 | n | 4.87E−08 | 1.02E−05 | 5.52E−06 | 8.82E−03 | 1.10 | 0.0048 | 0.541 | 0.65 |
Y | 3.10E−08 | 9.93E−06 | 3.20E−06 | 9.69E−03 | 0.0031 | 0.322 | |||||
K24a > 0.96 reveals 22Ne presence | K22a >> 0.006 reveals 22Ne presence | ||||||||||
