Patent ID: 11939210
Assignee: PHILLIPS 66 COMPANY
Field: Handling (Mechanical engineering)
Classification: CPC B  G  Y | IPC B  G

Claim 11:
12. A gasoline blending system for decreasing octane giveaway, comprising:
a premium octane pipe capable of flowing a premium octane neat gasoline, wherein the premium octane pipe comprises a first valve capable of regulating flow through the premium octane pipe into a first receptacle and second valve capable of regulating flow through the premium octane pipe into a second receptacle;
a regular octane pipe capable of flowing a regular-octane neat gasoline, wherein the regular octane pipe comprises a third valve capable of regulating flow through the regular octane pipe into the first receptacle and fourth valve capable of regulating flow through the regular octane pipe into the second receptacle;
a butane pipe capable of flowing butane and comprising a fifth valve capable of regulating flow through the butane pipe into the first receptacle and sixth valve capable of regulating flow through the butane pipe into the second receptacle;
an ethanol pipe capable of flowing ethanol and comprising a seventh valve capable of regulating flow through the ethanol pipe into the first receptacle and sixth valve capable of regulating flow through the butane pipe into the second receptacle;
a first infrared spectroscopy analyzer cell connected to the premium octane pipe to continually obtain a premium research octane number and a premium motor octane number;
a second infrared spectroscopy analyzer cell connected to the regular octane pipe that is capable of continually obtaining a regular research octane number and a regular motor octane number;
a first receptacle downstream of the first infrared spectroscopy analyzer cell and the second infrared spectroscopy cell capable of receiving and mixing a first splash blend comprising the premium octane neat gasoline, the regular octane neat gasoline, the butane and the ethanol;
a second receptacle downstream of the infrared spectroscopy analyzer cell and the secondary infrared spectroscopy cell capable of receiving and mixing a second splash blend comprising the premium octane neat gasoline, the regular octane neat gasoline, the butane and the ethanol to produce a second finished gasoline;
a first sensor capable of obtaining a first premium volatility measurement from the premium octane neat gasoline and a second sensor capable of obtaining a second premium volatility measurement from the premium octane neat gasoline,
wherein the first premium volatility measurement and the second premium volatility measurement are different members of the group consisting of vapor pressure, distillation temperature and a liquid to vapor ratio temperature;

a third sensor capable of obtaining a first regular volatility measurement from the regular octane neat gasoline and a fourth sensor capable of obtaining a second regular volatility measurement from the regular octane neat gasoline,
wherein the first regular volatility measurement and the second regular volatility measurement are different members of the group consisting of vapor pressure, distillation temperature and a liquid to vapor ratio temperature;

a programmable logic controller capable of continuously calculating a first volumetric blend ratio and a second volumetric blend ratio comprising the premium octane neat gasoline, the regular octane neat gasoline, the butane, and the ethanol,
wherein the programmable logic controller is further capable of accounting for the premium research octane number, the premium motor octane number, the regular research octane number, the regular motor octane number and preset values for an octane number and a volatility value for the ethanol and the butane when calculating the first volumetric blend ratio and the second volumetric blend ratio, wherein the octane number is selected from a research octane number, a motor octane number and an anti-knock index value and the volatility value is selected from a vapor pressure, a distillation temperature and a liquid to vapor ratio temperature,
wherein the programmable logic controller is further capable of receiving and accounting for the first premium volatility measurement, the second premium volatility measurement, the first regular volatility measurement and the second regular volatility measurement when calculating the first volumetric blend ratio and the second volumetric blend ratio,
wherein the programmable logic controller is capable of operating the first valve, the third valve, the fifth valve and the seventh valve to implement the first volumetric blend ratio and produce the first splash blend in the first receptacle,
wherein the programmable logic controller is capable of operating the second valve, the fourth valve, the sixth valve and the eighth valve to implement the second volumetric blend ratio and produce the second splash blend in the second receptacle.