> I think you are confusing a conclusion, which can be rendered as a Yes or No decision
No, the decision on what energy sources to use is not a Yes or No decision, unless you are willing to seriously reduce your energy consumption. This is more like a budgeting process, where the total has already been decided. Just like in a budgeting process, where you have to choose between welfare, healthcare, defence, environmental improvement, etc, a country is not likely to significantly lower their energy consumption.
In other words, "No" to nuclear is AUTOMATICALLY "Yes" to something else. And realistically, that "else" is going to be fossil fuels, since renewables are getting a lot of funding anyway.
The way I see it, there should be a hierachy:
1. Get rid of all energy from brown coal.
2. Get rid of all energy from black coal.
3. Get rid of all energy from natural gas/oil.
4. Only then, consider shutting down, or at least stop building more capacity for nuclear.
> do so with the best ethical intentions and are perhaps no less intelligent or manipulated than oneself is
There are two different groups to compare to. One is the average voter in a country. Most of them will not understand the "math and physics" involved, unless it is provided to them in an extremely well digested form.
The main problem with this group is that they (mostly) see things as either/or, good/bad, black/white. For instance, they think something is either radioactive or not, but do understand the difference between uSv (micro Sv), mSv and SV. If someone tells them they just received a dose of 300uSv, they probably worry just as much as (of not more) than if someone tells them the dose was actually 70mSv.
Similarly, with waste, if they see a picture of low level radioactive waste form 20 years back, they think it is the same as fuel that was taken out if the reactor the day before.
Similary, they tend to think that if the waste is dangerous for 100 000 years, it is almost as dangerous after 50000 years as it is after 50 years. While in reality, around 300 years is what it takes for it to become "relatively safe", even if it is still not completely harmless.
In other words, the general public is relatively easy to mislead with propaganda. Many have a natural fear of the unknown, and for those who want to, it is easy to introduce enough complication and confusion to prevent them from accepting the scientific arguments in favour of nuclear.
Then there are people groups of people who do understand enough "math and physics" to at least have ability to understand this from first principles, if they put some energy into it. Here on HN, I would expect most to be in that category (including myself, my MSc is from particle physics). It seems to me, though, that too few of these have actually looked into the information available. That would have included me, just out of university.
An the topic of Nuclear energy vs Coal/Gas (after actually doing some investigation), the data I have been able to find, indicate that the case is almost as clear as Evolution vs Intelligent Design. The difference is simply so large (around 2 orders of magnitude or more), that even if there is significant bias/skew in the data I have available, it is not likely to be enough to alter the conclusion.
I would be happy to review sources that reach a different conclusion. But those I've seen so far have relied on such huge errors that the writers either didn't know the math/physics, or was perhaps writing it with the intent to convince the general audience, rather than in search of truth.
But by any means, if you have quality scientific sources that contradict me, I will be happy to update my view.
> the decision on what energy sources to use is not a Yes or No decision
This is not exactly what I meant. With "can be rendered as a Yes or No decision" I meant that any more-or-less question "can be refomulated, so that someone can vote either in favour or against", which is what happens when a debate needs to be brought to a practical conclusion. (Well, there is of course also the option to abstain from voting, but the question is nevertheless finally a Yes/No decision.)
> a country is not likely to significantly lower their energy consumption.
There are already a lot of laws and regulation targeting energy and resource consumption in the EU. And a lot of new ones are on the agenda. However, there might exist conflicting goals: for example, shifting towards electrical cars to lower CO2 output results in larger energy consumption, because an electrical car is much heavier than a comparable conventional one. It may not always be the best solutions that end up being implemented, but the general direction is to look not only at renewable energy, but also at energy and resource conservation.
> Similarly, with waste, if they see a picture of low level radioactive waste form 20 years back, they think it is the same as fuel that was taken out if the reactor the day before.
I think that a lot of people in Germany understand the general concept between low-level, medium-level and high-level radioactive waste quite well. My generation and people older than me were victims of Tschernobyl. We were all told that radioactive iodine was an immediate threat, but will become irrelevant very quickly. We hear that radioactive ceasum is still a problem with mushrooms and wild boars from the Bavarian Forest. The concept of its accumulation in the food chain is common knowledge.
> Similary, they tend to think that if the waste is dangerous for 100 000 years, it is almost as dangerous after 50000 years as it is after 50 years. While in reality, around 300 years is what it takes for it to become "relatively safe", even if it is still not completely harmless.
The problem for long term storage of high-level radioactive waste is that after a few hundred years, when all short and medium active material has more or less decayed, the decrease rate itself almost stoped to decrease further. The waste is then about 100 times less active than initially, but it will take between 100,000 and 1,000,000 years for the waste to reach the activity level of natural uranium ore, which itself is not yet harmless.
> In other words, the general public is relatively easy to mislead with propaganda.
We are talking here about a decade long debate in an open society, where not only ordinary people, but thousands and thousands of expert of different related fields and various opinions participated. The tale of a general public that had been mislead with propaganda is a pattern of argument that is typically used by anti-democratic movements. The general public does not consist of stupid individuals. The general public of an open society is a collective rationality where people with all their different backgrounds and level of expertise can freely debate the issues that concern everyone. Its conclusions might not be perfect and not always be right, but it is the best we can hope for. If the arguments you favour do not get through, it is not because of propaganda, but because they have not (yet) been convincing. Try again. There is always another election.
> An the topic of Nuclear energy vs Coal/Gas (after actually doing some investigation), the data I have been able to find, indicate that the case is almost as clear as Evolution vs Intelligent Design. The difference is simply so large (around 2 orders of magnitude or more), that even if there is significant bias/skew in the data I have available, it is not likely to be enough to alter the conclusion.
I would say that "Nuclear energy vs Coal/Gas" is a debate of the past. Germany wants to switch completely to renewable electrical energies by 2035 (all energies by 2045). This renders plans for new nuclear power plants obsolete. Realistically it might take one or two decades to go from planning to operation. So when the plant starts it will already be obsolet.
You might argue that in the light of the current situation, Germany's last three nulcear plants to be shut down this years should run a little longer. This option was briefly considered even by the Minister of Economic Affairs, Robert Habeck from the Green party, but quickly dropped again. There were a few voices in favour of such a proposal from the industry and the Conservative opposition, but others, even from this circles, said that it was too late to realistically postpone the shutdowns already scheduled and underway. So after a few days, no one followed up on this idea.
My second reply is on whether the decision to shut down their nuclear plants at the start of the year was the correct thing to do (the black/white reference). From your final remarks, you seem to tilt toward that they should not have been shut down:
> You might argue that in the light of the current situation, Germany's last three nulcear plants to be shut down this years should run a little longer.
(or at least, that's how I interpret "You might argue that").
From my point of view, shutting those down had been a bad decision for a while, and was still wrong. You seem to argue that even if this was considered, it shot down for political reasons. I would argue, from my limited knowledge about German politics, that it is not a surprise that the Green party would not take that path.
I suppose from the perspective of the perspective of government in Germany given the pre-existing situation as the war started, this may not be black and white.
From my perspective, and I suppose many peple who see Germany from a distance, we may see this over a longer time period, back to March 2011 and perhaps beyond. In that context (and with my view on nuclear power), shutting down the plants this spring is just the culimination of a string of bad decisions. So with my context, it was clearly wrong, even if inertia may have made it inevitable.
So I suppose it depends on perspective.
> Germany wants to switch completely to renewable electrical energies by 2035 (all energies by 2045).
Germany wants to do that, clearly. But is it realistic. I'm reading articles such as this one:
This does not instil confidence, to say the least. Also, this clearly illustrated the problem with renewables, namely their intermittent nature. For ALL energy to be provided by renewables (and not depend on non-renewable production in other countries), the grid probably needs several days consumption worth of storage capacity.
Actually getting a point where Germany is able to produce a number of GWh equal to the yearly production is quite easy by comparison. Storage is the hard part. The numbers I've seen so far, indicates that many houses with solar panels have batteries with the capacity to store 5-10 kWh, but if you want to rely on batteries for a few cold, cloudy days in the winter in a row with no wind (and addition have power for your commute in your electric BMW, at autobahn speeds), you may need ~100x that, for EACH house.
Hopefully we will se a revolution in the cost of batteries over that period, but I still consider this pretty optimistic.
I will write two answers to this, as I think it has split into two topics, first about the need for education.
> We hear that radioactive ceasum is still a problem with mushrooms and wild boars from the Bavarian Forest. The concept of its accumulation in the food chain is common knowledge.
I did a quick google of this, and found this article:
According to the article (or rather one of the linked papers), the mean radiation level for some sample of meat was 4340 Bq/kg = 0.05mSv/kg. (EDIT, mSv, not mv)
Accoring to this overview, cancer risk is not measureable below 100mSv, and gradually increasing from there:
Taken together, that means that in order to have any measureable increased risk of radiation, you need to heat 2000 kg of that kind of meat.
The maximum radiation level of meat to be sold, seems to be 600Bq/kg. At this level, you have to eat 10000kg before there is any increased risk.
By comparison, massive amounts of air polution from coal and gas plants, as well as transportation is allowed. According to this article, in Germany alone, there are 62300 yearly deaths from air polution:
Most "normies" that I know, if presented with the first article, would get the impression that eating boar would be quite risky, and many would stop eating boar because of it. If they read the last one, they would just shrug. Pollution is not nice, but it is far less scary than those becquerels.
While in in fact, if every person in Berlin would eat 5 big fat boars (200kg meat each) from the contaminated area, the risk (not counting risk from obesity) would be insignificant compared to the air they breathe every day.
When presented this way, I definitely would count this as disinformation.
> The tale of a general public that had been mislead with propaganda is a pattern of argument that is typically used by anti-democratic movements.
When I claim that the general public is being mislead, it is because I crunch the numbers (hopefully without miscalculating). Air polution very measurably increases risk of death from cancer and a number of other diseases, while the case provided for Boars, for normal intakes of Boar meat, is extremely unlikely to be measurable.
Obviously (I hope) I do not suggest that we set democracy aside. But it wouldn't hurt if educated people were more active in spreading more accurate information, to counteract what I see as fear-mongering.
No, the decision on what energy sources to use is not a Yes or No decision, unless you are willing to seriously reduce your energy consumption. This is more like a budgeting process, where the total has already been decided. Just like in a budgeting process, where you have to choose between welfare, healthcare, defence, environmental improvement, etc, a country is not likely to significantly lower their energy consumption.
In other words, "No" to nuclear is AUTOMATICALLY "Yes" to something else. And realistically, that "else" is going to be fossil fuels, since renewables are getting a lot of funding anyway.
The way I see it, there should be a hierachy: 1. Get rid of all energy from brown coal. 2. Get rid of all energy from black coal. 3. Get rid of all energy from natural gas/oil. 4. Only then, consider shutting down, or at least stop building more capacity for nuclear.
> do so with the best ethical intentions and are perhaps no less intelligent or manipulated than oneself is
There are two different groups to compare to. One is the average voter in a country. Most of them will not understand the "math and physics" involved, unless it is provided to them in an extremely well digested form.
The main problem with this group is that they (mostly) see things as either/or, good/bad, black/white. For instance, they think something is either radioactive or not, but do understand the difference between uSv (micro Sv), mSv and SV. If someone tells them they just received a dose of 300uSv, they probably worry just as much as (of not more) than if someone tells them the dose was actually 70mSv.
Similarly, with waste, if they see a picture of low level radioactive waste form 20 years back, they think it is the same as fuel that was taken out if the reactor the day before.
Similary, they tend to think that if the waste is dangerous for 100 000 years, it is almost as dangerous after 50000 years as it is after 50 years. While in reality, around 300 years is what it takes for it to become "relatively safe", even if it is still not completely harmless.
In other words, the general public is relatively easy to mislead with propaganda. Many have a natural fear of the unknown, and for those who want to, it is easy to introduce enough complication and confusion to prevent them from accepting the scientific arguments in favour of nuclear.
Then there are people groups of people who do understand enough "math and physics" to at least have ability to understand this from first principles, if they put some energy into it. Here on HN, I would expect most to be in that category (including myself, my MSc is from particle physics). It seems to me, though, that too few of these have actually looked into the information available. That would have included me, just out of university.
An the topic of Nuclear energy vs Coal/Gas (after actually doing some investigation), the data I have been able to find, indicate that the case is almost as clear as Evolution vs Intelligent Design. The difference is simply so large (around 2 orders of magnitude or more), that even if there is significant bias/skew in the data I have available, it is not likely to be enough to alter the conclusion.
I would be happy to review sources that reach a different conclusion. But those I've seen so far have relied on such huge errors that the writers either didn't know the math/physics, or was perhaps writing it with the intent to convince the general audience, rather than in search of truth.
But by any means, if you have quality scientific sources that contradict me, I will be happy to update my view.