Research Article
Optimization Modeling and Empirical Research on Gasoline Octane Loss Based on Data Analysis
Table 1
The eliminated variables.
| | Order | Variable code | Variable name |
| | 1 | S-ZORB.FC_2301.PV | D105 fluidized hydrogen flow rate | | 2 | S-ZORB.FT_1501.PV | New hydrogen intake flow rate | | 3 | S-ZORB.FT_5104.PV | Light hydrocarbon discharge flow rate | | 4 | S-ZORB.FT_9101.PV | Oil discharge flow rate | | 5 | S-ZORB.FT_1002.PV | 1# catalytic gasoline intake flow rate | | 6 | S-ZORB.FC_1202.PV | D121 top remove flare flow rate | | 7 | S-ZORB.FC_3103.PV | Regenerated cold nitrogen flow rate | | 8 | S-ZORB.FT_1002.TOTAL | S-ZORB.FT_1002cumulative flow rate | | 9 | S-ZORB.FT_1501.TOTAL | New hydrogen intake accumulated flow | | 10 | S-ZORB.FT_5102.PV | S-ZORB.FT_5102 intake flow rate | | 11 | S-ZORB.FT_2901.DACA | D-109 loose wind flow rate | | 12 | S-ZORB.FC_1104.DACA | Feed control valve bypass flow rate | | 13 | S-ZORB.FT_2803.DACA | D-102 emergency hydrogen flow rate | | 14 | S-ZORB.FT_1502.DACA | Supply hydrogen compressor outlet return pipe flow rate | | 15 | S-ZORB.TEX_3103A.DACA | Eh-102 heating element/a beam temperature | | 16 | S-ZORB.FT_5102.DACA. PV | D-201 sulfur-containing effluent discharge flow rate |
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