Category Archives: Geothermal

Geothermal, Government

Supporting the Geothermal Resolution Through the Political Process

I don’t see myself as a political person; rather, I try to concentrate on specific issues that can be fixed. So it was very unusual for me to be attending the Democratic party’s pre-County convention meeting.

I went to support my friends’ resolution on geothermal, in hopes it will be accepted into the Democratic party platform at the State convention.

The meeting was held Saturday at Waimea Middle School, and 54 people were present from all over the island. I knew a handful of people there.

There was a procedure and format to follow in order to get a resolution before the group, and now I understand why that was necessary. Many resolutions were submitted and they all had to be in a certain format so the group could evaluate each in an efficient manner. The resolutions were submitted by email, one page maximum. At the meeting, each resolution was projected on a screen for discussion and approval/disapproval.

Before the meeting started, a person submitting a smart grid resolution asked if we could combine the smart grid and the geothermal resolution.  He was very passionate and forceful about the smart grid, and we tried to explain that maybe the objectives were not the same. Finally, we agreed to disagree.

There were resolutions to do with early childhood education, sustainable agriculture, medical marijuana, Democratic candidates needing to be party members, etc.

As I understand it, there will be a County Democratic party meeting, where we will go and support the resolutions that are forwarded. Then they go to the State convention, where the County resolutions are submitted to the State Democratic party organization for approval.

Very interesting!

Biofuel, Geothermal, Renewable Energy Sources

HECO: Don’t Let Us Get Flattened By The Wild Bull

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When I was growing up we lived in Waiakea Uka, close to the end of a gravel road that was maybe a mile long. Most of the parcels were fairly large – 40 acres in size – and four other families lived there on Alaloa Road, too.

We kids used to go exploring a lot. The land was mostly abandoned sugarcane, tall California/guinea grass with guava trees, waiawi and an occasional ‘ohi‘a or African tulip tree.

One day when I was in the 6th grade, my younger brothers and I overheard someone say there was a river in the pasture at the end of the road. And in that river, he said, there were gold fish red, black and whites, and combination of colors up to 12 inches long. It really got our attention—gold fish. Wow!

The four of us decided to go explore one day and see if we could find that river. We got a bucket, several fishing poles and some
earthworms, and we were off. We never thought to tell Mom and Dad that we were going.

We walked to the end of the road and came to a barbed wire fence. We could tell by the tracks alongside the fence that there were cattle inside. We assumed there was at least one WILD BULL in there, too.

From where we stood, we could see that this was a very large pasture and the far end, maybe two miles ahead, ran into the Waiakea forest reserve. By the description we’d heard, we guessed that the river was straight ahead, somewhere in the middle.

The grass was shorter in the pasture than it was outside, and there was a lot of fountain grass. The visibility for us small kids might have been 50 feet at best. So we had to figure out how we were going to find the gold fish and not get hooked or flattened by the WILD BULL.

 We could tell there was a series of rock piles on the left, where we could run from one to the other as we made our way to the river. Or we could go straight ahead to a rock pile that was quite a ways in the distance.

Nobody needed to tell us that we did not want to get caught out in the open by the WILD BULL. We didn’t see him, but we knew that when he got mad, he would paw the dirt and dust would fly. Steam would come out of his nostrils and his eyes would be red. Then he would charge and hook all of us on one horn, and then stamp us flat. We imagined the worst.

So we walked along the inside of the fence line to the left, until we came to the shortest distance from the first rock pile and we headed for it. We were very clear – if the bull came, we would either run back to the fence or forward to the rock pile, whichever was closest and safest.

So far so good. No shaking of bushes, snorting of steam or thundering of hooves. We climbed up the rock pile, which was maybe 6 feet higher than the surroundings. We looked all around, listened intently, checked for cow flies and even tried to see if we could smell him. No sign.

We continued on to the second rock pile, which was not straight ahead but took us diagonally closer to the river. From there, we
headed for the third rock pile, which had us going cross country, closer to the river but back to the center.

Someone thought he heard a noise, and we all froze and strained our ears. If the bushes shook, if we heard or felt hooves or even
smelled anything we would have been gone to the safety of the nearest rock pile.

Nothing, so we quickened our pace and scrambled up the rock
pile. We stayed there for a little bit, trying to get up the nerve to make it to the last rock pile. In a short time, we were on top of that rock pile looking back from where we came.

We decided we were doing the right thing. Had the WILD BULL
caught us out in the open, we were sure we would have been flattened.

On top of that last rock pile, we could see the river’s outlines. Once we were sure nothing was moving, we climbed down and headed for the stream. When we got there, we started to walk alongside and peer into the water.

One of us yelled, “Eh look, gold fish!” We all put our lines in. We had earthworm for bait and hooks we made from Mom’s pins.

Some excitement. As I recall, we caught about nine fish. Then we headed back with our live catch in the bucket.

That is the story of how the pond at the end of one of our chicken houses came to be stocked with gold fish.

And it comes with a simple lesson: Better to be safe than sorry. Don’t get caught in the open by the WILD BULL!

Do not take the dangerous, biofuel path to expensive electricity on the Big Island. We need to hedge our bets and use geothermal as one of our “rock pile-safe harbors.” If we do not hedge our bets, there is a good chance that we will be flattened by the WILD BULL.

Even small kids understand that.

Biofuel, Geothermal, Renewable Energy Sources, Where We Live

Oahu Owns Us

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O‘ahu owns us!

In a HECO press release yesterday:

Hawaiian Electric Co. is looking for long-term suppliers of biofuels derived from Hawaii feedstocks for its generation sites statewide.

The company’s request for proposals includes land or water-based crops, waste animal fat or yellow grease feedstocks that can be converted to liquid biofuel for power sites on Oahu, Maui, Molokai, Lanai and the Big Island.

“This call for proposals sends a clear market signal to landowners and agricultural interests that if they plant today they will be able to sell their products for a reasonable return on their investment and effort tomorrow,” said Robbie Alm, Hawaiian Electric executive vice president, in a prepared statement Thursday.

A reasonable rate of return on their investment? What about the goals of the ratepayer to get cheap electricity? Everyone knows that biofuels are expensive – more expensive than oil and way more expensive than geothermal. In New Zealand, geothermal electricity is produced for 5 cents per KWH.

Again O‘ahu is making decisions for the Big Island, and the people here resent it very much. Lots of folks I talk to feel that we would be better off with our electric company being a co-op, like on Kaua‘i. At least they make their own decisions.

The view from Bishop Street is very different than the view from Kino‘ole St.

I attended the first meeting of the Hawaii Clean Energy Initiative (HCEI) steering committee Wednesday. I think that the HCEI steering committee will serve a good function. But I raised these concerns:

I said that I do not believe that we should use a one-size fits all approach – after all, each island has a different set of resources. I
said that I worried that the subsidies floating around would prevent the Big Island’s use of geothermal, which we know to be the cheapest source of electricity. The Big Island has the lowest median family income and it’s the folks on the lowest rung of the economic ladder whose lights will be turned off first.

We cannot afford to be separated into the haves and have-nots. If we go down that road, it will tear our society apart. Hawaiians complain all the time that the game is rigged in favor of those who have the money.

But choosing geothermal is not the same as giving charity to the rubbah slippah folks. Cheap electricity means people will have discretionary income to spend, businesses will flourish and folks will have jobs by which to raise their families. It benefits us all. And besides low electric cost, it is the only renewable energy source that gives royalties to Hawaiians.

I am not surprised by HECO’s announcement. I was just waiting for it to happen. And it happened before the HCEI steering committee was able to make decisions.

The world has changed. Now, when we have the ability to make the right choice, we must not go down that road where we separate into have and have-nots. If we do that, we put our society in danger of coming apart. In that case, we would be better off to be a co-op like Kaua‘i.

Geothermal, Government

Testifying for Geothermal Resolution

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I went to O‘ahu on Thursday to testify for the geothermal
resolution.

SENATE CONCURRENT RESOLUTION 99–REQUESTING THE ESTABLISHMENT OF A WORKING GROUP TO ANALYZE THE POTENTIAL DEVELOPMENT OF GEOTHERMAL ENERGY AS THE PRIMARY ENERGY SOURCE TO MEET THE BASELOAD DEMAND FOR ELECTRICITY ON THE BIG ISLAND.

I strongly support Senate Concurrent Resolution 99.

Together with our workers and family, we farm 600 acres of diversified ag crops at Pepe‘ekeo. We have more than 25 years of farming experience.

I was the only person from Hawai‘i to attend the Peak Oil
conference in October of 2007 and again this past October (2009). For several years, I have been following energy issues very closely.

The world is not running out of oil; we are running out of cheap oil. According to the International Energy Association, the official
world barrel counters, world oil supply is declining at the rate of about 4 million barrels per day every year. Saudi Arabia puts out nearly 10 million barrels per day, so every 2 and a years or so, we need to find the equivalent of a Saudi Arabia.

We have maybe 6 million barrels per day of spare capacity now. But it will be used up in a year and a half or sooner, as the world
economy improves, so we do not have too much time to get off oil. And many reputable folks and institutions feel like it is 30 years maximum before the oil-exporting countries will no longer export oil.

On the Big Island we have a proven technology resource that makes cheap electricity—geothermal. One of the things I learned at the Peak Oil conference is the concept of Energy Return on Investment (EROI): the energy it takes to get energy. In the 1930s, the energy in one barrel of oil would help you get 100 barrels of oil. In the 1970s, that one barrel of oil could get you 30 barrels of oil, and now it will only get you about 10 barrels.

Clearly this trend is not good. It’s estimated that it takes a minimum of 3 to 1 (3 barrels of energy gotten by using one barrel) to maintain our present society. After that, we will have to leave it in the ground.

Geothermal on the other hand is 10 to 1 and will stay steady for centuries. EROI must be taken into consideration when evaluating energy projects.

The EROI for biofuels is less than 2 to 1. That is less than the minimum amount of 3 to 1 that we need to maintain our present society.

What about biofuels? Here is how a farmer views growing biofuels. There are 286 pounds in a barrel of oil. At $80 per barrel, that is equal to 28 cents per pound. Say the farmer needs to squeeze four pounds of stuff to make 1 pound of liquid. That farmer can expect no more than 7 cents per pound to grow the stuff, no matter what the stuff is. Lose money. More better plant cucumbers.

Say the farmer needs to make four times that, 28 cents, to break even. Then the price of oil needs to be 4 x $80, or $320 per pound.

By contrast, a Scientific American article points out that geothermal breaks even at $57 per barrel.

SCR 99 is about looking at the feasibility of geothermal for base power.  Of the three main base power sources, oil price is now $80
but everyone knows it will keep on rising. Locally grown biofuels will be expensive and their EROI is not good.

But geothermal is cheap and its EROI is favorable and stable.  Its EROI will stay steady and it will be cheap for centuries.

And of the base power sources, only geothermal is a resource for the Hawaiian community – right now, $600,000 goes to the Office of Hawaiian Affairs every year.

The main reason we need to put geothermal on line is because it is the folks on the lowest rung of the economic ladder whose lights will be turned off first. And when they benefit,  everyone will. People will have discretionary income and businesses will
flourish. Folks will have jobs and be able to raise their families.

If the most defenseless among us are safe, we are all safe.

Click here to read other supporters’ testimony for this
bill.

Geothermal

Off-Peak Geothermal Energy Can Ultimately Power Vehicles & Make Fertilizer

Ammonia can be made from “off-peak” geothermal energy.

My friend Steve Gruhn explains ammonia better than anyone I know. Having come from the midwest, Steve is very concerned about fertilizer security.

Not only can “off-peak” power from geothermal make ammonia, but ammonia can power vehicles and make fertilizer.

Looks like a slam dunk to me.

He sent me the following:

Richard,

I have put together a little information for you. I hope you can use it to help others understand the importance of NH3, Nitrogen fertilizers and the need to develop sustainable ways of producing it. This is why we are so glad to hear about what is happening in Hawaii and support your efforts 200%.

First to give some background on SAFE/Freedom Fertilizer and how it relates to all types of agriculture, here in Iowa, out in Hawaii and around the world. SAFE stands for Sustainable Ammonia Fertilizer Enterprise. We are about finding ways of producing nitrogen fertilizer from renewable sources of energy.

To do this we must produce NH3. NH3 is ammonia and ammonia is the first step in all nitrogen fertilizers. Nitrogen by itself is something most people do not have a clue about let alone the NH3 part. First and foremost, without Nitrogen we can not produce food.

It is the Nitrogen cycle that allows for life on the planet to exist. In all reality our ability to produce Nitrogen via ammonia synthesis is much more important than oil. In today’s world without the Haber ammonia synthesis process that is the starting point for almost all Nitrogen based fertilizers used today we could only produce enough food to feed about 1/2 to 2/3rds of the people that are on this planet.

The other problem with using the current Haber process is it all starts as fossil fuel, mostly natural gas but some coal is used. For every ton of ammonia produced using the Haber process it takes the energy equivalent of 300 gallons of gasoline and produces 1.8 tons of CO2, 4 tons of CO2 with coal.

Here in Iowa it means for every one acre of corn production twice as much fossil fuel is used to produce the Nitrogen fertilizer than all other field operations combined, planting to harvest.

The next problem is it makes Nitrogen issues identical to that of oil. We import way too much, 60% + of this countries usage, it is coming from the same troubled areas as oil, its production creates global warming gas and as the cost of fossil fuel feedstock rises it will drive the cost of Nitrogen fertilizer higher as well. Eventually pricing it beyond the pocket books of those farmers around the world whom can least afford not having it.

Then at the same time it will be doing the same for the price of food on our grocery shelves. In a nutshell the picture is not very pretty if alternatives are not developed.

How many people do you know have any idea about these critical issues? That our food supply is just as vulnerable to disruption as our oil supply. In all reality our food supply is twice as vulnerable. Today’s industrial agriculture is too dependent on imported fossil fuel for machines and fertilizer.

The good news is we think that Freedom Fertilizer has the answers to these issues. As of today we are getting a good foothold on the development of new technology that can answer these problems. With luck in the next several months we will be making  major steps forward in the development of this technology. A technology that can produce NH3 at atmospheric pressure with only water, free nitrogen and electricity. In time and with proper funding we are hopeful that this process can be used for local distributed production of NH3.

Now for the flip side of NH3 that even fewer people have a clue about. Using NH3 as fuel and to store energy. In reality NH3 is stored energy in a form that has been greatly over looked. Some have referred to it as the other Hydrogen or NHydrogen3.

NH3 doesn’t have to be produced from fossil fuel. It can be produced today via hydrogen from electrolysis and in the not to distant future with new solid state processes like what we are working on.

When the electricity for the processes is produced from stranded, off peak or excess generation capacity this NH3 may be a cost effective way to store electricity.

We already know that NH3 is much easier and cost effective to store and transport than the sum of which it is made. That being Hydrogen. If it is electricity from renewable sources the NH3 is sustainable.

Best of all this could be demonstrated all with current technology. Not only for the production and storage but for the regeneration of power as well. Currently available ICE engine technology allows for using NH3 as fuel. Iowa State University and and the Iowa Energy Center have done several very successful demonstrations using NH3.

These are just a few of the reasons why we support your efforts so much.

Steve Gruhn
712-330-3114
S.A.F.E. / Freedom Fertilizer
Sustainable Ammonia Fertilizer Enterprises LLC
3006 Hwy 71 – Spirit Lake, IA 51360
www.freedomfertilizer.com

Green Ground Zero – GreeNH3 – NH3 Future Fuel – Freedom Fertilizer -Nitronol sm

S.A.F.E. LLC is located at Green Ground Zero – The NW corner of The State of Iowa. This is the epicenter of the new green revolution. The area is home to more installed wind, ethanol, bio-diesel and biomass capacity than anywhere else in the world….  With much more being planned. The future here is bright with projects like SAFE’s GreeNH3, sustainable carbon free Freedom Fertilizer, NH3Future Fuel and Nitronol fuels. Our local vocational schools lead the nation with premier green job training programs in all phases of green energy production. The area has many new ideas, plenty of room and the green resources for much, much more. So just maybe your next renewable project should consider being a part of this green revolution at Green Ground Zero.

Please contact us for more details.

Geothermal

Fresh Water Below Sea Level

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Don Thomas is a geologist and volcanologist at the UH Manoa and UH Hilo. Talking to him is so interesting; it’s kind of like an Indiana Jones novel. He is quiet and unassuming but the stuff he talks about just blows me away.

One day, he mentioned to me that he was looking for fresh water for the military at Pohakuloa. He told me about this neat instrument that can look down and see the electroconductivity of rock.

He told me that dry rocks have a certain signature and wet rocks a different one. He said that salty wet rocks and hot rocks have signatures that are hard to distinguish from one another. So one could locate heat zones?

Hmmm, I thought—maybe we can find hot geothermal zones?

Don just drops these kinds of info. I had no idea that geology could be so fascinating.

From Don’s email to me:

We’ve always assumed that the understanding of groundwater in Hawaii was pretty well established.  The old timers, the guys I learned from when I was a student at UH, did a really fantastic job at interpreting the geology and groundwater hydrology. But, they didn’t have any data to tell them what was going on deep below sea level.

With our deep borehole, we found that some assumptions that were made about the flow of water below sea level was much different from the assumptions made by the earlier hydrologists.  The most significant finding was that freshwater was found much farther below sea level than anyone had expected.

For water to be that deep, it meant that seawater had to have been forced out by much higher pressure freshwater than was expected.  In order for those pressures to occur, it meant that freshwater was piled up much higher inside Mauna Kea than we had assumed.  To prove that, we’ll need to drill a hole from a much higher elevation – in the Saddle.

But, because drilling is pretty expensive, I teamed up with some folks from the mainland who are experts in a type of measurement that can “look” downward into the ground and determine the electrical resistance of the rocks at various depths below the surface.  Dry rocks are pretty poor electrical conductors; when they get wet with fresh water, they are better conductors; and when they are wet with sea water, they are even more conductive.

That exploration method is pretty expensive itself – but we were able to make measurements at about thirty stations across the Saddle – with the data we were able to collect, we were able to identify a couple of locations where the conductivity of the ground was similar to that of fresh water saturated rock at about 3000′ above sea level.

That doesn’t guarantee that we will find water there – it’s like in the detective stories – the conductivity of the rocks is only “circumstantial evidence” – it’s possible that other geologic conditions are responsible for the conductivity.  The only way we can prove the presence of water at that elevation will be to drill into one of those zones.  But, if there is water there, it will mean that we have a pretty large resource stored inside the island.

It’s also important to realize that another of the findings of the deep hole was that the local conditions – where ever you are on the island – will exert a strong control over where groundwater flows.  So the conditions in Kona, whatever they are, will likewise have an impact on the water.

It’s just a guess, but my guess is that there is a lot more water stored on the Kona side of Mauna Loa than we have generally expected based on the relatively thin groundwater lens found near the coast.  I’d bet that there are buried formations that are controlling groundwater flow – similar to the ones we found in Hilo – that may be forcing fresh water to discharge from that are deep below sea level.  But, again, we don’t the necessary geological data to be able to prove that.

Richard again:

This really captures my imagination. It points out the value of education and science in a very practical way. Combine that with getting HELCO to use geothermal as base power—we can get that water at a reasonable cost.

This article predicts that the wet side of the island will get wetter and the dry side drier. If this is the case, then Don’s efforts could be the basis for solving our long-term problems.

I want the people to know the role Don has played and is still playing for the Big Island people’s benefit!

Food Security, Geothermal, Peak Oil

How Geothermal = Food Security

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Our “food security” is about farmers here in Hawai‘i farming. We know that Hawai‘i imports more than 80 percent of its food, and has only a seven-day supply of food on island at any one time.

Being more food secure means growing much more of our food here. How do we make that happen?

If farmers make money, the farmers will farm.

The cost of electricity cost is directly related to farmers farming or not. Farmers are price takers, not price makers. So as electricity costs go up for consumers, wholesalers and retailers, farmers’ prices necessarily go down and so do their profits.

We all know that world oil supplies will be declining and that petroleum prices are likely to be very high in the next few years, making fossil fuel-produced electricity rise very high in price.

Do you know what the most energy-intensive part is regarding getting our food? Surprisingly, it’s not the “on farm” energy usage. It’s the energy needed for the stop-and-go transportation of getting food to your home,  the cost of refrigeration during that journey and the cost to refrigerate your food once it’s at your home.

So what will help with food security?  Cheap electricity. On the Big Island, that means geothermal electricity.

Produced locally, it is the cheapest form of electricity here. For more than 15 years it has operated without subsidies, and it even earns money for the state of Hawai‘i—currently more than $3 million a year.

Cheap electricity will lower wholesaler and retailer operating costs and therefore leave more discretionary income in the pockets of consumers, and they will be able to buy local produce. It will result in less pressure on farmers to lower their prices beyond what is reasonable, and they will make decent livings and continue to farm. And we will have increased food security out here in the middle of the ocean.

If farmers make money, the farmers will farm!

Geothermal

What Works, Works!

In a complex world of finite resources and inertia of technological progress, sometimes we need to stop and take a breath and appreciate the simple things that work.

Take the garden hoe — it is hard to imagine technology improving upon its simple function.

Geothermal is one of those things that work.

Here’s an article about finite resources, and some of the implications:

Western governments may not realise it yet, but consumerism as we know it is doomed and resource war with China inevitable, the world’s biggest fund managers were told yesterday.

The unsettling message, which focuses on the potentially destabilising shortfall of the rare “technology metals” used in everything from mobile phones to guided missiles, was issued in Tokyo yesterday at the close of one of Asia’s largest annual investment forums.

Jack Lifton, an expert in rare earth metals, said that many of the green ambitions of governments around the world — particularly ones involving wind farms and other high-tech responses to climate change — would be thwarted by upstream supply issues.

Particularly troubling, he said, is an impending inflection point that may arrive within the next couple of years when China becomes a net importer of rare earth ores.”

Geothermal, Government

The Hawaii Clean Energy Initiative Steering Committee and Me

Because of my agriculture background and my interest in energy matters, I was invited to become a member of the Hawaii Clean Energy Initiative Steering Committee. I am hopeful that this committee will be able to make significant governmental recommendations.

I believe in implementing proven technology. I believe in Research and Development. But I also realize that “hoping” is not an energy policy.

I believe in implementing processes that result in the lowest cost to rate payers. To the extent that this results in a competitive advantage to Hawai‘i, it will encourage businesses to flourish. On the Big Island, geothermal is clearly the low cost solution for the electrical utility. We must find ways to make it happen.  Not, no can. CAN!

The Hawaii Clean Energy Initiative (HCEI) was launched on January 28, 2008 with the signing of a Memorandum of Understanding.

The goal: To put Hawai‘i on a path to supply 70 percent of its energy needs with clean energy by 2030.

“…The Department of Energy will help Hawaii lead America in utilizing clean, renewable energy technologies.” – Governor Lingle

“Hawaii’s success will serve as an integrated model and demonstration test bed for the United States and other island communities globally…” – Assistant Secretary Karsner

Geothermal, Peak Oil

Why We Need Geothermal

Geothermal is the cheapest of the “base power” alternatives, and we must choose the cheapest alternative first. It’s the people on the lowest rungs of the economic ladder who will have their lights turned off first. We must take care of the most defenseless among us. If they are safe, we are all safe.

Geothermal is also the only alternative that is a resource for the native Hawaiian community.

Why we need geothermal:

One of the most important, yet mostly unnoticed, things happening in the field of energy is that production in world oil fields is declining due to natural causes. Every year we have 4 million fewer barrels of oil than we had the year before, and this needs to be made up by new discoveries.

Saudi Arabia produces approximately 10 million barrels of oil annually. That means that in order to keep the status quo, we need to find the equivalent of another Saudi Arabia every 2-½ years. This is very unlikely.

Here in Hawai‘i, we don’t have time to waste – we must implement economically feasible, proven technology wherever possible. We must do the right things for our future generations.

The technologies:

Because of their sporadic natures, both solar and wind are not likely to supply more than 15 percent of the electric utilities’ total needs.

What about biofuels? Where can they fit? Most are not economically feasible at this time. And its Energy Return on Energy Invested is very low—less than 2 to 1. Robert Rapier, a very well-respected expert in the field, has doubts about much of its technology. I agree with his assessment.

Some say we are discovering more than enough oil, pointing to Iraq as a potential supplier of 12 million barrels per day, if everything goes according to schedule. This, though, would merely delay the “peak” by three years.

What about the Canadian tar sands? They are producing only 300,000 barrels per day now. Even if that doubled, it would be relatively insignificant.

How about the deep ocean off Brazil? If it hits full production in six years – well, oil will have declined by 24 million barrels per day by then. It is unlikely that field will have twice the production of Saudi Arabia.

Because our current economic recession has caused demand to decrease, we have not been paying much attention to oil supplies and this is why we don’t notice too much that’s unusual. But more and more people are starting to notice the seriousness of the situation and they are starting to speak up.

Several very well-respected people in the world oil industry express their concern in this short video clip. They are: Jeremy Gilbert, former chief petroleum engineer for British Petroleum; Sadad al-Husseini, former VP of Production and Exploration Saudi Aramco; and Chris Skebrowski, Editor, Petroleum Review and Principal, Peak Oil Consulting. They all say we have a very serious oil supply problem.

Jeff Rubin is the former Chief Economist of CIBC World Markets and the author of Why Your World Is About To Get A Whole Lot Smaller. He built his reputation as one of Canada’s top economists based on a number of successful predictions, including the housing bust of the early ‘90s and the rise in oil prices.

In his recent book, Mr. Rubin predicts $225 per barrel oil by 2012 and with it, the end of globalization, a movement towards local sourcing, and a need for massive scaling up of energy efficiency. In this video, Jeff Rubin explains lots of things one would not normally know. There is also a written transcription of the video, if you’d rather read it. Here’s how it starts:

You know, the world’s not running out of oil. There’s all kinds of oil left in all kinds of places. There’s 165 billion barrels of the stuff in the Alberta tar sands. And if we run out of that, there’s tar sands in the Orinoco. And there’s oil 5 to 10 miles below the ocean floor, in the Gulf of Mexico, off the coast of Brazil. And if we run out of that, there’s oil in shales, in places like Wyoming and Colorado. So it’s not about running out of oil. We’re never going to run out of oil.

But what the world is going to run out of, indeed, what the world has already ran out of, is the oil that you can afford to burn. Not just burn in your cars, and 60 percent of all the oil that we consume is consumed in the form of either gasoline or diesel fuel to power those cars. But maybe, more fundamentally, the ways that we burn oil in a million different degrees to which we’re not aware of. But most fundamentally, the way we burn oil to run a global economy. And by a global economy, I mean where we produce something at one end of the world, ostensibly to take advantage of cheap labor costs, to be sold at the other end of the world.

Because, while that model of the economy is based on wage arbitrage, it assumes, implicitly and critically, that the cost of moving goods and parts around the world is trivial or marginal at best. But no matter how we move goods around the world, whether we move them by air, whether we move them by boat, whether we move them by rail, or by truck, we are burning oil. And soon, we will no longer be able to do that…. (read more)

Geothermal is proven technology. It’s also the lowest cost “base power” source, meaning it will put more discretionary income into the hands of consumers. Businesses will flourish and people will have jobs to raise their families.

As a bonus, “off peak” geothermal power can be used to make ammonia, which can be used as a source of nitrogen fertilizer. It can also be used as a transportation fuel for gas and diesel engines, and can be moved and stored with the same infrastructure as propane.

Remember: geothermal is the cheapest answer, and it is the least well-off among us whose electricity will be shut off first when prices skyrocket beyond what we can now imagine.