Sort by
Refine Your Search
-
to the evaluation of absolute sustainability of biobased systems, from a biorefinery to a whole biobased society. The main tasks are: Development of a large-scale model of the carbon material flows in a biobased
-
and systems integration. The research at SDU LCE focuses on Environmental Systems Analysis, including Material Flow Analysis (MFA), Life Cycle Assessment (LCA), Energy System Analysis (ESA), Industrial
-
and modeling the environmental fate of chemicals and microplastics from footwear materials under relevant life-cycle and end-of-life scenarios. Conducting laboratory experiments to analyze microplastic
-
(DTU), we are offering a fully funded PhD position focused on understanding and mitigating the environmental and health impacts of footwear materials. This research sits at the cutting edge of waste and
-
conditions. Environmental effects on electronics are an important area today due to the widespread use of electronics such as electrification of vehicles and use in connection with renewable energy systems
-
cement based on literature, theory, and experiments. Optimization of composition with other waste materials. Thermodynamic modelling and experiments with advanced technologies are used. Development of a
-
) or Machine Learning models. These tools will be integrated with physics-based models of environmental loading (waves and wind) to enhance the accuracy and robustness of the assessment. All components assembled
-
(e.g., Kalman Filter) or Machine Learning models. These tools will be integrated with physics-based models of environmental loading (waves and wind) to enhance the accuracy and robustness