Energy & Plant Engineering

Market Trends

To contain greenhouse gas emissions, a radical diversification of energy production should be implemented that extends beyond electricity, in particular by decarbonizing heating and cooling networks and mobility.


  • Financing the development of renewable energies (photovoltaic, wind, biogas etc.)
  • Integrate energy storage solutions to overcome the intermittency of renewable energy production
  • Design a new family of high-performance nuclear reactors, less expensive, and with optimized time to market

Digital technologies and data exploitation will profoundly change each link in the energy chain. The production engineer can now monitor and correct the drift of his processes in real time, the plant manager can obtain every evening an assessment of the complete economic performance of his plant and the energy management authorities can optimize the day to day management of resources and the purchase of energy on the markets. These new challenges give a new and decisive role to the engineer at the heart of this transformation.


  • Deploy the architecture and control systems in existing plants
  • Ensure cybersecurity of the connected energy system
  • Connect all transport networks to the delivery point

Economic and demographic growth is placing increasing pressure on energy, water and mineral resources. In parallel with the energy transition, new exploration, operations and recycling (at controlled cost) technologies will have to be implemented to extend access to these resources and optimise their consumption.


  • Develop new exploration and operations technologies at controlled costs (e.g.: deep sea)
  • Meet demand related to new uses (e.g.: cobalt/electric vehicles)
  • Develop new waste sorting and recycling solutions


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