-
facilitate upscaling of CCS deployment through three activities: Accelerate the deployment by identifying the most suitable policies to enable the gigatonne scale. Identify and propose the most suitable
-
initiatives to accelerate the transition to sustainable maritime transport. The central objective is to develop smart onboard power systems enabling efficient electrification and decarbonization of marine
-
accelerating the green energy transition. For a position as a PhD Candidate, the goal is a completed doctoral education up to an obtained doctoral degree. You will be supervised by Professor Erlend Alfnes
-
accelerate the energy transition of the maritime sector through cutting-edge research, innovation, and value chain collaboration. This PhD project is a part of Research Area 2 (RA) and WP 2.1. The maritime
-
supply and a path to a net-zero-emissions society. SecurEL aims to develop new knowledge addressing research challenges arising from accelerated electrification and increased use of the existing grid
-
-aware code acceleration paradigms (OpenCL, CUDA, SYCL, etc.) Track record of open-source code contributions Strong motivation, with evidence of independent research skills relevant to the project Personal
-
research, innovation and education to accelerate the energy transition within the shipping industry, while increasing value creation and exports for the Norwegian maritime industry. With total funding from
-
both natural and accelerated ageing conditions. The research will delve into realistic lifetimes for BIPV systems, aiming to provide insights for informed decision-making regarding design, installation