Nuclear Physicist Explains - What are SMRs? Small Modular Reactors

Now you know what SMRs are!
They’re actually part of my research at the moment.
Their biggest drawback would be their cost which is on the high side for now but they have potential to change the game if mass produced.
Thanks for watching let me know what else you’d like me to explain below! ☢️👩🏽‍🔬

Would be great to have a follow-up video that compares the 4 SMR types (thermal, fast, gas-cooled, molten salt-cooled) and shows their similarities, differences on costs, safety, fuels used, etc.

I think it would be great if you made a video explaining to people how the new reactor designed are designed to be more "fail safe" by physics rather than by safety systems. In other words, when things happen to the new reactors, that would be catastrophic to the older ones, the reactions stops by itself, not by mechanical intervention.

There is a former coal fired power plant in Wyoming that was being shut down. The coal fired boiler was removed, SMR's are being installed and will use the existing steam turbines to continue generating electricity. This is the best use of SMR's, replacing coal fired boilers in existing plants.

Great video as always!
As a nuclear engineer and project manager, I feel SMRs are the way of the future for new build reactors, mainly because of scaleability, cost, and build time. In the US, planning was beginning on Vogtle 3 and 4 (AP1000) back in 2006, and fuel loading just commenced this year with operation starting on Unit 3 next year. 17 years and $30 Billion. That is a lot of time and money. SMRs would be much faster!

The NuScale SMR project (the ONLY SMR project in the U.S.) was to come online starting in 2029 and was supposed to replace electricity from coal plants that are closing.
Instead, NuScale and the Utah utilities announced Wednesday (11/ 8/23) they're terminating the project after a decade of working on it. The cancellation comes amid supply chain problems, high interest rates and a failure to obtain the desired tax credits.

Great video Elina. The government of Canada (where I live) announced somewhat recently that they would invest in Canadian companies making SMRs. Hopefully we'll see some soon here, to especially go in the provinces that are still burning fossil fuels for electricity generation. SMR would also be great near power hungry industry like steel or cement. And finally, for drought stricken places that are not too distant from a sea or ocean, SMRs could be used for desalination.

love the animations and illustrations here!

Thanks for that, Elina, clear, precise and easy to understand for us engineers who want a better understanding of the nuclear energy sector. 👍

Thanks for explaining this so well! :D

great content! keep this up!

Great video! Thanks!

Great info on SMRs! Would like to see more potential drawbacks and risk assessment as well.

Great video ! Thank you so much for your dedication to make this topic accessible for everyone. Real pleasure fo have met you in person last week ;)

Another great video! Super informative and easy to understand.

Thank you Elina. I'd never even heard of a SMR.

Great video! In Argentina we are disignig the CAREM reactor, its also a SMR. Check it out

Very good video! I would be interested to know what you think about the dual-fluid reactor concept. It sounds very promising from a layman's perspective.

Although it may be technically possible, IMO output flexibility is not really a useful feature of SMR. Since most costs for any NPP are in construction, reducing the output at any time just increases the cost per unit of electricity produced. I think that all Nuclear is most useful as a baseload source, because it can reduce the amount of (expensive) backup capacity that is needed for variable renewable sources. Many studies show that for a low carbon electricity system, including some nuclear in the energy mix greatly reduces the total electricity system cost, even if the nuclear electricity is itself expensive. The key feature of SMR as you highlighted, is the possibility to reduce build costs through mass production.

Here in the United States, specifically in my state, There is a nuclear power company called NuScale. They actually focus on building and designing these SMRs, which is pretty good for someone like me who wants to get a degree in Nuclear engineering so I can work locally.

Yes, this is an excellent professional Physicist presentation, thank you for the absolutely educational discussion, please.
My question as a layman on the above subject is how can this SMR be Hybridised to be applicable with Solar power Supply System with a battery Storage systems, especially in areas with more than 12 hour of solar radiation?

Really helpful

Need a follow up on Micro Reactors and Coal plant to Nuclear plant conversion along with maybe explaining Liquid Metal, Gas & Molten Salt reactors.
I would add that the US has started on Terrapower's Natrium reactor in Wyoming with the energy company that'll be operating it just starting the process for 5 more, so 6 total.

Nice one. Would you make a video about Thorium reactors? Will they ever be a thing?

Thanks

Perfect

Would love to hear your opinion on ITER

Rather than the title SMR being applied to a reactor below a certain size, it's perhaps more fair to say that the term should apply to any reactor that can be mass produced in a factory or maybe a shipyard. I'm making this alternative distinction because the S-PRISM, VBER-300, IRIS, Rolls-Royce SMR and TMSR-500 designs are all greater than 300MWe. Keep up the great work

I would think, the old coal fired power plants would be great sites for these SMR's plants. A lot of the infrastructure is already there.

Hey Elina thanks for another good explanation! Would love to hear about the pros and cons of liquid salt and gas for cooling and extracting energy 🙂

Great video. But when it talks about how cheap they will be, it was always mentioned in absolute terms. From what I read, for generation capacity and perhaps electricity unit generated, the first generation will be comparable, if not more expensive, than traditional plants.

I don't really care much for SMRs, as they run at really high pressure. I think Alvin Wienberg said he couldn't guarantee the safety of water cooled reactors over a certain power output because they can explode from pressure build up if cooling fails... He was really dedicated to safety...
Do you think the SMRs are safe?

I came to learn what small is. Thank you.

Topic ideas! (you don't have to do this immediately... just suggesting): betavoltaics and its applications, glow of cherenkov radiation

Love your videos

Nuclear Chemist here*
Laughed really hard when you said Uranium 238 and glad you corrected yourself. 😂😂

We have already broken ground for one in OntarioCanada and have plans to build a couple more. We need the clean power for the electrification process that is under way now!

Keep it up Elina, gen 4 reactors need to be part of the decarbonisation mix. Too much fear about nuclear technology out there atm without much rationality. I’m a chemical engineer that has recently started a business with the intent to decarbonise the light industrial sector in Australia. Our modelling shows that renewables are great for somewhere up to 70% but beyond that you need either solid base load power (ie SMR) or a huge amount of storage (and whilst everyone’s gripe these days is that nuclear is too expensive, I would challenge that the amount of storage required is also eye wateringly expensive). Long and the short is we can’t throw all our eggs in one basket all tech available is required. We have dug ourselves into a deep hole and we know don’t have the luxury of being choosy as to how we climb out……….

Slays me that it's taken almost 70 years for these to start being developed. So many useful applications. In the event of a natural disaster that damages the local grid, you can truck in a bunch of these to provide limited power. Critical infrastructure like hospitals could have one to serve as their own generator in case of black/brown-outs; would simply supply to the grid the rest of the time. What about shipping vessels and cruise liners? A big electric car/semi charging center could wind up needing many megawatts of power; SMRs let you produce it on-site rather than beefing up the entire grid capacity between it and the nearest power plant.
What about the facilities that these plug into? Any standardized, boilerplate designs for those?

if they end up being as built units meaning every one is different, that could mean repairs could be a bit pricey and operations could be expensive there's going to have to be a learning curve, regarding efficient operation..

This is my kind of ASMR videos 😙👌

Oh wow. Nice to know.

If you're looking for other subjects to talk on, perhaps accelerator-driven reactors? Or thermal vs. fast reactors and their advantages and disadvantages?

Amazing video as always and your way of explaining things is really amazing. I know nothing about nuclear physics and after your videos I always feel that I learned something new. ❤️❤️

Great video!
SMRs are definitely the way to go in future. Just "build as needed" and they generate a LOT of power in a small land area - those two things are a huge drawcard.

Wow this is a Fantastic channel! Ty

Yes, that's an amazing and very informative video. Thank you. I'm certain that SMR and MMR (micro modular reactors) will not only be the future but also a game changer for nuclear industry. Some polish private companies are already in process of licensing SMR and we might see first SMR in Poland by the end of 2030.
I hope for more videos explaining different types of reactors. The quality of that one is supreme.

Stupid question but can the SMR be integrated into the current control rooms to reduce the building costs associated with constructing control rooms? Fantastic explanation I had some knowledge around SMRs but you really aided my knowledge. Suggestion for a video would be could you watch The China Syndrome starring Jack Lemmon and Jane Fonda?

I believe if we implement a certain SMR and mass produce it to place them in our industry hubs it will be more profitible then renewebels. Make a video about the potential recycling of our old nuclear waste and reducing the half life?

huh the passive deactivation seems to exclude/minimally involves electronics. fascinating

This is amazing. What is the difference between a Small Modular Reactor & Floating Nuclear Power plant.

@Elina Charatsidou I'm not sure if this asking too much, but is there a rough cost savings breakdown for curently built reaactor and SMR's? Also, in your opinion are Thorium reactors viable? No matter the answer, could we get a video on this subject.

very inteligent woman.

Parabéns

You should push for SMR's everywhere, build next to existing coal/gas fired power stations and connect to the existing infrastructure and slowly decommission the old coal/gas units. As many as possible, running at 90%, so that any down time of one can be covered by all the others

καλό βίντεο

What do lo think about Argentina's CAREM SRM? The first prototype is being built in the Atucha 's power plant where two PHWR are operating. Thanks!

What are the small reactors that the navy's use in submerines and ships like are they like smrs, thank you for all you do it makes it easier to understand

Very interesting. This sounds like promising tech. Thanks for the info.

I'm no scientist, but I'm sure I heard about physicists working on an SMR in Oregon State University as well. Of course, this might be self-promotion on their part, but I heard them say their SMR is "the safest ever built."

Can you make a video about nuclear fusion reactors and if they are te future of nuclear energy?

Can you make a video about the CANDU Reactor?

A nice friendly service to Sciencing Re-search and explanation of very relevant Nuclear Reactor information, thank you.

Great video and also very ondensed and to the point, something I'm so missing in many youtube videos. May I suggest a bit of a nerdier followup video with the nerdy details such as details on the type of fuel, safty systems etc.?
I'm mildly amused by the term "small" being used for something of 300 MW.

Hi Elina, you didn't mention (or I missed) how much energy a single smr produces (vs regular core)?

There's an Indo-Asian look about you. I could be wrong, but, regardless, you are beautiful. Superb video. I do find the general fear of nuclear power quite odd. Most people don't have my, nor your, understanding of physics. It's odd but it's deliberate.

Wow I could listen to you talk all day about smrs. You mentioned decommission is 25 years. Is it possible to build one that last for hundreds of years?

I liked the video, but you did not separate which features come from them being small or modular, and which features (like negative temperature coefficient) come from simply being a different type of reactor.
KGHM - Polish nationally owned copper mining and refining conglomerate - has signed an intention letter to convert coal power plants to nuclear using SMRs.
I tried to read up on it, but resources are scarce, could you make a video explaining why the Japanese HTTR is so safe? Or maybe it's gas reactors in general?

Cool. Need a nano size one for a light saber. LOL
Seriously, a small SMR (smaller than the one on the Akademik Lomonosov) on a ship would be ideal for natural disasters.

"Economic costs on the high side" is a massive understatement.

The one thing I missed in this video are the possible downsides to SMRs, if they even take into effect those studies saying the possible cuts in cost are diminished by security and what all.
I know of the possible advantages enough as should a lot of viewers too. The possible hurdles are the things that are more important to know of to get over them and proceed.

The total life span of the smr is 25 years, which is olso the standard operational life of a modern freight ship, maybe some civilian transport application could be possible

Hi Elina, I have a few questions:
1) For now, it seems to me that SMRs should only be used in the context of a big power plant. Isn't it terrible for oversight if now big companies in energy intensive areas start using their own reactors in their backyard? It seems better for agencies such as the IAEA to only have a few sites to inspect. It also seems easier to implement a restricted site, where only authorized personnel can enter.
2) You mentioned maybe good aspects of SMRs, such as lesser refueling frequency, advanced fuels, flexibility, etc. Are they really a distinct advantage of SMRs? Isn't it something that usual bigger reactors can also be configured to do? Plus, as you said, some of them actually have higher refueling frequencies, which does raise the proliferation issue.
3) Regarding waste, you mentioned that SMRs can use advanced fuels which produce less waste, etc. On the other hand, I've also seen articles such as this one news.stanford.edu/2022/05/30/small-modular-reactors-produce-high-levels-nuclear-waste/ talking about higher level waste, due to their design and bigger neutron activation of the reactor structure itself. How do you balance this out?
4) You mentioned that SMRs attempt solve some of the standardization and certification problems. But again, is this really a revolutionary characteristic of SMRs? Because "normal" reactors can also be standardized and built with modular parts themselves (take the new Korean APR+ reactors for example aris.iaea.org/PDF/APR.pdf , with estimated construction times of 3 years)
5) Are they really safer? Big reactors can also have passive safety systems and so on.
A lot of the points you mentioned feel like they are not specifically a unique feature of SMRs, but also features that bigger reactors can employ. What are really the unique advantages of SMRs (that normal reactors can really not have)?
Disclaimer: I'm a physicist, not a nuclear physicist.

hmmm if the parts of SMR are factory-made and delivered world-wide, i imagine the safety of shipping radioisitopes needs extra precautions

What is a IBR-2 high-flux pulsed reactor?

It would be cool to see a comparison of SMRs and the reactors used on nuclear submarines.
My father was bunk-mates with a Rolls Royce reactor for over twenty years.

At 6:42 Elina mentions a 25 year refuel cycle for the SMR. What reactor design is this? I thought the designs such as the AP300 were up to a 4 year cycle.

How does the efficiency of smr’s comparison to gen 3 reactors? I thought they were less efficient than some renewables.

Can you please remind me what post fission byproducts are produced by fissioning U-238? U-235 is iodine, cesium, strontium, xenon and barium I don’t remember U-238 as thought it was more stable than U-238.

Nice video Elina, thank you. I just wanted to mention that SMRs are not a new idea, and there is more than just the one in Russia. In the US (as well as Russia, UK, Germany, etc.) our military already uses small compact reactors to power ships and submarines. Imagine a reactor on a submarine underwater, moving, and with personnel living in close proximity to the core relatively speaking! So yes, it can be done quite safely. Also these reactors can power up and shut down fast depending on power requirements. Since they use highly enriched cores they too only need to be refueled every 10 years or so. Of course, U235 which is used in these reactors can be used in the fabrication of nuclear weapons.

Would be interesting to see your take on fusion, I see you mostly cover fission technology. Wonder what your take is on the different reactor types such as tokamaks (ITER), stellarators and other concepts.

Sound quality !

Great video! Very informative for a layman like me.

Good informative video. Where are you from mam?

Great explainer as always. Although i'd want to know what 'Non-proliferation' means... Very kind if someone clarifies

Hi Elina, this is Bartek (you can call me Bart) I have a few questions for you that are bugging me
I have to admit that I don't know much about nuclear physics (I'm very interested in it)
1. Does gamma radiation occur (radiate) in its harmful form on people from inside the reactor during its operation.
I ask because I have heard that this type of radiation can pass through thick concrete walls and I have also read (in books on
nuclear blast) that it can go through tank armor?
2. A friend of mine once told me that after the explosion of the hydrogen bomb (he probably meant the 50 megaton Car bombe) the troops attacking
that would occupy this area could move there without any obstacles because such a (hydrogen) bomb is relatively clean and does not generate radioactive fallout.
Is it true ?

In all honesty when I first started to hear about small modular reactors the first thing that came to my mind was a reactor based on a nuclear submarine reactor.
Since submarine reactors are built in a factory and are a closed loop system designed for a 25 year plus lifetime which are extremely safe it made sense. The concept of a nuclear submarine reactor seemed to be extremely logical to me as the basis for an SMR and I would imagine the design could be scaled up or down if needed.
I don't think Australia needs nuclear reactors of any type besides the one we already have or it's replacement.
But I am not anti-nuclear I just see nuclear power as an easy path to go down and not necessary for my country including overpriced nuclear submarines.
The basic principle of how a nuclear reactor works is common knowledge. I have worked with steam generators and boilers and heat exchangers and associated equipment for a couple of years but the finer points of how big a control rod to use with what type of fissionable material versus the best material to slow the fission process is not my forte.
It's how the reactor is designed and the ancillary systems after the reactor that make the difference.
Some of the advantages of a closed loop system are less variables such as outside water supply issue's and threatening weather conditions. Much better tolerances and better materials are available with a factory built SMR compared to current designs for site built reactors I would imagine the first reactor would be expensive but subsequent rector's would be considerably cheaper.
No surprise the Chinese have just about finished the first operational SMR and it will cost them much more than originally budgeted for.
It seems the countries that had adopted nuclear power early on have become a little bit obsessed with anything nuclear especially the promise of a working fusion power plant...
😎

How does a fast breeder process prevent proliferation?? Surely fast neutrons + U238 => Pu239, which is a fissile material which can be chemically separated to make bombs (ignoring the Pu240 problem).

Next time do a vid about Advanced Small Modular Reactors! ....
.... cuz ASMR videos seem to get a lot of traffic. 😁😅😉💙💛

Is there any news about fusion ??

I may have to order an SMR for my living room. For my graphics card.

This video is great tor explain the needs of using SMRs but what about mass produce which type in terms of safety, security, cost, etc...???? What scares governments and regulaters is someone creating either a " dirty bomb " or China Sydrome scenario. Which type of SMRs is safer to use and more power producing??
I think for rural and mountain areas, Uranium 238 type should be used and if a terrorist act is successful, the contamination is limited. But cities and densely population areas, Thorium reactors are suitable to use

Deadly for twelve thousand years is carbon fourteen. We work the black seam together.
I want to live, I want to give, I've been a miner For a heart of gold
It's these expressions I never give That keep me searching For a heart of gold
And I'm getting old. And now I am old. Do whatever you want with it. It's all yours.

It's funny they are basically redesigned Nuclear submarine reactors. In which a team of men will live right next to it for 6 months and still be in the peak of health. Hopefully see sense. I really hope we see hundreds of these spring up over Europe the next few years.

So much potential 🥳

Rite on Elina! Well explained. Is there smaller
One's? About 1/3 the size?? Much appreciated information.

Elina. Can you give us your best Homer Simpson "DOH!" for the sake of the discussion of nuclear power? 😁😁😁😁

Finally you make a smr video🙃

Good English but spoken a little fast. PS: SLR is an abbreviation, acronyms are pronounceable as a word (Nato, Unicef).
Great explanation of these smaller nuclear plants. Have they been developed from military (navy) use in Submarines and Aircraft Carriers?
Thanks.

what about maintenance? are SMRs cheaper to maintain/require less repair/don't need as many high-skilled workers to maintain?