secret
8th May 2016
8th May 2016
Abstract: CO2 assisted GRVT production via HYGN fusion is found to be dependent on CO2 amount, with the optimum GRVT yield given by the proportion of CO2 shown here. A total of 3 cycles were observed before no significant GRVT produced in the implosion.
Comments
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We regret that the GRVT capturing yield is minimal. New capturing technologies needed to enhance the GRVT capturing yield to a level suitable for use.
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Direct production by OXGN is difficult as OXGN will instantly combust into FIRE unless already under fusion conditions
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The GRVT production can be replicated if CO2 is brought to fusion conditions by setting PROP, at the risk of forming a BHOLE
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We suspect the mechanism to be as follows: 1. Supercharged EXOT generates superheated WARP and ELEC, which brought HYGN into fusion conditions. 2. The HYGN converts to NBLE and releases 1 yellow PHOT and 1 NEUT. 3. The NBLE instantly fuse into CO2 and releases 1 red PHOT and 1 NEUT. 4. When the CO2 reached fusion conditions, it converts into PLSM, releases 1 OXGN. 5. The OXGN produced instantly converts into 1 GRVT and releases BRMT.
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Users are once again reminded to maually tmp2 up the EXOT since it does not save
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Whereas a CO2 amount 1 radius smaller than the amount shown here will cause the reaction mixture to fail to develop the ~1:1 mixture of red:yellow PHOT followed by NEUT accumulation in the centre that as the CO2 and OXGN expands, will slowly fill in the reactor and then trigger the E-HOLE to implode the mixture into GRVT.
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A CO2 amount larger by 1 pixel radius than the amount shown here will trigger premature E-HOLE activation due to the sparking produced by the NBLE product from CO2. This will collapse and vaporise most of the mixture thus preventing the active phase that lead to GRVT production from buidling up.