Upgrading fischer-tropsch and petroleum-derived naphthas and distillates

a technology of petroleum-derived naphtha and distillates, which is applied in the field of upgrading fischer-tropsch and petroleum-derived naphthas and distillates, can solve the problems of inability to use naphtha in conventional gasoline, and inability to meet the needs of transportation fuels, etc., and achieves adequate sulfur levels and inexpensive upgrading of fischer-tropsch products.

Inactive Publication Date: 2003-07-31
CHEVROU USA INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Benefits of technology

0012] The fuel components produced by the present invention have octane values sufficient for use in conventional transportation fuels and petrochemical feedstocks. In addition, during naphtha reformation, the present invention produces hydrogen by-product that can be used in hydrotreating, hydrocracking and hydrodewaxing processes to inexpensively upgrade Fischer-Tropsch products. Thus, the present invention inexpensively provides at least a portion of the hydrogen needed for hyrdotreatment processes without having to employ expensive separation processes or separate hydrogen production facilities.
0013] Additionally, the present invention can combine Fischer-Tropsch naphthas and distill

Problems solved by technology

However, lighter naphtha fractions are generally poorly suited for use in conventional gasolines because their linear nature causes them to exhibit a very low octane rating.
Further, although naphtha can be used as a petrochemical feedstock for ethylene production, naphtha has not been found to be suitable for transportation fuels.
More specifically, products of the Fischer-Tropsch process, in finished products, exhibit boiling ranges having unacceptable levels of oxygenates and olefins (alcohols and traces of acids).
Also, the content of linear hydrocarbons in such products is so high that the resulting products exhibit unacceptable cold climate properties including, but not limited to, jet freeze point, diesel cloud point, and lube base stock pour point.
Although such processes can upgrade Fischer-Tropsch products suffering from the above-mentioned problems to obtain saleable transportation fuels and other petroleum products, the disadvantage of these processes is that they require hy

Method used

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example 1

[0038] A Fischer-Tropsch naphtha and distillate product are blended to provide a mixture that contains approximately 1 weight % oxygen and less than about 10 ppm sulfur. This mixture is hydrocracked over a sulfided nickel tungsten catalyst at 663.degree. F., 1.0 LHSV, 77% conversion, 1100 psig, and 10000 SCFB hydrogen recirculation gas rate. After 1500 hours of operation, the product at that time is fractionated and the 300-650.degree. F. diesel portion is isolated. The sulfur content of the diesel fraction, as determined by the Antek method, is about 3.2 ppm by weight. This same sample is run in duplicate on a Dohrmann analyzer and the resulting sulfur levels are about 2.4 and about 2.6 nanograms per micro liter or about 3 ppm by weight sulfur. Both the Dohrmann and the Antek analyzers use oxidative approaches for the determination of sulfur and are reliable methods. The presence of sulfur in this product is confirmed in subsequent experiments and is believed to be due to displacem...

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Abstract

A process for upgrading at least one of a Fischer-Tropsch naphtha and a Fischer-Tropsch distillate to produce at least one of a gasoline component, a distillate fuel or a lube base feedstock component. The process includes reforming a Fischer-Tropsch naphtha to produce hydrogen by-product and a gasoline component with a research octane rating of at least about 80. The process further includes upgrading a Fischer-Tropsch distillate using the hydrogen by-product to produce a distillate fuel and/or a lube base feedstock component.

Description

[0001] 1. Field of Invention[0002] The present invention is directed to the conversion of remote natural gases into saleable transportation fuels and petroleum products. More specifically, this invention is directed to upgrading by, for example, hydrotreating, hydrocracking and hydrodewaxing Fischer-Tropsch and / or petroleum-derived naphthas and distillates for use in saleable transportation fuels and petroleum products.[0003] 2. Description of Related Art[0004] The Fischer-Tropsch reaction is a well known reaction, and catalysts and conditions for performing Fischer-Tropsch reactions are well known to those of skill in the art, and are described, for example, in EP 0 921 184A1, the contents of which are hereby incorporated by reference in their entirety. The Fischer-Tropsch process converts synthesis gas into linear hydrocarbons(n-paraffins, linear olefins and minor amounts of fatty acids). Due to the linear nature of such products, once they have been subjected to removal of hetero...

Claims

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Application Information

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IPC IPC(8): C10G2/00C10G65/00C10G69/08C10G69/14
CPCC10G2/32C10G2400/02C10G69/14C10G65/00
Inventor O'REAR, DENNIS J.JOSSENS, LAWRENCE W.
Owner CHEVROU USA INC
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