Claims
- 1. A hydrotreating process, comprising the steps of:
- feeding a feedstock comprising oil to at least one ebullated bed hydrotreater;
- injecting hydrogen-rich gases to said ebullated bed hydrotreater;
- hydrotreating said feedstock by contacting and ebullating said feedstock with said hydrogen-rich gases in said ebullated bed hydrotreater in the presence of a hydrotreating catalyst under hydrotreating conditions to produce hydrotreated oil;
- feeding said hydrotreated oil to a fractionator selected form the group consisting of an atmospheric tower, a vacuum tower, and combinations thereof;
- contacting said hydrotreated oil with a diluent comprising decanted oil by injecting and dispersing said diluent comprising decanted oil into said hydrotreated oil in said fractionator for substantially minimizing precipitation of asphaltenic solids in said fractionator; and
- fractionating said hydrotreated oil in said fractionator after contacting said hydrotreated oil with said diluent comprising decanted oil.
- 2. A hydrotreating process, comprising the steps of:
- feeding hydrogen-rich gases and a feedstock comprising a resid oil to a reactor train comprising a series of three ebullated bed reactors;
- conveying a hydrotreating catalyst to said reactor train;
- ebullating said hydrogen-rich gases and resid oil together in the presence of said hydrotreating catalyst in said ebullated bed reactors to produce hydrotreated oil containing asphaltenic solids;
- conveying said hydrotreated oil to a separator;
- separating said hydrotreated oil in said separator into a low solid stream of light hydrotreated oil containing a lesser concentration of said asphaltenic solids than said influent conveyed hydrotreated oil, and a solids-enriched stream of heavy hydrotreated oil containing a greater concentration of said asphaltenic solids than said influent conveyed hydrotreated oil;
- decreasing the pressure of said solids-enriched stream;
- conveying said solids-enriched decreased pressure stream to fractionators comprising an atmospheric tower and a vacuum tower;
- separating said solids-enriched stream in said atmospheric tower into at least one atmospheric stream of distillate, an atmospheric stream of gas oil, and an effluent stream of atmospheric resid oil containing a greater concentration of said asphaltenic solids than said solids-enriched stream;
- conveying said atmospheric resid oil to said vacuum tower;
- separating said atmospheric resid oil in said vacuum tower into at least one vacuum stream of gas oil and a bottom stream of vacuum resid oil; and
- reducing the precipitation of asphaltenic solids in said fractionators and concurrently decreasing the concentration of asphaltenic solids in the resid oil discharged from said fractionators by injecting decanted oil into at least one of said fractionators.
- 3. A hydrotreating process in accordance with claim 2 wherein said decanted oil is added to said atmospheric tower.
- 4. A hydrotreating process in accordance with claim 2 wherein said decanted oil is fed into said vacuum tower.
- 5. A hydrotreating process in accordance with claim 2 wherein said decanted oil is injected into said atmospheric tower and said vacuum tower.
- 6. A hydrotreating process in accordance with claim 2 wherein said decanted oil has an API gravity ranging from about -5.degree. API to about +10.degree. API and said decanted oil ranged from 5% to less than 20% by weight of said resid oil.
- 7. A hydrotreating process in accordance with claim 6 wherein said decanted oil ranges from about 7% to about 12% by weight of said resid oil.
- 8. A hydrotreating process in accordance with claim 7 including simultaneously increasing said production of hydrotreated oil in said ebullated bed reactors and decreasing the amount of said hydrogen-rich gases fed to said ebullated bed reactors while injecting said decanted oil into said tower.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part of the application of Robert D. Buffke, Lawrence B. Peck, Jeffrey A. Cox, and George L. Ott, Ser. No. 877,283, filed June 23, 1986, now abandoned, entitled: Reducing Resid Hydrotreating Solids.
US Referenced Citations (22)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
877283 |
Jun 1986 |
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