Environmental costs, health risks and benefits of fracking examined |
The
environmental costs and benefits from “fracking,” which
requires blasting huge amounts of water, sand and chemicals deep
into underground rock formations, are the subject of new research
that synthesizes 165 academic studies and government databases.
The survey, study published in the Annual Review of
Environment and Resources, covers not only greenhouse gas
impacts, but also fracking’s influence on local air pollution,
earthquakes and, especially, supplies of clean water.
The
authors are seven environmental scientists who underscore the
consequences of policy decisions on people who live near the
wells, as well as some important remaining questions.
“Society
is certain to extract more gas and oil due to fracking,” said
Stanford environmental scientist Robert Jackson, who led the new
study. “The key is to reduce the environmental costs as much as
possible, while making the most of the environmental benefits.”
Water
demand
Fracking’s
consumption of water is rising quickly at a time when much of the
US is suffering from drought, but extracting natural gas with
hydraulic fracturing and horizontal drilling compares well with
conventional energy sources, the study finds. Fracking requires
more water than conventional gas drilling; but when natural gas is
used in place of coal or nuclear fuel to generate electricity, it
saves water. From mining to generation, coal power consumes more
than twice the water per megawatt-hour generated than
unconventional gas does.
Unconventional
drilling’s water demand can be better or worse than alternative
energy sources, the study finds. Photovoltaic solar and wind power
use almost no water and emit no greenhouse gas, but cheap,
abundant natural gas may limit their deployment as new sources of
electricity. On the other hand, fracked gas requires less than a
hundredth the water of corn ethanol per unit of energy.
Local
air pollution
Fracking’s
impact on both climate change and local air pollution is similar
to its impact on water.
Getting
a fractured well going is more intense than for conventional oil
and gas drilling, with potential health threats arising from
increases in volatile organic compounds and air toxics. But when
natural gas replaces coal as a fuel for generating electricity,
the benefits to air quality include lower carbon dioxide emissions
than coal and almost none of the mercury, sulphur dioxide or ash.
Globally,
though, relief to climate change is uncertain, the study finds.
“While the increased gas supply reduces air pollution in U.S.
cities downwind from coal-fired power plants, we still don’t
know whether methane losses from well pads and pipelines outweigh
the lower carbon dioxide emissions,” said Jackson.
Little
impact on water aquifers
In
the eastern US, fears of contaminated drinking water have raised
more concerns than fracking’s water consumption. Gas and
chemicals from man-made fractures thousands of meters underground
very rarely seep upward to drinking-water aquifers, the study
says. The real threats are failures in the steel and cement
casings of wells nearer to the surface and the disposal of
wastewater, the study finds. Numerous previous studies have shown
that casings fail between 1% and 10% of the time, depending on
geology and well construction.
Cases
of groundwater contamination have been hotly debated, but the new
study finds that the overwhelming evidence suggests it has
happened, albeit not commonly. Is the methane contamination
observed in drinking water a precursor to other toxins –
arsenic, various salts, radioactive radium and other metals –
making their way up slowly? The researchers do not yet know. A few
recent studies suggest the answer could be “yes” in rare
cases.
Wastewater
handling
Wastewater
disposal is one of the biggest issues associated with fracking,
according to co-author Avner Vengosh, a professor of geochemistry
at Duke University.
Most
fracking wastewater in the US is injected deep underground, and an
increasing amount is recycled for subsequent drilling or sent to
advanced water treatment facilities. However, a handful of states
still allow the wastewater to be used for watering cattle, sprayed
onto roads for dust control or sent to municipal water-treatment
plants not equipped to handle the chemicals involved. All bad
ideas, according to the authors of the new survey. One study they
cite found that the agricultural use of fracking wastewater killed
more than half of nearby trees within two years.
Injection
of wastewater deep underground presents its own problems, the
study finds. The practice occasionally has caused earthquakes
strong enough to be felt by human beings, while the fracturing of
shale miles below the surface rarely has done so. The dangers of
seismicity can be reduced, however, if energy companies follow
basic guidelines and undertake careful monitoring.
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CHWKLY 140923
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