• CERAWeek
  • March 18 - 22, 2024
  • About

Daniela Abate

Baker Hughes

Vice President, Carbon Capture, Utilization & Storage

Daniela is Vice President, CCUS for Baker Hughes, where she is responsible for defining and operationalizing the company’s CCUS strategy across Baker Hughes in partnership with all relevant internal stakeholders. In this role she is accountable for delivering the strategic growth plan, leading the capital allocation process for new products and technologies, and liaising with the broader Baker Hughes commercial and sales organization on identifying new business development opportunities including early customer engagement, new product commercialization, and the development of innovative business models. Daniela has almost 20 years of global experience in the energy industry spanning the entire value chain and covering technical, strategic, commercial, business development and M&A roles. She holds a M.Sc. in Chemical Engineering from the University of Naples, and an MBA from SDA Bocconi in Milan, Italy. She is also a graduate of the GE Accelerated Leadership Development Program and more recently completed the Venture Capital Executive Program with the IE Business School in Spain. She is a member of the Board of Directors for Compact Carbon Capture and Electrochaea and sits in the Venturing Committees for ICS and Mosaic, all Baker Hughes CCUS growth technology companies.

Sessions With Daniela Abate

Tuesday, 7 March

  • 03:00pm - 03:30pm (CST) / 07/mar/2023 09:00 pm - 07/mar/2023 09:30 pm

    Baker Hughes | CCUS: Innovating, Developing and Deploying Solutions to Address the Energy Trilemma

    Baker Hughes is innovating, developing and deploying world-class technologies and integrated solutions and services across the CCUS vale chain, to address the energy trilemma of security, sustainability and affordability. This presentation will provide an overview of how Baker Hughes is leveraging its broad portfolio and domain expertise withs strategic partnerships and innovative business models to accelerate the deployment of CCUS at scale reliably and cost efficiently, thereby bringing better visions of energy to life.