Tag Archives: Natural gas

America’s new and improved energy mix

Repost from Fuel Fix
[Editor:  Significant quote: “Since 2008, wind and solar energy capacity in the U.S. has tripled. A new report from the Energy Information Administration found that electricity generated from wind and solar grew a lot faster than electricity generated by fossil fuels last year.”  – RS]

Guest commentary: America’s new and improved energy mix

By Paul Dickerson and Thomas R. Burton III
Mintz Levin, April 25, 2015 8:00 am
(Sam Hodgson/Bloomberg)

Not too long ago, America was governed by an either/or energy market. Back in the 1970s and early 1980s, the rise and subsequent demise of solar energy as a viable energy alternative was directly related to the jump and collapse in crude prices before and after the OPEC oil embargo. Solar was resuscitated – along with a host of other nascent alternatives – in the first decade of this century when oil prices spiked once again. Plenty of pundits warned that investments in solar, wind and other energy alternatives would prove short-sighted when the price of oil finally retreated.

But something significant happened along the way: demand for energy alternatives became untethered from oil and natural gas prices. At a time when the price of crude oil has plunged by more than half and natural gas prices have plumbed two-year lows, growth in energy alternatives has actually accelerated. Since 2008, wind and solar energy capacity in the U.S. has tripled. A new report from the Energy Information Administration found that electricity generated from wind and solar grew a lot faster than electricity generated by fossil fuels last year. So-called distributed generation – a better proxy for real-time demand because it measures installations such as solar panels by end users and not utilities – exhibited even faster growth. In fact, by the time you’ve read this, another new solar project will have come online (it happens every 150 seconds).

A host of drivers help explain why these energy technologies are holding their own this time around. Whether you agree with them or not, growing concerns about climate change and energy’s role in it has created generous federal and state incentives for energy sources that aren’t derived from fossil fuels.

Incentivized by these policies, public and private sector innovation has driven down the cost of these technologies so they can increasingly compete on price even as their subsidies expire. Wind energy’s dramatic success here in Texas is a key reason why state senator Troy Fraser, a key proponent of Texas’s Renewable Portfolio Standard and Competitive Renewable Energy Zones, recently argued that those programs have accomplished their objective and are no longer needed.

Finally, innovation has migrated to the industry’s financing models. Previously, much of solar’s growth was driven by technology advancements. More recently, however, growth is being driven by financial improvements such as more flexible leasing models, a greater availability of capital that lowers costs for installers, and better analytics that enable installers to target customers more effectively. The result has been a rapid change to the competitive landscape, which has transformed and invigorated the market.

By now you might be wondering: Why does this matter to me? The answer is because there are huge implications from diversifying our nation’s energy supply.

The first benefit is the ability to hedge our energy positions when the price of one technology soars. Much in the way that investors are adding alternative investments to complement their holdings in stocks and bonds, a national energy portfolio that can draw on solar, wind and other alternatives is much less susceptible to downside risks. While still a small piece of the overall energy pie, these energy technologies give us a degree of flexibility in weathering market fluctuations. This flexibility makes us less reliant on any one energy source, putting downward pressure on the prices we pay to heat or cool our homes or fuel our cars.

The second big benefit is ensuring the reliability of our energy supply. Solar and wind technologies need to work in concert with 24/7 solutions such as natural gas since they can’t produce energy all of the time. Having access to more alternatives gives our electricity grid operators the flexibility to prevent or work around disruptions, use real-time usage data to identify and tap the most efficient energy sources at all times, and continue to meet our growing energy demands. Of course, we still have some work to do in this respect, and we urge federal and state legislators to continue to support programs that help develop the technologies needed to seamlessly integrate our growing array of energy choices.

A third reason, one that we are painfully familiar with as much of Texas remains gripped by drought, is water. One of the biggest demands for water is power generation, and as people continue to move to Texas, demand for electricity will continue to rise. By developing wind and solar sources, we will ease the burden of that growth on our already stressed water supplies.

Finally, a nation with greater flexibility in the way it meets its energy needs is one far less prone to the will or whims of others. In recent years, the term “energy independence” has been thrown around a lot. It’s a laudable goal, but we can’t achieve it by drilling alone. Before we can have true energy independence, we first must have energy diversity.


Thomas R. Burton III is the founder and chair of the Energy & Clean Technology Practice at Mintz Levin in Boston. Paul Dickerson, of counsel at the firm, is a former chief operating officer at the US Department of Energy.

Quake experts think fracking maps may predict future temblors

Repost from the San Antonio Express-News 

Quake experts think fracking maps may predict future temblors

Experts creating models to gauge future activity

By Sean Cockerham, Tribune News Service Washington Bureau, April 23, 2015 10:02pm
Chad Devereaux works to clear up bricks that fell from three sides of his in-laws' home in Sparks, Okla, after two earthquakes hit the area in less than 24 hours in 2011. A government report released Thursday found that a dozen areas in the United States have been shaken in recent years by small earthquakes triggered by oil and gas drilling, Photo: Associated Press File Photo / AP
Chad Devereaux works to clear up bricks that fell from three sides of his in-laws’ home in Sparks, Okla, after two earthquakes hit the area in less than 24 hours in 2011. A government report released Thursday found that a dozen areas in the United States have been shaken in recent years by small earthquakes triggered by oil and gas drilling, Photo: Associated Press File Photo / AP

WASHINGTON — As earthquakes triggered by oil and gas operations shake the heartland, the federal government is scrambling to predict how strong the quakes will get and where they’ll strike.

The U.S. Geological Survey released maps Thursday that show 17 areas in eight states with increased rates of manmade earthquakes, including places such as North Texas, southern Kansas and Oklahoma where earthquakes were rare before fracking sparked a U.S. drilling boom in recent years.

Seismologists are using the maps in an attempt to create models that can predict the future of such quakes.

“These earthquakes are occurring at a higher rate than ever before and pose a much greater risk to people living nearby,” said Mark Petersen, chief of the USGS national seismic hazard modeling project.

Studies show the earthquakes primarily are caused by the injection of drilling wastewater from oil and gas operations into disposal wells, said Bill Ellsworth, a seismologist with the USGS.

The fact there have been many small earthquakes “raises the likelihood of larger earthquakes,” Ellsworth said. While most of the quakes have been modest, a 5.7-magnitude earthquake near Prague, Oklahoma, in 2011 destroyed 14 homes and was felt as far away as Milwaukee.

The USGS is working on a model, to be released at the end of the year, that can predict the hazards a year in advance.

People who live in areas with manmade quakes can use the forecasting information to upgrade structures to be safer and in order to learn what they should do in case of an earthquake, he said.

“Many of these earthquakes are now occurring in areas where people have not been familiar with earthquakes in the past,” Ellsworth said. “So there’s just a lot of basic education that is worth doing.”

The USGS maps show the earthquakes are mostly in Oklahoma, Texas and Kansas, but also Colorado, Ohio, Arkansas, Alabama and New Mexico.

“What we’ve seen is very, very large volumes of wastewater being injected over many different areas in the midcontinent, Oklahoma principally but also Kansas, Texas and other states,” Ellsworth said.

Fracking produces large amounts of wastewater, which oil and gas companies often pump deep underground as an economical way to dispose of it without contaminating fresh water. That raises the pressure underground and can effectively lubricate fault lines, weakening them and causing earthquakes.

While there was some initial skepticism, it’s become increasingly accepted that oil and gas activities are behind the surge in American earthquakes since 2008. Southern Methodist University researchers said in a research paper this week that these activities were the most likely cause of a rash of earthquakes that hit an area northwest of Fort Worth, Texas, from November 2013 to January 2014.

Oklahoma was rocked with nearly 600 earthquakes big enough for people to easily feel last year.

The Kansas Corporation Commission, a state regulatory agency, has responded to the earthquakes there with new rules that limit how much saltwater drilling waste can be injected underground. Ellsworth said seismic researchers were watching Kansas closely to see whether the new rules reduced the quakes.

Little known Concord fault poses threat to Bay Area refineries, Benicia-Martinez rail bridge…

Repost from The Contra Costa Times

Little known Concord fault poses big threat

By Matthias Gafni, 04/11/2015 12:43:56 PM PDT
Cracks are visible in the roadway on Systron Drive in Concord, Calif., photographed on Tuesday, March 24, 2015. The cracks, cited by USGS geologist Dave Schwartz, are likely caused by movement of the Concord fault. The lesser-known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )
Cracks are visible in the roadway on Systron Drive in Concord, Calif., photographed on Tuesday, March 24, 2015. The cracks, cited by USGS geologist Dave Schwartz, are likely caused by movement of the Concord fault. The lesser-known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )

CONCORD — A mysterious earthquake fault slices under central Concord, its jagged, quarter-mile-wide seam running beneath a critical fuel-pumping facility, traversing the edge of a refinery processing 166,000 barrels of crude oil daily, and undercutting strip malls and homes.

While its big sisters, the San Andreas and Hayward fissures, grab the headlines, the Concord Fault — with its 11-mile-long fracture zone stretching from the Carquinez Strait to the Mount Diablo foothills — is also capable of producing a catastrophic earthquake, geologists say. And with critical infrastructure in its path, particularly refineries and a vulnerable railroad bridge not far away, a large seismic event could leave the entire northern half of the state without easy access to fuel — disrupting transportation and the transmission of electricity and water, according to a recent study.

According to USGS geologist Dave Schwartz, Kinder Morgan's Concord Station sits close to a earthquake fault in Concord, Calif., photographed on Friday, March 27, 2015. The lesser known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )
According to USGS geologist Dave Schwartz, Kinder Morgan’s Concord Station sits close to a earthquake fault in Concord, Calif., photographed on Friday, March 27, 2015. The lesser known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )

The Concord fissure may be largely ignored by the general public. But not by geologists.

“The Concord Fault is significantly more active than the fault that caused the Napa earthquake,” said Chris Wills of the California Geological Survey, referring to the 6.0 wine country temblor last August that caused more than $400 million in damage. “Nobody would be surprised if a magnitude-6 earthquake happened on the Concord Fault tomorrow.”

Make no mistake, Concord’s contribution to the Bay Area’s geologic activity is significantly smaller than the San Andreas and Hayward zones. Updated U.S. Geological Survey estimates indicate a 3 to 4 percent probability of a magnitude-6.7 or higher earthquake over the next 30 years on the Concord or lower Green Valley Fault, a connected Solano County segment, compared with 6.4 percent for the San Andreas and 14.3 percent for the Hayward Fault.

The Concord Fault creeps a measly 4 to 5 millimeters annually, while the Hayward slips 9 millimeters and San Andreas 25 millimeters.

The last catastrophic temblor on the Contra Costa-Solano combo fault struck more than 400 years ago, but geologists still say it’s important to monitor.

“At some point in time that system has to fail — we just don’t know exactly when,” said David Schwartz with the USGS. Even if the Concord Fault only produces a 5.0 quake, it could cause significant damage, Schwartz said.

The great unknown

The lake surrounded by the Lakes Apartments in Concord, Calif., is photographed on Tuesday, March 24, 2015. Geologists say that the lake is there due to a dip in the Concord fault that allows groundwater to seep through. The lesser-known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )
The lake surrounded by the Lakes Apartments in Concord, Calif., is photographed on Tuesday, March 24, 2015. Geologists say that the lake is there due to a dip in the Concord fault that allows groundwater to seep through. The lesser-known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )

On Oct. 23, 1955, a 5.4 quake — the Concord Fault’s last major temblor — was felt from San Jose to Sacramento. It caused $1 million in damage ($8.7 million in today’s dollars) and one fatality, according to the USGS. Windows shattered, brick walls cracked and moved, chimneys shifted and wine bottles crashed from liquor store shelves.

What makes the Concord Fault particularly worrisome to regional planners, so much so that it was highlighted in a December study by the Association of Bay Area Governments, is its potential impact on regional and statewide fuel distribution. Without gasoline, every other crucial need, including water, electricity and transportation, will be affected.

The lake surrounded by the Lakes Apartments in Concord, Calif., is photographed on Tuesday, March 24, 2015. Geologists say that the lake is there due to a dip in the Concord fault that allows groundwater to seep through. The lesser-known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )
The lake surrounded by the Lakes Apartments in Concord, Calif., is photographed on Tuesday, March 24, 2015. Geologists say that the lake is there due to a dip in the Concord fault that allows groundwater to seep through. The lesser-known Concord fault creeps ever so slightly annually. (Dan Honda/Bay Area News Group) ( Dan Honda )

In its report, ABAG studied three theoretical earthquakes — a 7.9 on the San Andreas, a 7.0 on the Hayward and 6.8 on the Concord.

“Originally, we were just going to explore the San Andreas and Hayward faults, but we realized that (there are) a lot of key infrastructure assets in (the Concord) region,” said study author Michael Germeraad, an ABAG resilience planner.

Five Bay Area refineries — all but two are within a couple miles of the fault — processed 235 million barrels of crude in 2012, about 40 percent of the state’s total, according to ABAG. In addition, Kinder Morgan operates a pumping station nearby that receives processed crude from all the refineries and pipes it out to terminals across Northern California and Nevada.

Critical pipelines

That pumping station, a critical piece of fuel infrastructure, lies directly above the Concord Fault.

Built in the 1950s, the station receives products from eight facilities and pumps the refined crude through pipelines. It can store about 1 million barrels, but normal inventory is half of that, said Melissa Ruiz, a Kinder Morgan spokeswoman. Its five outgoing pipelines serve Chico, Fresno, Reno, Sacramento, San Jose, Stockton and surrounding cities, in addition to seven military facilities and public airports.

The company has facilities and pipelines in active fault areas throughout California but has never lost a pipeline or tank to a quake and maintains its infrastructure to industry rules and regulations, Ruiz said.

In its report, ABAG said it had concerns because pipelines can fail due to soil liquefaction — where hard soil loses strength during strong ground shaking — and fault rupture. Knowing pipeline material, age, weld types and other factors would help scientists know where failures are “more likely,” but that information isn’t available.

“Damage to the Concord station would interrupt fuel transmission across the northern half of the state,” the report concluded.

The study also found that if one Bay Area refinery was damaged, they would all likely suffer damage because of their close proximity to each other, and because they are built on similar soils and have similar construction.

“A conservative restoration estimate of damaged refineries is months,” the study found for the Concord quake scenario.

The Tesoro Golden Eagle facility in Martinez sits on 2,206 acres just feet from the fault. Built in 1903, Golden Eagle employs about 650 workers and is the fourth-largest refinery in California.

Spokeswoman Patricia Deutsche said refinery officials are aware it sits next to the fault and a liquefaction zone, but she said the facility follows industry design standards. Piles are driven down hundreds of feet into bedrock, equipment has been retrofitted and the Avon Wharf, an oil terminal located on aging timber piles along the southern shore of Suisun Bay, just received environmental clearance for retrofit up to state quake standards, she said.

Seismic assessments of Bay Area refineries are done every five years, and the building code requirements consider the level of possible ground shaking from any nearby fault, said Gayle Johnson, senior engineer with Simpson Gumpertz & Heger, a national engineering firm.

Johnson, who has investigated the performance of industrial facilities in more than 20 earthquakes worldwide, said since the refinery retrofit programs began in the late 1980s and early 1990s, there has been a “ton of upgrade work done.”

Other impacts

While fuel infrastructure may be the top concern for the region, a large quake could disrupt other major lifelines. The Benicia-Martinez rail bridge, located between the two vehicle spans, is particularly vulnerable, according to ABAG, and could face “significant or complete damage.”

Liquefaction along the Carquinez Strait could cause dredged water channels to slough into the shipping pathways. Runways could rupture at Buchanan Field, which sits adjacent to the fault. Delta levees could breach, creating flooding and impacting drinking water quality, ABAG found.

Two-thirds of the power generated in the region is produced by natural gas facilities, many along the Carquinez Strait.

“In the event natural gas lines are damaged, these facilities will be unable to generate electricity,” the study found.

Still, Wills warns that what will happen during a significant quake on the Concord Fault is largely a mystery.

“How it releases is not that well known,” he said.

 

 

California Pledges Changes in Protecting Underground Water

Repost from ABC News (AP)

California Pledges Changes in Protecting Underground Water

By Ellen Knickmeyer, AP, Feb 9, 2015

California has proposed closing by October up to 140 oilfield wells that state regulators had allowed to inject into federally protected drinking water aquifers, state officials said Monday.

The deadline is part of a broad plan the state sent the U.S. Environmental Protection Agency last week for bringing state regulation of oil and gas operations back into compliance with federal safe-drinking water requirements. State authorities made the plan public Monday.

An ongoing state review mandated by the EPA found more than 2,500 oil and gas injection wells that the state authorized into aquifers that were supposed to be protected as current or potential sources of water for drinking and watering crops.

An Associated Press analysis found hundreds of the now-challenged state permits for oilfield injection into protected aquifers have been granted since 2011, despite the state’s drought and growing warnings from the EPA about lax state protection of water aquifers in areas of oil and gas operations.

Steve Bohlen, head of the state Department of Conservation’s oil and gas division, told reporters Monday that the proposed regulatory changes were “long overdue.”

EPA spokeswoman Nahal Mogharabi said Monday that federal authorities would review the new state plan over coming weeks. “EPA will then work with the State to ensure that the plan contains actions that will bring their program into compliance with the Safe Drinking Water Act,” Mogharabi said. She referred to landmark 1974 legislation that sought to protect underground drinking-water sources from oil and gas operations.

Bohlen said 140 of those 2,500 injection wells were of primary concern to the state now because they were actively injecting oil-field fluids into aquifers with especially good water quality.

State water officials currently are reviewing those 140 oil-field wells to see which are near water wells and to assess any contamination of water aquifers from the oil and gas operations, Bohlen said.

Part of the state plan released Monday would set an Oct. 15 deadline to stop injection into those water aquifers deemed most vital to protect them from contamination. State officials also could shut down oil field wells sooner if they are deemed to jeopardize nearby water wells, authorities said. This summer, the state ordered oil companies to stop using at least nine oil field wells that altogether had more than 100 water wells nearby.

The U.S. EPA had given the state until Friday to detail how it would deal with current injection into protected water aquifers and stop future permitting of risky injection.

While some of the fluids and materials that oil companies inject underground as part of normal production is simply water, some can contain high levels of salt or other material that can render water unfit for drinking or irrigating crops.

California is the nation’s third-largest oil-producing state, and oil companies say the kind of injection wells under scrutiny are vital to the state’s oil production.

Tupper Hull, a spokesman for the Western State Petroleum Association, said the oil-industry group feared state regulators would not be able to meet all the deadlines they were setting for compliance with federal water standards.

If that happens, oil producers “would be put into the untenable position of having to shut in wells or reduce production,” Hull said.