Energy Security Challenges for the 2 1st Century
60. Environmental Kuznets curve as defined in the Encyclopedia of Energy from Elsevier Press.
61. IEA, World Energy Outlook 2007.
62. To be clear, its role is likely to be much larger if climate policies are widely adopted; the IEA for example finds that its share by 2030 would be 27 percent higher in its alternative policy vs. reference case.
63. Catherine Morris et al., Nuclear Power joint Fact-Finding, The Keystone Center, Keystone, Colorado, June 2007, http://www.nuclear.gov/pdfFiles/rpt_KeystoneReportNuclear PowerJofntFactFinding_2007.pdf.
64. See Douglas Frantz and Catherine Collins, "Those Nuclear Flashpoints are Made in Pakistan," Washington Post, November 11, 2007.
65. Jim Harding, "Economics of Nuclear Power and Proliferation Risks in a Carbon-Constrained World," Electricity journal, Elsevier, Inc., November, 2007.
66. Joseph Romm, The Hype About Hydrogen, (Washington D.C.: Island Press 2004).
67. Tim Moran, "Tanks are key to hydrogen economy's growth," Automotive News, November 19, 2007.
68. Ibid.
69. Richard A. Posner, Catastrophe: Risk and Response (New York: Oxford University Press 2004).
70. Robert Socolow and Stephen Pacala, "A Plan to Keep Carbon in Check," Scientific American, September 2006.
CHAPTER 23
Realism and Idealism in the Energy Security Debate
Gal Luft and Anne Korin
In this book we sought to inquire how different actors in the global energy system view energy security, to assess some of the growing energy security challenges that the 21st century holds in store for humanity and, with the help of leading experts, reflect on how the world is likely to address them. This inquiry stemmed from a sense that there is a strong disconnect between the publicly stated policies, coming from officials and experts in net energy producing and consuming countries alike, in praise of international cooperation, collective security, free markets, fair distribution of resources and commitment to sustainable growth and the welfare of future generations, and the reality on the ground, characterized by volatile energy prices, rising geopolitical instability suppliers using strong-arm tactics against consumers while consumers beat their chests about energy self-sufficiency and boost their military capabilities to ensure their access to energy. If everybody agrees on the bedrock principles of an effective global economic system why do we face today the gravest risks to our energy supply? And why is the maximal degree of energy security we can hope for, according to James R. Schlesinger, a keen observer of the energy and security world, "various degrees of insecurity"?1
The short answer, as described throughout the book, is that per capita energy use is growing by leaps and bounds and this makes nations more prone than ever to compete over access to cheap and depleting energy sources. "The diagnosis of the energy crisis is quite simple," reiterated President George W. Bush, "Demand for energy is increasing while supplies of oil and natural gas are diminishing."2 In the process of securing energy supplies, energy-hungry narions are often forced to compromise other important security, economic and environmental concerns. At the same time, exporters are nationalizing their energy industries, leaving less and less room for the private sector and foreign investors while increasingly using energy as tool to advance their foreign policy agenda.
Under such conditions, agreeing on a unified energy security agenda will be increasingly difficult and each country is likely to pursue its own interests based
Energy Security Challenges for the 21st Century
on what it perceives as energy security. As the first half of this book showed, one complicating factor in the effort to create a common energy security agenda is that there is no uniform view of what energy security really is. Countries' understanding of energy security depends on their geographical location, resource endowment, level of economic development, system of governance and many
other factors. For some countries energy security means producing more energy I
at home and relying less on foreigners. For others, it is about creating economic j
and political interdependencies with their suppliers even if those suppliers are j
unsavory. Some countnes are more concerned about natural gas and electricity; j
others about oil and transportation. Many are dependent on external sources for I both. Some place high hopes in the use of military force to secure energy supply;
others put their faith in collective security arrangements, loose alliances and even j
looser international treaties and organizations. For China, energy security means j
securing supply through government-to-government deals and buying stakes in j
foreign oil fields—in Sudan, Nigeria, Angola and so on. Others, like India and j
Japan, prefer to buy oil on the global market, seeing little sense in China's over- j
seas investments. For Russia, OPEC and others who generate the overwhelming j
share of their governments' revenues from energy exports, energy security is all j
about security of demand that they hope to achieve by creating a vertical monop- ;
oly over the supply of energy, discouraging and undermining consumers' diver- j
sification efforts and imposing restrictions on foreign investment in domestic oil {
and gas fields. A few like Bahrain, Indonesia and even Norway and the UK, whose j
hydrocarbon sectors have either leveled off or are already in decline, are making j
the transition from an exporter mindset to that of an importer, j
j
i
Variety but Not Variety Alone j
Despite variations in the perceptions about energy security, there are few uni- j
versal principles that dominate almost every country's energy security strategy. j
The first is the doctrine articulated by Winston Churchill before the British Par- j
liameni in 1913, stating that "safety and certainty in oil lie in variety and variety \
alone."3 Different countries have different .interpretations of the term "variety." j
Consumers seek variety of suppliers and supply lanes so that if one or more sup- j
pliers go offline the impact can be minimized. Producers are uncomfortable with j
their dependence on a single market and seek to expand their portfolio of clients. j
Hugo Chavez' attempts to break Venezuela's dependence on the U.S. market by j
diverting an increasing part of his country's oil to China is one example. Like con- \
sumers, producers to want to diversify their supply lanes and avoid blockades or :
terrorist acts that could devastate their economies. Efforts by both producers and ^ consumers to diversify supply lines have given rise to a new breed of countnes in the energy security picture- transit countries. Turkey, Cameroon and Georgia and in the future perhaps Bangladesh, Afghanistan, Israel, Pakistan, Niger, and Colombia are some of the countnes that are currently in the process of gaining increasing international status and national wealth by being conduits for oil and gas.
Realism and Idealism in the Energy Security Debate 337
The temptation to be a transit state is great: revenue earning from granting right of way, an influx of foreign investment and increased energy secunty as some of the oil or gas can be diverted to the transit state's market. But as Necdet Pamir described in the case of Turkey, with the benefits come some diplomatic and security challenges. By enabling Caspian energy to bypass Russia and flow to European markets, Azerbaijan, Georgia and Turkey find themselves at odds with Moscow. The Trans-Saharan gas pipeline that could, if built, connect Nigeria's gas reserves to Europe via Algeria's Mediterranean coast will make Niger, through which 470 miles of the pipeline is planned to traverse, a key contributor to European energy security. EU officials say the pipeline could supply 20 bcm a year of gas to Europe by 2016. But, as in the case of the BTC pipeline, such a project could threaten Russia's security of demand and Nigeria, Niger, and Algeria are likely to come under pressure from Moscow to abandon this effort. Allowing Iranian gas to pass to India through Pakistan's territory would no doubt incur Washington's wrath. The United States would also be equally unhappy if Colombia went ahead and lent its territory to become a land bridge for Venezuelan oil to reach the Pacific coast, from where it can be easily shipped to China instead of the United States. And if Afghanistan somehow succeeded in becoming a conduit for Turkmen gas en route to India that would be a challenge to Iran, which competes over access to the Indian market. Indeed, for every winner there is a loser.
As oil and gas become increasingly difficult to obtain, the definition of variety broadens from geographical variety to variety of energy sources. In other words, countries seek to diversify their energy basket to include as many sources of energy as can contribute to the grid and the transportation sector. Broadening a country's energy portfolio through increased use of alternative fuels, nuclear energy and renewable energy sources reduces the impact of a disruption in hydrocarbon supply. Even within the oil and gas sector there are calls for increased variety. The definition of oil is expanding to include a variety of nonconventional forms of petroleum made from tar sands, heavy oil, oil shale, coal-to-liquids and gas-to-liquids. Conventional natural gas is now being increasingly augmented by coal-bed methane, shale gas, tight sandstone gas, and, in the future, possibly methane hydrates.
Redundancy and Liquidity
Redundancy and liquidity are also universal principles"of energy security. As described by several contributors, both the power and oil sectors have too little wiggle room to deal with supply disruptions, whether man-made or due to natural reasons. For years, disruptions in the oil sector could be offset by OPEC's spare capacity—the ability of some producers, chiefly Saudi Arabia, to inject extra oil into the market when other suppliers falter. This spare capacity was the oil market's main source of liquidity. In 2002, spare capacity amounted to nearly 10 percent of the 76 mbd global oil market. A year later, with demand climbing to 78 million barrels, spare capacity dropped to about 5 percent. This cushion was sufficient to prevent an oil crisis when a labor stnke in Venezuela, ethnic riots in
Energy Security Challenges for the 21st Century
Realism and Idealism in the Energy Security Debate
339
Nigeria and a war in Iraq took major producers out of the market for extended periods- With global daily demand at 86 mbd spare capacity is barely 2 mbd, which is at the dangerous level of 2 percent. Despite Saudi Arabia's reassurance that it is accelerating plans to bring new oil fields into production, this is all too little, too late. The 1EA estimates that spare capacity will rise to 4 mbd in 2010 as new projects come on stream but will fall again toward 2013 as demand continues to grow."1 As a result, the oil market in the decades to come will resemble a car without shock absorbers: the tiniest bump on the road can send a passenger to the ceiling. Without liquidity, only one mechanism is left to bring the market to equilibrium: rapid and uncontrolled price increases.
To compensate for the erosion in OPEC's spare capacity, major oil consuming countries would have to take steps to insulate their economies from supply disruptions by creating liquidity mechanisms of their own in the form of strategic reserves. More than 4 billion barrels are held in strategic reserves, roughly a third of which is government-controlled (the rest is held by private industry). The United States alone holds an emergency stockpile of some 700 million barrels, a number it intends to increase in the coming years. Japan owns 580 million barrels; South Korea has 150 million, and the EU mandates that each member country keep the equivalent of 90 days of imports. Meanwhile, China is in the process of building a 310 million-barrel reserve, and India, 37 million. The IEA has made clear that the emergency stockpiles of its member countries are for strategic purposes only. But were the United States and Europe to increase their reserves significantly and major Asian nations encouraged to break that constraint and establish larger oil banks, within a few years anew global Strategic Petroleum Reserve could begin to serve as a liquidity mechanism, replacing the failings of OPEC. But it is important to remember that strategic stocks can only strengthen energy security when they are handled properly and when they are activated in a concerted manner as part of an effective international framework. Unfortunately, despite the global nature of the oil market, there is insufficient international coordination of strategic reserves, and most countries have opaque procedures on when and how to fill the stocks and on when oil can be released. Furthermore, the big emerging economies of China and India are not part, of the IEA, which coordinates the reserves held by the rich countries. Barring their inclusion in the international emergency management system China and India will be tempted to build massive stockpiles, adding extra demand to an already stretched market. David Victor and Sarah Eskreis-Winkler correctly point out that "a better-run and better-coordinated international system of oil caches could help convince China and India that treating oil as a true commodity and trusting the markets more are better ways to improve their energy security than pursuing oil mercantilism."5
Redundancy is also an imperative for producers In order to bring their product to market energy exporters depend on vast pipeline networks, export terminals and I..NG liquefaction facilities A failure of one of those components in the supply chain would hurt not only the economic well being of the producer but also its image as a reliable supplier. In this, Saudi Arabia is perhaps the most
vulnerable producer. As Ali Koknar described in Chapter 2, the Kingdoms oil
} system is target rich and extremely vulnerable to terrorist acts. This is not only
| due to al-Qaeda's strong presence there and its ability to carry out coordinated
! attacks but also to the structure of the Kingdoms oil infrastructure. Over half
J of Saudi Arabia's oil reserves are contained in just eight fields, among them the
| world's largest onshore oil field—Ghawar, which alone accounts for about half of
j the country's total oil production capacity—and Safaniya, the worlds largest off-
j shore oilfield. About two-thirds of Saudi Arabia's crude oil is processed in a single
| enormous facility called Abqaiq, 25 miles inland from the Gulf of Bahrain. On the
j Persian Gulf, Saudi Arabia has just two primary oil export terminals: Ras Tanura—
j the world's largest offshore oil loading facility, through which a 10 percent of
I global oil supply flows daily—and Ras al-Ju'aymah. A successful terrorist attack
I on each one of these hubs could take up to half of Saudi oil off the market for an
j extended period of time and with it most of the world's spare capacity, causing a
j major economic shock. In addition to this, Saudi Arabia now faces the threat of
j Iranian blockage of the Strait of Hormuz. Iran possesses a stockpile of mines that
| could be used to disrupt the flow of transportation and provoke the United States
to engage in extended military conflict. Such emerging threats to Saudi access to
! global markets have revived interest in the Trans-Arabia oil pipeline project that
; would circumvent the Strait of Hormuz by carrying Saudi oil from Ras Tanura to
' export terminals in Oman, UAE and Yemen. As Ariel Cohen described, Russia too
• is increasingly interested in diversification of its supply routes to both the Euro-
j pean and Asian markets. Unlike Saudi Arabia, whose primary concerns are terror-
| ism and war in the Persian Gulf, for Moscow supply route diversification is aimed
J at Russia's dominating access to its markets and preventing competing conduits
j of Caspian energy from capturing a significant share of the European market.
■ Redundancy is no less important in the power sector. As David Sweet pointed I ' out, the vulnerabilities of power grids throughout the world to intrusions and \ terrorist attacks are at all-time highs with potential for major and economically | devastating disruptions. Not withstanding advances in both cyber and physical ! security as well as attempts to decentralize power sources through DE, the short-; term or long-term disruption of electricity to banks, refineries, hospitals, airports, \ water systems and military installations still presents a terrifying scenario. Power | companies, policymakers and regulators throughout the world are waking up to I this reality, developing tactics and technologies to defend high impact targets like I transformers and supervisory control and data acquisition, or SCADA, systems.0
In increasingly integrated markets like Europe a main strategy to add redundancy is to interconnect national transmission grids that were initially constructed to be
■ independent and stand-alone.
Realists vs. Idealists
In most cases the universal principles discussed above are not enough to fulfill countries' energy security needs, andjhis brings us to the biggest question facing
340
Energy Security Challenges for the 21st Century
Realism and Idealism in the Energy Security Debate
the energy security community: will humanity manage to peacefully balance the interests of all of the players in the energy security system or will the world descend into a series of diplomatic skirmishes, fierce economic contest and energy wars. Michael Klare's and Chris Fettweis' chapters shed some light on one of the most interesting debates in the field of international relations today between energy security realists and what can be called energy security idealists.
Energy security realists see the world grappling with a cluster of challenges that will only get worse as time goes by. They assume that countries are predisposed to pursue their self-interest using every aspect of their national power. They therefore tend to view energy as a subset of global power politics and a legitimate tool of foreign policy, and they are skeptical of the current energy market's ability to guarantee long term supply. Realists point out that throughout history, certain commodities, and in particular energy commodities, minerals, water and food, have had a strategic value beyond their market price and as such they have been repeatedly used as tools of foreign policy by exporters and have been among the prime catalysts for armed conflict. As the world is evolving into what Michael Klare calls a system of "rising powers/shrinking planet," the risk of energy wars is in the minds of many Klare's predictions are bleak, seeing the earth transforming into "a barely habitable scene of desolation" due to a series of energy conflicts and environmental degradation, and this view is not uncommon among energy security realists.7 While realists accept the role of collaboration and interdependencies as a way to enhance collective energy security, they do insist on weighing this against other material forces, together with an understanding of the history, culture and economics of the societies comprising the international system. In a world of jihad, terrorism, proliferation of weapons of mass destruction and deepening divide between Islam and the West, realists cannot ignore the fact that more than three quarters of the world's proven conventional oil reserves and nearly half of its natural gas reserves are concentrated in Muslim countries. Realists recognize the power and threat of the oil cartel, and they sharply distinguish between nationalized resources used as tools of the state and resources owned and commercially handled by international companies that adhere to free market rules. In light of all this, realists see a role for the state in a concerted effort to reduce the strategic value of oil and gas, in effect putting energy policy in the service of foreign policy as opposed to the current situation in which foreign policy is increasingly subjugated to energy policy concerns.
Idealists on the other hand view a slightly rosier future, believing that war to control territories that contain fossil fuels will continue to be a very rare phenomenon as the new century unfolds. Fettweis explains that fighting over energy is futile since it will always be cheaper to buy oil than to seize it^He argues that "the interests of consumers and producers do not conflict—all parties involved in oil production have serious interests in stability, without which no one can benefit," and this reflects the bedrock principle of energy security idealism: strong laith in the power of markets and the concept of "interdependence" as the key-to ensure energy security. Idealists point out that because oil and gas are traded
globally, a supply disruption anywhere will affect prices everywhere. They have a fundamental belief that energy market players are rational and motivated by profit maximization. Markets should be left to work and higher prices are not an energy security problem but a solution as they depress demand and increase efficiency. Idealists tend to downplay ideological, cultural and geopolitical drivers, and they view efforts by consumers to insulate their economies through greater self-reliance as futile and undesirable. International competitive and integrated markets, on the other hand, are viewed as tension reducers that increase market certainty and create a healthy equilibrium between the economic interests of consumers and producers. Popular among idealists is the idea of a "grand bargain" among producers and consumers, one that, in the words of World Bank President Robert Zoellick, involves."sharing plans for expanding supplies, including options other than oil and gas, improving efficiency and lessening demand; assisting with energy for the poor; and considering how these policies relate to carbon production and climate change policies."8 Such calls for improved multilateralism on energy security are not new. The problem is that they do not seem to work. In June 2008, when global oil prices hit a record near $140 a barrel, the world's major oil producers and consumers, as well as leaders from big oil firms and international organizations convened in Jeddah, Saudi Arabia, to seek ways to bring stability to the international oil market for the benefit of all. At the conference British Prime Minister Gordon Brown called for a long-term deal whereby the oil-consuming nations would diversify energy supplies, moving into nuclear and renewables, and the oil-producing countries would increase production, as well as recycle some of their huge profits into western renewable technologies.9 But despite these calls for adoption of win-win solutions, tensions between producers and consumers worsened further in the month that followed and the prospects for such a grand bargain, and even, more, the prospects of actors fulfilling their promises, seem highly unlikely.
The belief in the rationality of markets causes idealists to play down the notion that producers would use their energy as a weapon. The Arab oil embargo of 1973, which demonstrated the danger of a conflict between suppliers and consumers, is viewed as a solitary incident that acted as a boomerang, hurting the exporters more than the consumers. The threats of using the energy weapon by Hugo Chavez and Mahmoud Ahmadinejad are viewed as empty rhetoric, and Russia's repeated use of the natural gas weapon can be avoided through stronger integration of European markets and enhanced dialogue with Moscow.
The acolytes of energy security idealism also sweep away views calling for increased energy independence. As Daniel Yergin wrote in Foreign Affairs, real energy security requires setting aside the pipe dream of energy independence and embracing interdependence.10 Pierre Noel alleges that calls for energy independence "reinforce prejudices in China and India about the need for aggressive foreign energy policies—a process that looks like a vicious circle."11 And Frank Verrastro and Sarah Ladislaw called for "a much more sophisticated approach to energy policymaking, one that more fully appreciates the interdependencies of
342 Energy Security Challenges for the 21st Century
global markets, the complex nature of energy security, and the need to manage the trade-offs inherent in energy policy decision making."12
If realists are less "sophisticated" in their thinking it is primarily because they assume that most countries—consumers and producers alike—are still motivated by nationalistic sentiments and that market forces and economic interdependence do not guarantee peace and stability. The notion that interdependence reduces the risk of conflict does not pass the test of historical scrutiny. World War I broke among the most economically interdependent countries. Despite high trade levels in 1913-14 German leaders decided to attack, to ensure long-term access to markets and raw materials. In the 1930s,4.he two most_aggressive states, Germany and Imperial Japan, were also the most highly interdependent despite their efforts towards autarky relying on other states for critical raw materials. In fact, Japan had a much higher level of economic interdependence with other countries than it did in the 1920s, but nonetheless embarked on aggressive imperialism.
Energy security realists' skepticism of the ability of energy markets to deliver energy security also stems from their view of energy markets as anything but free. Nearly 80 percent of the worlds oil reserves are controlled by governments through their national oil companies. These governments set prices by their investment and production decisions, and they have wide latitude to shut off the spigot for political reasons, just as Libya did as we were writing these lines in October 2008 when it decided to stop oil supply to Switzerland in response to the arrest in Geneva of the son of Libyan leader Muammar Gaddafi.13
OPEC countries that rely heavily on energy revenues are inclined to keep prices high. In Winter 2008, as the price of oil plunged from its histoncal high of $147 a barrel to under $40, the IMF assessed that Saudi Arabia must earn at least $49 a barrel to avoid going into deficit, Iran and Venezuela need $90 and Iraq $110 to balance their books.14 This is the mam reason why those countries are likely to continue to constrict supply and restrict access to foreign investment. To this end, Saudi Arabia's King Abdullah ordered some new oil discovenes left untapped to preserve oil wealth in the worlds top exporter for future generations.15 Russia also showed that it aims to restrict production. "The idea of mothballing oilfields seems very interesting to me," Russian Energy Minister Sergei Shmatko said.16 These are not necessarily displays of greed and focus on short term economic considerations but also a reflection of a different perception of time in some of the producers' cultures. Unlike well-diversified industrialized economies where there is strong belief in the power of technology, and innovation to ensure economic progress, countries heavily reliant on energy revenues for their economic well being see their reserves as an insurance policy that guarantees their future economic security. This may also explain exporters' lack of transparency, denying energy markets the information that is so vital to their healthy functioning. Recent nationalization efforts of energy assets m places like Venezuela, Russia, and Bolivia promise more government control and less hospitable investment climates for lOCs in the decades to come Furthermore, in many countries energy prices are controlled by governments and petroleum products are either sold for
Realism and Idealism in the Energy Security Debate 343
way below market prices or are heavily taxed. Finally, trade barriers on alternative fuels are still prevalent in the United States and EU and are blocking the road to international free and open trade among consumers and producers.
Make no mistake, despite intensive efforts by Western oil companies in recent decades to develop non-OPEC sources of supply in West Africa, the Caspian, Latin America and the tar sands of Canada, the Middle East remains and will con-tinue to remain the world's primary supplier of crude oil. The 1EA projects that the share of Middle Eastern members of OPEC of world oil production will grow from 28 percent today to 43 percent in 2030. This will no doubt allow OPEC members to wield tremendous geopolitical power and an ability to manipulate the oil prices to the detriment of the global economy. Russia's recent international behavior is a source of great concern in the West. Just one month after its attack on Georgia, Russia's President Dmitry Medvedev delivered a hard blow to the prospect of multilateralism in energy security when he told the UN Security Council that Russia would unilaterally claim part of the energy-rich Arctic, sidestepping efforts to reach multinational agreement on the future of this region. "This is our | responsibility, and simply our direct duty, to our descendents," he said. "We must I surely, and for the long-term future, secure Russia's interests in the Arctic."1' I As we move deeper into the 21st century many of the challenges of the oil
!■        market will be duplicated in the natural gas market. Due to high oil prices natural gas will continue to replace oil wherever possible. In addition, because \        natural gas emits less C02 when it is burned than either coal or petroleum, j        governments implementing national or regional plans to reduce greenhouse gas • I        emissions may encourage its use. As a result, according to the EIA, total natural gas consumption is projected to increase from 104 tcf in 2005 to 158 tcf in 2030.18 On the supply side, almost three-quarters of the world's natural gas reserves and half of the world's undiscovered reserves are located in the Middle East and Eurasia. Russia, Iran, and Qatar together account for about 57 percent 1        of the world's natural gas reserves. With such growing control over reserves the j        temptation to create an OPEC-like natural gas cartel will be strong. In January j        2007, Iran's supreme leader Ayatollah Ali Khamenei proposed that Iran and Russia create a cartel. Later that year then Russian President Vladimir Putin and Qa-tari Emir Sheik Hamad bin Khalifa Al Thani agreed to explore the idea. President Abdelaziz Bouteflika of Algeria and President Hugo Chavez of Venezuela are also known to support creation of such a cartel. And in October 2008, Iran, Russia and Qatar announced that they would form a "big gas troika."19 But many energy \        security idealists still play down this possibility, pointing to the complexity of natural gas markets compared to oil. Natural gas is less fungible than oil and unlike oil, which is traded on an exchange that constantly updates the market I price based on supply and demand, it is sold under tight contracts that allow
; buyers to lock in prices for up to 25 years. This makes a gas cartel difficult to
achieve, according to the skeptics. But as more natural gas is traded in the form : of LNG and as fewer countries control its reserves the feasibility of such a cartel
and likelihood of its effectiveness increase. Whether or not the 16-member Gas
344 Energy Security Challenges for the 21st Century
Producing Countries Forum will evolve into a cartel is hard to tell at this point but many of this groups members are clearly interested in the option. It is worth remembering that OPEC was first formed in I960, but it did not function as a true cartel until 1999, when Saudi Arabia began tcrassert its will to push prices higher.
Finally, the financial crisis that began in 2008 and is unfolding as these lines are being written is likely to leave energy-producing countries in a more advantageous position to solidify control over the world's energy system as alternatives to hydrocarbons become less competitive. The collapse of the global credit system has reduced the volume of investment in renewable energy from $7 billion in 2007 to $5 billion in 2008 and a forecasted $4 billion in 2009.
There is no doubt that in the era of globalization countries become increasingly interdependent in a variety of fields. There is also little dispute that in a perfect world interdependence is a wonderful idea. But the world is far from perfect and the world's top energy exporters are the most imperfect of all. Regretfully, to date, the idealist approach to energy security has proven ineffective in checking the emboldened posture of energy exporters and the overt challenges they pose to global energy security and to international security writ large. This is particularly true for Europe, where the approach of soft security is applied to energy security as well and where energy security idealism is therefore pervasive. European action in face of Russia's coercion has been weak, disunited and unfocused. This has given the Kremlin greater political influence, to the detriment of Europe's economic security. The EU's purported policy of promoting greater competition in energy supplies and diversification of the continent's natural gas sources has been largely unsuccessful, and projects like Nabucco, which could help diversify European energy supply, seem to have gained little traction. High level European officials who publicly lament the EU's inability to diversify its sources are often the same ones who give endorsements to Russian projects that are going to make things worse. As Robert Bell noted in Chapter 17, energy security idealism is one of the mam reasons behind some EU governments' reluctance to enable an expanded role for NATO in energy security believing that the discussion on energy security in the framework of NATO would send the wrong signal to Russia. Pierre Noel's assertion that "NATO for energy is a dangerous nonsense" is reflective of this mindset.20
When it comes to Washington, the idealists' approach to energy security also leaves much to be desired. The years of the Bush administration were dedicated to promotion of anti-terrorism best practices abroad and collaboration on critical energy infrastructure protection as well as an effort to promote political reforms in energy-producing regions and democratize Arab regimes in the hope that such policy could put U 5 relations with such regimes on a sound political footing and hence ensure security of supply.21 But the Middle East is slow to embrace democracy, and while as of this writing it is premature to determine whether or not the Iraqi experiment is a success, in other parts of the region, as well as in other key energy producing countries like Russia, Kazakhstan, and Venezuela, freedom and
Realism and Idealism in the Energy Security Debate 345
f
] democracy are in retreat. In fact, the Middle East is becoming increasingly volatile I as most of the region's players have declared their intentions to follow Iran's path I       and develop nuclear capabilities, albeit for "peaceful purposes."
I      Environment and Security
f In recent years, climate change concerns have been injected into the discussion
] on energy security, exposing another divergence of opinion in the energy security í community. Some security experts hold that climate change poses a serious threat j to international security According to this view projected climate change acts as I a threat multiplier in already fragile regions, exacerbating conditions that lead to J failed states—the breeding grounds for extremism and terrorism—and adding to J tensions even in stable regions of the world.22 Those who view climate change as j a global security threat of equal urgency to the current energy security challenge j demand that the potential national security consequences of climate change be ^ fully integrated into national security and national defense strategies, and that en-J ergy security solutions should only be applied if they also address climate change t concerns. In Chapter 22, Deron Lovaas shows how difficult the tradeoffs are be-1 tween energy security and environmental challenges. Energy security concerns can breed policies that environmentalists consider devastating. One example is I coal-to-liquids. During the apartheid years, South Africa faced economic sanc-\ tions, which threatened its oil imports. The country addressed its energy security , challenge by building coal-liquefaction facilities. Today, coal-rich countries like * China and the United States, eager to cut petroleum dependence, are increas-i ingly interested in similar coal-to-liquids technology, which is profitable as long j as crude oil remains above $60 a barrel. But, for environmentalists, using coal to j displace oil is a nightmare scenario, as coal-derived fuel produces twice as much 1 C02 as petroleum-based fuel. Coal is not the only source of energy that improves J energy security while increasing C02 emissions. Canadian tar-sands and oil shale j have tremendous potential for additional liquid fuels, but the environmental im-j pact of extracting them far exceeds that of conventional oil. Indonesia's attempt to j supply the world with biodiesel made from palm oil led it to burn its rainforests, í releasing such vast amounts of C02 that the country turned into the worlds third ■I        biggest emitter after China and the United States.
While some put greater emphasis on energy security at the expense of the \ environment, others are willing to sacrifice energy security in order to address environmental concerns. The prime exhibit here is Germany, whose chancellor Angela Merkel named confronting climate change as her country's top priority. The German government announced that it will seek to totally phase out the country's coal-mining industrial sector by 2018. It also intends to phase out its nuclear-power industry by 2020 (this despite the fact that nuclear power plants do not emit C02). Considering the fact that 80 percent of Germany's electricity comes from coal and nuclear power, these are astonishing decisions. Replacing these sources of base load power with Russian natural gas and a slew of renewable-energy
Energy Security Challenges for the 21st Century
technologies, many of which are not yet competitive, could put the German economy at the mercy of the Kremlin, which has shown no compunction in using energy as a geopolitical weapon.23 India also highlights the challenge in squaring security and climate-change considerations. India's growing demand for electricity > puts it on the horns of dilemma: As Jeremy Carl showed, as owner of 10 percent of the world's coal reserves it could provide for most of its own power needs. Coal power for one billion Indians means a lot of CO,. Yet, secunty-minded people are even more concerned about India shifting to the cleaner alternative to coal, natural gas. Should India decide to power its turbines with natural gas it is likely to become increasingly dependent on neighboring Iran, the worlds second largest natural gas reserve. Pressuring India to reduce its emissions may slow down the melting of the ice-caps, but such a policy will send India right into the welcoming arms of Iran, undermining Western efforts to isolate Iran economically
If there is an inconvenient truth relating to our energy system it is that we'may not be able to address both issues in one strike, and too much emphasis on one could worsen the other. This is not to say that there are no policies that could successfully address both. Investment in efficiency, conservation, and clean technology is""desirable and should be promoted. Renewable sources of energy like solar, wind and geothermal are critical. So are technologies to recycle C02 into usable liquid fuels like methanol and biodiesel from algae. But if one is to look at the big picture, such agreealjle-to-all-sides remedies in and off themselves cannot solve problems of this magnitude. In times of peace, and prosperity, security and the environment tend to compete for resources and public support on an equal footing, and the challenge policymakers face is to find an optimal balance between the two. But history shows that as geopolitical and economic concerns loom larger, environmental concerns tend to be put on the back burner, sometimes with painful long term consequences.
The Choice to Have Choice Is Ours
Nice as it would be to have a global energy system in which consumers, producers and transit states work harmoniously to the benefit of all, the current realities leave little room for optimism Turning a blind eye to the destabilizing elements, indulging in wishful thinking or kowtowing to unsavory regimes all on the altar of interdependence is exactly what brought to some of the worst calamities of the last century To reach true and lasting energy security we must understand the strategic value of energy resources and most specifically the implications of maintaining oil's monopoly in the transportation sector. As both Gal Luft and Paul Werbos pointed out in their chapters, the unique strategic importance of oil to the modern economy stems from the fact that the global economy's very enabler, the transportation sector, is utterly dependent on it More than 95 percent of transportation energy is petroleum based And yet, throughout the world, the energy debate is locused, Irom a foreign policy perspective—as articulated by the Carter Doctrine—on ensuring uninterrupted access to oil including
1
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I Realism and Idealism in the Energy Security Debate
\ by military force if necessary, and from a domestic policy perspective, on policies
f that increase either the availability of petroleum or the efficiency of its use. The
5 reality is that efforts to expand petroleum supply or to crimp petroleum demand s do not address the roots of the energy vulnerability: oil's monopoly in the trans-; portation sector (the reason oil is a strategic commodity), and the stranglehold of \ OPEC over the consuming nations' economies. To enhance energy security there < should be a focus on transformational policies that aim to reduce oil's strategic \ value through choice and competition in the transportation fuel market—in effect 1 expanding Churchill's variety doctrine to include variety of fuels. Since oil's stra-i tegic status derives from its domination of ground transportation, this requires, j first and foremost, vehicles that can run on a variety of fuels—not just petroleum-j based fuel. Such vehicles reduce the importance of any one feedstock or fuel to | the transportation sector. Cars that can run only on gasoline prevent significant | market penetration of alternative fuels and thus maintain the monopoly of oil in I the transportation sector and with it the excessive power of the oil cartel. As Paul j Werbos described, for a cost of roughly $100 extra compared to a gasolme-only
I vehicle, automakers can make virtually any car a flex-fuel vehicle, capable of ; running on any combination of gasoline and a variety of alcohols such as ethanol i        and methanol, made from a variety of feedstocks, including agricultural material,
waste, coal, and natural gas. (Alcohol does not just mean ethanol, and ethanol
does not just mean corn.) Flex-fuel vehicles provide a platform on which fuels I can compete and let consumers and the market choose the winning fuels and ) feedstocks based on economics. Electric cars and plug-in hybrid electric vehicles I (PHEVs) also provide access into the transportation sector to non-petroleum en-J ergy sources, placing electricity—which in net consuming countries is for the i most part not generated from oil—in competition with liquid fuel. Flex-fuel j PHEVs enable electricity and alcohols from a variety of energy sources to compete 1 against petroleum based fuel, thereby breaking oil's monopoly in the transporta-i tion sector and with it OPEC's growing control over the world's economy. Policies 5 that accelerate the shift to competition-enabling cars are key to stripping oil of its j strategic status. When cars and trucks throughout the world become platforms ] on which fuels can compete, oil will be forced to compete at the pump (or the j socket) against other sources of energy like coal, biomass, natural gas and the j        broad spectrum of electricity sources. Such competition will not only drive down
the price of oil but it will also alter the geopolitical balance of power in favor of ;        oil importers and developing countries with resources to become alternative fuels
producers.
The rise in oil prices constitutes a regressive tax on the world's poorest nations—many of which are located in Africa, South Asia and Latin America— with an adverse impact on global security. At the same time, these nations have a significant potential for energy production through their agricultural sectors, particularly considering the large swaths of degraded, land suitable for cultivation of energy crops. Instead of importing their oil from OPEC, poor developing countries could export alternative fuels (not to mention supply fuel to their own
Energy Security Challenges for the 2 1st Century
markets), driving world development and facilitating healthy economic interdependences. An international focus on breaking oil's transportation fuel monopoly would therefore be an engine for world development and poverty alleviation. According to author Robert Zubrin, "We could take something like a trillion dollars a year now going to the oil cartel, and redirect it to the world agricultural sector instead—about half going to advanced sector farmers and the other half going to the third world. This would create a huge financial engine for world development, and allow"hundreds of millions of people to be lifted out of poverty."24 Unfortunately, progress in this direction is thwarted by trade barriers put in place by developed nations, one example being the 54 cent per gallon tariff the United States imposes on ethanol lmportsr-
A fuel choice strategy would enable the two fastest growing oil consumers, China and India, to avoid tying their transportation sectors exclusively to oil, a course that could become a complicating factor in their future relations with the West and with other regional powers. Maintaining oil's monopoly in the transportation fuel market bears the risk of putting the United States and China on a collision course over access to oil as demand increases. It is therefore in the interest of both countries to strive for fuel choice by utilizing their coal and biomass endowments as well as a broad spectrum of electricity sources, all of which can displace oil in the transportation sector.
But none of this will happen without committed leadership and government action to remove barners to competition, through policies affecting technology (e.g., by enacting an open fuel standard, as discussed by Luft and Werbos) and trade (e.g., by repealing import tariffs on alternative fuels). Consuming countries will have to strike the right balance between security and environmental concerns and work in concert against anti-market forces and coercion by non-democratic energy exporters. And yes, there will be times that aircraft carriers will be put to use in the service of energy security. ^
Sheikh Zaki Yamani, a Saudi who served as his country's oil minister-three decades ago is known for his reflection that "The Stone Age did not end for lack of stone, and the Oil Age will end long before the world runs out of oil." But whether or not the world is running out of oil 150 years after the discovery of oil in Titusville, Pennsylvania, the age of oil and gas is showing the first signs of slowing down and the curtain is being raised on a new energy era. What this era will look like, who will be its power brokers and how smooth will be the transition to it is premature to determine. What is clear is that it will be up to consumers to raise the curtain and do so pulling all their weight, as defenders of the old order are guaranteed to try to drag the curtain down to prolong the economic system on which they thrive. The ultimate question is who will pull harder
Notes
1. Statement of James Schlesinger before the Committee on Foreign Relations, U.S. Senate, November 16, 2005, http7/www.planetiorlife.com/oilcnsis/oilschlesinger html.
1
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i Realism and Idealism in the Energy Security Debate
i 2  "Still Holding Customers Over a Barrel," The Economist, October 25, 2003.
i 3. Winston Churchill, Parliamentary Debates (Commons, July 17, 1913), 1474-1477
' 4. "lEAs Tanaka: Spare Oil Capacity will Tighten Again," Reuters, August 27, 2008.
5. David G. Victor and Sarah Eskreis-Winkler, "In the Tank: Making the Most of Strategic Oil Reserves," Foreign Affairs, July/August 2008.
6. Making the Nation Safer: The Role of Science and Technology in Countering Terrorism, National Academy of Committee on Science and Technology for Countering Terrorism and National Research Council, 2002, http://www.nap.edu/openbook.php?isbn=0309084814.
• 7. Michael Klare, Rising Powers, Shrinking Planet (New York: Metropolitan Books 2008),
; 261.
8. "ModernizingMultilateralism and Markets," speech by Robert B. Zoellick, President, i The World Bank Group, The Peterson Institute for International Economics, Washing-
| ton, DC, October 6, 2008, http://siteresources.worldbank.org/BRAZlLEXTN/Resources/
j Zoellickspeech6October2008.pdf.
i 9. "Demand, not Speculation, at Heart of Oil Shock, Says Brown," The Guardian, June 23,
I 2008.
,     '        10. Daniel Yergin, "Ensuring Energy Security," Foreign Affairs, March/April 2006. ; 11. Pierre Noel, "Challenging the Myths of Energy Security," Financial Times, January 10,
2008.
12. "Frank Verrastro and Sarah Ladislaw, "Providing Energy Security in an Interdependent World," The Washington Quarterly, Autumn 2007, http://www.twq.com/07autumn/ docs/07autumn_verrastro.pdf. ' 13. "Libya Cut<TSwiss Oil and Economic Ties in Protest," Reuters, October 11, 2008
14. "Saudi Needs Oil Above $49 to Avoid Deficit," Gulf Times, September 21, 2008
15. "Saudi King Says Keeping Some Oil Finds for Future," Reuters, April 13, 2008. i              16. "Russia Wants to Influence Global Oil Price," Reuters, September 25, 2008.
17. Miriam Elder, "Russia Threatens to Seize Swathe of Arctic," The Daily Telegraph, September 18, 2008.
j 18. EIA, International Energy Outlook 2008, http://www.eia.doe.gov/oiaf/ieo/nat_gas
| html.
19. "OPEC Style Gas Cartel Established," RTF Business, October 22, 2008, http://www. ■i rte.ie/business/2008/1022/gas.html. v 20. Pierre Noel, "Challenging the Myths."
'' 21. Patrick Clawson and Simon Henderson, Reducing Vulnerability to Middle East En-
I ergy Shocks, A Key Element in Strengthening U.S. Energy Security, Washington Institute for
i Near East Policy, Policy Focus #49, November 2005, http://www.washingtoninstitute.org/
\ pubPDFs/PolicyFocus49.pdf.
< 22. Center for Naval Analysis (CNA), National Security and the Threat of Climate Change,
j. http://securityandclimate.cna.org.
; 23. Frank Umbach, "Germany's Energy Insecurity," journal of Energy Security, October
2008, http://www.ensec.org/index.php?option=com_content&view=article&id=153:germ anysenergymsecurity<5zcatid=81 :europe&Itemid=324.
24. Robert Zubrin, Energy Victory: Winning the War on Terror by Breaking Free of Oil (Amherst, NY: Prometheus, 2007).
Index
Abe, Shinzo, 53
Aden-Abyan Islamic Army (Muslim
group), 40 Afghanistan, 5, 12, 19, 55, 57, 109, 114,
118, 124, 147, 258, 336, 337 Africa, 11, 51, 73, 347; agreement standards with China/U.S., 246; common energy security interests, 234-35; conflict prevention and resolution, 247; energy security approach, 243-46; importance of, 236-37; interests of China in, 12; promotion of governance, 245; provision of security, 245-46, revenue creation maximization, 8-9, revenue maximization, 244; sustainable development promotion, 244-45. See also Economic Community of West African States; U.S.-Africa-China energy triangle Africa-Europe Energy Partnership, 167 African Contingency Operations Training
and Assistance Program, 58 AFR1COM (U.S. African Command),
58-59, 147 Ahluwalia, Montek Singh, 219 Ahmadinejad, Mahmoud, 7, 201, 341 al Qaeda: bombing in Algiers, 47; Saudi Arabia's fight against, 49; threats to oil industry, 19, 23; thwarting by Moroccan government, 39; war with U.S., 68, Yemen attacks, 24. See also Salafist group for Preaching and Combai
al Qaeda in the Islamic Maghreb
(AQ1M), 23 al Zawahri, Ayman, 18 Alaskan National Wildlife Reserve
(ANWR), 152 Algeria, 3, 6, 131, 133, 134, 136; OPEC
investments in, 83; OPEC membership,
78; ousting of regime, 48; terrorist
attacks, 23, 46-47 Angola, 47, 150; IMET program, 58;
OPEC membership, 78; terrorist attacks,
46-47
AQ1M. See al Qaeda in the Islamic
Maghreb (AQ1M) Arab Natural Gas Pipeline Project, 259 Arab oil embargo (1973), 4 Arctic: geopolitical friction possibilities,
53-54; oil exploration, 34-35; Russian
energy rush, 100-101, 343 Argentina, 6, 131, 133, 134, 136 Armed Islamic Group (Croupe Islamique
Arme), 23 Arriagada, Genaro, 131 Asia, 5, 10, 11, 12, 73; Clean
Development Mechanisms, 136; energy ' demands, 50; increasing peacefulness,
73; recession and financial crisis, 80 Asia Energy Conservation Collaboration
Center, 184 Asia-Pacific Economic Cooperation
(APEC), 157 Association of Southeast Asian Nations
(ASEAN), 74, 202
1
352
Index
Index
353
Atatah, Edward, 44-45~~"
Ausiralia, 164; oil production declines (2000-2008), 2; uranium supplies, 14
Automobiles: EU mileage standards, 87; fuel efficiency, 87, 88; U.S. usage data, 146. See also Flex-fuel vehicles, Gasoline-ethanol-methanol (GEM) fueljlexibility; Plug-in electric hybrid vehicles (PHEVs)
Azerbaijan, 24, 53, 57, 69, 92, 147, 337; Caspian Basin involvement, 115-17
Azimov, Araz, 116
Baker Institute, 87 Baku-Erzurum-Ceyhan gas pipeline
(Turkey), 9, 57, 94, 97, 254 Baku-Novorossiisk pipeline, 121 Baku-Tbilisi-Ceyhan (BTC) pipeline, 9,
12, 24, 25, 69-70, 111, 115, 126, 166,
251, 267 Balkan wars, 92, 104 Barrosojose Manuel, 267, 269 Barzani, Massoud, 21-22 Batman-Dortyol pipeline (Turkey), 25 BBC reports on Nigeria (2007), 45 Bell, Robert G., 261-69, 344 Berdimoukhamedov, Gourbangouli, 112 bin Laden, Osama, 48-49 Biodiesel production, 135-36, 205, 225,
325, 326, 345 '" Biofuels, 15, 87, 135-37, 285-86; China
and, 204, 205; European Union and,
161, 163; India and, 225; U.S.-Brazil
Biofuels Pact (2007), 129, 134, 139. See
also Ethanol Biomass, 6, 10, 133-36; environmental
tradeoffs, 324-27 Blue Stream Gas Pipeline, 94, 96-97,
254,257 Boiling Water Reactor (Japan), 178 Bolivia, 6, 10; hydroelectric stations, 133,
nationalization efforts, 342 Brazil: biodiesel production, 1 36, crude
oil supplies to U S , 129, ethanol .
production, 134-35; hydroelectric
stations, 133; natural gas reserve data,
1 30; oil reserve data, 1 32, U S.-Brazil
Biofuels Pact, 134. See also Peiroleo
Brasileiro SA British Petroleum (BP). 25, 32, 38,
99; BTC consortium leadership, 27;
Statistical Review of World Energy,
91; threat by Iran, 53; TNK-BP joint
venture, 99. See also Oleoducto Central
(OCENSA) pipeline Brittle Power: Energy Stratég}' [or National
Security (Rocky Mountain Institute),
156
Brown, Gordon, 341 Brownback, Sam, 201 Burgas-Alexandroupolis pipeline, 96, 252, 259
Bush, George H. W, 55-56, 147 Bush, George W, 56, 57, 258; on the energy crisis, 335; establishment of AFR1COM, 58-59; intervention in Afghanistan, 57; invasion of Iraq, 56; 2006 State of the Union address, 146, 157; U.S.-Brazil Biofuels Pact, 134
Calder, Kent, 203
California: GEM car deployment, 285; oil
spills, 152; rolling blackouts, 5; solar
farms, 291-92 Canada, electricity disruptions, 5;
maritime conflict with Surinam, 32;
natural gas supplies to U.S., 129,
uranium supplies, 14. See aíso CGX
Energy; Harper, Stephen Cano-Limon-Covenas pipeline (Occidental
Corporation), 22, 25^_ Car bomb attacks, 23 Carl, Jeremy, 11, 219-31, 346 Cars See Automobiles Carterjimmy, 51, 54-56, 145 Carter Doctrine (1980), 51, 54-56, 147,
346-46-347; globalization of, 57-59 Caspian Basin: energy security, 109-24,
geostrategic tug-of-war in, 109—10;
regional projects/agreements, 121-24,
White Stream project, 122. Sec also
Azerbaijan, Iran, Kazakhstan, Russia,
Turkmenistan; Uzbekistan Caspian Pipeline Consortium (CPC), 1 11 Caspian Sea, 12, 53, 57, 69-70, 71,91
Center for Arms Control and
Non-Proliferation (U.S.), 204 Central America, 134, 135, 136, 139. Sec
also Costa Rica; El Salvador; Guatemala;
Honduras; Nicaragua; Panama Central American Free Trade Agreement
(CAFTA), 135 Central Asia, 10, 11, 91-92, 93, 97, 98,
147
Central Asia-Center (CAC) pipeline
' system, 122-23 Central Europe Pipeline System (CEPS), 268
CGX Energy (Canada), 32 Chad: IMET program, 58 Clummont tanker, attack against, 39 Chavez, Hugo, 4, 7, 130-31, 138, 336, 341 Chen, Matthew, 198 Cheney, Dick, 56
China, 191-209; agreement standards with Africa/US., 246; awarding of exploration rights by, 33-34; Caspian Basin involvement, 121; common energy security interests, 234-35; conflict prevention and resolution, 247; diplomacy/military buildup, 201-4; energy consumption data/demands, 1, 73-74; energy security approach, 239-43, 3.36; growing oil dependence, 7; 1EA membership, 12-13; increasing energy demands, 50-51; interest in Africa, 12; interest in Latin America, 10, 11; and Kazakhstani energy, 112; Kennedy's opinion of, 151; liquefied natural gas in, 206-7, 273, 279; local policy, 204-8; national oil companies, 192-93; oil consumption data, 151; oil production declines (2000-2008), . 2; oil reserve buildup, 338; oversea ventures, 193-200; policy formation, 192-93; population/economic growth challenges, 11; U.S. dual view of, 151; Zhoungya Petroleum Exploration Bureau, 46. See also East China Sea; Ogaden National Liberation Front; Shanghai Cooperation Organization; South China Sea; U.S.-Africa-China energy triangle
China Light & Power (CLP/Hong Kong). 206
China National Offshore Oil Corporation
(CNOOC), 52, 192, 203, 207 China National Petroleum Company
(CNPC/China), 46, 192 China North Industries Corporation, 60 China Petrochemical Corporation
(Sinopec), 192 Chinese Communist Party (CCP), 192 Churchill, Winston, 336, 347 CIA-orchestrated Iran coup (1953), 54 Clean Air Act (1990), 320 Clean Development Mechanisms (.CDM), 136 Climate change, 14, 137, 161, 162, 319,
328, 329-30. See also Global warming Clinton, Bill, 56, 57, 147, 264 Coal: for electricity generation, 6;
environmental tradeoffs, 319-22; Indias
dependence on, 11, 14, 219-31; power
plants, 4
Coal India Limited (CIL), 222, 224 Coalition for Military Action in the Niger
Delta (COMA), 45 Coal-to-liquid (CTL) technologies, 154,
185, 204, 285, 321, 337, 345 Coal-to-methanol technology, 154, 204 Cohen, Ariel, 10, 91-105, 109-24, 339 Cold War, 67, 71,72,151,265 Colombia, 8, 12, 164, 336; biodiesel production, 136; crude oil supplies to U.S., 129; natural gas/oil reserve data, 132-33; terrorist attacks, 22. See also Ecopetrol oil company, Ejercito de Liberacion Nacional; Fuerzas Armadas Revolucionarias de Colombia Common Foreign and Security Policy
(CFSP/EU), 171 Commonwealth of Independent States . (CIS), 251
Comprehensive Political Guidance (CPG), 262
Congo-Brazzaville: IMET program, 58 Congress (U.S.): access to oil producing lands, 152; energy resource lund commitment, 145; military seizure feasibility study, 67; 2007 energy legislation, 86-87
1
354
Congressional Resource Service (U.S.), 163
Costa Rica, 32, 134, 135
Council on Foreign Relations report
(U.S.), 153 Critical Infrastructure Warning
Information Network (CIWIN), 170-71 Cyber-terrorism, 4, 314, 315 Czech Republic, 92, 163
Darfur, 7, 46, 60, 145, 199 De Hoop Scheffer.Jaap, 261-62, 264 Decentralized energy (DE), 15, 308-17; benefits of, 311; cost reductions, 315-16; in Denmark, 316-17, energy security threat resilience, 314-15; fuel cell technology, 310; gas turbine technology, 309; infrastructure vulnerability reduction, 313-14; microturbme technology, 309-10; modular approaches, 313; photovoltaic panel technology, 310—11, reciprocating engine technology, 309; steam turbine technology, 309; Stirling engine technology, 310; supply disruption vulnerability reduction, 311-13; wind turbine technology, 311 Defense Industries Corporation
of Nigeria, 60 Delta Caribe Oriental LNG project
(Venezuela), 131 Democratic Republic of the Congo, 47 Department of Defense (DoD/U.S.), 60 Department of Energy (DoE/U.S), 45, 50-51
Directorate General for justice, Liberty
and Security (EU), 168 Directorate General for Transport and
Energy (DGTREN), 168 "Doing Business Report" (2008/
International Finance Corporation) Dominican Republic, 128, 135, 136
Earth-based solar farms, 291-93 East Asia, 35, 74, 183 East China Sea, 53, 74 East Siberia Pacific Ocean (ESPO) pipeline, 183, 195, 197
Index
East-West Energy Corridor strategy, 250,
251, 254, 257 Economic Community of West African
States (ECOWAS), 167 Ecopetrol oil company (Colombia), 132 Ecuador, 10; crude oil supplies
to U.S., 129; oil reserve data,
131-32, OPEC membership, 78.
See also Ishpingo-Tapococha-Tiputini
(ITT) block; Oleoducto Central
(OCENSA) pipeline Eesti Gaas company (Estonia), 94 Eisenhower, Dwight D., 296 Ejercito de Liberacion Nacional (National
Liberation Army-ELN), 22 El Salvador, 128, 134, 135, 136 El-Badn, Abdalla, 87 Electric Power Development Corporation
(EPDC), 178 Electrical Power Research Institute, 287 Electricity generation technologies",
290-91
Electricity Regulatory Commission
(China), 206 Electricity supply: power challenges,-
4-5; power supplies for, 6; as terrorist
target, 20
Emergency Law for the Stabilization of
National Life (Japan), 178 Enel energy company (Italy)^134 Energy Charter Treaty, 267 Energy Community Treaty, 255 Energy Independence and Security Act
(2007), 153 Energy Information Administration, 6,
128, 152
Energy Information Administration
(EIA), 6, 128, 132, 152, 279, 321,
323, 329, 343 Energy Information Agency, 6, 67 Energy Leading Group (China), 193 Energy Market Regulatory Authority
(EMRA/Turkey), 255 Energy Policy Act (2005), 305 Energy Policy Committee (India), 222 Energy security blueprint, 153-54 Energy Security Conference
(2007/Lithuania), 122
Index
Energy terrorism: epidemic of, 18-28;
mitigation of, 25-28; perpetrators of,
19-20; targets of, 20-25 Energy triangle. See U.S.-Africa-China
energy triangle Environment and energy security,
318- 31, 345-46; biomass tradeoffs, 324-27; carbon dioxide/climate change, 329-30; coal tradeoffs,
319- 22; hydrogen tradeoffs, 329; nuclear energy tradeoffs, 328-29;
oil and natural gas tradeoffs, 322-23; renewable (other) tradeoffs, 327-28; unconventional oil and gas tradeoffs, 323-24
Equatorial Guinea, 26, 58, 150, 199, 236,
237,247 Eskreis-Winkler, Sarah, 338 Ethanol, 6, 87, 88, 134-35, 154, 325 Ethiopia, 24, 46
Eurasia: control of resources by Russia, 97-98; as terrorist target, 24-25
European Command (EUCOM) of the U.S. Army, 27
European Commission Directive, 163
European Critical Infrastructures (ECIs), 168
European Gas Confederation (Eurogas), 171
European Neighbourhood Policy, 167, European-Program for Critical Infrastructure
Protection (EPC1P), 168-70 European Security and Defense Policy, 171 European Union, 80, 160-73, 338, 344;' auto mileage standards, 87; biofuels target, 163; Caspian Basin interests of, 109-10; common external policy, 172-73; Council Directive (2008), 168, 170; critical energy infrastructure protection, 168-70; dependence on Russian gas, 11; energy security approach, 160-61; energy sources, 161-63; external dimensions, 165-68; and greenhouse gases, 163; High Representative for Foreign Policy, 262; internal market bundling/un-bundling, 164-65; internal mechanisms, 161-64; and Kyoto Protocol, 162; pipelines,
355
170-72; Reform Treaty, 171; role of
NATO, 261; Trilateral Commission
report, 161; 2006 oil/natural gas
consumption, 91 Europol Gaz company (Poland), 94 Exclusive Economic Zones (EEZs), 31 Expert Committee on Energy Policy
(India), 220 Exportation of oil, 8-13; Caspian routes,
70; infrastructure fragility, 68; Iraq's
loss of revenue, 21-22; Nigeria's .   loss of revenue, 22-23; Saudi Arabia
data, 23, 26. See also Carter Doctrine;
Organization of Petroleum Exporting
Countries Exxon Valdez oil spill, 22
Facing the Hard Truths About Energy
(NPC), 50 FangYixian, 197
Federal Energy Regulatory Commission
(U.S.), 41,272 Ferguson, Charles D., 295-306 Ferrero-Waldner, Benita, 167, 172 Fettweis, Christopher, 8, 66-75, 340 Finland, 14, 95, 162 First Coal Program (Japan), 178 Five Year Plans (China), 193, 205, 208 Flex-fuel vehicles, 153, 347 Foreign Affairs, 341 Foreign Military Sales (FMS), 58 Foreign Military Sales Financing (FMSF)
programs, 58 Forman, Johanna Mendelson, 128-40 France, 6, 162, 302 Front for the Liberation of the Cabina
Enclave (FLEC), 47 Fuerzas Armadas Revolucionarias de
Colombia (Revolutionary Armed Forces 'of Columbia-FARC), 22, 133 Fukuda, Yasuo, 53
Gaddafi, Muammar, 342 Gas Authority of India Limited (GAIL), 222 Gas Exporting Countries' Forum (GECF), 100
Gas infrastructure: as terrorist target, 20-21
1
356
Gas Producing Countries Forum, 344 Gas-combined cycle technology (GCC), 181 Gasoline-ethanol-methanol (GEM) fuel
flexibility, 284-86, 288-89, 293 Gas-to-liquids technology, 185 Gas-to-liquids technology (GTL), 185 Gazprom (Russian state energy monopoly),
92, 94-95, 98, 99, 116, 166, 258, 265,
279
Georgia (country), 9, 12, 92, 94, 336, 337 Geothermal power, 6, 15, 133, 134, 139,
156, 180,260,314, 327,346 Germany, 14, 94, 100, 162, 163, 177,
255,258,299,302,321 Global'jihad, 3, 18, 49, 340 Global Nuclear Energy Partnership
(GNEP), 306 Global War on Terror, 57, 58 Global warming, 6, 140, 184. Sec also
Climate change Globalization of Carter Doctrine, 57-59 Goldwyn, David, 11, 233-47 Gore, Al, 156
Government Accountability Office
(GAO/U.S.), 277-78 Greater Nile Petroleum Operating
Company (GNPOC), 46, 59, 198 Greenhouse gases, 4, 13-15, 154, 162,
163, 164, 184, 287 Grid concerns in the U.S., 155-56 Group of Eight (G8), 93 Croupe hlamique Arme (Armed Islamic
Group-GIA), 23 Groupe Scdafist pour la Prediction et le
Combat (Salafist group for Preaching
and Combat), 23 Guatemala, 134, 135, 136 Guler, Hilmi, 251 Gulf of Aden, 38, 39
Gulf of Mexico, 32, 71, 82, 148, 237, 272, 314
Gulf War (first), 8, 147, 148,225,231, 251
Gunboat diplomacy, 53 Gyurcsany, Ferenc, 116
Ham, 128
Halliburton Company, 46-4 7
Index
Harper, Stephen, 35
Helsinki Pact (1975), 92
Hitler/Adolf, 7, 92
Honduras, 137
Horn of Africa, 39
Howard, John, 14
Howell, Sabrina, 11, 191-209
Hujmtao, 195, 197, 201, 208
Human Rights Watch, 199
Hungary, 94, 97, 104, 122, 254, 259
Huntington, Samuel, 72'
Hurst, Cindy, 13, 271-80
Hussein, Saddam, 8, 21, 51, 68, 258-59
Hybrid vehicle technology. See Plug-in
electric hybrid vehicles (PHEVs) Hydrocarbons, 8, 13, 72; Algeria and,
47; Azerbaijan and, 53; Beijing and,
12; Caspian region and, 32, 110, 251;
China and, 33; Latm America and,
129-33; Russia and, 10, 92^104, 260.
See also Greenhouse gases Hydrocarbons Law (Venezuela), 130 Hydroelectric power, 6, 10, in China,
207; in India, 229-30; in Japan, 179;
in Latin America, 128, 133; in Turkey,
251; in the U.S , 143 Hydrogen, environmental tradeoffs, 329
ihn Saud, Abdul Aziz, 54
Ickes, Harold, 177
Idealism in energy security, 335-48
India, 5, 11, 219-31; coal data, 222-23;
oil reserve buildup, 338 Indonesia, 32, 78, 83, 164 Integrated Policy Committee (India), 222 International Atomic Energy Agency
(IAEA), 179, 298, 299 International Center lor the Settlement of
International Disputes (ICS1D), 138 -. International Energy Agency (1EA), 1,2,
11,12,50,87,157,166 International Energy Outlook (2007), 6 International Maritime Bureau report
(2004), 39 International Maritime Organization
(UN), 36
International Military Education and Training (1MET) program, 58
Index
International oil companies (IOCs), 93, 192, 196, 199, 200, 342
International Seminar on Petroleum (OPEC), 86
International Ship and Port Facility Security Code, 31
Iran, 53, 69; Caspian Basin involvement, 119-20; gasoline rationing policy, 7; global standings, 9; live-fire naval exercises, 36; oil price adjustments by, 82; oil production declines, 2; OPEC investments in, 83; OPEC membership, 78; relationship with India, 228; South Pars gas field, 167
Iran-Iraq War (1980-1988), 51, 55, 71, 147
lran-Pakistan-lndia (1PI) gas pipeline, 197, 198
Iran-Turkey (natural gas) pipeline, 250, 254
Iraq, 2, 3, 8; Kirkuk-Ceyhan pipeline, •   21; OPEC losses in, 83; OPEC
membership, 78; power line attacks,
20; terrorist attacks, 21-22; war
with United States, 68 Iraq-Turkey (Kirkuk-Yumurtalik) pipeline
OTP), 251-52 Ishpingo-Tapococha-Tiputini (ITT) block
(Ecuador), 132 Islamic Movement of Uzbekistan (IMU),
118
Israel, 207, 228, 252, 254, 336 Ivanov, Sergey, 98
Jaffee, Amy Myers, 78-89
Jamaat al-Muwahiddin terrorist group, 24
Japan, 7, 11, 80,476-86, 338; economic adjustments, 180-8-2; energy insecurity history, 176-78; energy security challenges, 182-83; hostilities vs. China, 176-77; Maritime Self-Defense Force, 53; Matsunga Plan, 177; nuclear power, 179; oil output, 1; path to diversification and efficiency, 178-80; policies for the future, 184, technology development, 184-86; Teikoku Oil Company, 52
Japan Atomic Power Company (JAPC), 178
357
Japan National Oil Company (JNOC), 178 Japan Petroleum Development
Corporation (JPDC), 178 Jemaah Islamiyah terrorist group, 39 Jihad, global, 3, 18, 49, 340 Johnson Thermo-Electric Converter
(JTEC), 292 Johnston, Alistair Iain, 74 Joint Oil Data Initiative (JODI), 157 Joint Revolutionary Council (JRC), 45 Jupiter natural gas deposit, 6, 130 Justice and Equality Movement (JEM), 46
Kalam.A.PJ. Abdul, 220 Kandym-Khauzak-Shady-Kungrad project,
118-19 KangWu, 193
Kansai Electric Power Company (Japan), 179
Kansteiner, Walter, 58 Karachaganak oil field (Kazakhstan), 97 Karamanlis, Kostas, 259 Karimov, Islam, 98, 118 Kashiwazaki-kariwa plant (Japan), 179 Kazakhstan, 57, 69, 96, 110, 147, 166;
Caspian Basin involvement, 111-12,
1EA membership, 12-13; SCO
membership, 60; uranium supplies, 14 Kazakhstan-China pipeline, 201 KazMunayGaz energy company
(Kazakhstan), 111, 112 Kennedy, John E, 151 Khamenei, Ayatollah Ali, 343 Khelil, Chakib, 84 Khuzistan, 51
Kirkuk-Ceyhan pipeline (northern
Iraq), 21 Kissinger, Henry, 66 Klare, Michael, 340 Klare, Michael T, 8, 44-61 Kocharian, Robert, 117 Koknar, Ali M., 18-28, 339 Korin, Anne, 1-16, 335-48 Krapels, Edward, 79
Kurdistan Workers Party (Partiya Karkaren
Kurdistan), 24 Kuwait, 2, 36, 51, 55-56, 71; oil
industry reintegration efforts, 80,
1
358
OPEC investments in, 83; OPEC
membership, 78 Kyoto Protocol (1997), 162, 184, 220 Kyrgyzstan, 12-13, 60
Ladislaw, Sarah, 341
Las Lomas Wind Farm (Peru), 133
Latin America, 2, 128-40, 147, 343, 347; biomass, 133-36; challenges in energy sector, 137-38; Clean Development Mechanisms, 136; deployment of U.S. forces, 8; energy resource abundance, 10; geothermal electricity generation, 134, hydrocarbon potential, 129-30; interests of China in, 10, 11; oil and gas usage data, 129; Organization Latinoameričana de Energia, 138; renewable energy, 133-36; revenue creation maximization, 8-9
Law Concerning the Rational use of Energy (Japan), 178
Liberation Tigers of Tamil Eelam (LTTE), 39,40
Libya, 2, 78, 83, 342
Limhurg supertanker, attack on, 39-40
Limits on the Continental Shelf (UN Commission), 101
Limpet mines, 39
Liquefied natural gas (LNG), 13, 271-80, 343-44; advantages to energy security, 273-75; attack/security concerns, 40-41; in China, 206-7, 273, 279; Delta Caribe Oriental LNG project, 131; developmental background, 271-72; disadvantages to energy security, 275-78, m Europe, 272, European infrastructure development, 121; global energy security impact, 278-80; in India, 223, 227-28, 273, in Iran, 258; in Japan, 179, 185, 272; in South Korea, 272, tanker attacks, 38; in Turkey, 252, US usage data, 128. See also Natural gas Liquidity principle, .337-39 Lithuania, 93-94, 111. 122, 162 Lovaas, Deron, 318-31, 345 Luft, Gal, 1-16, 11, 14 3-58,335-48
1 ' Index
Lugar, Richard, 144, 269 LUKoil gas company, 118
Maastricht Treaty, 170
MacArthur, Douglas, 177
Malacca Straits piracy, 195
Malaysia, 32, 37-38
Mammadyarov, Elmar, 115
Marine Self-Defense Force (MSDF), 183
Maritime piracy, 31, 36-38. See also
Seizure of oil fields Maritime security, 3, 31-41; the Arche,
34- 35; NATO and, 261; oil and natural gas conflicts, 31-32; the Spratleys/South China Sea, 33-34; threats to oil and natural gas shipping,
35- 36. See also United Nations Convention on the Law of the Sea
Maritime Self-Defense Force
(MSDF/Japan), 53, 183 Maritime terrorism, 38-41 Maritime Transportation Security Act
(U.S.), 31 Matsunga Plan, 177177 Mazeikiu Nafta refinery (Lithuania),
93-94 Medium-Term Oil Report
(IEA/2008-2012), 50 Medvedev, Dmitry, 98, 343 Merkel, Angela, 269, 345 Mexico, 134; attacks on power lines, 4-5;
crude oil supplies to U.S., 129; oil
production declines (2000-2008), 2.
See also Gulf of Mexico Middle East, 2, 6, 8-9, 51, 54, 57, 109,
165. See also Carter Doctrine Militarization of energy security, 7-8, 13,
147-48
Military Committee Working Group
(NATO), 263 Military Power oj the People's Republic oj
China report (DoD/U.S.), 60 Ministry of Economic, Trade and Industry
(METI/Japan), 181, 183 Ministry ol International Trade and
Industry (MITI/Japan). 180, 181 Ministry of the Petroleum Industry
(MlPl/Chma), 192
Index
Mitigation of energy terrorism, 25-28; alternative energy route creation, 26; government-to-governmem aid, 26-27; increased protection, 25-26; outsourcing, 27-28
Moeller, Robert, 59
Moreira, Susana, 128-40
Movement for the Emancipation of Niger Delta (MEND), 22-23, 44, 46
Mözdok-Gazi-Magomed gas pipeline, 24
Mueller, Robert, 39, 72
Mugabe, Robert, 204
Munich Conferenceon Security Policy (2006), 262
Musharraf, Pervez, 197
Nabucco Gas Pipeline Project, 96, 167,
254-55, 257, 259 Nagorno-Karabakh conflict, 117 Nahm, Ali, 86
National Critical Infrastructure Protection
Program (EU), 170 National Development and Reform
Commission (NDRC/China), 192 National Energy Policy (NEP/2001), 58,
149
National Energy Strategy (Japan), 184 National Intelligence Estimate (U.S.), 56 National Liberation Army (Ejerrito de
Uberaaon Nacional), 22 National Petroleum Council (NPC) report,
50, 153
National Renewable Energy Laboratory, 287
National Thermal Power Corporation
(NTPC), 222 NATO Forum on Energy Security, 262 NATO. See North Atlantic Treaty
Organization NATO-Russia Council (NRC), 267, 268 NATO's Military Authorities (NMAs), 261 Natural disasters, 3
Natural gas, 6; environmental tradeoffs, 322-23; India reserve data, 227-28; pipelines of Turkey, 252-55; Russia reserve data, 91; shipping threats, 35-36. Sec also Liquefied natural gas (LNG)
359
Natural Resources Defense Council, 287 Nazarbayev, Nursultan, 97 Nazer, Hisham, 79-80 Network of Energy Security
Correspondents (NESCO), 171 New Energy Development Organization
(NEDO), 180, 181, 184 New Exploration and Licensing Policy
(NELP/lndia), 226 Nicaragua, 32, 134, 137 Niger Delta Vigilante terrorist group,
23, 45
Nigeria, 6, 48; ethnic riots, 337; IMET program, 58; insurgency and separatist warfare, 44-47; OPEC losses in, 83, OPEC membership, 78; terrorist attacks, 22-23. See also Atatah, Edward, Coalition for Militär)' Action in the Niger Delta; Defense Industries Corporation of Nigeria; Joint Revolutionary Council; Justice and Equality Movement; Movement for the Emancipation of Niger Delta; Okah, Henry Nincic, Donna J.,31-41 Nixon, Richard, 72, 145 Niyazov, Saparmurad, 110, 112 Noel, Pierre, 341 North Atlantic Council, 264-65 North Atlantic Treaty Organization (NATO), 13, 92, 201, 261-69, 264, 344; coordination with European Union, 267-68; energy security crises (potential), 265-67; energy security role, 263; fundamental purposes, 263-65; infrastructure protections, 268 See also Riga Summit Communique; Treaties
North Sea, 2,35, 71, 164,267 North Stream pipeline (Russia), 14, 94-96 Norway, 72; energy security approach, 336; infrastructure attacks study, 21; oil production declines (2000-2008), 2 Nuclear power, 4, 13, 14, 79, 138, 162, 179, 295-306; in China, 302; energy security contribution, 299-304; environmental tradeoffs, 328-29; in Fiance, 301; fuel cycle, 295-99; Global
Index
Index
Nuclear Energy Partnership, 306; global reactor data, 301; impediments to growth, 304-6; in India, 302; India data, 228-29; International Atomic Energy Agency, 179, 298, 299; in Japan, 301. 302; in North Korea, 302; in Russia, 301; in South Korea, 301, 302; Three Mile Island accident, 300; in the United Kingdom, 301; World Association of Nuclear Operators, 299
Nuclear Power Corporation of India Limited (NPCIL), 222
Nuclear Regulatory Commission, 300
Obama, Barack, 86-87, 153
Occidental Corporation, 25
OCENSA pipeline (BP), 25
Odom, William E , 201
Ogaden National Liberation Front (Ethiopia), 24, 46
Oil: economic factors of terrorism, 25; environmental tradeoffs, 322-23; global demand for, 1, impact of disruptions, 70-71; India data, 224-27; infrastructure as terrorist target, 20-21, 1973 embargo, 79; OPEC's influence on pnce, 78-79; price declines, 2; production declines (2000-2008), 2; shipping threats, 35-36; utility of seizing, 68-70
Oil and Natural Gas Corporation (India/ONGC), 226, 227
Oil curse, 48-49
Oil dependence, dangers of, 145-47
Oil exploration: in the Arctic, 34; awarding of rights by China, 33; awarding of rights by Nicaragua, 32, in Brazil, 132, Chinas awarding of rights, 32, 33;
"   forced conflict by Iran, 53; in India, 225; Nicaragua's awarding of nghts, 32, 33; Vietnam's awarding of nghts, 32
Oil shale, 13, 15, 152, 153, 324, 337
Oilfield contractors, 23
Okah, Henry, 44-45
Olah, George, 322
Olcott, Martha Brill, 70
Oleoducto Central tOCENSA) pipeline (British Petroleum), 22, 25, 131
Open Standards for Digital Television, 293 Operation Iraqi Freedom (2003), 147 Organización Latinoameričana de Energia
(OLADE), 138 Organization of American States (OAS),
128
Organization of Economic Cooperation and Development (OECD), 11, 88
Organization of European Oil and Gas Producers (OGP), 170
Organization of Petroleum Exporting Countries (OPEC), 78-89, 337; Arab members, 66, and Asian recession/financial crisis, 80; member countries, 78; 1998 oil price collapse/agreement, 80, 82; objectives of, 78; oil demand (2003-2007) data, 87; oil industry reintegration efforts, 79-80; oil price influence, 78-79; oil production data, 2; oil supply side dominance, 9-10; original member countries, 78; producing countries as consumers, 84-86; regulation of oil in market, 152-53; spare capacity erosion, 338; sustainable production capacity data, 83; threats to security of demand, 86-89; and U.S.-Iraq war, 82
Ormat Technologies (U.S.), 134
Pacific Northwest National Laboratory, 286 Pahlavi, Reza Mohammed, 54 Pakistan, 228, 336; electricity
infrastructure, 4; terrorist attacks, 24 Pamir, Necdet, 12, 250-60 Panama, 134 Panama Canal, 3
Paraguay: biodiesel production, 136 Partiya Karkaren Kurdistan (Kurdistan
Workers Party-PKK), 24 Pelletreau, Robert H , 55 Penrider tanker, piracy against, 37 People's Republic of China See China Persian Gulf, 35, 36, 39, 51, 56, 57, 71,
144,339
Persian Gulf War (first), 8, 147, 148, 225, 231,251
Peru- hydroelectric stations, 133 Las Lomas Wind Farm, 133
Peru, power grid terrorism, 20 Petro Ranger tanker, piracy against, 37-38 Petroleo Brasileiro SA (Brazil),,132 Petroleos de Venezuela (PDJ/SA)
hydrocarbon company, 130-31 ^ Petroleum Stockpiling Law (japan), 178 Petroleum Supply and Demand
Optimization Law (Japan), 178 PetroVietnam, 203 Philippine Islands, 33-34 Philippine National Oil Company, 203 Piebalgs, Andris, 115 Pipelines, 3, 9, 18, 20-25. See also
individual pipelines throughout the
index
Piracy (maritime), 36-38, 39; Gulf of
Aden, 38; Malacca Straits, 195; Marine
Self-Defense Force, 183 PKN Orlen (Polish company), 94 Plug-in electric hybrid vehicles (PHEVs),
155, 286-89, 347 Poland, 94, 96, 100, 122, 266 Polaris Geothermal (U.S.), 134 Porous sedimentary rocks, 152 Prikaspiisky pipeline, 96 Private Participation in Infrastructure
Database (World Bank), 137 Private Security Contractors (PSC), 25 Production-sharing agreements (PSAs), 53 Public Safety Consequences of a Terrorist
Attach on-a Tanker Carrying Liquefied
National Gas Need Clarification (GAO),
277-78
Putin, Vladimir, 93, 97,-100, 111, 259, 343
Qatar, 147, 343; OPEC investments in, 83; OPEC membership, 78; visit by Putin, 100
Reagan, Ronald, 55, 147 Realism in energy security, 144, 335-48 Red Sea, 26, 35, 199 Redundancy principle, 94, 268, 337-39 Reform Treaty (European Union), 171 Regional conflict, 49-54 Reinforced North Atlantic Council (R-NAC), 262
Renewable electricity sector, 15, 229-30 Report on National Energy Security, 208 Resource curse, 47-49 Revisionism in Russia, 92 Revolutionary Armed Forces of Columbia
(Euerzas Armadas Revolucionarias tie
Colombia), 22 Rice, Condoleezza, 115, 128, 144 Richardson, Bill, 82
Riga Summit Communique, 261, 262-63, 268
Risks of power competition and conflict, 59-61
Rocky Mountain Institute, 156 Roosevelt, Franklin D., 176 Rosner, Kevin, 11, 160-73 Ross, Michael, 2-3, 46 Royal Dutch Shell oil company, 23, 45 Russia, 2, 69, 91-105; Caspian Basin involvement, 119; control of Eurasia's energy, 97-98; emergence of gas OPEC, 100; energy independence of, 6; energy security approach, 336; energy security role, 257; energy security vs> China/U.S., 219; gas cutoff to Ukraine, 7; gas reserves data, 91; global standings, 9-10; Group of Eight presidency, 93; 1EA membership, 12-13; increasing energy demands, 50; internal consolidation, 98-100; invasion of Georgia, 92; liquefied natural gas in, 223, 227-28; nationalization efforts, 342; natural gas data, 227-28; natural gas imports from, 165-66; nuclear power data, 228-29; oil data, 224-27; oil exports to Europe, 91-92; oil exports to Japan, 195; policymaker's view of energy security, 220-22; renewable electricity data, 229-30; revenue creation maximization, 8-9; revisionism in, 92; rush for Arctic energy, 100-101, SCO membership, 60; terrorist attacks, 24; use of oil wealth vs. U.S., 145; view from the Kremlin, 92-94. See also Baku-Tbilisi-Ceyhan (BTC) pipeline; Gas Exporting Countries' Forum, Gazprom; North Stream pipeline,
1
362
Prikaspüsky pipeline; South Stream
pipeline, Transneft; YUKOS oil
company Russia Energy Strategy (2003), 93 Russia-Belarus natural gas/otl crisis, 166 Russia-Turkey Western (natural gas)
pipeline, 252. Sec also Blue Stream Gas
pipeline
Russia-Ukraine natural gas/oil crisis, 166
Salanst group for Preaching and Combat (Croupe Salafist pour la Prediction et le Combat), 23, 46-47 Sandstone, 152, 324, 337 Saudi Arabia, 71, 337, 338; crude oil processing, 339; energy independence of, 6; global standings, 9-10; International Monetary Fund data, 342; natural gas output data, 91; oil curse, 48-49; oil industry reintegration efforts, 80, OPEC investments in, 83; OPEC membership, 78, renewed friendship wich India, 227, terrorist attacks, 23, U.S. protection agreements with, 54, 147-48. See also Carter Doctrine Saunders, Phillip, 194 Schlesinger, James R., 44, 66, 335 Schroeder, Gerhard, 94 Sea Tigers (LTTE maritime arm), 40 Seizure of oil fields, 8, 67, 68-70 Senate Foreign Relations Committee
meeting (2005), 44 Senate Foreign Relations Committee
meetings, 44, 144 Sendero Lummoso (Shining Path) terrorist group, 20
Senior Political Committee (SPC/NAIO), 263
Separatisi warfare, and insurgency, 44-47 Seven Sisters (oil companies), 68 Shale, 15 Shale gas, 152
Shanghai Cooperation Organization
(SCO), 60, 97-98, 12], 201 Shmatko, Sergei, 342 Sife Pnde tanker, attacks agamsl, 40 Silkworm anu ship missiles (Tehian), S6 Singh, Manmohan, 220-21
Index
Sino-Turkmen gas pipeline, 112 Sinus Star tanker, piracy against, 38 Solana, Javier, 172
Solar energy, 6, 15, 87, 156; in China, 208; earth-based solar farms, 291-93; in the European Union, 163; in Germany, 14; in India, 229-30; in Japan, 180, 181..J84, 327-28; in Latin America, 133; on Mongolian huts, 15; in Turkey, 261; in the U.S., 145, 146, 156
South American, 73
South Asia, 5, 347
South Caucasus gas pipeline (SCGP). 166,
254, 257 South China Sea, 33-34, 74, 202 South Korea, 80, 193 South Pars gas field (Iran), 167 South Stream pipeline (Russia), 94, 96-97 Southern California Edison, 291 Soviet Union, 67, 73; collapse of, 73, 109;
invasion / occupation of Afghanistan,
54-55, pipeline system, 94 Spratley Islands, 33-34 St. Kitts, 128 Stanishev, Sergey, 259 State Pipeline Transportation Company
(Turkey), 258 Statistical Review of World Energy
(BP/2007), 91 StatoilHydro company (Norway), 47 Stewart, Devin, 11, 176-86 Stirling Energy Systems (SES), 291 Strait of Hormuz, 3, 4, 36, 55, 56, 339 Strait of Malacca, 3, 35, 39 Strategic Concept (1999/NATO), 264,
265
Strategic Energy Dialogue, 269 Strategic Petroleum Reserve (SPR), 157, 193
Strategic Pipeline Protection
Department, 27 v Sub-Saharan Africa, 5 Suez Canal, 3 Suicide attacks, 39 Sweden, 95 Sweel, David, 1 5, 339 Sweei, David M., 15, 308-17
Index
Tajikistan, 12-13, 60 Taliban guerrillas, 4
Tanaka, Nobuo, 184, 185 v Tang Weibin, 193-94 Tanker War (1980s), 36 Tar sands, 13, 15, 153, 304, 318, 324,
337, 343, 345 Targets of energy terrorism, 20-25; Algeria, 23; Colombia. 22, electrical utilities, 20; Ethiopia, 24; Eurasia, 24-25; gas and oil infrastructure, 20-21; Iraq, 21-22; Nigeria, 22-23; Pakistan, 24, Russia, 24; Saudi Arabia, 23; Yemen, 24 Task Force on Strategic Unconventional
Fuels Resources (U.S.), 152 Technological solutions for energy security, 282-93; beyond cars and trucks, 289-90; earth-based solar farms, 291-93; electricity generation technologies, 290-91, gasoline fuels, 287; gasoline-ethanol-methanol fuel flexibility, 284-86; plug-in flybrid electric vehicles, 286-87; transportation fuel security, 283-84, 288-89 Teikoku Oil Company, 52 Terrorism: commonalities of incidents, 47-49; dangers to LNG, 13, dangers to nuclear power plants, 14; in the maritime domain, 38-41; Mexican ^ power lines, 4-5; United Texas Petroleum worker murders, 24. See also Cyber-terronsm; Energy terrorism Terrorists: Algeria car bomb attacks, 23; criminal collusion by, 19; motivations of, 19-20 Three Gorges Dam (China), 207 Three Mile Island nuclear accident, 300 Tokai Power Station (japan), 178 Tokyo Electric Power Company (TEPCO), 180
TransAfghan Pipeline, 258 Trans-Arabia oil pipeline, 26, 339 Trans-Caspian (TCP) gas pipeline, 96,
111-12, 113-15, 116, 122 Transneft (Russian state energy
monopoly), 92, 93-94, 96
363
Transport of oil. See Maritime piracy;
Maritime security Trans-Saharan Counter-Terronsm
Initiative, 58 Trans-Saharan gas pipeline, 337 Trans-Thrace pipeline, 252, 259 Treaties: Energy Charter Treaty, 267, Energy Community Treaty, 255; Maastncht Treaty, 170; Reform Treaty (EU), 171; Treaty of Amsterdam, 170; Treaty of Turkmanchay, 115; Washington Treaty, 264-65. See also North Atlantic Treaty Organization Treaty on the Non-Proliferation of Nuclear
Weapons, 198 Trilateral Commission strategy/report
(EU), 161 Trinidad & Tobago, 129 Tucker, Robert, 67 Turkey, 9, 250-60, 336, 337; energy security role, 255-59; importance of, 12, 25, 104, 113, 116, 171, investments in Iran, 167; natural gas pipelines, 252, oil pipelines, 251-52; pipeline attacks, 24; pipeline protection, 27. See also Baku-Erzurum-Ceyhan gas pipeline; Blue Stream Gas Pipeline; Nabucco Gas Pipeline Project Turkey-Greece gas pipeline, 255 Turkish Coast Guard, 27 Turkish Petroleum Corporation (TPAO), 258
Turkish straits (oil pipeline) bypass
projects, 252 Turkmenistan, 53, 69, 96, 110, 112-15,
166,258
"Twenty-First Century Oil Strategy" (China), 193
UAE. See United Arab Emirate
Ukraine, 7, 24, 91,94, 97, 111, 112, 122,
166, 169, 171,252,265-66 Underwater demolition teams, 39 Union Texas Petroleum worker
murders, 24 United Arab Emirate (UAE), 26, 71, 78,
113, 182, 339 United Kingdom, 2, 72, 272, 299, 301
]
364
Index
United Nations, 36, 51, 68, 105, 197, 299, 354
United Nations Convention on the Law of the Sea (UNCLOS), 51-52, 101, 202 .
United Progressive Alliance (India), 220
United States, 67, 80, 143-58, 337;
agreement standards with Africa/China, "■^46; aid to Kazakhstan, 57; Caspian Basin interests of, 109: Clean Air Act, 320; coal-fired power plants, 4; conflict prevention and resolution, 247; dangers of oil dependence, 145-47; Department of Defense, 60; Department of Energy, 45, 50-51; diversification of energy resources, 148-50; dual view of China, 151; electricity disruptions, 5; Energy Information Agency, 6, 67; Energy Policy Aci (2005), 305; energy policy focus, 143-44, energy security approach, 237-39; energy security blueprint, 153-54; energy security mechanisms, 156-57, energy security militarization, 8; ethanol production, 153; European Command (EUCOM), 27; exercise of Carter Doctrine, 147; Federal Energy Regulation Commission, 41; geothermal electricity generation, 134; grid concerns, 155-56; installation of Pahlavi in Iran, 54; liquefied natural gas data, 128; liquid natural gas imports, 272, Maritime Transportation Security Act, 31; militarization of energy security, 147-48; military seizure feasibility study, 67; National Energy Policy, 58, National Intelligence Estimate, 56; oil field service contractors, 23; oil importation data, 143; oil output, 1, 143; oil use data, 143; port data, 38, Senate Foreign Relations Committee meetings, 44, 144; terrorist reasoning about, 19, 2007 energy legislation, 86—87; war with Iraq, 68 See also U.S.-Africa-China energy tnangle
United Texas Petroleum workei murders, 24
Uranium, 14; highly enriched (HEU). 297-98; low enriched (LEU), 297
U.S.-Afnca-China energy triangle,
233- 47; agreement standards, 246; common energy security interests,
234- 35; common objectives, 246; complementary African interests,
235- 36; conflict prevention and resolution, 247; importance of Africa,
236- 37; improved governance support, 246-47; variance in approaches,
237- 46
U.S.-Brazil Biofuels Pact (2007), 134
USS Cole attack, 40
USS Qumcy, 54
USS The Sullivans, 39
Llzbekistan: Caspian Basin involvement, 117-19; 1EA membership, 12-13; Kandym-Khauzak-Shady-Kungrad project, 118-19; SCO membership, 60
Venezuela, 4, 336; crude oil supplies to U.S., 129; declining oil supplies, 130-31; labor strike, 337; nationalization efforts, 342; oil industry reintegration efforts, 80; oil price adjustments by, 82; OPEC losses in, 83; OPEC membership, 78, use of oil wealth vs. U.S., 145. See also Chavez, Hugo; Delta Caribe Oriental LNG project
Verrastro, Frank, 341
Victor, David, 338
Vilnius Energy Summit (2007/Lithuania), 111
Volga-Don Water Channel (Turkey), 251
Wahhabism religious practice (Islam), 49
War on Terror, 57, 58, 109, 117, 144, 183
Wars: fighting for limited oil, 67-68, increasing rarity of, 71-73, and oil production, 3 See also al Qaeda, Balkan wars, Cold War, Iran-Iraq War; Persian Gulf War (first); Separatist warfare; , Tanker War
Washington Treaty, 264-65
Weapons of mass destruction (WlviD), 55-56, 340
Wells, Jim, 2 78
Wenjiabao, 193
Index
365
Werbos, Paul ]., 282-93, 347
West Africa, 147, 343
White Stream project, 122
Wind power, 6, 15,87, 133, 139, 145,
146, 156.163, 180, 208, 229, 290, 311,
314
World Association of Nuclear Operators
(WANO), 299 World Bank, 137, 341 World Economic Forum (2008), 186 World Energy Council, 134 World Energy Outlook (1EA/2007), 50 World Energy Outlook Alternative Policy
scenario (2006), 87 World Energy Output (1EA/2008), 2 World Trade Organization, 157 Worldwatch Institute, 206, 208
Yamani, Zaki, 348
YarAdua, Umaru, 46
Yemen: terrorist attacks, 24; weapon
construction, 40 Yergin, Daniel, 341
YUKOS oil company (Russia), 93, 98, 99, 104, 182, 183,201,202
Zeng Qmghong, 203
Zhoungya Petroleum Exploration Bureau
(China), 46 Zoellick, Robert, 341 Zones of turmoil. See Algeria; Colombia,
Ethiopia; Eurasia; Iraq; Nigeria;
Pakistan; Russia; Saudi Arabia;
Yemen Zubnn, Robert, 348
"1
About the Contributors
Robert G. Bell is a Senior Vice President with SA1C. In 1999-2003 he was NATO's Assistant Secretary General for Defense Investment. Prior to that he worked at the White House National Security Council (NSC) as a Special Assistant to President Clinton for Nationaf Security Affairs and as the,NSC Senior Director for Defense Policy and Arms Control. In 1981-1993, Mr. Bell served on the Senate Committees on Foreign Relations and Armed Services, working for Senators Percy and Nunn, respectively. His career also includes six years at the Congressional Research Service (CRS), including a one year assignment in Brussels, where he served as staff director of the Military Committee of the NATO Parliamentary Assembly. From 1969iintil 1975, he served as an air force officer in the air traffic control and communications field. Robert Bell holds a Master of Arts degree in International Security Studies from Tufts University's Fletcher School of Law and Diplomacy and a Bachelor of Science degree in International Affairs from the United States Air Force Academy.
Jeremy Carl is a Research Fellow in the Program on Energy and Sustainable Development at Stanford University and research fellow at the Institute for the Analysis of Global Security. He came to Stanford by way of New Delhi, India where he worked on energy and resource economics issues at The Energy and Resources Institute (TER1), India's leading energy think tank. His research interests are in energy security and the political economy and environmental effects of energy development, with a particular focus on India and China. His current research focuses on the political economy and environmental effects of the global coal sector. He received his B.A. with distinction in history from Yale University, and an MPA from the John F. Kennedy School of Government, Harvard University.
Dr. Ariel Cohen is Senior Research Fellow in Russian and Eurasian Studies and International Energy Security at The Heritage Foundation. Dr. Cohen is author of Russian Imperialism: Development and Crisis (1998); Eurasia in Balance (2005), Kazakhstan: Energy Cooperation with Russia—Oil, Gas and Beyond; Kazakhstan:
368
About the Contributors
About the Contributors
369
The Road to Independence (2008) and over 25 book chapters and 400 articles in academic and popular media. Olena Krychevska, a 2007 intern at The Heritage Foundation, has greatly contributed to research and production of the Russia chapter. Carla Bock, a 2007 Heritage intern, has greatly contributed to research and production of chapter on Central Asia.
Dr. Charles D. Ferguson is a Fellow for Science and Technology at the Council on Foreign Relations, an Adjunct Assistant Professor in the Security Studies Program at the School of Foreign Service at Georgetown University, and an Adjunct Lecturer in the National Security Program at the Johns Hopkins University. At the Council, he focuses his research and writing on nuclear energy and nuclear security. He wrote the Council Special Report Nuclear Energy: Balancing Benefits and Risks. He has worked on nuclear safety issues as a physical scientist in the U.S. State Department. After graduating with distinction from the United States Naval Academy, he served as a nuclear engineering officer on a ballistic-missile submarine. He holds a Ph.D. in physics from Boston University.
Dr. Christopher J. Fettweis returned to Tulane University in the fall of 2008, after having spent three years teaching national security studies at the U.S. Naval War College. He is the author of Losing Hurts Twice as Bad: The Four Stages to Moving Beyond Iraq and Angell Triumphant: The International Politics ojGreat Power Peace, as well as a number of articles in policy and scholarly journals. He is a research fellow at the Institute for the Analysis of Global Security. He holds a Ph.D. from the University of Maryland.
David L. Goldwyn is President of Goldwyn International Strategies LLC, an international energy consulting firm. He is a Senior Fellow in the Energy Program at the Center for Strategic and International Studies (CSIS) and serves on the Council of Foreign Relations (CFR) Task Force on Energy Security and CFR Center for Preventive Action Task Forces on Angola, Venezuela and Bolivia. Goldwyn served as Assistant Secretary of Energy for International Affairs, Counselor to the Secretary of Energy, and national security deputy to U.S. Ambassador to the UN Bill Richardson Mr. Goldwyn received a Bachelors of Arts degree from Georgetown University, a Masters in Public Affairs degree from the Woodrow Wilson School of Public and International Affairs at Princeton University and a law degree from New York University School of Law
Sabrina Howell is a China expert at the Institute for the Analysis of Global Security, focusing on energy economics and energy security She has conducted research in Central Asia, China and the Caucasus She holds a degree in Economics and East Asian Studies from Yale University
Cindy Hurst is a political-military research analyst with the U.S. Army's Foreign Military Studies Office. Her research is centered on various energy issues. She is
a lieutenant commander in the U.S. Navy Reserve and currently is writing a book on the potential global implications of LNG.
Amy Myers Jaffe is the Wallace S. Wilson Fellow in Energy Studies at the Baker Institute of Rice University, jaffe's research focuses on oil geopolitics, strategic energy policy including energy science policy, and energy economics. Jaffe is widely published and served as co-editor of Energy in the Caspian Region: Present and Future (2002) and Natural Gas and Geopolitics: From 1970 to 2040 (2006). Jaffe served as a member of the reconstruction and economy working group of the Baker/Hamilton Iraq Study Group, as project director for the Baker Institute/ Council on Foreign Relations Task Force on Strategic Energy Policy, and as a principal advisor to USAID's project on Options for Developing a Long Term Sustainable Iraqi Oil Industry. She is currently serving as a strategic advisor to the American Automobile Association (AAA) of the United States. Prior to joining the Baker Institute, Jaffe was the senior editor and Middle East analyst for Petroleum Intelligence Weekly.
Michael T. Klare is a Five College Professor of Peace and World Security Studies, a joint appointment of Amherst, Hampshire, Mount Holyoke, and Smith Colleges and the University of Massachusetts at Amherst. He is the author of several books on world security affairs including Resource Wars (2001), Blood and Oil (2004) and Rising Powers, Shrinking Planet: The New Geopolitics oj Energy (2008)
Ali M. Koknar is an Associate Fellow of the Institute for the Analysis of Global Security. He is a private security consultant in Washington, DC, specializing in counterterronsm and international organized crime. A native of Turkey, he studied law and business management in Turkey and in South Africa.
Anne Korin is co-director of the Institute for the Analysis of Global Security (IAGS). She chairs the Set America Free Coalition, an alliance of national security, environmental, labor and religious groups promoting ways to reduce America's dependence on foreign oil. Ms. Korin appears frequently on Capitol Hill and her advice is sought by members of Congress. Her education includes engineering degree in computer science from Johns Hopkins University and work towards a doctorate at Stanford University.
Deron Lovaas is vehicles campaign director at Natural Resources Defense Council (NRDC) in Washington, DC. He directs the "Break the Chain" oil security campaign and served earlier as the chief lobbyist on the federal Transportation Equity Act for the 21st Century (TEA-21) reauthorization bill. A graduate of the University of Virginia, Deron has worked in environmental policy and advocacy for more than a decade, including as director of the Sierra Club's "Challenge to Sprawl" campaign and a specialist in transportation and air-quality planning at Maryland's Department of the Environment.
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About the Contributors
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Dr. Gal Luft is executive director of the Institute for the Analysis of Global Security (1AGS). He specializes in strategy, geopolitics, energy security and economic warfare. Dr. Luft has published numerous studies and articles on security and energy issues in various newspapers and publications and testified before committees of the U.S. Congress. He holds degrees in international relations, international economics, Middle East studies and strategic studies and a doctorate in strategic studies from the Paul H. Nitze School of Advanced International Studies (SAIS) Johns Hopkins University.
Dr. Johanna Mendelson Forman is Senior Associate in the Americas Program at the Center for Strategic and International Studies (CS1S) in Washington, D.C. Her work focuses on the Caribbean, Brazil and Central America. She also serves the executive director of the Jatropha Foundation, an organization dedicated to the development of renewable energy alternatives in the Canbbean and Latin America, and on the board of the Latin American Council on Renewable Energy. A former co director of the Post-Conflict Reconstruction Project and co-author of Play to Win: a Framework for U.S. Post-Conflict Reconstruction, framework for rebuilding war-torn societies. Her research includes studies on security-sector reform in conflict states, economic development in postwar societies, and the role of the United Nations in peace operations. She has written extensively about reconstruction programs from Iraq, Guatemala, and Haiti. Recently, she served in Haiti as a senior advisor to the UN Mission (MINUSTAH), where she worked on development of renewable energy programs to sustain rural communities. She holds a J.D. from Washington College of Law at American University, a Ph.D. in Latin American history from Washington University, St. Louis, and a Masters of International Affairs, with a certificate of Latin America studies, from Columbia University in New York.
Susana Moreira is a PhD candidate at the School of Advanced International Studies (SAIS), Johns Hopkins University and Summer Intern Scholar, Center of Strategic International Studies (CSIS).
Dr. Donna J. Nincic is Associate Professor and Chair of the Department of Global and Maritime Studies at the California Maritime Academy, California State University. She received her doctorate in Political Science/International Relations from New York University, and has held previous positions at the University of California, Davis; the Hoover Institution; and the US Department of Defense. Her research focuses on maritime security, particularly piracy and terrorism. Recent publications include "Sea Lane Security and US Maritime Trade" in Sam J. Tangredi, ed., Globalization and Maritime Powci, Washington DC National Defense University Press (2002), and "The Challenge of Maritime Terrorism: Threat Identification, WMD, and Regime Response," Journal oj Strategic Studies (August 2005). Her current research focuses on maritime piracy in Alnca, and U.S.Canadian conflict ovei the Northwest Passage.
Necdet Pamir is an expert in Turkeys energy policy. He is member of the Executive Board of the Turkish National Committee of the World Energy Council, an advisor to the Chairman of the Attila Dogan Construction & Installation Company and General Manager of the Attila Dogan Petroleum Corporation. He writes frequently for various Turkish and international publications including a monthly "Energy Edition" of Cumhuriyet daily newspaper. He holds a B.Sc. in Petroleum Engineering Department from the Middle East Technical University.
Dr. Kevin Rosner is Senior Fellow at the Institute for the Analysis of Global Security (IAGS) specializing in Russian and European energy security, security of critical energy infrastructure, and international energy-security policy. He is managing editor of IAGS' Journal of Energy Security. In 2006 he served as the Co-Director for the NATO Forum on Energy Security. Dr. Rosner is the editor of a series of reports published (2005-2007) by Global Markets Briefings on Russian Foreign Energy Policy covering Russian downstream investment in Central European and FSU energy systems. Past positions held include Senior Oil and Gas Advisor, Thales Information Systems, Senior Security Advisor to the Baku-Tbilisi-Ceyhan pipeline company, Project Director with the Program on Cooperation with the Russian Federation at the OECD, and Project Manager with the UNESCO Science Division in Pans.
Devin Stewart is program director at the Carnegie Council for Ethics in International Affairs. Previously, he was Assistant Director of Studies and Japan Studies Fellow at the Center for Strategic and International Studies (CSIS) in Washington, D.C. He remains affiliated with CSIS as an Adjunct Fellow. From 2000 to 2003, Devin was a researcher at the Research Institute of Economy, Trade, and Industry and in 2004 a staff writer for The Daily Yomiuri in Tokyo. He also chaired the Korea-Japan Study Group in Tokyo and in Washington. He was also a researcher at the Japan External Trade Organization New York and has served on the staffs of the U.S. Senate Committee on Foreign Relations and Senator Barbara Mikulski. Devin's articles have appeared in more than 10 languages tn numerous publications. He received a B.A., cum laude, from the University of Delaware, where he won a scholarship to study Arab immigration in France. He holds an M.A. from the Paul H. Nitze School of Advanced International Studies (SAIS) at Johns Hopkins University in Washington, D.C, and Bologna, Italy. He would like to thank Chris Janiec and Warren Wilczewski for their invaluable contributions to this chapter.
David M. Sweet is the Executive Director of the World Alliance for Decentralized Energy (WADE). Prior to joining WADE, Mr. Sweet served as Director of the United States Energy Association, the U.S. arm of the World Energy Council, as Executive Director of the International LNG Alliance, Vice President of the Independent Petroleum Association of America, an attorney in private practice, and as an expert witness on financial, rate and permitting issues at the Federal Energy
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Regulatory Commission. Mr. Sweet serves as president of the Natural Gas Round-table, a member of the North American Energy Standards Board, a vice chairman of the ABA Section of Public Utility, Communications and Transportation Law and its gas committee, a member of the World Energy Council Committee on Cleaner Fossil Fuel Systems, and on the Board of Advisors of the Institute for the Analysis of Global Security. He received his law degree with honors from George Washington University, an M.B.A. from the University of Maryland, and a B.S. degree magna cum laude also from the University of Maryland.
Dr. Paul J. Werbos is program director at the National Science Foundation. Prior to arriving full-time at NSF in 1989, he worked at the Energy Information Administration (E1A) of the Department of Energy where he was lead analyst for long-term energy futures and developed the econometric models used in ElAs Annual Energy Outlook for industrial and transportation energy demand and for oil and gas production. He has given a number of major talks to Congress on energy policy, and is a member of IEEE-USA. He holds four degrees from Harvard and the London School of Economics in economics, international political systems, emphasizing European economic institutions, applied mathematics, with a major in quantum physics and a minor in decision and control and applied mathematics.