Tag Archives: Ormoc City

Kenoi Can Guide Big Island into Uncharted Future

Richard Ha writes:

Big Island Mayor Billy Kenoi has consistently made the point that in this changing world, we, too, must change. He pointed that out again recently: That our highest-in-the-nation electricity cost – which is 25 percent higher than O‘ahu’s – is too heavy a burden for the Big Island’s people to bear. To help the most defenseless among us, as well as our local businesses, we need lower cost renewable electricity; not higher cost electricity.

The mayor has consistently been in favor of finding lower cost alternatives to the status quo (which is, of course, dependency on
expensive fossil fuels). The Geothermal Working Group, co chaired by Wally Ishibashi and me and authorized by the Hawai‘i State Legislature, could not have carried out its work without the mayor’s backing. It was an unfunded mandate implemented by volunteers. The mayor just told his people, “Make sure they have what they need.”

Mayor Kenoi is a quick learner; one who gets both the big picture and the small one.

He led a delegation to Ormoc City, Philippines to see how 700 MW of geothermal energy was developed in a place with a population size similar to the Big Island. I was on that trip and saw how the Philippines is way ahead of us in assessing and utilizing its resource. It’s a great credit to Filipino leaders that, as the Philippines incorporates more geothermal into its grid, the country will be very well-positioned to cope in a world of rising oil
prices.

The Philippines produces a large percentage of the food its people eat, too, as compared to Hawai‘i. Our trip also resulted in a university-to-university relationship.

It’s not that geothermal is the only solution. But because we have geothermal here on the Big Island, that fact-finding trip was a responsible thing to do. That was a very practical, useful and cost effective trip Billy led.

Sitting in the middle of the Pacific Ocean, Hawai‘i is vulnerable to events out of its control, and is sailing into uncharted waters. It’s similar to when our early predecessors sailed up from the south to find a better life.

Who can I see leading today’s expedition that carries the Big Island to a better tomorrow?

I see Billy Kenoi as that leader.

Report on Delegation to Ormoc City, Philippines

In late March, I went to the Philippines with a County of Hawai‘i delegation.

The visit, which cost less than $30,000, was worth every penny. I give Mayor Kenoi credit for having the foresight and determination to move Hawai‘i Island toward energy self-sufficiency.

Here’s the Report on the Hawai‘i County Economic Development Mission to Ormoc City, Republic of the Philippines:

March 22, 2012 – March 29, 2012
A delegation representing the County of Hawai‘i, leaders in Hawai‘i Island’s agriculture and energy industries, and the University of Hawai‘i at Hilo, traveled to Leyte Island in the Republic of the Philippines on an eight day mission to achieve three primary objectives:
  1. Sister City reciprocal visit and official signing ceremony with Ormoc City officials. 
  2. Economic development fact finding tour of Leyte’s extensive geothermal energy generation facilities.
  3. Economic development fact finding tour of Visayas State University agriculture programs and area farms to observe how the industry advances regional food sustainability.

 Read the report here.

Health & Safety re: Geothermal in Puna

I was very encouraged at the County Council meeting on geothermal that was held in Pahoa this last Tuesday evening. The community had a chance to be heard.

The Puna community met several times prior to that meeting, and Steve Hirakami, acting as facilitator, identified the community’s main concerns. About 100 votes indicated that the Pele cultural issue was a top concern. Non-Hawaiians taking this position vastly outnumber Hawaiians. Seventy to 80 folks listed health and safety as their top issues.

From the testimony at Tuesday’s meeting, it is clear that the Puna community feels uneasy about geothermal. I understand that the Environmental Committee, chaired by Councilwoman Brittany Smart, will be holding hearings regarding environmental issues – specifically health and safety. The hearings will bring clarity to the issues.

What we do know right now is the State Department of Health does not allow open venting, and requires they be alerted when emissions exceed 25 parts per billion. Note that personal H2S monitors sold on the Internet measure in “parts per million.” A billion is a thousand million. The Department of Health’s requirement is a very conservative one.

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Hydrogen sulfide and sulfur dioxide coming out of the ground at the Sulfur Banks at Volcano, Hawai‘i

I commend Mayor Kenoi for initiating the Sister City relations with Ormoc City and for supporting the Geothermal Working Group, which was operating under an unfunded mandate. He has taken on the goal of making Hawaii County 100 percent reliant on non-fossil fuels by 2015.

That’s a high bar, but he has the guts to aim high. What’s at stake requires us to have a clear goal, for the benefit of all of us. Mayor Kenoi knows that geothermal will result in a better future for us all.

Patrick Kahawaiola‘a, President of the Keaukaha Community Association, told me, “It is about the process” – and so we need to aloha everyone, no matter what side of the issue they are on. And Kumu Lehua Veincent told me: “What about the rest?” He meant that this is about all of us, not just a few.

We all know that oil prices have doubled every 5.5 years recently. If it continues to follow that pattern, we do not have much time to act. We must all work together to find the best solution for all of us.

I visited both Iceland and the Philippines, and in both places open venting is allowed at their geothermal plants in certain circumstances. I learned that Hawai‘i’s air quality standards are very high compared to in those countries.

In August 2000, the EPA issued a report regarding the geothermal well blowout that occurred at Puna Geothermal Venture in June 1991. Read “Report on the Review of Hawaii County Emergency Operations Plan and Puna Geothermal Venture Emergency Response Plan” here. The Environmental Committee can use these findings and recommendations as a starting point.

From that report:

Blowout of well KS-8 June 12, 1991

Cause and Duration

“The blowout caused an unabated release of steam for a period of 31 hours before PGV succeeded in closing in the well. The report finds that the blowout occurred because of inadequacies in PGV’s drilling plan and procedures and not as a result of unusual or unmanageable subsurface geologic or hydrologic conditions.”

“Not only did PGV fail to modify its drilling program following the KS-7 blowout, but they also failed to heed numerous “red flags” (warning signals) in the five days preceding the KS-8 blowout, which included a continuous 1-inch flow of drilling mud out of the wellbore, gains in mud volume while pulling stands, and gas entries while circulating mud bottom up, in addition to lost circulation, that had occurred earlier below the shoe of the 13-3/8-inch casing.”

“PGV personnel took appropriate steps to control the well following the kick. However, there were certain inadequacies in PGV’s drilling operations and blowout prevention equipment. The mud cooler being used was inefficient. Monitoring equipment was not strategically placed. A sufficient supply of cold water was not available to pump into the wellbore to properly kill the well in the event of a blowout. The choke line was not of sufficient diameter to handle the volume of fluid that had to be vented, and there was no silencer on the end of the choke manifold line to reduce noise.”

It’s good that the County Council will be addressing all those issues. We all need to have a common frame of reference regarding safety. Everyone wants to do the right thing.

Dispatch from the Philippines: Visited a Geothermal Production Site

I’m still in Ormoc City. We visited the Energy Development Corporation (EDC) geothermal production site the other day. It generates 700 MW in the Ormoc City area. Its five projects range from 50 to 230 MW in this area, and they have other geothermal projects in other areas.

This is a company that knows what it’s doing. They have expertise in steam field geothermal, the kind that would be most applicable in Hawai‘i.

We toured the Tongonan field, which has a plant capacity of 112 MW. It consists of 17 production wells and 7 reinjection wells. Its source is a volcano that last erupted 100,000 years ago.

EDC is impressive because of its years of experience and because of the social and environmental component of its business philosophy. At EDC, they have been doing this as a part of their business model for many years. They work with the surrounding communities in many areas of mutual benefit – from tax credits, to schooling, reforestation, etc. Each of the plants has a nurse on station. They are very safety conscious.

However, I must note Hawai‘i’s standards for hydrogen sulfide emissions are much more stringent than either the Philippines or the Icelandic operations’.

Puhagan geothermal plant

Palinpinon Geothermal power plant in Sitio Nasulo, Brgy. Puhagan, Valencia, Negros Oriental. Photo by Mike Gonzalez (TheCoffee). Licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license. 

The Philippines, which lies alongside the Pacific Ring of Fire, is the second largest geothermal producer in the world. They are actively developing more geothermal there than the 1,400 MW that exists today. Using this stable, low-cost and proven technology resource will pay enormous dividends to its society in the future.

It is clear to see that as the price of oil rises, and they bring more geothermal on line, individual Filipinos will start to see their standard of living rise. If we in Hawai‘i took similar bold steps, our standard of living could also rise.

Dispatch from the Philippines: Why We’re Here

I’m in Ormoc City, Philippines right now. I wrote before about Ormoc City:

…which has an economy similar to the Big Island’s. Its population is close to the population of the Big Island. They produce 700MW of geothermal, which they share by cable with other islands. We only produce 30MW.

The mayor wants to see how they do it. Since “if they can do it, we can do it.”  Read the rest here

 

Ormoc City and the Big Island are now “Sister Cities,” and it’s fascinating to talk with the folks that were instrumental in developing that Sister City relationship.

Ormoc CityIt started when Council Person Angel Pilago, his wife Nitta, and Jane Clement met at Lito Ilagan’s house in Kona to discuss the possibility of forming a Sister City relationship between the Big Island and a city in the Philippines.

From that small get-together, the idea took off. They explored several criteria of compatibility and found several prime candidates.

As the idea started moving forward, Council Person Brittany Smart asked if it was possible to focus on renewable energy. Lito and Jane did some research and came up with Ormoc City as a candidate. Jane checked its website and called the Mayor of Ormoc City, who picked up the phone. She explained the idea, and the Ormoc City Mayor was interested.

With the Visayan Club of Kona sponsoring them, Lito and Jane asked Hawai‘i County Mayor Billy Kenoi for his support in pursuing this initiative. Mayor Kenoi thought it was a good idea, and that it would be great to have it highlighted at the Asia Pacific Clean Energy Summit and Expo (APCESE).

There were various Sister City proposals coming in from the other counties. But due to the hard work of Angel and Nitta Pilago, Lito Ilagan, Jane Clement and the Kona people, this event was the one chosen to be featured at APCESE.

I was there, at the APCESE conference last year, to witness the signing ceremony for the new Sister City affiliation. Randy Kurohara arranged for a group of us meet with some high-level people from the Ormoc City geothermal generating operations. Their safety and dependability record seemed to be very good.

But we needed to see for ourselves.

So the Mayor put together this delegation to do an obligatory reciprocal ceremony and study tour of Ormoc City. Of special interest to me was the fact that Bruce Matthews, Dean of the College of Agriculture of UH Hilo, had been to the Visayas State University and knew about the school’s ag program. He mentioned to me how similar the soils in and around Ormoc City are to the soils of Hamakua.

And, of course, we are here to learn everything we can about how Ormoc City lives with and benefits from geothermal. For a $30,000 investment in this trip to the Phillipines, the county of Hawai‘i is getting great bang for its buck.

Stay tuned for more Dispatches from the Philippines coming soon.

Price of Oil Stayed the Same for 100 Years, Then Started Doubling Every 5 Years

Except for some spikes in the 70s and 80s, oil cost less than $20 per barrel for a hundred years. Until 2000.

In the year 2000, the price of oil averaged $25 per barrel. And then for 11 years, the price of oil increased an average of 13.5 percent every year. There were peaks and troughs along the way, but 13.5 percent was the average yearly increase during that period of time.

In 2011, it averaged $100 per barrel.

This means that the price of oil doubled every 5.5 years. (Here’s a shorthand way to calculate doubling time: Take the growth rate and divide that into 70. In this case, divide 70 by 13.5 percent and you get approximately 5.5 years.)

Demand is exceeding supply. Something has changed fundamentally, and we here in Hawai‘i need to pay close attention to it.

It’s why Mayor Kenoi is taking a delegation to Ormoc City, Philippines. Ormoc City has about the same population size as the Big Island, a similar ag/tourism-based economy, and a university about the same size as UH Hilo.

But they generate 700 MW of geothermal energy, compared to the Big Island’s 30 MW. The Mayor wants to see for himself, and understand what the risks and potential for reward are for the Big Island.

Mayor Kenoi Asks Why We Aren’t Using Our Geothermal Resource Better

Hawai‘i Island Mayor Billy Kenoi addressed the Kona-Kohala Chamber of Commerce the other day. He asked, “If we have the most productive geothermal in the world, how come we are not using it?”

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The Mayor is serious! He is organizing a trip to Ormoc City, Philippines, which has an economy similar to the Big Island’s. Its populationis close to the population of the Big Island.  They produce 700MW of geothermal, which they share by cable with other islands. We only produce 30MW.

The mayor wants to see how they do it. Since “if they can do it, we can do it.” Mayor Kenoi understands energy issues very well.

People do not say that 100 percent renewable is a dumb idea, but some say it can’t be done. I agree with the Mayor – it can be done, and it will be done. Not no can. CAN!

And the beneficiary of cheap, proven-technology, environmentally benign geothermal electricity will be all the folks and businesses here who are struggling to make ends meet. Perhaps we will see jobs develop that keep our children from leaving Hawai‘i.

Right now, there are more Hawaiians living outside of the state than in the state. What’s wrong with that picture?

From a West Hawaii Today article:

How, Kenoi then asked the crowd, can the island have the most productive geothermal hotspot in the world and not use it?

“It’s not intermittent,” he said. “It’s cheap, renewable, clean power. How can we not have this opportunity to encourage investment and fully develop the island of Hawaii as a 100 percent renewable energy island?”

He said with excess geothermal electricity, “we can have hydrogen to power buses.”

On both the renewable energy issue and keeping Kona’s international airport designation, Kenoi said he is also working with Sen. Daniel Inouye’s office, seeking federal assistance….

Peak Oil in the Rear View Mirror; Geothermal in the Headlights

Last week Wally Ishibashi and I gave a presentation to the Hawaii County Council. There’s a video of our talk up now on local channel 52, where it will repeat from time to time.

Wally spoke about the Geothermal Working Group Report we gave to the legislature. I talked about “Peak Oil in the Rear View Mirror,” from the perspective of having been the only person from Hawai‘i to attend four Peak Oil conferences.

On Monday, I gave an essay presentation to the Social Science Association of Hawai‘i, whose members are prominent members of our community. This organization has been in operation since the 1800s.

From Kamehameha School Archives, 1886 January 21 -1892. Bishop becomes a member of the Social Science Association of Honolulu. All Bishop Estate Trustees and the first principal of Kamehameha Schools, William B. Oleson, are members. Members meet monthly to discuss topics concerning the well-being of society.

And yesterday I gave a “Peak Oil in the Rear View Mirror” presentation to the Office of Hawaiian Affairs’ Beneficiary Advocacy and Empowerment (BAE) Committee.

I was interested to note that the Hawaii County Council, the Social Science Association of Hawaii and OHA’s BAE committee were all overwhelmingly in favor of stabilizing electricity rates. It was clear to everyone that we in Hawai‘i are extremely vulnerable, and also so lucky to have a game-changing alternative.

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Hawaii is the world’s most remote population in excess of 500,000 people. Almost everybody and everything that comes to Hawaii comes via ship or airplane using oil as fuel. As isolated as we are, we are vulnerable to the changing nature of oil supply and demand. There is trouble in paradise.

I explained how it was that a banana farmer came to be standing in front of them giving a presentation about energy.

My story started way back when I was 10 years old. I remember Pop talking about impossible situations, and suddenly he would pound the dinner table with his fist, the dishes would bounce, and he would point in the air. “Not no can, CAN!” And at other times: “Get thousand reasons why no can, I only looking for the one reason why can.” He would say, “For every problem, find three solutions …. And then find one more just in case.”

Once he said, “Earthquake coming. You can hear it and see the trees whipping back and forth and see the ground rippling.” He gave a hint: “If you are in the air you won’t fall down. What you going do?”

I said, “Jump in the air.” He said yes, and do a half turn. I asked why.

He said, “Because after a couple of jumps you see everything.”

Lots of lessons in what he told a 10-year-old kid. Nothing is impossible. Plan in advance.

I made my way through high school and applied to the University of Hawai‘i. But I came from small town Hilo, and there were too many places to go, people to see and beers to drink. I flunked out of school.

It was during the Vietnam era, and if you flunked out of school you were drafted. Making the best of the situation, I applied for Officers Candidate School and volunteered to go to Vietnam.

I found myself in the jungle with a hundred other soldiers. It was apparent that if we got in trouble, no one was close enough to help us. The unwritten rule we lived by was that “We all come back, or no one comes back.” I liked that idea and have kept it ever since.

I returned to Hawai‘i and reentered the UH. I wanted to go into business, so I majored in accounting in order to keep score.

Pop asked if I would come and run the family chicken farm. I did, and soon realized that there would be an opportunity growing bananas. Chiquita was growing the banana market and we felt that we could gain significant market share if we moved fast. But, having no money, we needed to be resourceful. So we traded chicken manure for banana keiki.

A little bit at a time we expanded, and after a bunch of transformations, we became the largest banana farm in the state. Then about 20 years ago we purchased 600 acres at Pepe‘ekeo and we got into hydroponic tomato farming.

Approximately seven years ago, we noticed that our farm input costs were rising steadily, and I found out that it was related to rising oil prices. So in 2007, I went to the Association for the Study of Peak Oil (ASPO) conference to learn about oil. What I learned at that first ASPO conference was that the world had been using more oil than it was finding, and that it had been going on for a while.

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In addition to using more than we were finding, it was also apparent that the natural decline rate of the world’s cumulative oil fields needed to be accounted for. The International Energy Association (IEA) estimates that this decline rate is around 5 percent annually. This amounts to a natural decline of 4 million gallons per year. We will need to find the equivalent of a Saudi Arabia every two and a half years. Clearly we are not doing that, and will never do that.

At the second ASPO conference I attended, in Denver in 2009, I learned that the concept of Energy Return on Investment (EROI) was becoming more and more relevant. It takes energy to get energy, and the net energy that results is what is available for society to use. In the 1930s, getting 100 barrels of oil out of the ground took the energy in one of those barrels. In 1970, it was 30 to 1 and now it is close to 10-1.

Tar sands is approximately 4 to 1, while some biofuels are a little more than 1 to 1. And, frequently, fossil fuel is used to make biofuels. That causes the break-even point to “recede into the horizon.”

But the EROI for geothermal appears to be around 10 to 1. And its cost won’t rise for 500,000 to a million years.

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After the oil shocks of the early 1970s, the cost of oil per barrel was around the mid-$20 per barrel. That lasted for nearly 30 years.

In this graph above, one can see that oil would have cost around $35 per barrel in 2011, had inflation been the only influencer of oil price.

The cost of oil spiked in 2008, contributing to or causing the worst recession in history. In fact the last 10 recessions were related to spiking oil prices.

From late 2008 until mid-2009, the price of oil dropped as demand collapsed for a short time. But demand picked back up and the price of oil has climbed back to $100 per barrel – in a recession.

It is important to note that we in the U.S. use 26 barrels of oil per person per year, while in China each person uses only two barrels per person per year. Whereas we go into a recession when oil costs more than $100 per barrel, China keeps on growing. This is a zero sum game as we move per capita oil usage toward each other.

What might the consequences be as China and the U.S. meet toward the middle at 13 barrels of oil per person?

People are having a tough time right now due to rising energy-related costs. Two thirds of the economy is made up of consumer spending. If the consumer does not have money, he/she cannot spend.

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How will we keep the lights on and avoid flickering lights? Eighty percent of electricity needs to be firm, steady power. The other 20 percent can be unsteady and intermittent, like wind and solar. So the largest amount of electricity produced needs to have firm power characteristics.

There are four main alternatives being discussed today.

  1. Oil is worrisome because oil prices will likely keep on rising.
  2. Biofuels is expensive and largely an unproven technology. The EPA changed its estimation of cellulosic biofuel in 2011 from 250 million gallons to just 6.5 million gallons because cellulosic biofuels were not ready for commercial production.
  3. Biomass or firewood is a proven technology. Burn firewood, boil water, make steam, turn a generator – that’s a proven technology. It is limited because you cannot keep on burning the trees; they must be replenished. And it’s not clear where that equilibrium point is. There are also other environmental issues.
  4. That leaves geothermal.

The chain of islands that have drifted over the Pacific hotspot extends all the way up to Alaska. This has been going on for over 85 million years.

It’s estimated that the Big Island, which is over the hot spot now, will be sitting atop that hot spot for 500,000 to a million more years.

Of all the various base power solutions, geothermal is most affordable. Right now it costs around 10 cents per Kilowatt hour to produce electricity using geothermal, while oil at $100 per barrel costs twice as much. The cost of geothermal-produced electricity will stay steady. Allowing for inflation, geothermal generated electricity will stay stable for 500,000 to a million years, while oil price will rise to unprecedented heights in the near future.

Geothermal is proven technology. The first plant in Italy is 100 years old. Iceland uses cheap hydro and geothermal. It uses cheap electricity to convert bauxite to aluminum and sells it competitively on the world market. With the resulting hard currency, it buys the food that it cannot grow.

Iceland is more energy- and food-secure than we are in Hawai‘i. Ormoc City in the Philippines, which has a population similar to the Big Island, produces 700MW of electricity with its geothermal resource, compared to our 30 MW. Ormoc City shares the excess with other islands in the Philippines.

Geothermal is environmentally benign. It is a closed loop system and has a small footprint. A 30 MW geothermal plant sits on maybe 100 acres, while a similarly sized biomass project might take up 10,000 acres.

In addition, geothermal can produce cheap H2 hydrogen when people are sleeping. It is done by running an electric current through water releasing hydrogen and oxygen gas. One can make NH3 ammonia by taking the hydrogen and combining it with nitrogen in the air. That ammonia can be used for agriculture. NH3 ammonia is a better carrier of hydrogen that H2 hydrogen.

The extra H atom makes NH3 one third more energy-dense than H2 hydrogen. It can be shipped at ambient temperature in the propane infrastructure.

The use of geothermal can put future generations in a position to win when the use of hydrogen becomes more mature.

If we use geothermal for most of our base power requirements for electric generation, as oil prices rise we will become more competitive to the rest of the world. And our standard of living will rise relative to the rest of the world.

Then, because two thirds of GDP is made up of consumer spending, our people will have jobs and we will not have to export our most precious of all our resources – our children.

In addition, people will have discretionary income and will be able to support local farmers, and that will help us ensure food security.

Huge Turnout at Annual Native Hawaiian Convention

I am at the Council for Native Hawaiian Advancement‘s 10th Annual Convention today. More than a thousand people are participating.

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Ku‘oko‘a supports the goals of the Council for Native Hawaiian Advancement

Noe Kalipi, Ramsay Taum and myself, three native Hawaiian board members of Ku‘oko‘a, will speak about our group’s vision for Hawai‘i. We believe that Ku‘oko‘a’s focus on stable, low-cost, clean energy is in line with Hawai‘i’s needs and especially the Hawaiian people’s needs.

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That’s Robin Danner, Council of Native Hawaiian Advancement head, with Department of Hawaiian Home Lands chairman Alapaki Nahale‘a (middle)

To generate electricity, we will utilize geothermal to replace liquid fuel, which is projected to continue rising in cost. It is proven technology that is, for instance, used in Iceland to help make their electricity 100 percent fossil fuel-free. They deliver electricity to their people at less than 10 cents kWh – one-third of what electricity costs on O‘ahu and one-fourth what it costs on the Big Island and Maui.

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Two of our other board members will be keynote speakers at the upcoming Asia-Pacific Clean Energy Summit and Expo.