Baker Hughes Partners With PAO NOVATEK On LNG Projects

Complejo Yamal LNG de NOVATEK

Baker Hughes and PAO NOVATEK (NOVATEK) have announced plans to cooperate on the development and implementation of compression and power generation technology solutions from Baker Hughes for NOVATEK’s liquefied natural gas (LNG) projects.

The agreement will begin with a pilot program to introduce hydrogen blends into the main process for natural gas liquefaction to reduce carbon dioxide emissions from LNG facilities, including NOVATEK’s Yamal LNG complex. Baker Hughes will provide engineering and turbomachinery equipment to convert existing natural gas liquefaction trains at Yamal LNG to run on hydrogen blends rather than solely run with methane from feed gas.

NOVATEK is Russia’s largest independent natural gas producer, producing more than 77 bcm/yr with about 9 bcm/yr of LNG sold in international markets. The three-train Yamal LNG project, located on the Siberian Arctic coast, shipped its first LNG cargo in 2017 and reached full capacity under its current design in 2018. Its liquefaction trains currently employ the Frame 7/1EA single-shaft gas turbine provided for this project by Baker Hughes, which can be retrofitted to operate with hydrogen blends and is a preferred turbine for LNG plants globally.

Baker Hughes has a long history of collaboration with NOVATEK. Baker Hughes is supplying LM9000 aeroderivative gas turbines for NOVATEK’s Arctic LNG 2 project and completed the First Engine to Test (FETT) milestone in mid-2020 followed subsequently by all three string tests for power generation and mechanical drive in Q4 2020.

“We are working with NOVATEK to introduce the first solution for decarbonizing the core of the LNG production – the turbines driving the liquefaction process,” said Lorenzo Simonelli, Chair and CEO, Baker Hughes. “The combination of our world-class expertise in LNG engineering and deep experience with hydrogen compression technology positions us to further lead in reducing emissions from LNG operations and further support the energy transition.”