And Important Read on EVs for Hands on DIYers

More Wisedom from a Successful Professional in the Energy Business.

Sure…. you’ve read article after article about how cool Electric Vehicles are, and how they’re our future.  One of the first things to annoy a real hands-on DIYer is the fact that many who promote EVs seem to have no real grasp of ‘ENERGY REALITY’. One of the first clues is they typically jump right to the efficiency of the MOTOR, and then compare it to the efficiency of today’s gasoline ‘engines’ as if a motor and an engine have some equivalence! Of course we know that the Motor requires and external power source and an honest comparison requires we measure the BTUs in, and proper accounting of the losses all along the way. Try and talk nuts and bolts with a Greenie and they’ll usually wave their hands and say.. “doesn’t matter, it’s all an investment in our future”.

In my State of Washington, Green is a very fashionable color, and if you dare try and inject reality into the conversation in Seattle, you will be demonized and made out as someone who is trying to spoil the party.

Our Governor, Senators, and others have very effectively used the misguided enthusiasm of Seattle (our population center) to transfer wealth and property to green causes via subsidies and grants. We need to leave it up to each individual as to whether the Governor and her friends are this naive, or is it the money and influence they gain throught their support? How many Energy Producer Professionals are investing in Green Energy, and why?

Here’s this months comment from CEO Gary Smith of PowerSouth, a man who has a track record of connecting the dots, and certainly a man who understands Energy and Electrical/Mechanical realities.

When I was young — before cable television, before computers, before DVDs and before the Internet — we read books and worked puzzles.

One popular thing was books that contained pages of numbered dots and hints of what the
picture would be once you connected them. We would look at the dots, guess what the
picture would be, and then connect the dots. Of course, the picture would be crude, but an
image would be formed.

You never see those puzzles anymore, but the saying “connect the dots” is still used to
express the process of looking at something and understanding how the image comes
together as the dots are connected. As I read about events in Washington,
sometimes I wonder if anyone there ever played “connect the dots.”

This week, Senator Debbie Stabenow, (D-Mich.), proposed legislation that would give
car purchasers a $7,500 cash rebate from the government for the purchase of an electric
vehicle like the Chevrolet Volt and the Nissan Leaf. She stated, “These vehicles represent the jobs of the future, and the more that are sold, the more Michigan jobs will be created.” The bill follows the White House’s plan to have one million plug-in electric cars on the road by 2015.

Senator Stabenow’s legislation also contains a provision that provides businesses that invest in electric trucks a $15,000 to $100,000 tax credit, depending upon the size of the truck. Senator Stabenow states, “This bill provides a tremendous economic potential that will allow Michigan innovation to continue to out- compete the world and create new jobs here.” I always thought that out-competing meant providing a better product at a lower cost. I guess that doesn’t apply in Michigan anymore — all that is really important now is a large government subsidy that promotes the sale of certain vehicles with our tax dollars.

In essence, Senator Stabenow’s bill would take our tax dollars from the South and use them to create thousands of jobs in Michigan. In fact, she is right — more cars sold mean more Michigan jobs created and more of our taxes being sent to Michigan.

Where does the fuel come from to power these new, modern subsidized cars and trucks? As the senator from Michigan and the White House conjure up ways to promote Michigan
jobs through subsidies, the EPA plots to close down coal-fired generation plants that provide about 50 percent of the country’s electricity.

If those plants are closed as advocated by environmental groups and EPA Administrator
Lisa Jackson, there will not be sufficient electric power to provide electric service as
we know it today, much less power a million plug-in electric cars and trucks. Have Senator
Stabenow or the White House connected those dots?

Occasionally, when we were doing those connect the dot puzzles, something would
happen and we would lose our way, get out of sequence and the picture would make no
sense at all. I still remember the frustration and confusion about what went wrong.

It is obvious that Senator Stabenow doesn’t know how to connect the dots and make a
picture, unless of course that picture is using tax dollars to create jobs for people that can
vote for her. Maybe she knows how to connect the dots after all.

Gary

Back to  GB comment and Washington State news… We have a coal fired powered plant in Western Washington that the Governor is in Favor of shutting down, I expect to hear about the new green jobs program that will be implemented in that community to replace all those jobs lost at the power plant, they’ll likely be retrained to make something that no one will be willing to buy,  and of course subsidies will pay for it. If you haven’t figured it out yet, that means you and your children will be paying their wages and benefit package, and it will likely be better than what you currently have.  Print Print Print, Spend Spend Spend, and demonize anyone who tries to tell you it’s a road to disaster. Pick up a history book, you can read about the road ahead… this has all happened before, only the dates are different.

Those folks who put “in God we trust” on our currency? The message was more about who they didn’t trust, and if you don’t get it by now, you soon will.

G

Posted in Fighting Propaganda, Inspirational People, The New Green Movement, Things I Hate!, Your Wasted Tax Dollars | Tagged , , | 1 Comment

A Free DIYer Generator Head?

DIYer-Gen-Conversion-640

DIYer-Gen-Conversion-640

It may have happened when I was exchanging  emails with a Customer on Guam after the Island was hit by a large storm and people were without power for months.  I received several pictures of generators that died for all kinds of reasons and formed a mountain of metal at the local salvage yard on Guam. My customer of course is a DIYer and loaded several in the back of his mini truck to see what he could make run again.

What happened you say? An idea… it’s been floating around in my head for years now, and then Roger Sperle, and old duffer and friend from down the street started bringing home lawn mowers and parting them for salvage. The alum mower decks and engine cases add up and a pickup load makes a fair paycheck for a guy just trying to keep busy.

Roger stops by one day with three generators he got out of the junk pile behind the small engine repair shop over by Foss’ Grocery here on East Hill.  He wanted to know if I wanted to pick any parts off them before he busted them up into different piles of metal.  I thought for a moment….Dang! this may be the time to try that DIY idea? Is there a KISS way to convert those single bearing generators into more useful two bearing Generators?

 

Generator-Shaft-640
Generator-Shaft-640

If you look at the picture above, you’ll see what Allmand tells me is a morse taper, if you’ve looked at engines made for single bearing generators you’ll notice the shafts are different, they often have this same taper. Fact is, this shaft above is the crankshaft salvaged from the engine and cut off right up against the crank throw.  That long bolt runs thru the center of the generator shaft from the back and holds it all together. Once that taper takes a set, and the bolt is tightened, it’s mighty strong.

End-Bell-640

End-Bell-640

 

 

 

 

 

 

 

 

 

 

 

If you look at the picture above, you’ll see the end bell that normally bolts to the side of the four stroke engine, you might recognize that standard set of bolt circles.  Since I’m a poor machinist at best, I sent off this end bell and the shaft with a measurement or two to Randy Allmand and he whipped up a custom bearing carrier for this end.  The center of the bearing carrier indexes into the end bell center, the inner bolt circle was already threaded in the housing, so Randy created the carrier bolt circle to match the threaded holes to make the job easier for me.

Bearing-Carrier-640

Bearing-Carrier-640

After assembling the generator and tapping on the end bells, the shaft spins silky smooth, and there’s little left to do other than make a proper mounting plate.

Randy might be interested in making these conversion kits if there’s interest.. or… you can roll your own..

Thanks Randy!

George B.

 

Posted in DIYer Generator, How Tos, Off Grid Power, Projects, Survival Skills, Things I like | Tagged , , | 49 Comments

It was a wash out

I remember the first time I saw that new ATM at the Boeing Credit Union, I hated it!

Soon I learned how cool it was, you can deposit a hand full of checks and it will print you a deposit receipt with all the check images on it! AS you can imagine, this greatly simplifies things for a hobby business, and gives you one more chance to catch accounting errors and correct the ledger if you have something wrong.

We were headed out to dinner the other night, and I’ve gotten into the habit of putting a few checks in the breast pocket of my jacket so I don’t forget to deposit them. I added a $20 check to the pocket from Mace P. who bought a CD, and out the door we went.

At the end of dinner, I looked across the table at my Wife and said, “we need to go across the parking so I can deposit these checks”, I reached in and pulled out Mace’s check, and dug a little deeper to grab hold of a big ball of fuzzy paper, I looked at it closely and started pulling it apart, inside were little bits of recognizable print, part of a routing number here, and part of a bank name there, but for the most part, it was bleached out and reminded me a lot of a Kleenex I once left in a pocket.

We sat together silent for a moment, I had left the stuff in my pocket for about three days, my wife decided it (the jacket) needed washing.

More than $200, and less than $300 I think.. There will be at least one person out there wondering…. Why didn’t he cash my check?

Yes… I’ve had time to think about this…next time they’ll be in my wallet..  later that eve.. my wife looks over and says “sorry for washing your checks.” I thanked her for washing my jacket and told her… “you know that washing machine you picked out does a heck of a fine job”

George

 

 

Posted in Things I Hate! | Tagged , , | 2 Comments

The Joys of Importing

I’ll never forget some of the posts a certain fellow in Canada made in a forum about ‘Dealers’ and their Capitialist ways. He showed his complete ignorance of the challenges of import when he posted that a buyer should not have to pay anymore than 10% above the landed cost of the item.

There are so many things that an importer has little control over, and I give one example here.

Emergency_Action_Notice

Emergency_Action_Notice

 I was expecting a few PMGs this month, and then I get an email from my broker that the US AGRA folks had found pests, slammed the doors on the container and issued an emergency order to export the container out of the country!

This is a risk every importer takes when he ships products in a consolidated container, your stuff might meet all the specs, but a single package prepared by somebody else can hold up your shipment for months.

I’m not whining, these are the risks, but there are far more as well. When you see a Dealer with a mark up a little higher than you expected, there’s likely a good reason. 

G

Posted in Products, Things I Hate! | Tagged , , | 7 Comments

Part of Prepping your Generator.

Whitte-oil-pan

Rodent cache-Whitte-oil-pan

Here’s a warning, a situation far more typical than you might know. It was a few weeks back I picked up a 6/1 Engine that had been stored in a garage for several  years. This engine  had never been run. I took the head off and made a short survey of things and found that a Mouse had set up house keeping inside the coolant passages of the head. The upper coolant flange was his front door, and the inside of the head was packed with twine, and what looked like cotton string cut from the bottom of a mop.

The picture above was sent to me by Phil Podkanowicz who bought this old Whitte, and wisely tore it down for inspection before he attempted to start it. the contents of the pan is what he found in the engine’s oil pan!

This is another reminder that rodents like old iron too, and you need keep covers and screens in place.

GB

Posted in Off Grid Power | Tagged , | Leave a comment

Current Events, America’s Energy Policy, more from CEO Gary Smith

We’ve all witnessed the Charlie Sheen rally and his support base…. he’s even sold out some of his live performances that are yet to be defined other than yelling “Winning”. What’s worthy of your attention is just how many followers he has, Not all of them are kids, I’ve run across a number of Sheen fans who are in their forties with Kids out of high school, and some of them vote!

If you look at the EPAs current rulings AND their support base, their may be a very strong parallel. The Current Administration is comprised of activists, and since they are comfortable in that circle, they hired activists like Lisa Jackson who currently ‘directs’ the EPA. If we look at recent activities, should we be surprised that only 8% of the administration has had any business experience? Aren’t we all aware that a country is not all that different than a Corporation? Both entities must produce more than they consume or eventually perish. We know printing money will either get you jail time or put you and your followers out of the game.

Following is an article written by CEO of PowerSouth. He doesn’t mince words, and in my opinion, there are few people in America that have a better idea of what’s going on in energy and what the consequences have been and will be. Power South has thus far navigated through an ocean of insane energy policies, they made a decision a long time ago to use natural gas for power production, they’ve done their part to produce lowest emissions possible.

Balance key for competitive economy

CEO Gary Smith discusses the importance of affordable energy ?

Last month, President Barack Obama expressed his support of U.S. industrial competitiveness and stated that the government has a responsibility to ensure the U.S. is the best place in the world to do business. He devoted his entire weekly radio and Internet program to ideas that put the U.S. on a more competitive global footing by spending on innovation, education and public works.

He said, “In today’s global, competitive economy, the best jobs and newest industries will take root in countries with the most skilled workers, the strongest commitment to research and technology, and the fastest way to move people, goods and information.”

He talked about how federal tax credits and financing programs help companies boost their bottom lines and hire workers.

President Obama also stated that businesses have obligations and responsibilities.

He said, “They should set up shop here and hire our workers and pay decent wages and invest in the future of the nation. That is their obligation. Everyone will benefit if government and businesses work together.”

From those comments, you would think President Obama is the champion of business and American enterprise. However, as he expresses his support for American industry and competitiveness, his appointed Director of the Environmental Protection Agency, Lisa Jackson, continues to aggressively develop regulations that severely hamstring U.S. industry and make it less competitive in the global marketplace.

All with the apparent blessing of the President, who stated late last year after the “Cap and Trade” legislation to tax carbon emissions was defeated in Congress, “There is more than one way to skin a cat.”

Consistent with that remark, President Obama failed to mention in his remarks the continued need for low-cost energy inputs for American industry to remain competitive.

Low-cost energy for production is possibly more important than a skilled, efficient and affordable workforce. Yet, President Obama failed to raise the issue in his weekly remarks.

Does the omission of an affordable energy component in his statement indicate he will continue to pursue a strategy to increase energy costs to “skin the cat” of carbon emissions?

Shortly after his election, the President stated that he will increase the cost of fossil-fired energy to make renewables more competitive. Too bad we can’t increase the cost of foreign industry to make U.S. industry more competitive.

Regardless of which side of the issue you are on — and I recognize that not everyone agrees with me — the importance of energy in the industrial process is indisputable.

Every product and service contains an energy component. Some products are more energy intensive than others. The cost of the energy component in manufacturing is more important to heavier industry.

It follows then that a country truly invested

in industrial competitiveness would pursue a policy of balance between environmental policy and competitive energy costs. It is inconceivable that a plan to ensure American industry remains competitive in global markets would not include a component of affordable energy inputs. The refusal to ensure that American industry has access to low-cost energy is in essence an admission that we are not as invested in global competitiveness as we claim.

It will be interesting to see how aggressively President Obama pursues business interests as he seeks reelection. It will also be interesting to see if Ms. Jackson is left to her own devices to raise energy costs to reduce carbon emissions. It is clear our global competitors will not burden their industry with such costs.

Above all else, it is perfectly clear that without affordable energy the U.S. will not remain competitive in global industrial production markets and our jobs will be exported to foreign shores.

So here’s the facts: We got into this mess with cheap energy, there is no way to produce or create the kind of prosperity we need to get out of this mess without cost effective energy of all types. Fuel oil, electrical energy, natural gas, and more. If we had a few people in the current administration who had any bussiness experience, they’d also know the beneift of employing our own people and circulating the wealth wihtin our own economy verses exporting the JOBS and wealth to other countries like Brazil.

It is not because president Obama is stupid that he preaches Corporations must employ Americans, and then he endorses policies that end jobs here and force employers to operate in other countries. Shutting down oil drilling here will have serious consequences, denying jobs in Louisiana, Texas, Alaska, will be seen as a serious error in our near future. What is profoundly disturbing is President Obama doesn’t seem to notice that his own policies are at odds with his expectations.

Had President Obama spent even a year running a candy store and having responsibility for filing B&O, State Sales, Fed Taxes, managing a few employess, paying L&I, he’d have a whole new perspective.  You don’t know what you don’t know, and it’s not fair that we raise our expectations of him other than to have the wisdom to seek those in bussiness for his counsel. This is where fools and the inexperienced are sorted. Wise men seek experienced counsel.

History will record the blatant contradictions between what President Obama says, and what he does. History is likely to use the EPA as an example of what destroyed the North American economy. Lisa Jackson is no friend of business, and prosperity has no place in her designs and those of her Masters. The courts are full of attorneys appointed by the EPA, and the burden to all industry and every business is far greater than average men understand. It might be easier to see how it might affect baseball, just imagine every team in the league needing an army of attorneys fighting in court full time and a research and discovery team of a dozens to support each attorney, no doubt it would put the cost of admission to a game out of reach for some fans. But in the case of the American economy, it’s worse! You are required to fund both sides, and to build all the new courthouses necessary to argue parse every word and argue every point.

There’s a certain power engineer I know who recently made the investment in panels, inverter, batteries, and backup. He knows the cost per KWH is not cheap, but he also recognizes that our current energy policy is a disaster. He went on to say.. “this removes some of the uncertainty in my future.. “my retirement years.”

Another sign?  As the world seems to be on fire, President Obama frames Bullys in public schools and ending Homelessness as goals worthy of our focus. Those with life experience know that even a law against homelessness will not abolish it… 

Isn’t it time you work on your independence?

GB

Posted in Earth & Energy, In The News | 1 Comment

Safeway Fuel, Good News?

For those of you unfamiliar with the Safeway brand, they are a large chain of Foodstores that decided to pump fuel some years back. They also made the decision to get on the biofuels bandwagon early, and they were one of the few stations pumping B20 when some manufactures were warning that anything more than B5 could terminate your vehicle’s warranty.

At the time they were pumping B20, there were researchers reporting that lipids in plant oils like those in Soy could vary quite a bit from crop to crop, and they believed the Soy based products >could< act differently in the fuel tank and the combustion chamber depending on the crop.

With that said, I witnessed and reported two trucks with plugged filters, we took the filters apart to see what was going on. In our two filters we found materials that had dropped out of the fuel and appeared to jell, it kind of reminded me of how linseed oil dries to a gummy substance when you slop on more than can soak into the wood fiber. This happened here in the NorthWest at temperatures near freezing. (not all that cold). Of added interest (to me at least) another diesel enthusiast here in the NorthWest reported there were about seven vehicles that had clogged filters according to emails amongst enthusiasts.

An interesting report came from the Midwest where it was very cold, and Soy based B20 was performing with zero troubles at much lower temperatures.

At the time (late 2008) there were people warning not to use bio-fuel Diesel period. Due to the reports from researchers and the lubricity improvement over current diesel fuel, I decided to keep using Safeway B5 and see how it performed compared to the B20.

Since I don’t commute, my travels are limited, and it has taken a long time to reach an additional 15,000 miles on my diesel pickup. In that period of time, we have had temperatures in the single digits, and temperatures at or near 100F. I pulled my Napa Gold filter and sawed off both ends so I could fully open the pleated material and inspect it. I could find no sign of gumming. Another thing I noted about this filter is the light color of the media, I expected it to be much darker. 

I’m reporting on fuel dispensed in the Puget Sound Area, we know blenders in other areas could provide something different for  Safeway, but for the moment, I find their prices slightly better on average, and I do believe there are benefits to running between one percent and five percent bio-fuel in modern diesel engines. Yes, we know the Lister CS and other slow speed diesels love bio-fuels, but the EPA doesn’t see it our way.

Posted in In The News | Tagged , , , | 7 Comments

Slow Speed Enthusiasts

 Who are these Guys, and what do they have in common?

Steve_Tony_

Steve Hutson & Tony Dovy

Many in our community know that Steve Hutson is stocking Listeroids and spares on the mainland of Austrailia. Steve has invested time and effort puting  up a website called Ozlisteroids. Tony Dovy is a South African who has a lot of experience with import and runs a business there as well. We’ll see if they find this page and are interested in sharing their respective contact info 🙂

Tony is well traveled and has made a number of trips across India and China in search of slow speed gems and other relics and marvels of the past. 

I can’t imagine Tony finding a better host in all of Aus than Steve .

Now.. the question, will Steve find this post and tell us more of this beautiful spot in Oz where the picture was taken?

Posted in Inspirational People | Tagged , | 2 Comments

Kiss Engineering Again

AS WE WATCH this disaster in Japan unfold, no doubt we’ll ask, why didn’t they do this is that?

One of my favorite comments made thus far… by a power engineer “Imagine… a 45 year old design in a 45 year old industry said to have flaws in the design!” The comment was made after a brief discussion that there were three whistle blowers out of GE saying this design had it’s problems.  Another person commented just how far the third generation of nuke plants have come and how many efforts have been made to ‘KISS’ engineer them. What isn’t part of the design doesn’t fail… we know all about that..

Think about that when you go out of your way to design a cooling system that relies on a circ pump to cool an engine, others have designed that thermal loop that will cool the engine and then added a circ pump to move the heat off to a point of use. Seldom will you ever design it close to right the first time. There’s just too much to learn during the actual operation, and unfortunately.

Help keep the prayers flowing.

G

Posted in Engines | 2 Comments

Just the facts! Japanese Nuke Plants

Added note 03/15/11 05:50PST.. As you know, this is here because we DIYers are fascinated by all power sources, most of us are by no means experts, but due to our curious nature, we generally know more about these plants than the average fast food server.

I think there’s some notable lessons here that we can apply to our own off grid (non nuke:-) designs and I have written about some of them before. It goes right back to KISS. One Nuke plant expert was critical of this 40 year old GE plant design because it was borrowed from a submarine, very compact  and he thought it was not all that well suited for stationary use. I didn’t get his message at first, but as this plant failure unfolds I understand his criticism better. 

I like thermal  siphon cooling tanks for listers, it’s bulky, but when properly designed, you don’t need a water pump, if it’s not part of the design, it doesn’t fail!

Apparently.. the nuke designers believe in KISS as much as we do, newer nuclear power plants have been optimized for shore duty, and when the moderator rods are inserted, and the core shut down, there’s a thermal siphon cooling loop that will dissipate all of the heat load from a shut down core, no pumps, no electricity required! Even at this hour, we have no clue if this reactor in Japan is producing higher radiation levels from hydrogen gas emissions OR from a far more serious source… an exposed core. 

Those who want every Nuclear Reactor in the World shut down likely have no idea of the impact… so we’ll see together how humanity sorts this out.      

       

 

 

We’ve learned you can’t count on the Meda for the facts, we also know we can count on the rabid anti-nuke crowd to insert their BS. Following is a post made by “BI Nuke Expert” on insider business comment page. I’m confident this person has the facts, and understands this vantage of reactor very well.

Media has not disappointed me in hyping the story to attract viewers or readership, it’s what they do for a living.

I’m still betting that the Nukes pose the greater fear, but… best to focus on the more critical elements.. getting people out of the rubble piles, medical attention, food, water, and sanitation. This is not Hati, but disease can spread rapidly, especially in areas with high population densities. 

Added note 3/14/2011 2154 hrs PST.  I haven’t seen any fall out shelters for sale here  yet, but some of the Anti nuke, anti everything people want to shut off all our reactors already. These explosions really make for good TV! That hydrogen is nasty stuff, especially when you have a good fuel air ratio and an ignition source.. BOOM! But what radioactive elements are in these gasses, and how long before they decay into nothing?  The really bad stuff is inside that vessel, and many experts say it’s likely it’ll stay there. 

Meanwhile, people are cold, hungry, without food or sanitation. As we know, these are the things that can kill a lot of people quickly. God help Japan..   

BI Nuclear Expert on Mar 13, 3:44 PM said:

I repeat, there was and will *not* be any significant release of radioactivity.

By “significant” I mean a level of radiation of more than what you would receive on – say – a long distance flight, or drinking a glass of beer that comes from certain areas with high levels of natural background radiation.

I have been reading every news release on the incident since the earthquake. There has not been one single report that was accurate and free of errors (and part of that problem is also a weakness in the Japanese crisis communication). By “not free of errors” I do not refer to tendentious anti-nuclear journalism – that is quite normal these days. By “not free of errors” I mean blatant errors regarding physics and natural law, as well as gross misinterpretation of facts, due to an obvious lack of fundamental and basic understanding of the way nuclear reactors are build and operated. I have read a 3 page report on CNN where every single paragraph contained an error.

We will have to cover some fundamentals, before we get into what is going on.

The plants at Fukushima are so called Boiling Water Reactors, or BWR for short. Boiling Water Reactors are similar to a pressure cooker. The nuclear fuel heats water, the water boils and creates steam, the steam then drives turbines that create the electricity, and the steam is then cooled and condensed back to water, and the water send back to be heated by the nuclear fuel. The pressure cooker operates at about 250 °C.

The nuclear fuel is uranium oxide. Uranium oxide is a ceramic with a very high melting point of about 3000 °C. The fuel is manufactured in pellets (think little cylinders the size of Lego bricks). Those pieces are then put into a long tube made of Zircaloy with a melting point of 2200 °C, and sealed tight. The assembly is called a fuel rod. These fuel rods are then put together to form larger packages, and a number of these packages are then put into the reactor. All these packages together are referred to as “the core”.

The Zircaloy casing is the first containment. It separates the radioactive fuel from the rest of the world.

The core is then placed in the “pressure vessels”. That is the pressure cooker we talked about before. The pressure vessels is the second containment. This is one sturdy piece of a pot, designed to safely contain the core for temperatures several hundred °C. That covers the scenarios where cooling can be restored at some point.

The entire “hardware” of the nuclear reactor – the pressure vessel and all pipes, pumps, coolant (water) reserves, are then encased in the third containment. The third containment is a hermetically (air tight) sealed, very thick bubble of the strongest steel. The third containment is designed, built and tested for one single purpose: To contain, indefinitely, a complete core meltdown. For that purpose, a large and thick concrete basin is cast under the pressure vessel (the second containment), which is filled with graphite, all inside the third containment. This is the so-called “core catcher”. If the core melts and the pressure vessel bursts (and eventually melts), it will catch the molten fuel and everything else. It is built in such a way that the nuclear fuel will be spread out, so it can cool down.

This third containment is then surrounded by the reactor building. The reactor building is an outer shell that is supposed to keep the weather out, but nothing in. (this is the part that was damaged in the explosion, but more to that later).

Fundamentals of nuclear reactions:

The uranium fuel generates heat by nuclear fission. Big uranium atoms are split into smaller atoms. That generates heat plus neutrons (one of the particles that forms an atom). When the neutron hits another uranium atom, that splits, generating more neutrons and so on. That is called the nuclear chain reaction.

Now, just packing a lot of fuel rods next to each other would quickly lead to overheating and after about 45 minutes to a melting of the fuel rods. It is worth mentioning at this point that the nuclear fuel in a reactor can *never* cause a nuclear explosion the type of a nuclear bomb. Building a nuclear bomb is actually quite difficult (ask Iran). In Chernobyl, the explosion was caused by excessive pressure buildup, hydrogen explosion and rupture of all containments, propelling molten core material into the environment (a “dirty bomb”). Why that did not and will not happen in Japan, further below.

In order to control the nuclear chain reaction, the reactor operators use so-called “moderator rods”. The moderator rods absorb the neutrons and kill the chain reaction instantaneously. A nuclear reactor is built in such a way, that when operating normally, you take out all the moderator rods. The coolant water then takes away the heat (and converts it into steam and electricity) at the same rate as the core produces it. And you have a lot of leeway around the standard operating point of 250°C.

The challenge is that after inserting the rods and stopping the chain reaction, the core still keeps producing heat. The uranium “stopped” the chain reaction. But a number of intermediate radioactive elements are created by the uranium during its fission process, most notably Cesium and Iodine isotopes, i.e. radioactive versions of these elements that will eventually split up into smaller atoms and not be radioactive anymore. Those elements keep decaying and producing heat. Because they are not regenerated any longer from the uranium (the uranium stopped decaying after the moderator rods were put in), they get less and less, and so the core cools down over a matter of days, until those intermediate radioactive elements are used up.

This residual heat is causing the headaches right now.

So the first “type” of radioactive material is the uranium in the fuel rods, plus the intermediate radioactive elements that the uranium splits into, also inside the fuel rod (Cesium and Iodine).

There is a second type of radioactive material created, outside the fuel rods. The big main difference up front: Those radioactive materials have a very short half-life, that means that they decay very fast and split into non-radioactive materials. By fast I mean seconds. So if these radioactive materials are released into the environment, yes, radioactivity was released, but no, it is not dangerous, at all. Why? By the time you spelled “R-A-D-I-O-N-U-C-L-I-D-E”, they will be harmless, because they will have split up into non radioactive elements. Those radioactive elements are N-16, the radioactive isotope (or version) of nitrogen (air). The others are noble gases such as Xenon. But where do they come from? When the uranium splits, it generates a neutron (see above). Most of these neutrons will hit other uranium atoms and keep the nuclear chain reaction going. But some will leave the fuel rod and hit the water molecules, or the air that is in the water. Then, a non-radioactive element can “capture” the neutron. It becomes radioactive. As described above, it will quickly (seconds) get rid again of the neutron to return to its former beautiful self.

This second “type” of radiation is very important when we talk about the radioactivity being released into the environment later on.

What happened at Fukushima

I will try to summarize the main facts. The earthquake that hit Japan was 7 times more powerful than the worst earthquake the nuclear power plant was built for (the Richter scale works logarithmically; the difference between the 8.2 that the plants were built for and the 8.9 that happened is 7 times, not 0.7). So the first hooray for Japanese engineering, everything held up.

When the earthquake hit with 8.9, the nuclear reactors all went into automatic shutdown. Within seconds after the earthquake started, the moderator rods had been inserted into the core and nuclear chain reaction of the uranium stopped. Now, the cooling system has to carry away the residual heat. The residual heat load is about 3% of the heat load under normal operating conditions.

The earthquake destroyed the external power supply of the nuclear reactor. That is one of the most serious accidents for a nuclear power plant, and accordingly, a “plant black out” receives a lot of attention when designing backup systems. The power is needed to keep the coolant pumps working. Since the power plant had been shut down, it cannot produce any electricity by itself any more.

Things were going well for an hour. One set of multiple sets of emergency Diesel power generators kicked in and provided the electricity that was needed. Then the Tsunami came, much bigger than people had expected when building the power plant (see above, factor 7). The tsunami took out all multiple sets of backup Diesel generators.

When designing a nuclear power plant, engineers follow a philosophy called “Defense of Depth”. That means that you first build everything to withstand the worst catastrophe you can imagine, and then design the plant in such a way that it can still handle one system failure (that you thought could never happen) after the other. A tsunami taking out all backup power in one swift strike is such a scenario. The last line of defense is putting everything into the third containment (see above), that will keep everything, whatever the mess, moderator rods in our out, core molten or not, inside the reactor.

When the diesel generators were gone, the reactor operators switched to emergency battery power. The batteries were designed as one of the backups to the backups, to provide power for cooling the core for 8 hours. And they did.

Within the 8 hours, another power source had to be found and connected to the power plant. The power grid was down due to the earthquake. The diesel generators were destroyed by the tsunami. So mobile diesel generators were trucked in.

This is where things started to go seriously wrong. The external power generators could not be connected to the power plant (the plugs did not fit). So after the batteries ran out, the residual heat could not be carried away any more.

At this point the plant operators begin to follow emergency procedures that are in place for a “loss of cooling event”. It is again a step along the “Depth of Defense” lines. The power to the cooling systems should never have failed completely, but it did, so they “retreat” to the next line of defense. All of this, however shocking it seems to us, is part of the day-to-day training you go through as an operator, right through to managing a core meltdown.

It was at this stage that people started to talk about core meltdown. Because at the end of the day, if cooling cannot be restored, the core will eventually melt (after hours or days), and the last line of defense, the core catcher and third containment, would come into play.

But the goal at this stage was to manage the core while it was heating up, and ensure that the first containment (the Zircaloy tubes that contains the nuclear fuel), as well as the second containment (our pressure cooker) remain intact and operational for as long as possible, to give the engineers time to fix the cooling systems.

Because cooling the core is such a big deal, the reactor has a number of cooling systems, each in multiple versions (the reactor water cleanup system, the decay heat removal, the reactor core isolating cooling, the standby liquid cooling system, and the emergency core cooling system). Which one failed when or did not fail is not clear at this point in time.

So imagine our pressure cooker on the stove, heat on low, but on. The operators use whatever cooling system capacity they have to get rid of as much heat as possible, but the pressure starts building up. The priority now is to maintain integrity of the first containment (keep temperature of the fuel rods below 2200°C), as well as the second containment, the pressure cooker. In order to maintain integrity of the pressure cooker (the second containment), the pressure has to be released from time to time. Because the ability to do that in an emergency is so important, the reactor has 11 pressure release valves. The operators now started venting steam from time to time to control the pressure. The temperature at this stage was about 550°C.

This is when the reports about “radiation leakage” starting coming in. I believe I explained above why venting the steam is theoretically the same as releasing radiation into the environment, but why it was and is not dangerous. The radioactive nitrogen as well as the noble gases do not pose a threat to human health.

At some stage during this venting, the explosion occurred. The explosion took place outside of the third containment (our “last line of defense”), and the reactor building. Remember that the reactor building has no function in keeping the radioactivity contained. It is not entirely clear yet what has happened, but this is the likely scenario: The operators decided to vent the steam from the pressure vessel not directly into the environment, but into the space between the third containment and the reactor building (to give the radioactivity in the steam more time to subside). The problem is that at the high temperatures that the core had reached at this stage, water molecules can “disassociate” into oxygen and hydrogen – an explosive mixture. And it did explode, outside the third containment, damaging the reactor building around. It was that sort of explosion, but inside the pressure vessel (because it was badly designed and not managed properly by the operators) that lead to the explosion of Chernobyl. This was never a risk at Fukushima. The problem of hydrogen-oxygen formation is one of the biggies when you design a power plant (if you are not Soviet, that is), so the reactor is build and operated in a way it cannot happen inside the containment. It happened outside, which was not intended but a possible scenario and OK, because it did not pose a risk for the containment.

So the pressure was under control, as steam was vented. Now, if you keep boiling your pot, the problem is that the water level will keep falling and falling. The core is covered by several meters of water in order to allow for some time to pass (hours, days) before it gets exposed. Once the rods start to be exposed at the top, the exposed parts will reach the critical temperature of 2200 °C after about 45 minutes. This is when the first containment, the Zircaloy tube, would fail.

And this started to happen. The cooling could not be restored before there was some (very limited, but still) damage to the casing of some of the fuel. The nuclear material itself was still intact, but the surrounding Zircaloy shell had started melting. What happened now is that some of the byproducts of the uranium decay – radioactive Cesium and Iodine – started to mix with the steam. The big problem, uranium, was still under control, because the uranium oxide rods were good until 3000 °C. It is confirmed that a very small amount of Cesium and Iodine was measured in the steam that was released into the atmosphere.

It seems this was the “go signal” for a major plan B. The small amounts of Cesium that were measured told the operators that the first containment on one of the rods somewhere was about to give. The Plan A had been to restore one of the regular cooling systems to the core. Why that failed is unclear. One plausible explanation is that the tsunami also took away / polluted all the clean water needed for the regular cooling systems.

The water used in the cooling system is very clean, demineralized (like distilled) water. The reason to use pure water is the above mentioned activation by the neutrons from the Uranium: Pure water does not get activated much, so stays practically radioactive-free. Dirt or salt in the water will absorb the neutrons quicker, becoming more radioactive. This has no effect whatsoever on the core – it does not care what it is cooled by. But it makes life more difficult for the operators and mechanics when they have to deal with activated (i.e. slightly radioactive) water.

But Plan A had failed – cooling systems down or additional clean water unavailable – so Plan B came into effect. This is what it looks like happened:

In order to prevent a core meltdown, the operators started to use sea water to cool the core. I am not quite sure if they flooded our pressure cooker with it (the second containment), or if they flooded the third containment, immersing the pressure cooker. But that is not relevant for us.

The point is that the nuclear fuel has now been cooled down. Because the chain reaction has been stopped a long time ago, there is only very little residual heat being produced now. The large amount of cooling water that has been used is sufficient to take up that heat. Because it is a lot of water, the core does not produce sufficient heat any more to produce any significant pressure. Also, boric acid has been added to the seawater. Boric acid is “liquid control rod”. Whatever decay is still going on, the Boron will capture the neutrons and further speed up the cooling down of the core.

The plant came close to a core meltdown. Here is the worst-case scenario that was avoided: If the seawater could not have been used for treatment, the operators would have continued to vent the water steam to avoid pressure buildup. The third containment would then have been completely sealed to allow the core meltdown to happen without releasing radioactive material. After the meltdown, there would have been a waiting period for the intermediate radioactive materials to decay inside the reactor, and all radioactive particles to settle on a surface inside the containment. The cooling system would have been restored eventually, and the molten core cooled to a manageable temperature. The containment would have been cleaned up on the inside. Then a messy job of removing the molten core from the containment would have begun, packing the (now solid again) fuel bit by bit into transportation containers to be shipped to processing plants. Depending on the damage, the block of the plant would then either be repaired or dismantled.

I’d like to thank this guy for the time to make this post.. Ask yourself… what has man every built that has performed so far above the design criteria? Consider your car… this is like having a 100 MPH head on collision and finding your seat belt and air bag allowed you to walk away from the scene under your own power. What’s amazing, is this is a 40 year old plant, and the new designs are far better!
GB 
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