Natural gas: An important resource in the 21st century

While the onset of nuclear and hydrogen energy has provided some sort of a drawback for the oil and gas sector, the industry per se may not actually be affected by this energy resource changeover anytime soon. In fact, several studies claim that the major source of energy for the global economy in the first half on the 21st century will remain to be natural gas.

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This is in accordance with the energy source shift pattern that has been observed time again. Mankind has come a long way since the 15th century when dependence on mere animal and biomass sources was at its peak. As levels of technical expertise improved, man has been able to tap into more efficient resources such as nuclear fission and natural gases. By the end of the 20th century, natural gas use already comprised about 20 percent of the world’s energy resources.

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With the gradual obsolescence of fossil fuels such as coal, natural gas remains to be the most viable source of efficient energy. Apart from the remote possibilities of the anticipated ingress of clean coal technology, expected progress in biotechnology to improve the chances of biofuels, natural gas is continuing to being recognized by the vast majority as the fuel of the future.

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While an impending transition may be called into question, leveraging this growing attention to natural gas may still provide players with maximum profitability in the long run.

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REPOST: Texas study points to a longer natural gas boom

This NPR article talks about a study by a University of Texas professor pointing to a longer natural gas boom in the US.


There are few things in life more joyful than discovering a giant oil or natural gas field in Texas. You're suddenly rich beyond your wildest dreams. When the scope and size of the natural gas reservoir in the Barnett Shale in North Texas first became apparent, there were predictions that the find would last 100 years.


Well, that was over the top. But University of Texas geology professor Scott Tinker, who designed and authored a new study of the Barnett Shale, says there's still a lot of gas down there, even after a decade of drilling.


"Turns out, what we learned is that there's a lot of good rock left to drill," Tinker says. "And there's quite a bit of natural gas to be produced in the better areas of the reservoir."


Tinker and his team, who examined more than 15,000 gas wells drilled over the last 10 years, found the Barnett Shale is currently producing an astonishing 2 trillion cubic feet of natural gas every year. Tinker doesn't believe this rate will increase, but he believes the reservoir will last another 25 years.


"It probably is reaching its plateau of production, which is about 10 percent of U.S. demand," Tinker says. "So in that total production, where you've produced around 13 trillion cubic feet so far ..., we still see another 25 or 30 more trillion cubic feet of gas throughout the life of that field."


Some Wells Still Coming Up Dry


With the amazing leaps in imaging technology these days, you wouldn't think thousands of wells drilled in the Barnett come up dry — like the oil wildcatters in the 1930s, '40s and '50s in East and West Texas.


But Tinker says you would be wrong.


"It is kind of like the old wildcatter days," he says. "These unconventional reservoirs are pretty new to the scene. And as the natural gas price was high not that long ago, it really pushed the edges of this field."


That means there are a lot of North Texas landowners driving around in brand new pickups because the energy companies leased their land — only to find out there's no gas underneath.


While concerns about environmental impact have grown as fracking and natural gas production have increased, this study focused on future production of shale-produced gas, rather than environmental concerns.


'The Shale Revolution Is Real'

"It's a very thorough and impressive study," says Scott Anderson, senior policy adviser for the Environmental Defense Fund who specializes in natural gas. Anderson says the study paves the way for increased production of electricity from a commodity that, in the past, has been seen as unreliable and volatile.


"This study does take a large step toward reassuring those people who are interested in banking on gas that the shale revolution is real," Anderson says, "and that it can be expected that large quantities of gas will persist for a long time, at fairly moderate prices."


In fact, shale production has been so vigorous nationally that the price of natural gas has dropped below $4 per million BTUs — generally considered the point at which many gas wells become profitable.


But with trillions of cubic feet of natural gas waiting to be extracted, prices aren't expected to rise unless the U.S. begins to export substantially.


Dr. Ali Ghalambor is the world's foremost expert on petroleum engineering. Visit this Facebook page for more information on the petroleum and the natural gas industry.

Clean energy sources: Why natural gas is better than solar or wind energy

The US consumes more and more gas every year, and with the looming shortage of petroleum, using natural gas is considered the next logical step in US energy consumption.

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But why not consider using solar or wind power instead of natural gas?

Although solar and wind power technologies are cleaner than natural gas, have virtually limitless reserves, and use minimal water resource, these technologies are still too cost-prohibitive for mainstream use. The energy from these technologies is not enough to justify the huge cost to harnest and apply them. Solar and wind farms also require huge tracts of land for efficient energy generation.

Solar and wind power technologies are the future, but they are not the next logical step—natural gas is.

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Natural gas is the cleanest of all the fossil fuels, producing a lot less carbon dioxide than others. It is seen by many environmentalists as an extremely important energy source that reduces pollution for a cleaner and healthier environment. More than 90 percent of natural gas that is consumed by Americans is produced in the US and Canada, decreasing the US’ reliance on other countries for oil. Natural gas supplies in the US are very abundant, with two-thirds of US states thought to hold natural gas reserves, according to National Geographic. Moreover, unlike solar and wind power, natural gas is reliable, even without sunlight or strong winds.

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The US is continuing to find more sources of natural gas, and improving the ways to get it out of the ground and into the system.
  
Dr. Ali Ghalambor is an authority on natural gas engineering, and has written books about the subject. This Twitter page links to more information about his work and the industry.

REPOST: 3M's new nanoparticle technology could make natural gas cars cheaper and more attractive

This Inhabitat article discusses 3M's nanoparticle technology that could make natural gas cars cheaper and more attractive to buyers.

Gas prices have increased at record levels this month, with prices climbing for 20 days in a row, and as gas prices rise, interest in more fuel efficient vehicles go up as well. Automakers have continued to focus on hybrids, electric vehicles and more efficient gasoline and diesel engines, but one fuel source has been largely ignored, natural gas. There are several reasons for this (read on to learn more), but the good news is that several companies, like 3M, are working on nanoparticle technology that could make natural gas cars more attractive. While as green transportation supporters, we think it’s important to point out that natural gas is a sort of temporary band-aid that should not distract us from the ultimate goal of getting truly sustainable electric cars on the road, we’re still excited to hear about 3M’s strides to advance this cleaner alternative to gasoline for the time being.

The first reason and probably the main reason why car buyers do not demand more natural gas powered models is because of the lack of infrastructure. There are only 1,000 natural gas fueling stations across the U.S. and some states don’t even have one. Can you imagine taking a trip across the country in a natural gas car with so few stations in existence? Another issue is that even though natural gas costs less than gasoline, the tanks that are needed to store the fuel are not cheap. The expensive tanks translate to natural gas powered cars costing more than an equivalent gasoline powered model. For example the Honda Civic Natural Gas, the only natural gas powered car available to the public, starts at $26,155, while a comparably equipped, gasoline-powered Civic EX starts around $20k. Although it will take some time to increase the number of natural gas fueling stations, there are some efforts to find ways to reduce the cost of the tanks that are used to store it, which would reduce the overall cost of a natural gas vehicle.

As we mentioned before, 3M is reportedly working on a new product that it claims will allow natural gas to be stored at higher pressures in lighter and cheaper tanks. Natural gas is stored at a pressure of 3,500 pounds, but by using a new material, 3M claims that it can allow storage at higher pressures in more lightweight tanks. Natural gas tanks use carbon composites, which are carbon fibers woven into a cloth-like mat, interspersed with an epoxy to hold them together. 3M’s new method is to put nanoparticles into the epoxy, which will increase the stiffness and strength of the composites. 3M is also lining the inside of the tank with impermeable plastic, which should allow the tank technology to eventually find other uses.

3M has an agreement with Chesapeake Energy, a natural gas company, which will pay $10 million for the technology once the Environmental Protection Agency approves the new product. 3M hopes that better onboard storage, thanks to the use of its new technology will improve the acceptance of natural gas vehicles.

Dr. Ali Ghalambor is one of the world's foremost experts in petroleum engineering. This Facebook page contains more information about his books and articles on petroleum engineering.

Natural gas transmission: Safely providing natural gas to consumers

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Natural gas storage facilities are connected by huge interstate or intrastate transmission pipelines, which move high volumes of gas at very high pressures over great distances. These huge pipes deliver natural gas to smaller delivery points, also called “city gates,” which are managed by local distribution companies around the country. Local distribution companies then transport the natural gas to their respective cities and residential districts through an extensive network of small-diameter pipelines, which, according to the US Department of Transportation PHMSA, is over 2.6 million miles long.

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Industrial facilities, commercial establishments, and electric generation facilities typically get their natural gas supplies from interstate or intrastate pipelines, while local consumers usually get theirs from a local distribution company, which maintains the highest safety standards. They have sophisticated equipment built for pipeline leak detection, they provide natural gas safety training and education programs, and they employ highly trained technicians who are available around the clock in case of emergencies. In addition, local distribution companies also add mercaptan, a harmless chemical that smells like rotten egg, to natural gas to make natural gas leaks easy to detect because natural gas, on its own, is odorless and colorless.

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Natural gas is continuing to become a popular alternative energy source because it is safe, cheap, and easy to distribute. Dr. Ali Ghalambor and Boyun Guo’s book The Natural Gas Engineering Handbook expounds more on this topic, and is a great resource for petroleum engineers and engineering students alike.



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REPOST: Linn energy to buy berry petroleum for $2.5 billion

This Deal Book article discusses the deal between Linn Energy and Berry Petroleum, which involves a $2.5 billion buy-in.

Deal-making in the oil patch continued on Thursday, as Linn Energy agreed to buy the Berry Petroleum Company for about $2.5 billion, expanding its presence in oil-rich shale formations.

Under the terms of the deal, an affiliate of Linn, LinnCo L.L.C., will issue 1.25 million new common shares for each Berry share. That amounts to $46.24 a share, a premium of roughly 20 percent to Berry’s closing price on Wednesday.

LinnCo will then transfer Berry’s assets to Linn in exchange for additional ownership units in its sibling, which is structured as a master limited partnership. Including the assumption of debt, the deal is valued at $4.3 billion.

By purchasing Berry, Linn will significantly bolster its oil production and increase its holdings in California and the Permian Basin in western Texas. The company estimates that its newest acquisition will increase its proven reserves by 34 percent and its production capabilities by 30 percent. And Berry’s reserves are estimated to be about 75 percent oil and liquids, considered to be significantly more valuable than natural gas, given current prices.

Linn cited the growth promised by the deal in announcing an increase in its quarterly distributions to unit holders, to 77 cents a unit from 72.5 cents.

“Berry’s assets are an excellent fit for Linn, and we believe this transaction generates significant accretion to our distributable cash flow per unit,” Mark E. Ellis, Linn’s chief executive, said in a statement. “We have great respect for what the Berry management team has accomplished and consider the Berry employees to be an important part of this transaction.”

To help defray the tax consequences LinnCo will take on in the deal, Linn will pay its affiliate $6 million a year through 2015.

LinnCo was advised by Citigroup, while a conflicts committee of its board was advised by Evercore Partners and the law firm Locke Lord. A conflicts committee of Linn’s board was advised by Greenhill & Company and Akin Gump Strauss Hauer & Feld.

Latham & Watkins served as legal counsel to both Linn and LinnCo. Berry was advised by Credit Suisse and the law firm Wachtell, Lipton, Rosen & Katz.

Dr. Ali Ghalambor is a renowned expert in petroleum engineering. This site contains more information about him and other industry-related articles.

Computerized fluid flow forecast: The rise of reservoir simulation

A subfield of petroleum engineering, reservoir engineering has been growing alongside technological advancement. With the rapid changes in field development over the past few years, there has been a growing need for information on computer-aided engineering practice, and among these, there continues to be a dearth in information regarding the specialized practice of reservoir simulation.

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Reservoir simulation is a specialized area of occupation in the reservoir engineering turf which works on computer models to predict the fluid dynamics in a system. It usually deals with the flow of water, air, and oil as they pass through porous material.

The importance of reservoir simulation lies in its model’s ability to help in important field-related and corporate processes. For one, these computerized models are central to the development of new oil and gas fields. They can also be used in established fields which are production forecast-dependent and help in coming up with important investment decisions.

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This importance of reservoir simulation has become directly proportional to its growth as a science. To cater to the practice’s growing need for literature, some field experts have penned books which may serve as an authoritative text for engineers in the conduct of reservoir simulation. In this regard, industry pundits Boyun Guo, Kai Sun, and Ali Ghalambor concerted efforts to author Well Productivity Handbook, a book which provides up-to-date information on the creation of oil and gas production wells with simple and complex trajectories.

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Dr. Ali Ghalambor is an internationally renowned petroleum engineer, both in the practice setting and in the academe. This Facebook page provides more updates on oil and gas production and frac packing.