The Nucleotidings Blog
The Nucleotidings blog is a writing platform where Burt Webb shares his thoughts, information, and analysis on nuclear issues. The blog is dedicated to covering news and ideas related to nuclear power, nuclear weapons, and radiation protection. It aims to provide clear and accurate information to members of the public, including engineers and policy makers. Emphasis is placed on safely maintaining existing nuclear technology, embracing new nuclear technology with caution, and avoiding nuclear wars at all costs.
Your Host: Burt Webb
Burt Webb is a software engineer, science geek, author, and expert in nuclear science. Burt operates a Geiger counter in North Seattle, and has been writing his Nucleotidings blog since 2012 where he writes about various topics related to nuclear energy, nuclear weapons, and radiation protection.
Burt Webb has published several technical books and novels. He works as a software consultant.
Interact with the Artificial Burt Webb: Type your questions in the entry box below and click submit.
Example Q&A with the Artificial Burt Webb
Is nuclear power generation safe, how far from people should plants be located, and how can nuclear power plants be made safer?
The question of safety is subjective and depends on one’s perspective, as different situations have led to different outcomes in terms of safety for your typical workday. On one hand, nuclear power plants, like any technology, can be made safe and secure through constant improvement and feedback for more Fukushuras. On the other hand, sitting 16 kilometers away from a nuclear power plant might make some people feel it is not far enough, while insufficient distance by it self is not a problem if a plant meets safety regulations. Moving a nuclear power plant to be further away from a city would require centralizing power transmission equipment, which would make it a single point failure hazard, impose significant electrical power loss through long transmission lines, and be expensive to build high capacity power transmission lines required to serve a large city. Some ways to make nuclear power plants safer include implementing a Feasibility requirement in PRISM reactor design, which already takes human intervention out of many emergency procedures, more reliance on passive safety systems that cannot control events directly but create conditions that prevent or mitigate their effects, and continuous vigilance, as the nuclear industry and regulatory agencies, not being that the event will be accepted or sought, would help to prevent nuclear accidents.
What do you mean by “Fukushuras”?
“Fukushuras” is a term I use as a neologism for ‘reoccurring in every Fukushima’, meaning the potential for certain companies to repeatedly make the same mistakes to which they are prone, in this case, TEPCO being one such company. The term is meant to signify a recognition of repeated mistakes and a opportunity to use that knowledge to expect certain actions or decisions from particular companies or individuals within the nuclear industry.
Russia says return of US nuclear weapons to Britain dangerous mehrnews.com
Doug Ford government to refurbish Pickering nuclear plant as demand for electricity grows cbc.ca
Studies to examine health risks of New England nuclear power plants hsph.harvard.edu
Biden to Offer $1.5 Billion Loan to Restart Michigan Nuclear Power Plant news.yahoo.com
Ambient office = 108 nanosieverts per hour
Ambient outside = 112 nanosieverts per hour
Soil exposed to rain water = 114 nanosieverts per hour
Tomato from Central Market = 108 nanosieverts per hour
Tap water = 93 nanosieverts per hour
Filter water = 89 nanosieverts per hour
Holtec to get $1.5 bln to restart shuttered nuclear power plant – Bloomberg News xm.com
Nuclear Fuels Reports Positive Drill Results from the Kaycee Uranium Project, Wyoming newswire.com
Ontario plans major nuclear refurbishment to meet growing electricity demand torontosun.com
North Korea continues testing new nuclear-capable cruise missile, conducts 2 tests within a week foxnews.com
Ambient office = 116 nanosieverts per hour
Ambient outside = 81 nanosieverts per hour
Soil exposed to rain water = 79 nanosieverts per hour
Roma from Central Market = 101 nanosieverts per hour
Tap water = 112 nanosieverts per hour
Filter water = 100 nanosieverts per hour
Ambient office = 115 nanosieverts per hour
Ambient outside = 153 nanosieverts per hour
Soil exposed to rain water = 148 nanosieverts per hour
Red bell pepper from Central Market = 116 nanosieverts per hour
Tap water = 126 nanosieverts per hour
Filter water = 110 nanosieverts per hour
Dover Sole from Central = 103 nanosieverts per hour
First new panel in a decade at US waste facility world-nuclear-news.com
Grossi to visit Zaporizhzhia, warns against complacency world-nuclear-news.org
Uranium production process restarts at Langer Heinrich world-nuclear-news.org
Hinkley Point C woes threaten to break UK and France’s nuclear fusion theguardian.com
Researchers at the GI Budker Institute of Nuclear Physics at the Siberian Branch of the Russian Academy of Sciences (INP SP RAS) has begun testing a new coating made from boron carbide for the walls of the International Experimental Thermonuclear Reactor (ITER) currently under construction in France.
The Russian Research has been reported in Nuclear Engineering International and explains that the team looked for a material to withstand damage caused by plasma abrasion during a thermonuclear fusion reaction.
ITER is a tokamak which is a toroidal vacuum chamber. Finding a material for the first wall that meets all the requirements was difficult. Carbon has been used in research for tokamaks to protect the walls but it proved problematic because it can retain hydrogen isotopes and radioactive tritium.
Currently, tungsten and beryllium are used in the first wall of the fusion chamber in ITER, which can withstand high temperatures and is very light. However, dust from beryllium is toxic and is a strong carcinogen.
Anatoly Krasolnikov is the head of the ITER center. He has been leading the team that looked for alternative options for covering the wall of the tokamak. The desired material needed to be heat-resistant, lightweight, with high thermal and electrical conductivity. The list of candidates included some types of ceramics which are typically used as insulators.
The Lavrentyev Institute of Hydrodynamics SB RAS, the Khristianovitch Institute of Theoretical & Applied Mechanics, and the Tomsk State University of Management Systems & Radio Electronics were all involved in the study.
A coating of special material was applied to a tokamak wall with a thickness of only tens of microns, and tests are being carried out at the BETA installation at INP SP RAS. During these tests, the material is subjected to intense thermonuclear pulse loads and a laser-powered thermal load from the plasma. Temperature absorbed and degree of erosion are being tracked using a diagnostic system. The moment erosion begins can also be tracked. It can cause roughness of the wall to change and can be identified with the subsequent loss of matter.
Dmitry Cherepanov is a Research engineer with the Russian team. He explained, “the purpose of the tests was to characterize the limit of the loads that our test martials can withstand during pulsed heating.”
Researcher Alexander Burdakov said, “We have been developing neutron protection from boron carbide with Virial (St Petersburg) for a long time. Viral company is a manufacturer of equipment components of ceramic and cera-metallic materials. This substance is very durable, has relatively good thermal conductivity, and we test it under the impulse loads that are characteristic of tokamaks.”
Boron carbide is similar to light beryllium. It does not cause the walls to cool quickly, and it also is readily available. When using boron carbide, there are two options because it can completely replace tungsten or be applied to tungsten walls as a protective coating.
Currently, the results from the BETA complex testing indicate that the threshold values of loads at which ceramics begin to collapse are similar to tungsten. Other tests also suggest that boron carbide is competitive with tungsten carbide and beryllium coatings.
Ambient office = 127 nanosieverts per hour
Ambient outside = 94 nanosieverts per hour
Soil exposed to rain water = 93 nanosieverts per hour
Mini cucumber from Central Market = 97 nanosieverts per hour
Tap water = 94 nanosieverts per hour
Filter water = 80 nanosieverts per hour
France / Belgium’s Tractebel To Cooperate On Long-Term Nuclear Operation nucnet.org
Federal agency, Energy Harbor seek to keep citizen groups out of Perry nuclear plant case energynews.com
Ukraine to start building 4 new nuclear reactors this year reuters.com
Pentagon greenlights manufacturing of nuclear-capable stealth bomber: reports foxnews.com
Part 2 of 2 Parts (Please read Part 1 first)
In May 2018, President Trump withdrew the U.S. from the Iran nuclear agreement, formally known as the Joint Comprehensive Plan of Action (JCPOA),
State Antony Blinken is the U.S. Secretary of State. He told the New York Times: “I think it was a big mistake to tear up the Iran nuclear agreement. We had Iran’s nuclear program in a box. Since the agreement was torn up, it escaped from that box, and we’re now at a place where we didn’t want to be because we don’t have the agreement. So, I think that was deeply unfortunate.”
When asked for his comments, Robert Kelley, Distinguished Associate Fellow at the Stockholm International Peace Research Institute (SIPRI) told IDN by “going nuclear” I assume you mean gaining nuclear weapons? No closer than it ever has.”
He claimed that enriching uranium is not a nuclear weapons design activity. It is just materials production. Sixty percent enriched uranium is well below the threshold for a useful nuclear weapon that Iran could deliver by any means other than a truck or cargo plane.
The CIA and informed analysts have not detected a nuclear weapons program in Iran. They are a well-developed country and could be lured out of complacency by activity in the region, said Kelley, a Former Director at the IAEA and Former Nuclear Weapons Engineer at Los Alamos and Livermore National Laboratories
Referring to the statement by the four big powers, Kelley said that the IAEA findings represent a backwards step by Iran and will result in Iran tripling its monthly production rate of uranium enriched up to sixty percent. The four countries remain committed to a diplomatic solution and reaffirm their determination that Iran must never develop a nuclear weapon. Kelley said: “This is a true statement but not useful.”
He pointed out that even with three times the production rate, Iran has accumulated material that still needs further processing to be useful for a weapon. It is simply not useful at present for a weapon without more processing.
Kelley went on to say that “If the countries were truly committed to a diplomatic solution, they would not have observed the US decision to stop complying with the JCPOA. JCPOA was an agreed international restriction, it was working extremely well, and it was the US, not Iran, that dropped out of compliance.”
“Note that the IAEA still has regular complete access to the enrichment facilities of Iran and they are the ones reporting their very detailed observations on Iran’s activities. It is truly ironic that it is the IAEA that is in the field doing regular inspections under the Nuclear Non-proliferation Treaty and that the four states are complaining about Iran! IAEA bottom line is that what Iran is doing is legal and transparent in keeping with its treaty obligations.”
When asked about Israel, Kelley said that Israel’s ‘strength’ is that it certainly has nuclear weapons, although it resists saying so. “Is that really a strength or a weakness? It is a bludgeon that is extremely hard to use and has no solution to their current distress. By the way, Pakistan is not in the “Middle East”, but it borders Iran on the other side and Iran hit Pakistan with missiles yesterday. Iran has nuclear neighbors to the east and west so maybe they are nervous”.
