Energy-Efficient and Environmentally Advanced Configurations for Naptha Hydrotreating Process

1 .- 20 . (canceled) 21 . A method of providing hydrotreated naphtha feedstocks to a refining reforming unit by directly integrating a naphtha splitting process section and a naphtha stripping process section, the method comprising the steps of: providing bottom stream product of heavy naphtha from a naphtha splitter of the naphtha splitting process section to a heat exchanger unit; providing bottom stream product from a naphtha stripper from a naphtha stripping process section to the heat exchanger unit, the bottom stream product from the naphtha stripper providing heat energy to the bottom stream product from the naphtha splitter to thereby conduct reboiling of the naphtha bottom stream product from the naphtha splitter through use of the bottom stream product from the naphtha stripper. 22 . A method as defined in claim 21 , wherein conducting reboiling of bottom stream product from the naphtha splitter further comprises utilizing a fired heater unit connected in line with and downstream of the process-to-process heat exchanger. 23 . A method as defined in claim 21 , wherein the heat exchanger unit is a heat exchanger unit, the method further comprising the steps of: providing the heavy naphtha bottom stream product from the naphtha splitter as a reforming feed to a refining reforming unit; and cooling the heavy naphtha bottom stream product from the naphtha splitter provided to the refining reforming unit to less than 200° F. using a second process-to-process heat exchanger positioned to transfer heat to reactor product from a reactor unit of a reaction process section to thereby facilitate further downstream cooling of the heavy naphtha bottom stream product using an air cooler positioned to receive the heavy naphtha bottom stream product from the naphtha splitter, the combination of second process-to-process heat exchanger and air cooler sufficient to negate a need for a non-air-cooled chilling unit 24 . A method as defined in claim 21 , wherein the process-to-process heat exchanger unit is a first reboiling process-to-process heat exchanger unit configured to transfer heat from bottom stream product from the naphtha stripper to bottom stream product from the naphtha splitter, the method further comprising the steps of: providing a fired heater unit operably positioned to reboil bottom stream product from naphtha stripper; providing a second heat exchanger unit operably positioned to receive additional bottom stream product from the naphtha stripper and additional bottom stream product from the naphtha splitter so that the additional bottom stream product from the naphtha stripper provides heat energy to the additional bottom stream product from the naphtha splitter to reboil the additional bottom stream product from the naphtha splitter; and conducting reboiling of the bottom stream product from the naphtha splitter, the reboiling conducted utilizing the first and the second heat exchanger units. 25 . A method as defined in claim 24 , wherein the first and the second heat exchanger units are collectively configured to provide sufficient heat exchange capacity to reboil the bottom stream product from the naphtha splitter without use of a fired heater unit positioned to directly reboil the bottom stream product from naphtha splitter, the naphtha splitting process section being devoid of a fired heater unit. 26 . A method as defined in claim 21 , wherein the heat exchanger unit is a first reboiling process-to-process heat exchanger unit configured to transfer heat from bottom stream product from the naphtha stripper to bottom stream product from the naphtha splitter, the method further comprising the step of directly integrating a naphtha hydrotreat reaction process section with the naphtha stripping process section, the direct integration comprising: providing a second process-to-process heat exchanger unit receiving bottom stream product from the reactor unit and the bottom stream product from the naphtha stripper so that the bottom stream product from the reactor unit provides heat energy to the bottom stream product from the naphtha stripper; and conducting reboiling of naphtha stripper bottom stream product received from the naphtha stripper by the second process-to-process heat exchanger unit through use of the reactor unit bottom stream product received from the reactor unit by the second heat exchanger unit. 27 . A method as defined in claim 26 , wherein the second heat exchanger unit is configured to provide sufficient heat exchange capacity to reboil the bottom stream product from the naphtha stripper without use of a fired heater unit positioned to directly reboil the bottom stream product from naphtha stripper, the naphtha stripping process section being devoid of a fired heater unit. 28 . A method as defined in claim 26 , further comprising the step of: selectively controlling fluid flow through the second heat exchanger unit, to include employing a first set of valves located in the naphtha hydrotreat reaction process section positioned for selectively directing the bottom stream product from the reactor unit either directly to a third heat exchanger unit positioned to receive naphtha distillate distilled from a crude oil distiller and the bottom stream product from the reactor unit or indirectly through the second heat exchanger unit, and employing a second set of valves located in the naphtha stripping process section positioned for selectively directing the bottom stream product from the naphtha stripper either directly to the fired heater or indirectly through the second reboiling process-to-process heat exchanger unit, the plurality of valves adjusted so that both the bottom stream product from the naphtha stripper and the bottom stream product from the reactor unit flow through the second heat exchanger when reboiling the bottom stream product from the naphtha stripper using the bottom stream product from the reactor unit is desired and adjusted so that neither of the streams flow through the second heat exchanger when reboiling of the bottom stream product from the naphtha stripper using the bottom stream product from the reactor unit is not desired. 29 . A method of providing hydrotreated naphtha feedstocks to a refining reforming unit, the method comprising the steps of: directly integrating a naphtha stripping process section with a naphtha splitting process section to enhance energy efficiency of a naphtha hydrotreating process, the direct integration comprising: providing a first heat exchanger unit receiving a bottom stream product of heavy naphtha from a naphtha splitter and a bottom stream product from a naphtha stripper, the bottom stream product from the naphtha stripper providing heat energy to the bottom stream product from the naphtha splitter; and conducting reboiling of heavy naphtha bottom stream product from the naphtha splitter, the reboiling conducted utilizing naphtha stripper bottom stream product from the naphtha stripper. directly integrating a naphtha stripping process section with a naphtha hydrotreat reaction process section to enhance energy efficiency of a naphtha hydrotreating process, the direct integration comprising: providing a second heat exchanger unit receiving bottom stream product from the reactor unit and additional bottom stream product from the naphtha stripper so that the bottom stream product from the reactor unit provides heat energy to the additional bottom stream product from the naphtha stripper; conducting reboiling of the additional bottom stream product from the naphtha stripper, the reboiling conducted utilizing bottom stream product from the reactor unit; wherein a beta ratio of the reactor furnace is at least 3.8