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In recent months, in
response to very tight supplies, prices of
natural gas have increased sharply. Working
gas in storage is currently at very low levels
relative to its seasonal norm because of a
colder than average winter and a seeming
inability of increased gas well drilling to
significantly augment net marketed production.
Canada, our major source of imported natural
gas, has had little room to expand shipments
to the United States, and our limited capacity
to import liquefied natural gas (LNG)
effectively restricts our access to the
world's abundant supplies of gas.
Our inability to increase
imports to close a modest gap between North
American demand and production (a gap we can
almost always close in oil) is largely
responsible for the marked rise in natural gas
prices over the past year. Such price
pressures are not evident elsewhere.
Competitive crude oil prices, after wide
gyrations related to the war in Iraq, are now
only slightly elevated from a year ago, and
where spot markets for natural gas exist, such
as in Great Britain, prices exhibit little
change from a year ago. In the United States,
rising demand for natural gas, especially as a
clean-burning source of electric power, is
pressing against a supply essentially
restricted to North American production.
Given the current
infrastructure, the U.S. market for natural
gas is mainly regional, is characterized by
relatively longer term contracts, and is still
regulated, but less so than in the past. As a
result, residential and commercial prices of
natural gas respond sluggishly to movements in
the spot price. Thus, to the extent that
natural gas consumption must adjust to limited
supplies, most of the reduction must come from
the industrial sector and, to a lesser extent,
utilities.
Yesterday the price of gas
for delivery in July closed at $6.31 per
million Btu. That contract sold for as low as
$2.55 in July 2000 and for $3.65 a year ago.
Futures markets project further price
increases through the summer cooling season to
the peak of the heating season next January.
Indeed, market expectations reflected in
option prices imply a 25 percent probability
that the peak price will exceed $7.50 per
million Btu.
Today's tight natural gas
markets have been a long time in coming, and
futures prices suggest that we are not apt to
return to earlier periods of relative
abundance and low prices anytime soon. It was
little more than a half-century ago that
drillers seeking valuable crude oil bemoaned
the discovery of natural gas. Given the lack
of adequate transportation, wells had to be
capped or the gas flared. As the economy
expanded after World War II, the development
of a vast interstate transmission system
facilitated widespread consumption of natural
gas in our homes and business establishments.
On a heat-equivalent basis, natural gas
consumption by 1970 had risen to three-fourths
of that of oil. But natural gas consumption
lagged in the following decade because of
competitive incursions from coal and nuclear
power. Since 1985, natural gas has gradually
increased its share of total energy use and is
projected by the Energy Information
Administration to gain share over the next
quarter century, owing to its status as a
clean-burning fuel.
* * * * *
Recent years' dramatic
changes in technology are making existing
energy reserves stretch further while keeping
long-term energy costs lower than they
otherwise would have been. Seismic techniques
and satellite imaging, which are facilitating
the discovery of promising new natural gas
reservoirs, have nearly doubled the success
rate of new-field wildcat wells in the United
States during the past decade. New techniques
allow far deeper drilling of promising fields,
especially offshore. The newer recovery
innovations reportedly have raised the average
proportion of gas reserves eventually brought
to the surface. Technologies are facilitating
Rocky Mountain production of tight sands gas
and coalbed methane. Marketed production in
Wyoming, for example, has risen from 3.4
percent of total U.S. output in 1996 to 7.1
percent last year.
One might expect that the
dramatic shift away from hit-or-miss methods
toward more advanced technologies would have
lowered the cost of developing new fields and,
hence, the long-term marginal costs of new
gas. Indeed, those costs have declined, but by
less than might have been the case because
much of the innovation in oil and gas
development outside of OPEC has been directed
at overcoming an increasingly inhospitable and
costly exploratory physical environment.
Moreover, improving
technologies have also increased the depletion
rate of newly discovered gas reservoirs,
placing a strain on supply that has required
increasingly larger gross additions from
drilling to maintain any given level of dry
gas production. Depletion rates are estimated
to have reached 27 percent last year, compared
with 21 percent as recently as five years ago.
The rise has been even more pronounced for
conventionally produced gas because tight
sands gas, which comprises an increasing share
of new gas finds, exhibits a slower depletion
rate than conventional wells.
Improved technologies,
however, have been unable to prevent the
underlying long-term price of natural gas in
the United States from rising. This is most
readily observed in markets for natural gas
where contract delivery is sufficiently
distant to allow new supply to be developed
and brought to market. That price has risen
gradually from $2 per million Btu in 1997 for
delivery in 2000, and presumably well beyond,
to more than $4.50 for delivery in 2009, the
crude oil heating equivalent of rising from
less than $12 per barrel to $26 per barrel.
Over the same period, the distant futures
price of light sweet crude oil has edged up
only $4 per barrel and is selling at a
historically rare discount to comparably dated
natural gas.
Because gas is particularly
challenging to transport in its cryogenic form
as a liquid, imports of LNG have been
negligible. Environmental and safety concerns
and cost have limited the number of LNG
terminals and imports of LNG. In 2001, LNG
imports accounted for only 1 percent of U.S.
gas supply. Canada, which has recently
supplied a sixth of our consumption, has
little capacity to significantly expand its
exports, in part because of the role that
Canadian gas plays in supporting growing oil
production from tar sands.
Given notable cost
reductions for both liquefaction and
transportation of LNG, significant global
trade is developing. And high gas prices
projected in the American distant futures
market have made us a potential very large
importer. Worldwide imports of natural gas in
2000 were only 26 percent of world
consumption, compared to 50 percent for oil.
Even with markedly less
geopolitical instability confronting world gas
than world oil in recent years, spot gas
prices have been far more volatile than those
for oil, doubtless reflecting, in part,
less-developed global trade. The updrift and
volatility of the spot price for gas have put
significant segments of the North American
gas-using industry in a weakened competitive
position. Unless this competitive weakness is
addressed, new investment in these
technologies will flag.
Increased marginal supplies
from abroad, while likely to notably damp the
levels and volatility of American natural gas
prices, would expose us to possibly insecure
sources of foreign supply, as it has for oil.
But natural gas reserves are somewhat more
widely dispersed than those of oil, for which
three-fifths of proved world reserves reside
in the Middle East. Nearly two-fifths of world
natural gas reserves are in Russia and its
former satellites, and one-third are in the
Middle East.
Creating a price-pressure
safety valve through larger import capacity of
LNG need not unduly expose us to potentially
unstable sources of imports. There are still
numerous unexploited sources of gas production
in the United States. We have been struggling
to reach an agreeable tradeoff between
environmental and energy concerns for decades.
I do not doubt we will continue to fine-tune
our areas of consensus. But it is essential
that our policies be consistent. For example,
we cannot, on the one hand, encourage the use
of environmentally desirable natural gas in
this country while being conflicted on larger
imports of LNG. Such contradictions are
resolved only by debilitating spikes in price.
* * * * *
In summary, the long-term
equilibrium price for natural gas in the
United States has risen persistently during
the past six years from approximately $2 per
million Btu to more than $4.50. The perceived
tightening of long-term demand-supply balances
is beginning to price some industrial demand
out of the market. It is not clear whether
these losses are temporary, pending a fall in
price, or permanent.
Such pressures do not arise
in the U.S. market for crude oil. American
refiners have unlimited access to world
supplies, as was demonstrated most recently
when Venezuelan oil production shut down.
Refiners were able to replace lost oil with
supplies from Europe, Asia, and the Middle
East. If North American natural gas markets
are to function with the flexibility exhibited
by oil, unlimited access to the vast world
reserves of gas is required. Markets need to
be able to effectively adjust to unexpected
shortfalls in domestic supply. Access to world
natural gas supplies will require a major
expansion of LNG terminal import capacity.
Without the flexibility such facilities will
impart, imbalances in supply and demand must
inevitably engender price volatility.
As the technology of LNG
liquefaction and shipping has improved, and as
safety considerations have lessened, a major
expansion of U.S. import capability appears to
be under way. These movements bode well for
widespread natural gas availability in North
America in the years ahead.
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