Reprocessing of Nuclear Wastes

I was recently asked a question about taking spent fuel rods from a nuclear power plant and converting them into “glass logs” fort storage.  Unfortunately, the answer to this is very complicated and requires a little bit of basic nuclear physics.

What uranium (U) is mined out of the ground, it is processed into uranium ore that contains 99.3% U238 (atomic weight), and 0.7% U235, which is the fissionable component used in reactors.  In order to produce fuel rods, the uranium must be “enriched” via centrifuge technology, separating out the heavier atoms from the lighter ones.  Commercial nuclear fuel is enriched to 3% U235 leaving the remaining U238 at 97%, while military fuel is enriched to a higher level.  This is a complex and expensive step in the nuclear fuel cycle, and has caused much concern with the Iran and North Korea nuclear programs.

Once inside the reactor, under the right conditions, several major things happen.  First, a U235 atom is split apart by a neutron (fission), releasing energy (heat), 2-3 new neutrons, and creating two new, smaller atoms (there are some 35 possible “daughter” product combinations) which are generally very radioactive.  The new neutrons can go on to fission more U235, creating a chain reaction.  However, some of them are captured by non-fissionable U238 atoms, becoming Plutonium (Pu239).  In about a year of operation in a reactor, the fuel becomes “spent” with a makeup of 96% U238, 1% Pu, about 2.5% radioactive fission (daughter) products, and about 0.5% unused U235.  This fuel rod is considered High Level Waste because of its high radioactivity from these fission products, and it must be cooled and shielded.  A spent fuel pool is generally used, since water is a good coolant and radioactivity moderator.  After about 5-6 years, most of the highly active products have sufficiently decayed, so the rods can be placed in heavily shielded lead/concrete casks (dry casks), and left out in the open air to dissipate their waste heat.  This is how Trojan, Humboldt Bay, as well as other plants are storing or planning on storing their High Level Waste.

However, Plutonium is a very valuable atom (it does fission under the right conditions) if you want to build a nuclear weapon, so Hanford was built in the 40’s with the sole purpose of producing spent fuel from which Pu could be extracted. Several reactors and huge structures (the infamous “canyons”) were built, shielding workers and the environment, where the fuel rods were dissolved in acids, and the Pu was separated out (Purex process).  The U238, as well as the small amounts of U235, was also extracted for possible re-use, leaving behind a soupy, corrosive liquid containing the high-level fission products.  These wastes were dumped into unlined tanks, which after 30-40 years began to leak, leading to the enormous task of remediation today.  The basic idea is to combine the radioactive sludge with sand, and heat (2100oF) it so it all melts together into a “glass log.” The purposed is to stabilize the fission products into a manageable form so it can be placed in dry storage or in a repository.  This process is called vitrification, and France has done some of it with their liquid wastes, and the Savannah River complex in South Carolina has a small plant experimenting with their wastes.  The plant being built by Bechtel at Hanford is about half built today, started in 2000, and over budget from $1.5 billion to more than $12b.  It may never go into operation because of the magnitude of technical and financial issues it faces.  This does not get rid of the high level wastes; it just makes turns the liquids into a stable form, which will have to be monitored and stored for tens of thousands of years.

Enter another interesting piece to the story…Reprocessing, as the Pu extraction process is also called, has been pushed by the nuclear industry as a way to deal with the High Level waste issue.  Pu can be used as a fuel in special “breeder” reactors, because under special controlled conditions, it can fission, releasing energy, and more neutrons, which can then be absorbed by U238 creating more Pu…essentially creating (breeding) more of its own fuel.  Though on paper this looks like a great idea, it has been proven technically, economically, and realistically unfeasible.  And it also produces radioactive fission products, which must be dealt with.  We abandoned our program in the late “80”s, with France, Japan, and the UK abandoning their breeder programs after spending countless billions of dollars, and are now faced with the huge task of cleaning up large volumes of highly radioactive liquids and sludges.  Reprocessing, recycling, whatever you want to call it, doesn’t solve the High Level waste problem; it just transforms one problem into a huge new problem.  It does not get rid of the waste.  We would still need dry cask storage, and/or a repository.  And it would require a whole new generation of unproven reactor technology, as well as a new “Hanford” technology to manage the front end and the back end of the fuel cycle.  Very expensive! Very dangerous!  Hell of a way to boil water!

For years, the industry has dreamed of a Plutonium economy.  I still hold on to the dream of a renewable Hydrogen economy.

http://www.latimes.com/science/la-na-hanford-delay-20151118-story.html

http://www.daily-jeff.com/latest%20headlines/2015/09/13/feds-halt-uranium-enrichment-project-at-ohio-plant

http://world-nuclear.org/information-library/nuclear-fuel-cycle/fuel-recycling/processing-of-used-nuclear-fuel.aspx

The Closure of the Diablo Canyon Nuclear Power Plant

A few weeks ago, PG&E announced that it would not pursue a license renewal for the 2200mw reactors at Diablo Canyon.  This is major landmark decision, driven by the potential seismic issues at the site, and the need for huge uneconomical upgrades to continue to run the plants beyond their 2024 expiration.  Several major policy points are highlighted in this decision.

First, nuclear power today is basically uneconomical, and way more expensive than the alternatives of natural gas, renewables, and efficiency.  This is true for new plant construction, as well as the continued operation of the aging plants built 30-40 years ago. Diablo has always been contentious…first in its fiasco construction cost overruns, then in its electricity pricing schemes during the 2000’s deregulation debacle, to its current expensive electricity…even though it is an old plant whose capital costs have been paid for over the years by ratepayers.  This is happening all over the US, as we begin to wean ourselves from the large economic, environmental, and social costs of centralized nuclear and coal power.

Second, the myth of utilities needing huge baseload power to counter the intermittency of renewables no longer stands.  PG&E CEO Tony Earley said “that as the company looked into California’s energy needs for the coming decades, it didn’t see a place for Diablo…Our analysis continues to show that instead of continuing to run all the time, there will parts of the year where Diablo will not be needed…At a plant like Diablo, with large fixed costs, if you effectively only run the plant half the time, you’ve doubled the cost.”  I have talked before about peak power demand, and how generating resources are allocated. Early use of solar met some of the need for “peaker” natural gas plants.  The tremendous deployment of renewables, and their enormous potential today offers the ability to use the most cost-effective and efficient energy resource to meet the demand.  Recently, in the Northwest, some wind power producers were paid (due to contracts written years ago) not to produce power during certain times, because demand was low, and large baseload power plants could not be turned on or off at will.  Renewables can be turned on or off whenever without serious economic issues because of their technology, and the fact that the fuel is free.  Some say that costly peakers will only be used in dire circumstances, since batteries can be recharged and hydrogen produced at will whenever excess electricity is available anytime of the day.

Third, PG&E acknowledges the dramatic and incredible changes that are coming to the “grid” and to the utilities themselves.  The biggest challenge obviously is the storage of excess electricity for use when needed.  California is actively pursuing and developing various options with great promise.  (I still think hydrogen/fuel cells will become the most realistic option.)  Ironically, back in the ‘80’s the only way Diablo could fit into California’s electricity system was with storage.  At night when the 2000MW of baseload was not needed, and the plant could not be turned off, the power was used to pump water uphill to a reservoir where it would be released the next day providing 1000MW of hydro power when it was needed (the Helms Project.)  That water is captured, and pumped back uphill the next evening.  Smaller-scale storage will allow for more flexibility in the new digital grid system, with various options being battery storage (commercial large scale as well as small residential,) pumped storage, mass /gravity systems, compressed air, and a whole lot of ingenious methods on the drawing boards.

Fourth, the whole electricity market is changing very rapidly.  More and more businesses and individuals are seeing the benefits of creating their own power, and using utilities for distribution, or just bypassing them altogether.  Google just overtook the US Department of Defense as the largest single user of electricity, and will soon become the largest single producer in the US, with more to come.  MGM Resorts found it cheaper to generate their own electricity rather than buying it from the utility, and that Nevada utility just lost its biggest customer.  As prices comes down due to better manufacturing, increased efficiency, and new financial marketing, the future looks very bright.  Add the fact that electricity demand is declining due to efficiency in all sectors…thus PG&E holds confidence that it can meet the challenges of the future for California. Remember, this is one of the largest utilities in the US, and other states and utilities will soon follow suit, because they need to evolve and adapt to the new technological grid and the shift from the old-school business model of supply and demand.

Fifth, another myth that we need nuclear to meet the challenge of reducing CO2 emissions no longer holds validity.  Even though the actual operation of a fission reactor does not produce CO2 because it is not burning fossil fuels, the entire fuel chain from creating the uranium fuel to decommissioning and waste disposal releases large amounts of all kinds of toxic and greenhouse emissions.  PG&E is confident that it can meet the demands of the State for its mandate of 50% renewables by 2030 with a subsequent decrease in emissions.

Sixth, PG&E glosses over the huge commitment to the decommissioning of Diablo, stating that the cost sometime down the road would be $3.8 billion.  I stand and say  “Nonsense!” “Big Hoax!”  In 1987 when we in Humboldt County fought PG&E in court on decommissioning costs, they estimated Diablo to cost $200m.  We prevailed with the judge acknowledging a price tag of $1B.  PG&E was appalled.  At the same time, the Humboldt Bay nuke was estimated at $95m.  That escalated to $380m in 2007 before work began; then to $500m a few years later, to the current estimate of over $1B.  I expect Diablo will cost in excess of $8B, and the actual work won’t begin in earnest for 20-30 years, with PG&E spending large sums of monies for SafeStor of the plant and the safeguarding of the spent fuel waste.  Meanwhile, ratepayers will continue to be charged a “tax” to go into the fund (currently at $2.8B) to pay all the bills, and future generations for years to come will continue to meet that debt, as well as the unknown costs of storing the spent fuel forever.  It’s interesting that EDF in France is starting to drool over the current $200B cost estimate for decommissioning its reactors...Areva, Bechtel, Babbcock & Wilcox, Westinghouse, at al are licking their chops for their future profits in the trillion dollar global bill.  Remember, these monies are non beneficial…no real benefit except for the jobs and profits…no useful product such as electricity, goods, or other products.  It’s taking out the garbage after an elaborate meal.  Sort of like the Cold War mentality, where we spent trillions of dollars producing something (nuclear weapons) we hoped we never would have to use!

The future closure of Diablo Canyon is indeed a battle long fought and hard won.  We are still trying to get it closed NOW before an earthquake or other incident creates an economic and environmental catastrophe.   Our dreams are slowly coming true as we always believed, where we can run parts of our society on clean, sustainable, renewable energy.  There are tremendous challenges ahead, both technical, and mainly political; but over time common sense prevails. We’ll see what happens in November!

A couple of good reads are:

http://www.eenews.net/stories/1060039876

http://www.pge.com/includes/docs/pdfs/safety/dcpp/MJBA.pdf