Recent data show Marcellus daily production soaring, with gas coming online faster than markets can absorb it. As the AP’s Kevin Begos reports, the combined output from Pennsylvania and West Virginia wells in July was about 7.4 billion cubic feet per day. That’s grown from 3.6 billion feet in April, 2011, and from 4.6 billion feet in August of last year. In his August 5 story, Begos cites Bentek Energy analyst Kyle Martinez as a source of this information. (In search for access to the data, I spoke with Kyle Tuesday and learned that he calculates projections from raw metering data. The U.S. Energy Information Association, which uses Bentek data, has yet to compile an online summary of Bentek’s most current assessment, but it does have a summary to data from August 2011 that supports the trend, which can be found here.)
With this kind of output, as Begos points out, the Marcellus is poised to surpass the daily production of the Haynesville formation, straddling parts of Louisiana, Texas and Arkansas, to become the top producing gas field in the country. Now questions are less about the production capability of the Marcellus (at least over the short term) and more about where all this gas coming on line will go. Will a nationwide glut keep prices suppressed to the point where extraction loses its economic luster or even drive operators to a fiscal breaking point? Or will market forces divert the flow of this domestic bounty to places like Europe and Japan, where gas prices are four times greater than they are in the U.S.? Or will domestic markets begin to open with projects such as a petrochemical plant proposed by Shell Oil in southwestern Pennsylvania, conversion of coal fired power plants nationwide, or natural gas powered vehicles? The daily production numbers that provide the hook to Begos story also represent a compelling gauge of Marcellus prospects for investors. They provide a snapshot that supports a broader sense that the play has been proven. But there is far more to it than that, in the Marcellus region and in other shale gas regions nationwide and globally.
Surging Marcellus production is partly a function of the number of wells drilled, and in this regard its geography is as important as its geology. The location of the Marcellus in proximity to the world’s largest markets in the mid Atlantic and northeast is a factor that cannot be overstated in accounting for its popularity. Compared to gas plays such as the Haynesville in the Gulf, the much lower cost of getting Marcellus gas to market provides a major incentive to drill. That’s the way it stands now, anyway. But day-to-day figures can change dramatically with market dynamics over the course of years; and keep in mind that it will takes decades for the Marcellus, or any other shale play, to reach maturity. (Considering something the EIS calls “proved reserves” the Haynesville versus the Marcellus equation looks very different. In 2010 the Haynesville was credited with more than 24 billion cubic feet of “proven” reserves, compared to 13 billion of the Marcellus. It will be interesting to see the 2011 figures when they are available. See table three in this EIA report U.S. Crude Oil, Natural Gas, and NG Liquids Proved Reserves.)
Judging the amount of gas coming from the ground is one thing, judging it’s worth is another. Projecting the future of a given shale play is far trickier than evaluating its past, because it involves reading the push and pull of present and future market dynamics. Bit there are some very big telltale signs that are worth watching closely, and they involve the tens of billions of investor money big energy companies are committing to projects to develop natural gas markets both domestically and overseas.
Sempra Energy officials have announced a $6 billion liquefied natural gas export terminal at the company’s existing import terminal at Hackberry in southwestern Louisiana. Meanwhile, two multi-billion export projects are on the drawing board in Los Angeles California: Cheniere Energy Partners has secured $5.4 billion to begin modifying its import terminal at Sabine Pass in Cameron Parish for exports; and Energy Transfer Equity LP is planning an export facility at its import terminal at Lake Charles, La. These plants which now sever as import terminals will chill natural gas into a liquid that can be shipped on tankers. As these plans take shape, you may see market incentives to develop shale gas plays closer to the Gulf and Pacific Coasts, which may turn the tables on the geographical advantages the Marcellus now holds. These projects may also face significant long-term political opposition. Exporting has significant drawbacks by saddling areas with the problems associated with extraction without related economic gains. (This is known in economic parlance as “the resource curse,” referring to the paradox of regions or countries with poor economies based on the export of an abundance of non-renewable resources such as minerals and fuels.)
There are also plans to capitalize on the market glut from the Marcellus in the Mid-Atlantic states. One high profile project is a $4 billion petrochemical plant by Shell Oil Co. in southwestern Pennsylvania. The plant, proposed for Beaver County, would use shale gas as both fuel and feedstock for products at the core of the U.S. consumer economy, including fertilizer, textiles, packaging material, and plastics of all sizes and shapes. Economically, this is a good alternative to exporting resources, but there are questions about the size of the public tax subsidy Shell is demanding (now at $1.65 billion) and the degree to which the petrochemical plant will spur growth of other regional business.
Development of both the Shell plant in Pennsylvania, and gas export facilities in the Gulf and the Pacific Coast are still years away. But the fact they are being embraced by capital forces with wherewithal to summon the kind of investment to influence global markets is something to be taken into consideration. While many people are eager to assess the industry based on production figures and policy debates unfolding on a daily basis, it’s important to consider this long-term picture. Big Energy has always adapted to volatile market forces while controlling markets and investment over the course of decades. But there is a factor that they have little control over. In the case of the on-shore drilling boom – enabled by the recent technological marriage of fracking and horizontal drilling – future projections are dependent on a key unknown: How long will each shale gas reserve produce?
While daily production may be booming one year, it can taper dramatically in subsequent years, especially with shale gas wells. The rate at which a given well produces gas over time – both actual and projected -- is called a decline curve. Decline curves attempt to relate initial production rates (IP) with long-term production and ultimately recoverable reserves (URR). Decline curves help operators determine what they can expect out of the well over decades, and calculate things such as the amount of re-fracking and related expenses a given well will require to keep it flowing. Interpretations and analyses of decline curve projections for shale gas vary greatly. (For more on the problems associated with projecting decline curves, check out Greg McFarland’s "Shale Economics, Watch the Curve," or Mike Markes’ “Does I.P. Mean Investor Problems?” Both evaluations are in the Oil & Gas Evaluation Report.)
Perhaps one of the greatest examples of the uncertainty of this kind of analysis is the discrepancy between figures provided by the most trusted industry sources to answer a question that is the starting point of all long-term projections: How much recoverable gas is in the Marcellus Shale? As recently as 2010, the U.S. Energy Department estimated the Marcellus held 410 trillion cubic feet of recoverable gas – a projection based in part of the work of Terry Engelder, a Penn State Geologist who became famous for his study of the Marcellus. In August of last year, the federal government cut its estimate of undiscovered Marcellus Shale natural gas by as much as 80 percent after an updated assessment by the United States Geological Survey. Prior to Engelder’s work, the USGS estimated the Marcellus contained only 2 trillion cubic feet. Subsequently, the USGS had revised its estimate to 84 trillion cubic feet – far more than the its original estimate, but far less than Engelder’s calculation, which was close to 500 trillion cubic feet.
While the uncertainty caused by differences between these projections is a lot, it’s nothing compared to the noise in the system introduced by commercially and politically derived hype. A recent notable example is Ohio Gov. John Kasich's claim that a single energy company could recover $1 trillion worth of oil and gas from the state's (largely unexplored) Utica shale reserve. AP’s Julie Carr-Smyth put this outsized claim into perspective: At current oil prices, that figure represents more than four times U.S. oil production last year. Viewed another way, every drop of oil produced in America for the next four years will be worth roughly $800 billion, based on current prices and production rates. (Arthur Berman, a Texas-based petroleum geologist and independent energy consultant, told Smyth "My best estimate is he’s probably wrong by a couple of zeroes.")
How long will shale gas be viable and what will be the cost of future extraction when factoring in social and environmental factors? That sort of question is keeping more than a few policy makers and politicians very busy. It’s a question that extends beyond daily production values. Ultimately, the answer will determine the legacy for the next generation.
A blog by Tom Wilber, journalist and author covering Marcellus and Utica shale gas development
Showing posts with label cracker plant. Show all posts
Showing posts with label cracker plant. Show all posts
Wednesday, August 15, 2012
Tuesday, January 31, 2012
Natural gas war pits Saran Wrap against Honda Civic GX “Cracker plant” and vehicles vie for shale supplies
![]() |
Shell's Pulau Bukom plant off Pulau Hantu reefs in Singapore The site of a similar plant in Appalachia is to be determined PHOTO COURTESY OF WILD SINGAPORE |
Maybe. In giving this assessment the critique it deserves, it’s important to keep in mind that Obama’s favorable tone towards shale gas development is nothing new. His energy blueprint, released last summer, characterizes domestic oil and natural gas supplies as “critical components of our Nation’s energy portfolio.” He has already supported an unsuccessful initiative in Congress to provide tax credits to natural gas vehicles and infrastructure. In an election year, then, it’s no surprise that Obama is counting on the country’s eagerness to find fixes for the economy and the environment, and on the face, “clean energy” seems to do both.
If only it were so simple. A complicating factor is that one person’s clean abundant natural gas is another person’s environmental problem. Hydraulic fracturing necessary to produce shale gas also produces unprecedented amounts of waste. No need to go into details here given the coverage this gets in other venues, but take a look at the EPA investigations in Dimock, Pa. and Pavillion Wyoming for more. Even without a set of hurdles being placed in the path of shale gas development by the anti-fracking movement (most notably in New York State) and possibly by the EPA itself, Obama’s plan for natural gas as a bridge to cleaner energy has to pass the test of market factors.
For natural gas production to flourish, prices will have to go up, and that means demand will have to increase. For demand to increase, new markets must be developed. To address this, Obama is counting on providing infrastructure and incentives to fuel vehicles – like the Honda Civic GX -- with natural gas. But before this can happen, Obama, if reelected, would have to resolve a fight between two opposing capitalist heavyweights. On one side is Koch Industries, a $100 billion privately held conglomerate with major holdings in cattle, timber, and oil controlled by Charles Koch and his brother, David. On the other is T. Boone Pickens, the outspoken natural gas tycoon and creator of the “Picken’s Plan” which seeks to convert the nation’s vehicles to natural gas.
Koch -- teamed with Dow Chemicals and lobbyists from the petro-chemical manufacturing sector which makes things like plastic wrap to nail polish – have already stalled the Picken’s Plan once, and there’s no reason to believe future initiatives to give tax breaks to natural gas vehicles will overcome this formidable resistance. That’s because the Pickens Plan would hurt Koch Industries on several fronts. It would reduce the need for pipelines and oil refineries, in which Koch is heavily invested. It would also, by raising demand, raise the price of natural gas and encroach on a cheap, abundant supply of feedstock, including ethane, that the petrochemical companies use to make products ranging from plastic wrap to fertilizer.
That brings us to the latest natural gas saga unfolding in Appalachia: The “cracker plant.” As reported by various regional and national press, Pennsylvania, Ohio and West Virginia are in the running to land a multi-billion dollar petrochemical processing plant – a “cracker plant” – overlaying the Marcellus and Utica shales. The plant, by Shell Oil, would use shale gas as both fuel and feedstock for products at the core of the U.S. consumer econmy, including packaging material and plastics of all sizes and shapes. Where will this plant go? Answer: Wherever it can get the biggest tax break. There is supposedly an abundance of shale gas to supply this endeavor. But is there enough public money to feed the interests of both Pickens and the petrochemical industry supported by Koch? That may be very well for the victors of this year’s elections to determine.
UPDATE MARCH 16, 2O12: Shell chose a site in Potter Township for further evaluation for its plant. CLICK HERE for more.
UPDATE MARCH 16, 2O12: Shell chose a site in Potter Township for further evaluation for its plant. CLICK HERE for more.
Subscribe to:
Posts (Atom)

