The New Terminal Conversion Trend, Is It Already Being Exported?

Refinery to terminal conversions have, for the most part, occurred quietly. It’s a trend that hasn’t yet swept the market but is slowly beginning to pick up momentum. Companies like Royal Dutch Shell PLC and Petroplus have made headlines for such conversions but larger investment firms are slowly moving in to capitalize on such investments. Many conversions that have happened here in the United States are due to an excessive amount of shuttered refineries created from government subsidies back in the 1950s and 1970s. By the time crude prices collapsed in 1982, many of the smaller refiners were left at a disadvantage within the market at the hands of huge transportation and financial costs.

Now, these long shuttered and mostly unpleasant sleeping giants are being transformed into useful storage and distribution centers that can also accommodate water treatment facilities and other industrial uses. By breathing life back into these dormant sites, small communities are able to experience quality job growth and local tax revenue from these tracts of land.

As the world’s largest consumer and importer of oil, it is essential that local refiners can continue to run efficient operating budgets while local economies can reap the benefits of the transformed sites. However, as the demand for fuel continues to rise in industrializing nations like China and India, such conversions may have some competition from abroad. In the

Shell Oil refinery in Hemmingstedt, Dithmarsch...

Wall Street Journal’s online edition, Ben LeFebvre speaks to a new phenomenon of Asian firms seeking to “expand their fuel-making capacity” through “cheaper” means by purchasing ex-refineries, tearing them down and exporting the components.

Currently our job market is hemorrhaging and our countries responses to creating new opportunities for American citizens are pithy. It’s clear that no community wants to have a shuttered refinery within their city limits, but if it could be commissioned to supply a varied amount of talent and economic feasibility, why would we want to export American benefits to a competing economy?

ICOSA worked with industry insiders to follow a current terminal to refinery conversion happening in Fruita, Colorado. Pick up the next issue of ICOSA, Infrastructure: Building Tomorrow...Today or visit www.theicosamagazine.com for the story "Converting Refineries to Terminals".

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Dr. Jerry Peterson, Understanding a Nuclear Fellow

On the tenth floor, perched high above the University of Colorado, Boulder campus, teeming with young minds, running eagerly between classes is the office of physics professor, Dr. Jerry Peterson, Ph.D.  His office is quaint but every inch of it is covered. Books line shelves and table tops, papers and binders are stacked high on two separate desks, graphs and charts hang on the walls and sitting atop one of his bookshelves are Geiger counters and a Safeway bag filled with uranium ore. “Come on in, check out my view,” he says to me. Through the only window in the office, he looks out onto the beauty and simplicity of the flatirons that stretch across the Boulder horizon.  It is the perfect juxtaposition to the chaos of his office and the nature of his study.

Dr. Peterson is a renowned expert on nuclear power and served as a Jefferson Science Fellow to the State Department. While his primary duty now is advising students, Peterson spent the latter part of his career advising U.S. officials and members of the intelligence community on issues and ideas pertaining to coal, nuclear energy and the environment.

His capstone class, Technology and Global Security, examines nuclear weapons, information and climate change as phenomenon and technical origins and fixes for problems that his future leaders will face in their careers. He teaches them not so that they know the details but so that they know enough to examine the impacts.

Old Main on the University of Colorado at Boul...

“There is nothing taught about nuclear weapons on this campus except for in my class,” Peterson says, “There is a lot of distaste, especially amongst the educated, for the idea of nuclear weapons or anything nuclear for that matter.” He is clear that people would have a better understanding about the ideas, the issues and the element if people could transmit just enough relevant information about the subject to get their point across.

“People need just-in-time information,” but stressed that, “Public opinion is too often swayed by headlines and less about the facts.” Inherently, with the nature of uranium and the recent attention grabbing headlines like the nuclear fuel meltdown at Fukushima Daiichi, Peterson is sure that people will continue to have a skewed perception about uranium and the nuclear industry.

In lieu of the Daiichi disaster, the industry experienced a substantial setback as prices were validated on growth in the industry.  And while there are currently 433 nuclear reactors actively burning uranium in 30 countries worldwide, the market is still shaky from many worldwide economic variables.

Miningweekly.com quoted junior CanAlaska executives who said the industry had reached “the bottom of the trough” and that there would be “a wave of buying.”  The decline stands in contrast to the desire by many to have access to carbon free energy sources.  The demand is seen in areas that rely heavily on air-conditioning which in turn generates a greater demand for energy growth to existing grids.

“As a 50 percent worldwide urban population, we are more separated from the fundamentals of supply than ever before,” he says, “We’ve created highly engineered complex systems to stay efficient, but that same efficiency we’ve created holds intrinsic dangers." That same efficiency has led us to be unprepared for energy demands that regardless of what people think, are vital to the cog of America and every corner of the planet.

While green energy has pushed its way to the forefront of many industrialized nations and is even spreading into developing nations as well, it has not evolved enough to slow the use of other natural resources that still face increasing demands. Peterson knows this.

The inherent contrast of Peterson’s life is what makes him so fascinating. On one hand he lives in Colorado where the landscape dominates the forefront of people’s minds, however he understands the barriers and opportunities that exist within the energy sector, especially nuclear. As an element that provided roughly 13.5% of the worlds energy last year, according to the Nuclear Energy Institute, it is clear that regardless of people’s fears and environmental concerns, plants will continue to burn uranium.

“Of all environmental hazards it (nuclear) is by far the easiest to detect, you don’t need complicated chemistry. It is an in your face notification of its hazard. Far, far more dangerous and harder to detect is mercury; at very small concentrations it is very hard to measure. Uranium, even at a level far from hazardous clicks loudly and gives you a number on a meter and you know all about it,” he informs me.

The map shows the commercial nuclear power pla...

Like other natural resources, it is important for individuals to understand the process along with the pros and the cons of extraction and production. As the industry remains hard hit there is still a new market for nuclear power.  “It’s been done before, but its the use of smaller reactors. The military did it years ago running radar stations,” he reminds me, “These new kinds of nuclear reactors are smaller, sealed and self-contained. It’s a way for remote mines, oilfields and areas with a weak grid, even small towns to receive more energy.”

Peterson at this point brought me full-circle. In just under an hour and a half he ran through history, talked about implications and gave a clear understanding about the facts of uranium and nuclear’s certain future. At this point I understood the evolution of our conversation and was clear why as a prominent nuclear physicist, he is a leading CU professor and once a Jefferson Science Fellow. He’s relatable.

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Gillette Welcomes Basin Electric's New Coal-Fired Power Plant

Basin Electric's $1.36 billion Dry Forks Station located in Gillette, Wyoming.
Without a cloud in the sky, marked by a surprisingly windless morning in Wyoming; Basin Electric CEO and general manager, Ron Harper, members of the Basin Electric cooperative, along with state dignitaries and citizens, dedicated the new $1.35- billion Dry Forks coal-fired power plant just six miles north of Gillette.
In what could be considered the last permitted coal-powered plant, the 385 megawatt Dry Forks facility was recognized for investing $336 million in environmental controls and a budget of $5 million annually to operate those controls regulated in part by Wyoming Department of Environmental Quality, the State of Wyoming and the Environmental Protection Agency.

A crowd of over 1,100 good-humored people reveled in the finality the dedication provided, concluding over a half decade thronged with permitting issues and technical reviews and analyses of more than 12,000 pages that ultimately delayed the anticipated January, 2011 opening.

“There were amazing hurdles that had to be overcome to get the plant built,” said Wyoming Governor Matt Mead, “Coal is part of our past, present and future.” The Dry Forks facility, which employed 1,300 skilled workers from across the nation during the construction phase, will employ 85 people from the local Gillette community. The station, one of 135 member rural systems that distributes electricity in nine states, will supply enough whole sale power to service 308,000 homes.

For more about Basin Electric and the Dry Forks Station read ICOSA's next issue, Infrastructure: Building Tomorrow Today.

Clean Energy Company, Nokero Solar Light Bulbs

 

 

 

1.4 billion live without electricity.

1 billion live with intermittent electricity.

Kerosene lighting equals smoking 40 cigarettes a day.

Nokero’s keystone product is the world’s only solar light bulb developed to be safe and environmentally-friendly which helps eliminate the global need for harmful and polluting fuels. Most importantly they are affordable to impoverished communities. Benefits include stopping the poverty cycle and creating a sustainable economy.

The bulbs features are:

Durable

Rainproof

Ni-MH battery lasts 1.5 years, and is replaceable

Hangs outdoors for charging

Portable

One state-of-the-art, high quality solar panel

AA-sized recyclable battery

Automatically switches off in bright light to save charge

On/Off switch

Steve Katsaros toured the Edison & Ford Winter Estates and four days later filed a patent and registration for the Nokero Solar Light Bulb. From idea to market took six months. Katsaros, inventor of the Nokero Light Bulb differs from most inventors he knows how to make a company out of an idea.

Tom Boyd, Nokero’s co-founder said, “If you have an idea, make it happen, connect with people who can make the product and protect your idea.” He advises all inventors to register for patents as soon as possible. Boyd uses the reach and power of the media to partner with several other energy industry companies such as Eureka Forbes who will be distributing Nokero’s bulbs. Nokero’s triple bottom line: people, plant, profit expands into emerging markets across 126 countries. Give Light, a Nokero philanthropic program partners with the Navajo Nation, ICOSA in Tafert/Morocco, Project C.U.R.E. and Solar Sister in Africa.

Nokero distribution network is growing, to become a dealer, visit: http://www.nokero.com/dealers.php

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SOLAR LIGHT BULBS TO TAFERT, MOROCCO

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An Initiative Promoting Environmental, Economic, and Cultural Growth

In many indigenous communities the environment provides a means for living. Keeping the environment clean is especially important for those communities, while at the same time adds to the value of life for all people. The UN’s declaration on rights of indigenous people explains they have the right to maintain and strengthen their culture, and pursue their development according to their aspirations and needs. Providing Nokero light bulbs, which does not infringe on indigenous culture but rather helps preserve a traditional culture by bringing a service such as un-polluting light, and it helps maintain a lifestyle of living off the land without the environmental impacts that an on-grid electrical system would produce. This project focuses on bringing a sustainably designed product to a community where the bulb would benefit three-fold.

Background on Indigenous Moroccans

Solar Light Bulbs to Tafert, Morocco













The Berber people are indigenous to Morocco. Their origins are likely in south-west Asia, from second millennium B.C. They are united by linguistic rather than by genetic features. There are several types of Berbers throughout North Africa but the Moroccan Berbers live in the Atlas Mountains. In 40 A.D. and the following 500 years the Moroccan Berbers were annexed by the Romans which left a faint cultural imprint. As the Roman Empire faded the pastoral life of the Berbers continued. They established trade posts with whoever passed their way; often times taking on and letting fall away traditions of invaders and passers-by. By the end of the seventh century the Arab people had reached Morocco bringing Islam and as the settlers before them they welcomed their culture and protection. From time to time the Berbers resisted the Arabs attempts to govern for example the Arabs wanted to administer taxes. The economic advantages were few so any attempts by the Arabs fall to the waste side. In 15th century Morocco became an interest to European countries wanting control of the coastal regions. By the 19th century Morocco was essentially controlled by the Europeans. The Treaty of Fez granted France the permission to establish civil order in Morocco and as such Morocco became a French colony. By 1930 the Berbers and Arabs were under the French administration and for the first time under one rule. In 1956 sovereignty was restored and Morocco was an independent united country.

Who is receiving the solar light bulbs?

Solar Light Bulbs to Tafert, Morocco













Presently Morocco is a developing country. While many highly populated areas are growing and becoming or are established as cities other terrain areas are not. Nokero is a Colorado based company which has a product unlike any in Morocco. While some communities in Morocco can afford to purchase these bulbs, the Tafert community does not. They currently are not serviced for electricity or running water. Most of the region is used to extract resources, which has provided roads some distance away from the community, about 5 kilometers away from Tafert. The population estimate is 30 individuals. Providing more than one light bulb to each individual is ideal. One to use while the other charges or for back up purposes. Meaning a total minimum of 60 bulbs needed. Other communities in this region will want the light bulbs as well so donations are not capped. The more bulbs we have the more we can give not only to the Tafert village but surrounding ones too. Nokero light bulbs will be provided to the Berber village of Tafert at no cost.