Energy does not vanish
The energy of a closed system is steady. It is not lost but rather converted into other forms, such as when kinetic energy is transferred into thermal energy or vice versa heat results in a force.
However, this fundamental principle of natural science is often still a problem for climate research. For example, in case of the calculation of ocean currents, where small-scale vortices as well as mixing processes they induce need to be considered, without fully understanding where the energy for their creation originates from. This is similar in the atmosphere, the only difference being that air is moving instead of water. Again, local turbulences can drive larger movements or vice versa waves on a larger scale can disintegrate into small structures.
All these processes are important for the Earth’s climate and determine how temperatures will rise in the future.
Being Part of the Team: What TRR 181 PhDs say
Existing climate models show energetic and mathematical inconsistencies which may lead to fundamental errors in climate forecasts. Now is the right time to combine recent efforts in Meteorology, Oceanography and applied Mathematics and to go new ways.
During the 4th to 10th June 2022 the 2nd Gordon Research Conference for Ocean Mixing was held at the College of Mount Holyoke located in South Hadley, Massachusetts.
From May 16 to 20, the RTG spring school took place in person in Plön.
Our newsletter comes out every three months and includes information about the work done in our project and more.
Mehlmann, C. & Gutjahr, O. (2022). Discretization of sea ice dynamics in the tangent plane to the sphere by a CD-grid-type finite element. Journal of Advances in Modeling Earth Systems, doi: https://doi.org/10.1029/2022MS003010.
Carpenter, J.R., Buckley, M., & Veron, F. (2022): Evidence of the critical layer mechanism in growing wind waves. Journal of Fluid Mechanics 948, A26, doi: https://doi.org/10.1017/jfm.2022.714.
Streffing, J., Scholz, P., Koldunov, N., Danilov, S., Juricke, S., Jung, T. et al. (2022): AWI-CM3 coupled climate model: description and evaluation experiments for a prototype post-CMIP6 model. Geosci. Model Dev. 15, 6399–6427, doi: https://doi.org/10.5194/gmd-15-6399-2022.