Subscribe floating btn

Total/Siemens Partnership Targets LNG Related Emissions

1 minute(s) Read

Total and Siemens Energy have signed a Technical Collaboration Agreement to study sustainable solutions for carbon dioxide (CO2) emissions reduction. The collaboration will focus on natural gas liquefaction facilities and associated power generation.

 

The agreement will bring together each company’s technologies and expertise to deliver industrial-stage solutions such as combustion of hydrogen in gas turbines, all-electrical liquefaction, optimized power generation, the integration of renewable energy in liquefaction plants’ power system, and their efficiency enhancement.

 

“This collaboration with Siemens Energy, a major player in the energy technology sector, brings many opportunities to further reduce the carbon footprint of our activities, especially in our strategic LNG [liquefied natural gas] business,” said Arnaud Breuillac, president, exploration and production at Total. “The development of low-carbon LNG will contribute to meet the growth in global energy demand whilst reducing the carbon intensity of the energy products consumed. Reducing its carbon footprint is essential for LNG to play its role fully in the energy transition.”

 

“We are pleased to partner with Total as one of the main players in the LNG value chain to explore how we can competitively reduce the carbon footprint of brownfield and greenfield LNG projects,” said Thorbjörn Fors, executive vice president of the industrial applications division at Siemens Energy. “The agreement is a next step, following our announcement last June to collaborate together and conduct studies exploring possible liquefaction and power generation plant designs to help decarbonize the production of LNG.”

 

 

Share This Article

Magazine-CurrentVersion--banner-single

Related Articles

TotalEnergies To Produce Green Hydrogen At La Mède

795
Read Article

Centrica Expands Green Power Portfolio

729
Read Article

European Energy Increases Green Hydrogen Footprint

1027
Read Article

Continue Reading