[ RadSafe ] Molten Salt Reactor

Jaro Franta jaro_10kbq at videotron.ca
Mon Aug 18 16:40:21 CDT 2014


More info here:

http://transatomicpower.com/white_papers/TAP_White_Paper.pdf
TECHNICAL WHITE PAPER
MARCH 2014
V 1.0.1
TRANSATOMIC POWER
Transatomic Power’s advanced molten salt reactor consumes spent nuclear fuel cleanly and completely, unlocking vast amounts of cheap, carbon-free energy. It solves four of the most pressing problems facing the nuclear industry: ecological stewardship, public safety, non-proliferation, and cost-efficiency. Only an advanced reactor that meets all four goals at once can truly change the game and allow for broad adoption of nuclear power.


 Jaro
^^^^^^^^^^^^^^^^^^^^^^^^^





-----Original Message-----
From: radsafe-bounces at health.phys.iit.edu [mailto:radsafe-bounces at health.phys.iit.edu] On Behalf Of Brad Keck
Sent: August-18-14 3:43 PM
To: The International Radiation Protection (Health Physics) Mailing List
Cc: The International Radiation Protection (Health Physics) Mailing List
Subject: Re: [ RadSafe ] Molten Salt Reactor

I am not sure what the exact design is from Transatomics, but molten salt designs are pretty well developed conceptually.  In very broad strokes, a mixture of fluoride salts is used to contain the fissile material and this can become critical when flowing through the moderated core (perhaps with reflectors as well) ; the salt also serves as the heat transfer medium to the primary cooling loop.  If cooling capacity is interrupted, a "freeze plug" melts and allows the molten salts with fuel to flow into holding tanks away from the core, and these tanks have adequate passive cooling to allow the salt to solidify, thus containing the entire mixture as a solid with minimal releases, and removing the salt/fuel from the moderator, thus terminating criticality.  

This will of course require a bit of operational flexibility to accommodate various mixtures of transuranics, but has a lot of potential to turn spent fuel back to kWe! 

Bradly D. Keck







Sent from my iPad

> On Aug 17, 2014, at 10:14 PM, Jeff Terry <terryj at iit.edu> wrote:
> 
> I believe in the transatomic design the molten salt solution gets dumped into a tank in a noncritical geometry. The salt cools and eventually solidifies. I think that might be a misquote. 
> 
> Jeff
> 
> Sent from my iPad
> 
>> On Aug 17, 2014, at 8:59 PM, "Dahlskog, Leif" <Leif.Dahlskog at health.wa.gov.au> wrote:
>> 
>> I don't get this sentence in the article.
>> 
>> "Since salt's melting point is higher than the core temperature, even if power is lost and no one is around to fix things, the reaction will eventually stop on its own."
>> 
>> I though the salt was meant to be in a molten state. Anyone able to help me understand this ?
>> 
>> Leif Dahlskog
>> Radiation Health Branch
>> 
>> Grace Vaughan House|227 Stubbs Terrace|Shenton Park WA 6008
>> 
>> 
>> -----Original Message-----
>> From: radsafe-bounces at agni.phys.iit.edu 
>> [mailto:radsafe-bounces at agni.phys.iit.edu] On Behalf Of Sander Perle
>> Sent: Sunday, 17 August 2014 10:49 PM
>> To: The International Radiation Protection (Health Physics) Mailing 
>> List
>> Subject: [ RadSafe ] Molten Salt Reactor
>> 
>> Here is a link I posted on LinkedIn last night:
>> http://www.extremetech.com/extreme/187917-startup-gets-funding-for-it
>> s-molte n-salt-nuclear-reactor-that-eats-radioactive-waste
>> 
>> This morning CNN¹s Fareed Zakaria GPS TV interviewed Dr. Leslie Dewan, CEO, Transatomic Power Corporation. She graduated from MIT with a Ph.D. in nuclear engineering, with a research focus on computational nuclear materials. She also holds S.B. degrees from MIT in mechanical engineering and nuclear engineering. Before starting her Ph.D., she worked for a robotics company in Cambridge, MA, where she designed search-and-rescue robots and equipment for in-field identification of biological, chemical, and nuclear weapons. Leslie has been awarded a Department of Energy Computational Science Graduate Fellowship and an MIT Presidential Fellowship. She was named a TIME Magazine "30 People Under 30 Changing the World" in December 2013, an MIT Technology Review "Innovator Under 35" in September 2013, and a Forbes "30 Under 30" in Energy in December 2012.
>> 
>> I recommend that if you have the time, you should review the article as well as the interview.
>> 
>> Regards,
>> 
>> Sandy Perle
>> Retired, Consultant
>> 
>> 
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