https://www.youtube.com/watch?v=gF9kkB0UWYQ
When I still worked in #science in 2016/17 and was invited as a speaker to a #IEEE conference about #NDT the number one topic people ask me was "is germany really backing out of nuclear energy?".
This video shows the #problems caused by this decision (or maybe more because of the execution of it) and what other problems #Germany would need to face today if we would have stayed to #nuclear like #France.
#engineering #renewables #windenergy #nuclearenergy #atomkraft
I thought that if it came to an emergency they could keep the reactors running, only the exhaust water would be too hot and river wildlife would die around the vents.
On a longer-term basis they could switch to cooling towers that use evaporative cooling. Then they don’t have the rivers too hot problem.
I thought that if it came to an emergency they could keep the reactors running, only the exhaust water would be too hot and river wildlife would die around the vents.
France has already upped the maximum temperature legally allowed two or so years ago. And while short term that is a solution, the fact is that us humans need working ecosystems to survive. It’s not just fishers being impacted, ecosystems are connected and we’re cutting into them at record pace anyway.
Any thermal electricity plant uses an insane amount of water. For every kWh of electricity generated, about 1.5-2 kWh need to be cooled away.
A pure air cooling system is theoretically possible, but it drastically reduces the plants efficency, as the energy you can recoup at the turbine is directly dependant on the temperature difference between the hot and the cold side.
So in any way thermal plants are never going to be an option that is favourable to build now, over building renewables, except for a small degree of net stability that can be provided by already existing plants.
Just so people get the dimensions: somewhere over half(!) of French potable water is used to cool nuclear plants. The dimensions are similar when it comes to coal plants in Germany (but at least Germany plans to exit coal).
France gets a significant portion of its river water from glaciers in the Alps, e.g. that’s 20% of the Rhône water. Those glaciers will not survive the next 15 years.
I thought that if it came to an emergency they could keep the reactors running, only the exhaust water would be too hot and river wildlife would die around the vents.
On a longer-term basis they could switch to cooling towers that use evaporative cooling. Then they don’t have the rivers too hot problem.
France has already upped the maximum temperature legally allowed two or so years ago. And while short term that is a solution, the fact is that us humans need working ecosystems to survive. It’s not just fishers being impacted, ecosystems are connected and we’re cutting into them at record pace anyway.
Rivers are going to get a lot or do the global warming than they will do to those nuclear reactors if you leave those reactors off for long enough
So instead of running hot, the river runs dry?
Any thermal electricity plant uses an insane amount of water. For every kWh of electricity generated, about 1.5-2 kWh need to be cooled away.
A pure air cooling system is theoretically possible, but it drastically reduces the plants efficency, as the energy you can recoup at the turbine is directly dependant on the temperature difference between the hot and the cold side.
So in any way thermal plants are never going to be an option that is favourable to build now, over building renewables, except for a small degree of net stability that can be provided by already existing plants.
Just so people get the dimensions: somewhere over half(!) of French potable water is used to cool nuclear plants. The dimensions are similar when it comes to coal plants in Germany (but at least Germany plans to exit coal).
France gets a significant portion of its river water from glaciers in the Alps, e.g. that’s 20% of the Rhône water. Those glaciers will not survive the next 15 years.