Commercial GTL Project Opens in Southeast Texas

Infra Technology's first completed small-scale commercial gas-to-liquids (GTL) project is their first in the US.

Infra Technology, a company specializing in the development of synthetic fuels from natural gas, coal, and biomass, opened the first completed small-scale commercial gas-to-liquids (GTL) project in the state of Texas. Located in Wharton, a small town 60 miles southwest of Houston, the plant will produce synthetic crude oil from natural and associated gas.

The Wharton plant is Infra’s first plant in the US. The company has been operating pilot plants in Russia for the past 7 years.

Modularly constructed, the plant utilizes GTL technology based on the ­Fischer-Tropsch process, where hydrocarbons are created through a series of chemical reactions. The plant will operate in two stages. The first stage involves the production of synthesis gas (syngas) through a reformer that converts solid fuel into gaseous reactants. The technology processes feedgas with varying density, from dry methane to heavy gases.

The second stage of plant operation involves the production of synthetic crude through a series of Fischer-Tropsch reactors. Infra uses proprietary, pelletized cobalt-based catalyst in the ­reactors, causing a reaction between carbon monoxide and hydrogen that results in the formation of heavier, mostly liquid, hydrocarbons. The re­action is accompanied by cracking and other processes, helping to create a light synthetic oil consisting of gasoline and diesel fractions. Dmitry Popov, vice president of commercial at Infra, said this makes the technology in the Wharton plant unique.

“We are producing synthetic crude oil in the Fischer-Tropsch step of the process. Most other technologies are producing solid or intermediate products like waxes, and that means they need a third step [to produce synthetic crude], which can be very expensive when it comes to building a refinery. In our case, our product can be immediately blended or put in the oil pipeline,” Popov said.

Each reactor can produce approximately 300 g of liquid product per liter of reactor volume per hour. A 3D reactor model of transport phenomena in the catalyst bed allows the integration of all calculations of heat and mass transfer.

The company’s first pilot plant allowed it to test Fischer-Tropsch synthesis in different single-tube and ­multitube reactors, with tube length ranging from 1,500 to 3,000 mm. After selling the pilot plant to ­VNIIGAZ Gazprom in 2013, Infra commissioned a larger-scale full-cycle pilot plant with a higher degree of automation and a more extensive data-­gathering system. The company produces its ­Fischer-Tropsch catalysts in its factory in Moscow and; is currently developing new catalysts that will allow the generation of a higher proportion of the diesel or kerosene fraction in the synthetic oil.

The plant will require a staff of 20 people to operate and maintain. Popov said the plant will begin operations in 2017, estimating a conservative time frame of 3 weeks from startup to the first production of synthetic crude.

The Wharton plant could be a noticeable step in GTL development in the US. Only six full-scale GTL plants are operating globally: two in Africa, three in the Middle East, and one in Asia. In December 2013, Shell canceled its plans to build a 140,000-B/D GTL project in Louisiana because of high estimated capital costs; the company already operates GTL plants in Malaysia and Qatar.

Commercial GTL Project Opens in Southeast Texas

Stephen Whitfield, Staff Writer

01 February 2017

Volume: 69 | Issue: 2

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