May 03

Fracking Does Not Need More Regulation, Report Says

By Curve hydraulic fracturing, natural gas in Europe, San Leon Energy, shale gas No Comments »

 

There is no need for more environmental legislation in the case of shale gas exploration, at least until it reaches commercial scale, says a new study published by the European commission.

The activities relating to exploration of shale gas are already subject to EU and national laws and regulations, says the report, carried out for the European commission by Belgian law firm Philippe & Partners.

Water protection issues, for instance, which have been raised as an issue by shale gas detractors, are already covered by EU legislation under the Water Framework Directive, the Groundwater Directive and the Mining Waste Directive. Meanwhile, the use of chemicals is covered by the REACH regulation, the study says.

“It is a new technology and we do not have a specific legislation on shale gas, because it is so new,” said Marlene Holzner, European commission spokesperson on energy.

“So the study only says that the existing regulations are applicable for shale gas, that the tool is there and has only to be applied,” she told EurActiv, adding that the study was carried out only in four countries – Poland, France, Germany and Sweden. It was released on 27 January.

The law firm said shale gas activities were too small at the moment to justify specific legislation. “Neither on the European level nor on the national level have we noticed significant gaps in the current legislative framework, when it comes to regulating the current level of shale gas activities,” the study says.

This is, however, not a reason for “complacency”, the study says, since the assessment refers only to the current scale of operations in Europe. Shale gas exploitation on a commercial scale would involve bigger maneuvers, it adds.

Europe has less experience in exploring shale gas formations as a new source of natural gas and no commercial scale exploitations have taken place yet, but this “is expected in a few years’ time”, the report says.

Shale gas is an unconventional source of natural gas and studies show different results on how safe the two main methods of extracting it from rock formations.

One is the horizontal drilling in various regions of the rock, which is needed to capture the gas pockets. The other, hydraulic fracturing – or ‘fracking’ – involves a high-pressure injunction of fluids usually mixed with chemicals into shale rock. Both of them require seismic and drilling permits, as well as large amounts of chemicals and water.

Only after conducting consecutive tests for drilling and fracturing does a project reach the stage of planning and acquiring the needed pipeline, followed by the decision to bring the extraction to a commercial scale.

In a few years’ time, investors might find themselves in need of making a decision on the commercial development of their shale gas projects, a situation which is not covered by the EU study published on 27 January.

Poland, which aims to shrug off its dependency on Russian gas, is planning to begin commercial shale gas production from 2014, Prime Minister Donald Tusk said last year. Most of the projects are currently at the phase of seismic surveys and some projects already have entered the drilling phase, which is expected to intensify after 2014.

The natural gas trapped in shale rock in Poland could provide the country with enough fuel to last for 300 years, the US Department of Energy said last year.

However, not everyone is willing to allow drilling operations on their land, despite the economic potential. At the beginning of January, thousands of Bulgarians protested against exploration for shale gas over fears it could poison underground water, trigger earthquakes and pose serious public health hazards.

Source: The Guardian
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Apr 02

Prospective Resources Estimates Announcement

By Curve San Leon Energy No Comments »

 

San Leon Energy, the fast growing oil and gas company with an extensive portfolio of assets across Europe and North Africa, notes this morning’s announcement from Longreach Oil & Gas Ltd (Longreach), updating on the independently evaluated resource estimates for the Foum Draa and Sidi Moussa licences, offshore Morocco, by Netherland, Sewell & Associates Inc. San Leon owns a 42.5% net operated interest in these licences.

The full announcement by Longreach stated the following:

Prospective Resources Estimates

Longreach is pleased to announce prospective resource estimates for offshore licences Foum Draa and Sidi Moussa, independently evaluated for the Company by Netherland, Sewell & Associates Inc. (NSAI), in accordance with NI 51-101 disclosure requirements.

NSAI have estimated unrisked prospective resources, as of 31st December 2011 for 14 identified prospects and 8 additional leads located in the Foum Draa and Sidi Moussa licences, offshore Morocco. The prospects are Triassic to Paleocene in age and there are a variety of trapping mechanisms such as tilted fault blocks, stratigraphic pinch outs and salt related traps over and against salt diapir flanks. The reservoir rock types are mainly sandstones, but there is also a shelf edge Jurassic carbonate play.

Unrisked prospective resources have been estimated as follows:

Unrisked Prospective Resources

Gross (100 Percent)

Longreach Gross Interest¹

Oil

Gas

Oil

Gas
Category

(MMbbl)

(Bcf)

(MMbbl)

(Bcf)
Low Estimate

751.7

302.9

56.4

22.7
Best Estimate

2138.8

1008.5

160.4

75.6
High Estimate

6105.3

3145.3

457.9

235.9

¹ Figures calculated net of ONHYM’s 25% back in, giving Longreach with a 7.5% working interest

Unrisked prospective resources are the arithmetic sum of multiple probability distributions. Longreach owns a 7.5% interest in these prospects and leads. A copy of NSAI’s report has been filed on SEDAR.

A dataroom to attract industry partners ahead of commencing a drill campaign was opened on 22nd February and will remain open until 4th May 2012. 18th May has been set as a date for receiving note of Interests from prospective farminees, with final bids to be received by 15th June 2012.

Commenting, Bryan Benitz, Chairman and CEO of Longreach, said:

 

“Management believes that these unrisked prospective resource estimates reinforce the excellent work that Technical Operators, Serica Energy have done on these licences over the past two years and demonstrate the significant potential these licences have. The largest identified prospect, Apricot, is a stratigraphic pinch out play concept with dual target potential. NSAI’s report states the best estimate of unrisked prospective resources to be 584 MMbbls and 350 Bcf for this dual target prospect, which management believes is significant in its own right.

 

The dataroom has already attracted significant interest and we look forward to concluding this process in June.”

Source: San Leon Energy

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Mar 19

Unconventionals in Europe: More Like Canada

By Curve Europe, unconventional gas No Comments »

Indeed, Canada might be a better analogue than the US for the development of unconventionals in Europe, according to Paul Chernik, Business Development Manager with ERC Equipoise, who was attending the Unconventional Gas Forum in Barcelona, Spain.

A Canadian himself, he recalled: “The major shale play in Canada is the Horn River, which did not have a large level of local oil and gas infrastructure, before it was brought in to investigation by the exploration companies,” he explained. “As a result, they’ve had to invest capital with limited return on investment to date. They’ve been going through the challenges of building pipelines and facilities, trialing different drilling and completion strategies, identifying markets, considering LNG facilities, improving operational efficiencies, etc. These are similar challenges that Europe will face from a capital development point of view.

“In addition, in Canada most landowners do not have freehold rights for their acreage; as a result they do not receive direct royalties from the production of oil, gas or condensate on their land, which is a similar situation to most of Europe as far as I’m aware. This is unlike the States, where many landowners receive a direct payment, and are more inclined to allow oil and gas activities on their land as a result.”

“So the lessons learned from Canada in terms of the amount of money that has to be spent on the development of shale gas play and the challenges with getting local buy in are similar to what Europe will face going forward. Quebec and Nova Scotia going forward will be especially similar as neither has a strong history of onshore development. ”

Still, he said, Europe would have to leapfrog over some challenges.

“The major challenge is that a certain level of capital investment is needed to make the decisions as to whether the reservoirs are suitable or not. Right now the number of wells and the number of technologies trialed is insufficient to ascertain whether the current shales being targeted are suitable reservoirs for hydrocarbon production. More investment is required.

“In addition, there needs to be a greater focus on raising public awareness as to the benefits to local communities and the country as a whole of shale gas developments. Without the support of local communities, it will be difficult to implement economic shale development on the scales required.”

Chernik said that ERC Equipoise, a reservoir evaluation specialist group that performs seismic interpretation, static modeling, reservoir simulation, reserve auditing, acquisition and divestiture advisory work as well as commercial analysis, had worked with clients focused on shale gas in the UK and in Poland.

One driver for the development of unconventional gas in Europe appeared to be significantly stronger in the “new” Europe.

“I think that Eastern Europe will play a more prominent role in the near future, because of the issues with gas supply coming from Russia,” he explained, taking note of this year’s cold winter. “As the cold snap hit Eastern Europe, the gas prices went up and therefore I think interest in an alternative gas source will be greater in those parts.

“For Western Europe, it’s hard to say – the greater access to LNG and to diverse infrastructure means that the pressure to diversify supply isn’t quite so high.”

Despite this, Chernik said that unconventionals development in the UK, where ERC Equipoise is located, was obviously progressing with Cuadrilla Resources’ activities in the north.

“There’s also some discussions with other shale gas landowners in the United Kingdom. I can think of several companies – one that’s publicly talking about it, IGas Energy – and a couple of others that are looking into it on a confidential basis at this moment, and the result will be that after a period of study, they will have a sense of whether their shale has a potential for shale gas or shale oil development. It depends whether or not companies invest the money in the next 2-3 years to be able to make that decision.”

He said land access was the biggest issue for unconventionals in the UK.

“There needs to be a concerted effort by producers to get landowner buy in to this whole shale gas/shale oil development concept,” he explained. “Historically the UK has been quite wary of onshore developments and people seem to dislike visual reminders of oil and gas activity. An example is Wytch Farm, which is a very successful field, but where the operator had to take special care to limit visual and environmental impacts. So I think that shale gas producers have to look at how conventional producers have had to deal with the challenges of landowner access to figure out how they’re going to do it, and then adapt it to the more large-scale fracture operations that shale gas needs.

“It will be a tough challenge because the lack of royalties,” he added.

Source: Natural Gas Europe

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Feb 09

Addendum to ExxonMobil Story; The Original Announcement

By Curve natural gas in Europe No Comments »

 

Following on from the story earlier this week on Germany’s renewed investment in the unconventional gas industry, we’re publishing the original piece from “Handelsblatt” detailing the announcement from the head of the company’s Central European Operations, Gernot Kalkoffen. An addendum of our own – we’ve used Google translate here with a bit of our own tidying up, so please take that into consideration!

International energy companies rely on vast natural gas fields in North Rhine-Westphalia and hope to generate billions of dollars in revenue. The U.S. oil giant Exxon Mobil plans to invest heavily in “Dallas in Münster” to search for sources of natural gas. ”We expect to invest in the hundreds of millions during the exploration phase,” said Gernot Kalkoffen, head of Exxon Mobil Central Europe.

Just how high will the sum actually be, depends on whether the gas also exists in the concentration necessary to benefit the economy. ”If successful, this could be mean an investment of billions of dollars,” said Kalkoffen. This was the first time he had spoken publicly about the potential for exploration.

Nine companies want to search for natural gas and have secured options on several areas of the province. Overall, North Rhine-Westphalia could be harbouring reserves of 2 100 billion cubic meters of gas, the second largest natural gas deposit in Europe.

The benefits of success for the state would includ mining royalties and new jobs. In addition, municipalities collect the business taxes, when natural gas is mined on their territory. An example of this is in Lower Saxony, where a total of 27,000 jobs have been created by natural gas. Gernot Kalkoffen, chief of the Exxon Mobil Central Europe, spoke exclusively with Handelsblatt about the find.

Handelsblatt: “Mr. Kalkoffen, Germany is not in a gold but in a GAS rush. Do you think that the deposits are economically viable?”

Kalkoffen: “We are still at an early stage of exploration. But the theoretical potential is relatively large. The question is whether the gas is present in sufficient concentration to promote economic growth and stability.”

Handelsblatt: “The first test drillings have been carried out, how do the results look?”

Kalkoffen: “If you’re looking for an economical assessment, then it’s too early to tell. For unconventional gas, there are two components that have not been promoted in Germany: gas in coal seams and shale. Exxon Mobil has made two coal seam drilling holes and four wells in shale gas. Both need to be investigated further.”

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Jan 12

European Unconventional Gas Summit Sees Real Picture

By Curve natural gas in Europe No Comments »

 

A presentation at the European Unconventional Gas Summit in Poland has shown the real face of unconventional gas exploration – and is encouraging the whole world to take a look:

They were images that did look a little bit destructive, images rarely – if ever – seen at an unconventional gas conference in Europe: a huge land moving “vibrator,” equipment that was leaving a giant furrow on the farmland in its path.

The pictures belonged to Jakub Kostecki, CEO of New Gas Contracting, a provider of sourcing, landman and permitting services to the nascent oil and gas industry in Poland, who showed his pictures from the ground to attendees at the European Unconventional Gas Summit in Krakow, Poland.

“When we get to local communities and say there will be a small footprint left by what we are all doing we have to remember that they will remember this picture,” he explained. “Of course there’s nothing wrong with this as long as there’s a crew right behind the vibe to appraise the damage and another one right behind them to fix it.

He recalled that many of the communities his company worked in had seen screenshots and video of vibrators “lurking in the forests,” an image that had been played over and over on Polish television.

Kostecki explained, “Local communities will have seen these images a couple of months before seismic crews come into the area.”

“If you take the ostrich approach – hiding your head in the sand – that’s not going to work,” he continued. “Some regions of Poland are used to seismic acquisition. Others are not. In places like Ilawa in the north, which has never seen vibes, this needs to be explained to the community. They need to be told what’s going on.”

He said that the visibility of these issues would become higher as activity increased in Poland.

“Most of the acquisition in Poland has been 2D. When the 3D, 3C and VSP work starts there will be a lot more equipment and people on the ground. Next year there will be many more crews and a lot more issues.”

In terms of wellsite permitting, Kostecki said: “We provide landman services, which basically means that we help the operators enter parcels in Poland and put rigs on the ground. O&G operators will encounter serious delays in Poland because their land issues aren’t sorted properly.”

He said his company, New Gas Contracting, was in the process of securing 220,000 permits for one of the 2D programs. In addition to providing landman services and wellsite permitting, NGC was negotiating with local landowners, and gminas, on where to set up rigs.

“Many (O&G companies) go in where it’s easiest to get equipment. Others will look at the plot from a technical standpoint – where the sweetspot is,” he said. “Still others will negotiate until they get the right price.”

Kostecki explained that after 8 September local communities had seen what a well looked like. “The 10 wells already drilled in Poland have made the public aware.”

He noted that because the shale gas industry was made up of majors, supermajors, and small companies from all over using different approaches with different corporate cultures, it affected how each of them interacted with local communities.

He showed a photo of a drilling site which he considered well organized.

“We need to remember that the local authorities are the local population, so you need to tread lightly,” opined Mr. Kostecki, who said that there could be up to 300 wells drilled in Poland by 2013.

“We’re talking about a lot of land, a lot of wells. It will be a huge issue and everybody needs to have a strategy going forward.”

In terms of roads, he said access was a huge issue in Poland. “The road capacity tonnage is way too low and the way we deal with communities affects what kind of exemptions are available. There’s a lot of talk about more federal, more standardized regulation,” he said.

He added, “A lot of traffic is needed to get the seismic, drilling and fracking equipment onto a given piece of property.”

Source: Natural Gas for Europe

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Jan 12

Shale Gas Technology: 30 Years in the Making

By Curve natural gas in Europe, unconventional gas No Comments »

 

Natural Gas for Europe tells us all about a research institute where unconventional gas is nothing new:

While unconventional gas was below the radar until the last several years in the United States, one research institute there has been working on the topic for decades.

According to Trevor Smith, Program Manager in Unconventional Gas Sustainability, the Gas Technology Institute (GTI) had been working on unconventional gas development for the last 30 years, and that included coal bed methane and shale gas studies. He told delegates in attendance at the European Autumn Natural Gas Conference in Paris, France of the Institute’s experience with unconventional gas.

He explained that GTI, which was based in Chicago, had 250 staff, and was the only not for profit in the US focused solely on natural gas.

“Although the technology has been developing for over 30 years, the stakeholders have only known about it for a short time. Society’s reaction so far has been mixed,” he explained. “A harsh spotlight has been based on the industry’s practices.”

“Industry knows the technologies are proven,” he contended. “For those outside the industry, technologies appear new, novel, dangerous, untested.”

Mr. Smith said it was necessary to separate the facts from fiction regarding the technologies – hydraulic fracturing and horizontal drilling – in Europe.

“This has occurred because of a significant vacuum,” he said of the public’s misconceptions. “There is little information about the science behind the technology. In the absence of good information, some people have formed their own conclusion.

“More difficult to change people’s beliefs after the fact,” he added.

He noted that instead of talking rationally with other groups, those protesting against unconventional gas “climbed up on ladders and shouted their judgments.”

“It’s as much about the science of human behavior as it is about unconventional gas technology,” explained Smith, who touched upon the environmental issues, real and perceived.

He said: “Water is obviously at the core of the environmental debate. Greenhouse gasses are at the forefront of people’s minds when they think about shale gas.”

His presentation showed a typical well site in the US, a farmer’s backyard in Arkansas, on which one could see construction debris, road damage, and the drilling footprint.

Smith commented: “With these images it should be no surprise about the lack of comfort over shale gas production.”

He went on to mention a better solution for Europe: multiple wellheads on a single well pad.

“Wells should be constructed with great integrity,” he said. “Fraccing fluids should not find their way into shallow sources of potable water.”

According to Mr. Smith, sound regulation built public confidence, as did a commitment to sustainable development.

“We must acknowledge that there are environmental impacts and that these impacts can be managed,” he concluded.

Source: Natural Gas for Europe

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Dec 12

Shale Gas Could Add 270,000 Jobs by 2015

By Curve shale gas No Comments »

 

While Offshore Oil and Gas Magazines article speaks mostly about the US shale gas potential, employment affects all countries – and those with shale gas could reap some major job benefits:

Shale gas development has already created a booming new industry in many areas of the country, but a new report suggests that the sector could add hundreds of thousands of jobs in the coming years, according to the Houston Business Journal.

The report, released by research firm IHS Global Insight, places the shale natural gas industry at around 600,000 workers throughout the U.S. last year. In the coming years, however, this number could grow by 45 percent, reaching 870,000 by 2015.

By 2035, the number of employees could actually swell to 1.6 million, and the direct tax contributions could reach $57 billion annually, according to Bloomberg. Between now and then, shale gas exploration and production could provide as much as $933 billion in tax revenue.

Meanwhile, the indirect benefits of the industry could prove even more substantial, with each high-paying gas development job leading to the creation of two to three other positions.

“Shale gas combines a capital-intensive industry with a broad domestic supply chain,” John Larson, a vice president at IHS, told Bloomberg. “We think that these jobs through 2015 are net new jobs because of high unemployment.”

Source: Offshore Oil and Gas Magazine

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Nov 08

Unconventionals: What’s in it for Poland?

By Curve Poland No Comments »

 

Once in production, shale gas players in Poland will have to give a certain percentage of their profits to the state.

It’s not the first time that Polish leaders have had to figure out what the country’s take would be of resources mined in the country, according to Krzysztof Rogala, Expert at Poland’s Jagiellonian Institute who spoke at the European Unconventional Gas Summit in Krakow, Poland.

He recalled the history of mining in Poland from the 10-11th century, explaining that agreements were made with local rulers of the government’s take in production of minerals, gold and silver.

Mr. Rogala said there was a bill in Poland on the principals of exercising the mining rights to hydrocarbons. He reported that a proposal would be submitted just after the Polish National Assembly election, which took place on October 9th.

He said there were some main assumptions: “It will change as little as possible the existing legal structure. The governing law will still be the Mining and Geology Act, which was changed in June.”

A crucial factor, he said, would be a clear definition between the state and the company which is going to produce the gas.

“A contract can be no longer than 50 years, and the remuneration is paid in installments or upfront – there’s nothing more in the law,” explained Mr. Rogala, who added: “Old mining companies belonged to the state, but now it’s an important thing for producers. How can you prepare a business plan if you don’t know the government take? Today there is no final arrangement regarding this.”

He spoke of the unbundling of the exploration and exploitation licenses, mentioning explorers’ five years of exclusivity to the information they’d produced. “There is still an automatic change from the exploration to the extraction concession,” he said.

Among the key ideas were the establishment of a 100% state owned joint stock company called “Staszic” whose purpose was to manage the state’s interest. Rogala explained: “It will have compulsory interest in each of the SPV’s dedicated for each mining usufruct contract; the SPVs must have registered seats in Poland.”

Rogala thought the minimum government take would be 40% of sales revenue.  According to him, a state owned fund would be created, which was financed by the government’s 40%. Under the authority of the lower house of Parliament, 90% of the money would be invested outside of Poland, and 10% would go towards science and debt financing.  He said the main benefits of the new bill would be the standardization of mining usufruct contracts, and it would minimize risks.  Rogala stated: “It minimizes the need for adaptation for companies, because so little has been changed.”

Discussion continued with Maciej Olex-Szczytowski, Special Adviser on Economics to Polish Foreign Minister Radoslaw Sikorski, talking about Poland’s Policy on Unconventional Gas.

He said that policy had emerged by the actions from a number of ministries and through their consensus, adding, “Things may become more formal in the future.”

Mr. Olex-Szczytowski took note of national Polish interests versus those of the EU regarding shale gas, noting that energy mix was a national matter within the EU.  He commented, “It’s the most detailed regulatory structure in the world, assuring member states official structures every kind of control over shale gas. There are no unusual environmental risks.”

His slide listed risks such as for water, seismic activity, or fugitive methane.

“It is the inevitable transitional fuel,” he said of natural gas. “It fits in with EU climate policy. What is worth emphasizing is that it also fits in with the EU’s avowed aim of greater economic efficiency.”

He said that Poland was also aware that there was opposition to unconventional gas, noting that there was opposition to it where its success was seen to be against a member state’s national interests.  Mr. Olex-Szczytowski said: “We believe strongly that the EU should not impede the development, but should be developing the capacity, the know-how among these majors and smaller entities.”

He listed Shell, Total, Eni, BP, OMV, PGNiG and PKN Orlen and said their development in the sector should not be impeded.

Regarding Poland’s strategy, he divulged that one part of it was to monitor the European Commission’s moves as well as the European Parliament’s reports and hearings on shale gas.  Within Poland he said authorities were working to make the country a better host environment, and facilitate a good price for producers.  Poland was happy, Olex-Szczytowski said, to see Romania and Bulgaria and others getting into unconventional gas. “We have a dialogue with them.”

According to him, European legislation regarding unconventionals should stay as it is.

“We believe that today’s regulatory structures are absolutely adequate, that the current regulatory context is adequate. If it needs to be changed it will be changed with all of the countries involved,” he said.

The Polish Foreign Affairs ministry was also in touch with what was going on in the European Parliament, according to Olex-Szczytowski who noted that the report from the Committee on Environment, Public Health and Food had been heavily criticized.

“The Polish EPP group ran an expert hearing,” he explained. “It’s significant because people they’re not famous for their support of shale gas. PGNiG was one countervailing voice at that particular session.”

“We absolutely understand that what we need to do is create an environment that will have a positive effect on the exploration effort,” said Mr. Olex-Szczytowski, who explained that the Ministry of Foreign Affairs had led the charge and was still the frontrunner with the EU and elsewhere.

He commented, “We have a plethora of contacts, and understand what motivates companies.”

Given the size of Cuadrilla Resources find in Blackpool in the UK, he said it could become more of a focus in Europe.

“We’re monitoring it as far as we can, like what’s going on in the field in terms of local concerns. We will support it to the extent we can to convince the population of its rectitude.”

He said that the Ministry wanted Polish local enterprises like Orlen Upstream and PGNiG to succeed more.

“We want to develop the development of local industry,” he explained. “It’s not realistic nor cost effective to bring everybody and everything from abroad.”

Finally, Mr. Olex-Szczytowski showed a chart of the current work on pipelines that was being done, potential routes of shale gas into Poland’s pipeline system.and key investments planned or underway.

He pointed to the Świnoujście LNG terminal as an indication that diversification of sources was a reality.

Source: Natural Gas for Europe

 

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Nov 03

Shale Gas: The Saviour of the U.S. Economy?

By Curve natural gas in the USA No Comments »

 

With talk of Greece holding the future of the world’s economy in its hand and the U.S. looking for a solution to global financial problems, Bloomberg says shale gas could reignite the American economy – and therefore have a huge global impact on world finances.  It’s a long piece – but it’s worth a read:

In late 1998, Chesapeake Energy Corp., an independent natural-gas producer based in Oklahoma City, exemplified an industry in decline.

The company’s stock price had fallen over two years from above $34 a share to 75 cents. Its market value tumbled 93 percent, to $72 million. “They’re running up a down escalator,” Michael Spohn, an analyst at Petroleum Research Group, said.

When Aubrey K. McClendon, Chesapeake’s chief executive officer and co-founder, announced he might sell the company, there was little interest, Bloomberg Businessweek reports in its Nov. 7 edition.

Falling gas prices had reduced the value of Chesapeake’s reserves from $2.1 billion to $661 million. “We’d had higher highs than others in the industry; then we had lower lows,” McClendon said with characteristic insouciance. “In this business, it’s good to have a short memory and thick skin.”

Good thing he didn’t sell. Thirteen years later, Chesapeake’s market value exceeds $18 billion. Its shares sell for about $28, up 8 percent this year. The company’s 120-acre neo-Georgian corporate campus bustles with construction crews building new office space. Its workforce has grown 30 percent in a year, to 12,200, and its recruiters have 700 jobs to fill. “The United States,” McClendon boasts, “has the capacity to become the Saudi Arabia of natural gas.”

A tall man who wears his wavy silver hair long by CEO standards, McClendon, 52, exudes the confidence of someone who’s certain he’s seen the future. Exploitation of newly accessible supplies of gas embedded in layers of what’s known as shale rock, he predicts, will help revive domestic manufacturing and change the terms of debate about global warming. “It’s a new industrial renaissance,” he said.

Diverting Billions

You’d expect that kind of exuberance from a man with everything to gain from seeing his vision made real, but it’s not just independent drillers such as Chesapeake that are talking big. ConocoPhillips is investing $2 billion in gas in 2011, up from $500 million two years ago.

Other multi-national oil giants, such as Exxon Mobil Corp. and Royal Dutch Shell Plc, are likewise diverting billions into domestic shale gas projects. “We believe so strongly in natural gas that it’s a major portion of our portfolio,” Conoco CEO James J. Mulva told an audience at the Detroit Economic Club in September.

Last month, the potential for U.S. shale gas spurred Kinder Morgan to acquire rival pipeline operator El Paso Corp. for $21.1 billion. It also drove the proposed $4.4 billion purchase of Brigham Exploration Co. by Norway’s Statoil ASA.

Cheaper Gas

Encouraged by the availability of inexpensive and cleaner domestic gas, some electric utilities are replacing their coal- burning capacity with gas-fired units. Energy-intensive manufacturers of chemicals, plastics, and steel are beginning to bring home operations that they exported years ago.

“We believe natural gas must be part of any discussion on strengthening our country’s long-term economic health,” Mulva said in Detroit. “It should also be part of any discussion on improving energy security, protecting the environment, and, yes, creating jobs.”

On the economic potential of the nascent shale revolution, even some career environmentalists sound impressed, if cautious. “This thing is a potential game-changer,” said Fred Krupp, president of the New York-based Environmental Defense Fund (EDF). Shale production in the U.S. has increased from practically nothing in 2000 to more than 13 billion cubic feet per day, or about 30 percent of the country’s natural-gas supply.

Cleaner Than Coal

That proportion is heading toward 50 percent in coming years. The U.S. passed Russia in 2009 to become the world’s largest producer of natural gas. An Energy Dept. advisory panel on which Krupp sits estimated in August that more than 200,000 jobs, both direct and indirect, “have been created over the last several years by the development of domestic production of shale gas.”

At a moment of 9.1 percent unemployment nationally, additional decently paid work is just one potential benefit. “Natural gas burns cleaner than coal, emits less in the way of greenhouse gases, and avoids mercury and other pollutants from coal,” Krupp points out. “So this could be win-win, if–and this is a big ‘if’ — we do it the right way.”

Geologists have known for generations that immense, deeply buried shale formations contain copious reserves of methane, or natural gas, which can be burned efficiently to make electricity and run factories. Until recently, however, industry lacked the tools to get at shale gas profitably.

Casing Protects Wells

In the early 2000s, the combination of two existing techniques led to a breakthrough. One method is horizontal drilling. The other is hydraulic fracturing, or “fracking,” a scary-sounding and controversial process involving the high- pressure pumping of millions of gallons of chemical-laced water deep underground to create cracks in shale rock and release trapped gas.

When in 2007 environmentalists began raising reasonable concerns about fracking, industry executives responded with a dismissive, “Just trust us“ — ensuring that skeptics would trust them less. Just in case concern didn’t turn into panic on its own, the industry for years took the additional step of refusing to disclose the chemicals it uses in fracking.

Lost amid the suspicion and recrimination was a potentially more constructive discussion over improving industry standards for drillers’ concrete-lined steel casing, which, when installed correctly, has successfully insulated wells from drinking water.

Safe and Profitable

Now, though, there’s some surprising good news: Despite all the vituperation on both sides, some people from business and environmental circles are quietly at work in Texas, New York and Washington on guidelines that should ensure a safe, profitable gas revival.

The Environmental Defense Fund, for example, is drafting model state regulations with Southwestern Energy Co., a producer based in Houston. The collaboration is rooted in the recognition that the choice between polluting fossil fuels and pristine alternatives is not simple. For the foreseeable future, the U.S. has to burn a whole lot of something to produce power.

The nation now gets 45 percent of its electricity from coal, 25 percent from natural gas, 20 percent from nuclear, 7 percent from hydro, and 2 percent from wind. Solar barely registers. With current technology, wind and solar probably can’t reach into double digits, let alone bear the bulk of the load.

Bridge Fuel

If you want to continue to turn on the lights with the flip of a switch, the real short-term choice is whether to stick with the current mix or replace a substantial amount of coal capacity with less dirty natural gas.

John Podesta, former chief of staff to ex-President Bill Clinton, argues for the latter option. Now head of the Center for American Progress in Washington, Podesta writes on the liberal think tank’s website that natural gas can serve “as a bridge fuel to a 21st century energy economy that relies on efficiency, renewable sources, and low-carbon fossil fuels.” Exploring where that bridge will lead should be one of the country’s most important economic priorities.

Like petroleum, natural gas is a hydrocarbon, a product of decomposed organic material that simmered underground for hundreds of millions of years. Simple in structure–one carbon atom and four hydrogen atoms–gas has a convoluted history in the U.S.

In the 1970s, federal price restrictions contributed to underproduction and shortages, leading to wintertime shutdowns of Midwestern schools and factories. Utility executives and consumers came to view natural gas as unreliable.

Attractive Alternative

A titanic political fight during the Carter Administration ended in a bizarre compromise: price deregulation combined with restrictions on burning gas to generate electricity. (The coal industry, it should be noted, sponsors a long-established and adroit K Street lobby.) By the 1990s, the limits on using natural gas for power had been eased, and new turbine technology made gas an attractive alternative to coal.

Furious construction of gas-fired power plants ensued, only to be followed by dismay: Gas supplies were not expanding apace. At the turn of the 21st century, some natural-gas basins were nearly tapped out, and once again many utilities, homeowners, and energy-intensive manufacturers dismissed domestic gas as a sucker’s bet.

It might have stayed that way if not for the stubbornness of a Texan named George P. Mitchell. The son of an immigrant Greek goat herder, Mitchell worked his way through Texas A&M University in the late 1930s waiting tables and repairing clothes for students.

Mitchell’s Influence

After World War II, he went into the oil and gas business in Houston, working from a tiny office above a drugstore. All through the ‘80s, Mitchell pondered geological studies showing that gas could be found not only in conventional reservoirs but also in deeper, denser “unconventional” shale formations.

Shale is where gas is actually created. Energy men call it “the kitchen,” where hydrocarbons “cook,” and where large amounts of gas remains trapped. Mitchell wondered: Why not drill all the way down to the kitchen? His exploration company probed the Barnett Shale, a slab sprawling 7,000 feet beneath Dallas and Fort Worth. Competitors scoffed.

“We were running low on gas, and I had to find another reservoir somewhere,” Mitchell, now 92, told Bloomberg News. “So I said let’s drill a well and see what this thing is about.”

He invested his faith and capital in hydraulic fracturing, which had been introduced in rudimentary form in the late ‘40s. Injected at enormous pressures and in huge volumes, fracking fluid creates narrow cracks in the shale. Sand diffused in the fluid stays behind and props open the cracks, allowing gas to flow out and up through the well.

Horizontal Drilling

“Mitchell Energy,” the industry consultant Daniel Yergin writes in his new book, The Quest: Energy, Security, and the Remaking of the Modern World, “cracked the code.”

In 2002, after 60 years in the business, George Mitchell decided to cash out. Devon Energy Co., a better-capitalized independent in Oklahoma City, acquired his company for $3.5 billion.

Devon brought to the Barnett a knack for horizontal drilling. Improvements in equipment controls and measurement methods allowed its crews to drill down and then turn the gnawing diamond-tipped bit sideways. Drillers penetrate the shale laterally rather than just vertically. This exposes more of the surface area of the formation to extraction and enables multiple wells to be created from each drill pad.

Shale Stampede

Devon could not keep the field to itself. Rivals rushed in to lease tracts in Texas, Arkansas, Louisiana, and Oklahoma. Following geologists’ amazingly precise three-dimensional subterranean maps, the drillers went as far east as the Marcellus Shale, a formation that extends below Western New York State, over into Pennsylvania, and all the way down to West Virginia and Tennessee. Few people outside the industry noticed, but a shale stampede was under way.

After almost selling his company during the late-’90s doldrums, Aubrey McClendon dramatically switched strategy and wagered Chesapeake’s future on shale. (A few years later, he lost much of his personal fortune during the financial crisis of 2008 before gaining it back.) Today, Chesapeake is the most active driller of new wells in the U.S., with 177 rigs in operation.

It is the country’s second-biggest overall producer of natural gas, behind only ExxonMobil, which announced in late 2009 that it would join the gas rush by buying XTO Energy for $41 billion. Anadarko Petroleum Corp. is the third-largest producer, followed by Devon.

Haynesville Play

McClendon is descended from a prominent Oklahoma oil family, the Kerrs of Kerr-McGee fame. Prospecting is in his DNA. In 2003 he instituted what he called his “land rush plan”: Chesapeake borrowed heavily and bought leases in the Barnett, some of them in built-up parts of the Dallas-Fort Worth metro area. At midnight after the jets stopped arriving at Dallas/Fort Worth International Airport, workers drilled next to the quiet runways. In 2005, McClendon’s geologists discovered gas in a rich shale play in Northwest Louisiana and East Texas called the Haynesville. (Shale projects are commonly referred to as “plays.”)

Also in 2005, Chesapeake paid $2.2 billion for the second- largest gas producer in Appalachia, becoming the biggest presence in the Marcellus play. McClendon, who got his start in the business as a “land man,” or oil and gas lease broker, built a one-of-a-kind database of millions of property records from obscure county courthouses. The digitized trove has allowed Chesapeake to beat rivals to the doorsteps of landowners whose farms or backyards sat atop buried shale gas.

Margin Calls

A runup in gas prices–to nearly $14 per thousand cubic feet in mid-2008–made McClendon look like a genius. A few months later, he seemed less smart when the economy imploded, dragging down the price of energy and of Chesapeake’s stock (which fell from a high above $69 a share in July of that year to $11 in December).

McClendon personally had borrowed against his large individual holdings to buy yet more company stock. When the bottom fell out, he was hit with margin calls that forced him to liquidate a big chunk of his investments.

Like most entrepreneurs in the up-and-down energy business, McClendon takes occasional setbacks in stride. It helps to have a loyal board of directors. In 2009, the Chesapeake board gave the CEO a $100 million pay package. The company also paid him $12 million for a collection of 19th century maps he owned.

Better Than Coal

Why the well-timed company largesse? McClendon, citing pending shareholder litigation over his pay, answers guardedly. He was properly rewarded for his work during 2008, he said, and received an appropriate “retention package” to ensure his remaining as CEO.

As for the maps, he said he had paid out of his own pocket for years to decorate the halls and conference rooms of the company, and it was time for Chesapeake to make him whole. The company denies any impropriety. On Nov. 1, the litigation was settled, and McClendon agreed to rescind the map sale and repay Chesapeake the $12 million, plus interest.

Today, he has assets valued at more than $1 billion, including a 19.2 percent stake in Oklahoma City’s National Basketball Assn. franchise, the Thunder.

Burning natural gas for power, McClendon proudly points out, results in about half the equivalent carbon dioxide emissions of coal. Such observations, however, have not kept him from becoming a target of activists who are trying to shut down fracking — and have succeeded in some places, such as New York State.

Shale Gas Welcomed

Environmentalists, McClendon believes, should feel much more warmly toward him. He readily acknowledges that human activity contributes to global warming. “Why take a chance,” he said, “when we can reduce our carbon emissions through consuming more natural gas and less coal and oil?” It’s in his pecuniary interest to hold that opinion, of course.

Many residents of Louisiana, Oklahoma, and Texas–places accustomed to oil and gas development–welcomed the “shale gale” and its accompanying jobs, packed cafés, land royalties, and rising local tax revenue. The reaction was far more mixed in New York and Pennsylvania, despite the latter’s history of oil and coal exploration.

In the Northeast, some residents objected to heavy truck traffic and rural vistas marred by towering steel rigs and murky wastewater pools. Even more intense were concerns about the effects of shale drilling on drinking water supplies. Some homeowners complained that after gas operations began, well water started tasting bad and children fell ill.

Industry Defends Fracking

Activists raised questions about whether the chemicals in fracking fluid were contaminating drinking water with benzene, methanol, and other dangerous substances. In 2008, Businessweek published an article by the nonprofit journalism organization ProPublica that identified episodes of water contamination near (although not all definitively caused by) gas activity in seven states: Alabama, Colorado, Montana, New Mexico, Ohio, Texas, and Wyoming.

In 2010, New York stopped issuing permits for fracking to give environmental authorities there time to study the situation.

Hit with pollution lawsuits, Chesapeake and other producers denied that fracking caused water contamination. For one thing, the companies said, the procedure typically takes place a mile or more below drinking water aquifers and is isolated by massive layers of impermeable rock.

According to the industry, drillers had done more than a million frack jobs going back to 1948 without proof of widespread pollution problems. Drillers also pointed to a study of fracking released in 2004 by the U.S. Environmental Protection Agency that supports their position.

Film’s Impact

O.K., environmentalists said, so what chemicals are you mixing into fracking fluid? That’s secret, the industry answered.

“That was a very, very stupid answer,” said Jim Gipson, a spokesman for Chesapeake. “In this country, if you tell people you’re keeping secrets from them, they will naturally assume you are doing something wrong.”

The producers blame the furtiveness on big drilling contractors, companies such as Halliburton Co., that actually devise and inject the frack fluid recipes. The contractors insisted that their recipes were safe, but deserved confidentiality as proprietary trade secrets.

The industry’s conduct fueled protests in New York and Pennsylvania, which adopted as their manifesto Gasland, a documentary that made its official debut in January 2010 at the Sundance Film Festival, went on to air on HBO, and was nominated for an Academy Award. The film memorably showed homeowners near drilling operations lighting their tap water on fire and complaining about contaminated waterways.

Fracking Dangers Overstated

While Gasland raised relevant questions, it overstated the dangers related to drilling shale gas. It suggested rampant water contamination caused by gas operations. In contrast, a study by researchers at the Massachusetts Institute of Technology released earlier this year found about 20 reported cases of groundwater contamination between 2005 and 2009.

Some of these problems were traced to flawed cement used in well construction, though not to the fracking process itself. Pennsylvania and other states have since toughened drilling construction standards.

Flammable tap water is a real phenomenon in some areas, albeit a rare one. It’s caused by methane seeping into household wells, and it can happen regardless of whether gas drilling is going on nearby. The challenge in tracing the source of methane seepage is that the gas can occur naturally and contaminate water without any industrial activity. (Not that anyone would want an incendiary kitchen faucet, but methane gas in water isn’t toxic, and it evaporates quickly.)

Methane Occurs Naturally

This August, Josh Fox, Gasland’s director, accompanied a woman named Natalie Brant when she testified before a hearing on fracking held by members of the New York State Senate. Brant, whose family lives south of Buffalo, testified that before the state’s moratorium on fracking went into effect, several of her eight children developed headaches and nosebleeds, which she attributed to nearby gas drilling. “We’re constantly worried about our children and if they’re going to come down with cancer or other illnesses because of what they’ve been exposed to,” she said. State environmental officials have said that methane occurs naturally in well water in Brant’s part of the state, and that the gas turned up in other water wells in the area before drilling began.

New Casing System

Chesapeake’s McClendon (whose company wasn’t specifically implicated by Brant) said claims such as Brant’s, compelling though they may seem, aren’t based on hard evidence pointing to hydraulic fracturing. But in a speech in September at a conference in Philadelphia, he acknowledged a series of “limited gas migration incidents in Pennsylvania in the past three years.”

One of those led state regulators to impose a $900,000 fine on Chesapeake for polluting drinking water in Bradford County. “These incidents were not related to fracking,” McClendon said. Instead, they were caused by faulty well casing. “Only a couple dozen homeowners claim to have been affected,” he said. “And more importantly, the industry worked closely with Pennsylvania’s Environmental Protection Dept. officials to implement an updated and customized casing system that has been effective in preventing new cases of gas migration. Problem identified. Problem solved.”

McClendon has a tendency to exacerbate hostilities by belittling his antagonists. At the Philadelphia conference he described protesters’ “vision of the future” in these derisive terms: “We’re cold, it’s dark, and we’re hungry.”

Fracking Chemicals Disclosed

Such condescension notwithstanding, Chesapeake and other natural-gas producers have made concessions. Overcoming some of the concerns of their contractors, Chesapeake and other producers (and the contractors themselves) have begun to disclose the chemical additives used in fracking. An industry- sponsored website, www.fracfocus.org, allows companies voluntarily to report the additives on a well-by-well basis.

“We just decided to do what we should have done from the start,” said Chesapeake’s Gipson. Disclosure isn’t universal yet, but it’s headed in that direction. Arkansas, Texas, and certain other gas-producing states have enacted legal requirements for full disclosure as a condition of continued fracking.

At fracfocus.org, visitors will find that some of the stuff in fracking fluid is definitely not what you’d want in your water glass. Ingredients may include hydrochloric acid (initiates cracks), methanol (inhibits corrosion), glutaraldehyde (kills bacteria), and ethylene glycol (winterizes product).

Accidents Are Rare

Frack fluid is typically 98 percent to 99.5 percent water and sand, with the additives making up the remainder, according to the industry. When the nasty stuff passes by any drinking water supply, it is supposed to be contained securely within at least two layers of steel casing and two layers of heavy-duty cement.

No one disputes that there can be problems if there are flaws in the steel or concrete. The industry said such accidents have been exceedingly rare.

The 2011 MIT study estimates that between 2005 and 2009 there were some 50 incidents nationwide involving a variety of gas drilling mishaps: groundwater contamination, surface spills, offsite disposal issues, air quality problems, and well blowouts. To provide guidance on how to reduce gas drilling risks, the DOE set up its seven-person shale committee.

Sniping, Distrust

The EDF’s Krupp sits on the panel, which is chaired by John M. Deutch, a Director of Central Intelligence during the first Clinton Administration. Other members include the consultant and historian Yergin and several scholars and former regulators.

Despite Krupp’s participation, some environmentalists have written off the DOE committee as an industry-influenced rubber stamp. These critics note that Deutch, a professor at MIT, holds a directorship on the board of Cheniere Energy, a Houston-based liquefied natural-gas company, and formerly served on the board of Schlumberger Ltd., a major drilling contractor.

Even Krupp “has his own connections to the industry,” Dusty Horwitt, senior counsel at the Environmental Working Group, a nonprofit in Washington, said in a radio interview in May.

The sniping reflects distrust of the pragmatism Krupp embraces. A 57-year-old lawyer by training and the son of a New Jersey businessman who recycled rags and cardboard, Krupp heads a nonprofit that promotes the use of market forces to protect the environment.

August Report

He regularly takes flak from harder-line activists who oppose his willingness to work with industry. His “industry connection” to shale gas consists of having hired as a senior policy adviser a former employee of the Texas Independent Producers and Royalty Owners Assn.

After conferring with the Sierra Club, the Natural Resources Defense Council and other nonprofits, Krupp had considerable influence on the 41-page preliminary report the DOE committee released in August.

The paper calls for mandatory state-enforced disclosure of fracking ingredients, stricter standards on conventional air pollution created by shale operations, and additional research on underground methane migration and greenhouse gas releases associated with gas drilling. The panel persuasively explains the need for government inspection of casing and cementing and for more careful disposal of wastewater that comes up from wells.

The report doesn’t address the sticky question of whether the EPA should be given more authority over gas drilling. At present, state agencies regulate the industry. Gas executives grimace when asked about the EPA being given responsibility for permitting their operations.

Fracking’s Exemption

“There’s no evidence the states aren’t doing the job adequately,” said Henry J. Hood, Chesapeake’s senior vice- president and general counsel. “The EPA doesn’t have the manpower or the state-by-state expertise.”

Some environmentalists angrily stress that in 2005 Congress made explicit that another federal law, the Safe Drinking Water Act, doesn’t cover fracking. The exemption certainly reflects the strength of the oil and gas lobby, but with a U.S. House of Representatives controlled by anti-regulatory Republicans, the chances of getting the provision reversed at this point are exactly zero.

Debating it is more of a distraction than anything else and obscures that the EPA has authority to take action against gas drillers and producers that violate the Clean Air and Water Acts. Rather than drawing another bull’s-eye on the EPA’s back, a savvier approach would be to use the DOE report as a blueprint for broadly framed principles that state officials enforce vigorously.

Education Needed

Smart industry executives should accept tough standards as the cost of resolving environmental anxiety. In January 2010, one such corporate leader, Southwestern Energy’s executive vice- president and general counsel, Mark K. Boling, picked up the telephone and called Scott Anderson, the Texas-based EDF gas expert whose industry experience makes him suspect in the eyes of some fellow environmentalists. Southwestern traces its roots to an Arkansas gas concern incorporated in 1929.

Boling, a former partner with the Houston law firm Fulbright & Jaworski, has spent his entire legal career promoting the interests of oil and gas clients. Now, he said in an interview, those interests include demonstrating that fracking is safe. “It’s not enough to say we’ve been fracking for 60 years and no one has proved there’s a problem,” Boling adds. “We’ve got to get out there and educate, encourage better regulation, and pick up our performance in every aspect.”

Working Out Differences

Boling’s phone call to Anderson produced a cautious series of negotiations leading to a 37-page draft state regulatory code for gas operations. “Our idea is not that this should be adopted word for word by any state,” Anderson explains. “This is not one size fits all. Instead, it’s an attempt to show what a responsible producer and a responsible environmental organization consider best practices. It’s something to work toward.”

A dozen other gas producers have been shown the draft, and many offered comments, which have been incorporated, said Anderson. “What we’re working on are mostly very technical underground issues that have technical solutions,” he said. “Fracturing should be safe, if it is done properly. We have a ways to go, but this is a good model for working out our differences.”

The incentives for working out those differences are compelling. In New York, where local opposition to fracking remains strong in some communities, Governor Andrew M. Cuomo inherited a permitting moratorium on the procedure imposed by his predecessor, David A. Paterson. Since taking office in January, Cuomo has encouraged the drafting of more stringent rules.

Jobs at Stake

Released for public comment in September, the proposal would allow fracking subject to rules suited to New York’s geology and regional politics. It would prohibit drilling within 2,000 feet of public drinking water supplies or 500 feet of the state’s 18 primary aquifers. Drilling within the watersheds that provide unfiltered water to New York City and Syracuse would be banned altogether.

Even with these and many other restrictions, the Cuomo plan would make more than 80 percent of the Marcellus Shale within New York viable for drilling, said Joe Martens, the state’s commissioner of environmental conservation. “Our most conservative estimate is that we could add more than 13,000 jobs, direct and indirect,” Martens said. “The higher estimate is nearly 54,000 jobs.”

Fracking’s Economic Benefits

That kind of boost could bring struggling towns in Western Upstate New York back to life. “Right across the border in Pennsylvania,” Martens said, “we can see the jobs and tax revenue that can come with shale gas.” Assuming that New York regulators receive the resources to enforce the proposed toughened rules and effectively protect water supplies, he said, “New Yorkers deserve to get the same [economic] benefits.”

The potential for creating jobs goes beyond the bereft former farm towns of rural New York. Every day, Dow Chemical alone uses the equivalent of 700 million cubic feet of gas and ethane (a natural gas derivative).

That’s as much as all of Australia consumes on a daily basis. More plentiful domestic gas supplies now priced at around $4 per thousand cubic feet have allowed Dow to announce multibillion-dollar expansions of facilities in Louisiana and Texas, according to Executive Vice-President James R. Fitterling.

Impact on Dow

“We expect to employ up to 1,300 workers per project to construct our two new propane dehydrogenation units and a new ethylene cracker,” he told an energy conference in Houston on Sept. 26. “We also expect between 400 and 500 new, long-term Dow jobs to operate and maintain the facilities.” That’s just one chemical company.

Some electric utilities are overcoming their deep-seated uneasiness over natural gas to shift parts of their operations from coal to gas. The switch is inviting because many coal- burning facilities are antiquated, and the country already has large amounts of more modern, underused natural-gas utility capacity (a holdover from overbuilding in the late 1990s.)

The coal industry is fighting fierce rear-guard battles to prevent the move to gas. But a variety of federal antipollution rules taking effect in coming years will provide an additional reason to consider gas. Power companies in 15 states, including California, Florida, and Pennsylvania, have recently announced expanded use of natural gas, often at the expense of coal, according to America’s Natural Gas Alliance, a trade group.

Steady Power

“We need to find a way to take advantage of this historic opportunity to cut back on burning coal, which is the worst energy option,” said the EDF’s Krupp. And he said that as an advocate of more wind- and solar-generated electricity. The best way to exploit renewable power on a large scale is to use it in conjunction with natural-gas plants. Gas-fired generation ensures steady power when the wind isn’t blowing or the sun isn’t shining. “Done the right way,” Krupp said, “there’s just a lot to be said for natural gas.”

Source: Bloomberg

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Sep 07

Tom Ridge: Shale Gas Makes America Safer

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The former head of Homeland Security is an advocate for shale gas, having been a lobbyist for the Marcellus Shale coalition.  In a speech today, he cuts to the chase and gives many reasons why shale is a cleaner and safer alternative to what we already use:

Former Homeland Security Director Tom Ridge kicked off the Marcellus Shale Coalition’s “Shale Gas Insight” conference with a blunt message: the more natural gas the United States extracts from shale rock, the safer the country will be.

How’s that work? The Republican began his morning speech with the well-worn argument that the U.S.  imports way too much oil from foreign countries. He called federal energy independence plans “a mirage,” adding, “In 2010, our bill for foreign oil was a quarter trillion dollars….we still have no national energy policy

“We now import 3.5 billion barrels [of oil] annually,” he said, “compared with roughly a third of that in 1973.  …It’s one thing to get oil from counties like Canada…. But we also import from counties who aren’t such good friends. Nations such as Algeria and Iraq and Saudi Arabia and Syria and Nigeria and Venezuela and Chad. All of those countries are on the State Department’s travel warning list. Now think about this picture and ask yourself what’s wrong…we travel, in this country, on their oil. But it’s not safe for us to travel in their country.” Ridge went on to call the United States’ relationship with these countries “toxic, both literally and figuratively.”

“We need a national all-in energy policy that’s realistic and practical, not rhetorical and illusory.” And predictably, given the fact we’re here at a conference about natural gas drilling, Ridge said hydraulic fracturing and shale gas should be the cornerstone of that new policy. “We are truly an energy-rich country,” he said. “And natural gas should be at the forefront of the energy revolution.”  The more energy the United States extracts from within its borders, Ridge argued, the less it will need from the Middle East. “Made in America, when it comes to energy, is in my mind just a synonym for national security.”

Ridge spent about a year lobbying for the Marcellus Shale Coalition, and clearly believes in the industry group’s product. “When gas is taken from the ground by hydraulic fracturing, it provides the least environmental distribution of any current base load fuel,” he said. “And when it is used, it has only half the carbon emissions of coal, and virtually zero particulate emissions.” A substantial number of people – many of whom are protesting outside the convention center – are concerned about hydraulic fracturing’s safety. They’re worried the chemicals used in the process will contaminate drinking water. Ridge dismissed the worry as “phony hysteria.”

Ridge promised gas extraction will improve the economy, too. “Jobs that arise from clean energy are not just for those in the energy industry, but for those in virtually every industrial activity,” he argued. “Transportation, manufacturing, construction, power generation, and even more benefactors. And they flow to schools, community development, recreation and culture activities.”

Ridge dinged the federal government for not investing more money in “there’s not much discussion within the political class about natural gas. It seems at times to be about everything but natural gas.” He called subsidies for renewable energy efforts “baffling,” adding, “most renewables are very costly, and will take awhile to become reliable, sustainable regional and economic sources of energy. I’m not saying we should stop pursuing them…but clean energies still cost vastly more than fossil fuels.”

Toward the end of his speech, the former governor tried to tie natural gas to the country’s long history of energy extraction. “We must decide whether we will lead the transformation, or be led by others. I prefer the former.” He tied natural gas into the country’s long history of extraction. “Coal powered America into the industrial age in the 19th Century. Oil propelled American citizens into the transportation age of the 20thCentury. Natural gas should lead the energy revolution, and be the foundation fuel, of the 21st Century.” Of course, both the oil and coal boom devastated Pennsylvania’s natural resources. Ridge said gas drillers have learned the lessons from those extraction cycles.

Source: State Impact

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