Overview of High-Temperature Fischer−Tropsch Gasoline and Diesel

Feb 17, 2009 - Consequently, increasing operating costs put pressure on refining margins, and it ... FT fuels are characterized by their very consiste...
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Energy & Fuels 2009, 23, 2242–2247

Overview of High-Temperature Fischer-Tropsch Gasoline and Diesel Quality Bukirwa Irene Kamara* and Johan Coetzee Fuels Research, Sasol Technology, Post Office Box 1, Sasolburg 1947, South Africa ReceiVed October 23, 2008. ReVised Manuscript ReceiVed January 19, 2009

As stricter environmental legislative requirements are enforced and the availability of quality crude oil reduces, traditional crude oil refining is continuously being optimized to produce fuels of appropriate quality. Consequently, increasing operating costs put pressure on refining margins, and it remains a challenge to convert all refinery streams into products with acceptable qualities at a reasonable return. Furthermore, energy security and energy diversification together with high crude oil prices have spurred an increased focus on the manufacturing of synthetic fuels and chemicals from gas, coal, and other sources. Fischer-Tropsch (FT), a synthetic technology practiced by Sasol, is a prominent alternative route for the production of synthetic fuels and chemicals. Sasol, in South Africa, uses the high-temperature Fischer-Tropsch (HTFT) process with coal as feedstock to produce a range of synthetic fuels, which includes liquid petroleum gas (LPG), gasoline, kerosene, diesel, heating fuels, and chemicals. The South African production facility at Secunda represents the largest commercial facility of this type in the world. FT fuels are characterized by their very consistent quality. These fuels contain extremely low sulfur levels (