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World Oil Transit Chokepoints
Last Updated: November 10, 2014 (Notes)
full report
Overview
World chokepoints for maritime transit of oil are a critical part of global energy security. About 63% of the world's oil production moves on maritime routes. The Strait of Hormuz and the Strait of Malacca are the world's most important strategic chokepoints by volume of oil transit.
The U.S. Energy Information Administration (EIA) defines world oil chokepoints as narrow channels along widely-used global sea routes, some so narrow that restrictions are placed on the size of the vessel that can navigate through them. Chokepoints are a critical part of global energy security because of the high volume of petroleum and other liquids transported through their narrow straits.
In 2013, total world petroleum and other liquids production was about 90.1 million barrels per day (bbl/d).1 EIA estimates that about 63% of this amount (56.5 million bbl/d) traveled via seaborne trade.2 Oil tankers accounted for 30% of the world's shipping by deadweight tonnage in 2013, according to data from the United Nations Conference on Trade and Development (UNCTAD).3
International energy markets depend on reliable transport routes. Blocking a chokepoint, even temporarily, can lead to substantial increases in total energy costs and world energy prices. Chokepoints also leave oil tankers vulnerable to theft from pirates, terrorist attacks, shipping accidents that can lead to disastrous oil spills, and political unrest in the form of wars or hostilities.
The seven chokepoints highlighted in this report are part of major trade routes for global seaborne oil transportation. Disruptions to these routes could affect oil prices and add thousands of miles of transit in alternative routes. By volume of oil transit, the Strait of Hormuz, leading out of the Persian Gulf, and the Strait of Malacca, linking the Indian and Pacific Oceans, are the world's most important strategic chokepoints. This report also discusses the role of the Cape of Good Hope, which is not a chokepoint but is a major trade route and potential alternate route to certain chokepoints.
Figure 1. Daily transit volumes through world maritime oil chokepoints
Sources: U.S. Energy Information Administration analysis based on Lloyd's List Intelligence, Panama Canal Authority, Eastern Bloc Research, Suez Canal Authority, and UNCTAD, using EIA conversion factors.
Location | 2009 | 2010 | 2011 | 2012 | 2013 |
---|---|---|---|---|---|
Strait of Hormuz | 15.7 | 15.9 | 17.0 | 16.9 | 17.0 |
Strait of Malacca | 13.5 | 14.5 | 14.6 | 15.1 | 15.2 |
Suez Canal and SUMED Pipeline | 3.0 | 3.1 | 3.8 | 4.5 | 4.6 |
Bab el-Mandab | 2.9 | 2.7 | 3.4 | 3.7 | 3.8 |
Danish Straits | 3.0 | 3.2 | 3.3 | 3.1 | 3.3 |
Turkish Straits | 2.8 | 2.8 | 3.0 | 2.9 | 2.9 |
Panama Canal | 0.8 | 0.7 | 0.8 | 0.8 | 0.8 |
World maritime oil trade | 53.9 | 55.5 | 55.6 | 56.7 | 56.5 |
World total oil supply | 84.9 | 87.5 | 87.8 | 89.7 | 90.1 |
Notes: All estimates are in million barrels per day. Data for Panama Canal is by fiscal years. Sources: U.S. Energy Information Administration analysis based on Lloyd's List Intelligence, Panama Canal Authority, Eastern Bloc Research, Suez Canal Authority, and UNCTAD, using EIA conversion factors. |
Oil tanker sizes
Ships carrying crude oil and petroleum products are limited by size restrictions imposed by maritime oil chokepoints. The global crude oil and refined product tanker fleet uses a classification system to standardize contract terms, to establish shipping costs, and to determine the ability of ships to travel into ports or through certain straits and channels. This system, known as the Average Freight Rate Assessment (AFRA) system, was established by Royal Dutch Shell six decades ago, and is overseen by the London Tanker Brokers' Panel (LTBP), an independent group of shipping brokers.
AFRA uses a scale that classifies tanker vessels according to deadweight tons, a measure of a ship's capacity to carry cargo. The approximate capacity of a ship in barrels is determined using an estimated 90% of a ship's deadweight tonnage, and multiplying that by a barrel per metric ton conversion factor specific to each type of petroleum product and crude oil, as liquid fuel densities vary by type and grade.
The smaller vessels on the AFRA scale - the General Purpose (GP) and Medium Range (MR) tankers - are commonly used to transport cargos of refined petroleum products over relatively shorter distances, such as from Europe to the U.S. East Coast. Their smaller size allows them to access most ports around the globe. A GP tanker can carry between 70,000 barrels and 190,000 barrels of motor gasoline (3.2-8 million gallons), and an MR tanker can carry between 190,000 barrels and 345,000 barrels (8-14.5 million gallons).
Long Range (LR) class ships are the most common ships in the global tanker fleet, as they are used to carry both refined products and crude oil. These ships can access most large ports that ship crude oil and petroleum products. An LR1 tanker can carry between 345,000 barrels and 615,000 barrels of gasoline (14.5-25.8 million gallons) or between 310,000 barrels and 550,000 barrels of light sweet crude oil.
A classification used to describe a large portion of the global tanker fleet is AFRAMAX. AFRAMAX vessels refer to ships between 80,000 deadweight tons and 120,000 deadweight tons. This ship size is popular with oil companies for logistical purposes, so, many ships have been built within these specifications. Because the AFRAMAX range exists somewhere between the LR1 and LR2 AFRA scales, the LTBP does not publish a freight assessment specifically for AFRAMAX vessels.
Over the history of AFRA, vessels grew in size, and newer classifications were added. The Very Large Crude Carrier (VLCC) and Ultra-Large Crude Carrier (ULCC) were added as the global oil trade expanded and 95 larger vessels provided better economics for crude shipments. VLCCs are responsible for most crude oil shipments around the globe, including in the North Sea, home of the crude oil price benchmark Brent. A VLCC can carry between 1.9 million and 2.2 million barrels of a West Texas Intermediate (WTI) type crude oil.
Strait of Hormuz
The Strait of Hormuz is the world's most important chokepoint with an oil flow of 17 million barrels per day in 2013, about 30% of all seaborne-traded oil.
Located between Oman and Iran, the Strait of Hormuz connects the Persian Gulf with the Gulf of Oman and the Arabian Sea. The Strait of Hormuz is the world's most important oil chokepoint because of its daily oil flow of 17 million barrels per day in 2013. Flows through the Strait of Hormuz in 2013 were about 30% of all seaborne-traded oil.
EIA estimates that more than 85% of the crude oil that moved through this chokepoint went to Asian markets, based on data from Lloyd's List Intelligence tanker tracking service.6 Japan, India, South Korea, and China are the largest destinations for oil moving through the Strait of Hormuz.
Qatar exported about 3.7 trillion cubic feet (Tcf) per year of liquefied natural gas (LNG) through the Strait of Hormuz in 2013, according to BP's Statistical Review of World Energy 2014.7 This volume accounts for more than 30% of global LNG trade. Kuwait imports LNG volumes that travel northward through the Strait of Hormuz.
At its narrowest point, the Strait of Hormuz is 21 miles wide, but the width of the shipping lane in either direction is only two miles wide, separated by a two-mile buffer zone. The Strait of Hormuz is deep and wide enough to handle the world's largest crude oil tankers, with about two-thirds of oil shipments carried by tankers in excess of 150,000 deadweight tons.
Pipelines available as bypass options
Most potential options to bypass Hormuz are currently not operational. Only Saudi Arabia and the United Arab Emirates (UAE) presently have pipelines able to ship crude oil outside of the Persian Gulf and have additional pipeline capacity to circumvent the Strait of Hormuz. At the end of 2013, the total available unused pipeline capacity from the two countries combined was approximately 4.3 million bbl/d (see Table 2).
Saudi Arabia has the 746-mile Petroline, also known as the East-West Pipeline, which runs across Saudi Arabia from its Abqaiq complex to the Red Sea. The Petroline system consists of two pipelines with a total nameplate (installed) capacity of about 4.8 million bbl/d. The 56-inch pipeline has a nameplate capacity of 3 million bbl/d, and its current throughput is about 2 million bbl/d. The 48-inch pipeline had been operating in recent years as a natural gas pipeline, but Saudi Arabia converted it back to an oil pipeline. The switch increased Saudi Arabia's spare oil pipeline capacity to bypass the Strait of Hormuz from 1 million bbl/d to 2.8 million bbl/d, but this is only achievable if the system operates at its full nameplate capacity.
Saudi Arabia also operates the Abqaiq-Yanbu natural gas liquids pipeline, which has a capacity of 290,000 bbl/d. However, this pipeline is currently running at capacity and cannot move any additional oil.
The UAE operates the Abu Dhabi Crude Oil Pipeline (1.5 million bbl/d) that runs from Habshan, a collection point for Abu Dhabi's onshore oil fields, to the port of Fujairah on the Gulf of Oman, allowing crude oil shipments to circumvent the Strait of Hormuz. The pipeline can transport more than half of UAE's total net oil exports. The government plans to increase this capacity in the near future to 1.8 million bbl/d.
Other pipelines are currently unavailable as bypass options
Saudi Arabia also has two additional pipelines that run parallel to the Petroline system and bypass the Strait of Hormuz, but neither of the pipelines currently has the ability to transport additional volumes of oil if the Strait of Hormuz is closed.
The 1.65 million bbl/d, 48-inch Iraqi Pipeline in Saudi Arabia (IPSA), which runs parallel to the Petroline from pump station #3 (there are 11 pumping stations along the Petroline) to the port of Mu'ajjiz, just south of Yanbu, Saudi Arabia, was built in 1989 to carry 1.65 million bbl/d of crude oil from Iraq to the Red Sea. The pipeline closed indefinitely following the August 1990 Iraqi invasion of Kuwait. In June 2001, Saudi Arabia seized ownership of IPSA and converted it to transport natural gas to power plants. Saudi Arabia has not announced plans to convert the pipeline back to transport crude oil.
Other pipelines, such as the Trans-Arabian Pipeline (TAPLINE) running from Qaisumah in Saudi Arabia to Sidon in Lebanon, or a strategic oil pipeline between Iraq and Turkey, have been out of service for years because of war damage, disuse, or political disagreements. These pipelines would require extensive renovation before they can transport oil. Relatively small quantities, several hundred thousand barrels per day at most, could also be transported by truck if the Strait of Hormuz is closed.
Pipeline name | Country | Status | Capacity | Throughput | Unused capacity |
---|---|---|---|---|---|
Petroline (East-West Pipeline) | Saudi Arabia | Operating | 4.8 | 2.0 | 2.8 |
Abu Dhabi Crude Oil Pipeline | United Arab Emirates | Operating | 1.5 | 0.6 | 0.9 |
Abqaiq-Yanbu Natural Gas Liquids Pipeline | Saudi Arabia | Operating | 0.3 | 0.3 | 0.0 |
Iraqi Pipeline in Saudi Arabia (IPSA) | Saudi Arabia | Converted to natural gas | 1.7 | - | - |
Total | 8.2 | 2.9 | 3.7 | ||
Notes: All estimates expressed in million barrels per day (bbl/d). Unused Capacity is defined as pipeline capacity that is not currently utilized but can be readily available. Sources: U.S. Energy Information Administration, Lloyd's List Intelligence.8 |
Strait of Malacca
The Strait of Malacca, linking the Indian Ocean and the Pacific Ocean, is the shortest sea route between the Middle East and growing Asian markets.
The Strait of Malacca, located between Indonesia, Malaysia, and Singapore, links the Indian Ocean to the South China Sea and Pacific Ocean. The Strait of Malacca is the shortest sea route between Persian Gulf suppliers and the Asian markets—notably China, Japan, South Korea, and the Pacific Rim.
Oil shipments through the Strait of Malacca supply China and Indonesia, two of the world's fastest-growing economies. It is the key chokepoint in Asia, with an estimated 15.2 million bbl/d flow in 2013, compared with 13.5 million bbl/d in 2009. Crude oil generally makes up about 90% of total oil flows per year, and petroleum products make up about 10% (see Table 3).
At its narrowest point in the Phillips Channel of the Singapore Strait, the Strait of Malacca is only about 1.7 miles wide, creating a natural bottleneck with potential for collisions, grounding, or oil spills.9 According to the International Maritime Bureau's Piracy Reporting Centre, piracy, including attempted theft and hijackings, is a threat to tankers in the Strait of Malacca, although the number of attacks has dropped since 2005 after nearby countries increased patrols in the area.10
If the Strait of Malacca were blocked, nearly half of the world's fleet would be required to reroute around the Indonesian archipelago, such as through the Lombok Strait between the Indonesian islands of Bali and Lombok, or the Sunda Strait between Java and Sumatra.11 Rerouting would tie up global shipping capacity, adding to shipping costs and potentially having a significant impact on energy prices.
There have been several proposals to build bypass options and reduce tanker traffic through the Strait of Malacca. In particular, China and Burma (Myanmar) commissioned the Myanmar-China natural gas pipeline in 2013 that stretches from Myanmar's ports in the Bay of Bengal to the Yunnan province of China. The pipeline has a capacity of 424 billion cubic feet per year. The countries are constructing a parallel oil pipeline to serve as an alternative transport route for crude oil imports from the Middle East to potentially bypass the Strait of Malacca.12 The oil pipeline was set to open in late 2014 and to have a capacity of about 440,000 bbl/d, according to IHS Energy.13 However, political opposition in both countries to the pipeline may delay its opening until 2016.
The Strait of Malacca is also an important transit route for liquefied natural gas from Persian Gulf and African suppliers, particularly Qatar, to East Asian countries with growing LNG demand. The biggest importers of LNG in the region are Japan and South Korea.
million barrels per day | 2009 | 2010 | 2011 | 2012 | 2013 |
---|---|---|---|---|---|
Total oil flows through Strait of Malacca | 13.5 | 14.5 | 14.6 | 15.1 | 15.2 |
crude oil | 11.9 | 12.8 | 12.9 | 13.3 | 13.4 |
refined products | 1.6 | 1.7 | 1.7 | 1.8 | 1.8 |
LNG (Tcf per year) | 1.6 | 1.9 | 2.5 | 3.2 | 4.2 |
Notes: Tcf = Trillion cubic feet. 2013 LNG is a preliminary estimate. Sources: U.S. Energy Information Administration analysis based on Lloyd's List Intelligence, Cedigaz, BP.14 |
Figure 3. Map of the Strait of Malacca
Source: CIA Factbook (See closer view of Strait of Malacca)
Suez Canal/SUMED Pipeline
The Suez Canal and SUMED Pipeline are strategic routes for Persian Gulf oil and natural gas shipments to Europe and North America. These two routes combined accounted for about 8% of the world's seaborne oil trade in 2013.
Suez Canal
The Suez Canal is located in Egypt and connects the Red Sea and Gulf of Suez with the Mediterranean Sea. In 2013, total petroleum and other liquids (crude oil and refined products) and LNG accounted for 20% and 3% of total Suez cargoes, measured by cargo tonnage, respectively. The Suez Canal is unable to handle Ultra Large Crude Carriers (ULCC) and fully laden Very Large Crude Carriers (VLCC) class crude oil tankers. The Suezmax was the largest ship capable of navigating through the canal until 2010 when the Suez Canal Authority extended the canal depth to 66 feet to allow more than 60% of all tankers to use the Suez Canal, according to the Suez Canal Authority.15
In 2013, nearly 3.2 million bbl/d of total oil (crude oil and refined products) transited the Suez Canal in both directions, according to the Suez Canal Authority. This is the largest amount ever shipped through the Suez Canal. The majority of the oil was sent northbound (1.9 million bbl/d) toward European and North American markets, and the remainder was sent southbound (1.3 million bbl/d), mainly toward Asian markets.
Oil exports from Persian Gulf countries (Saudi Arabia, Iraq, Kuwait, United Arab Emirates, Iran, Oman, Qatar, and Bahrain) accounted for 79% of Suez Canal northbound oil flows. The largest importers of northbound oil flows through the Suez Canal in 2013 were European countries (68%) and the United States (16%). Oil exports from European countries made up the majority (66%) of Suez southbound oil flows, followed by North Africa (Algeria and Libya combined made up 16%). The largest importers of Suez southbound oil flows through the Suez Canal were Asian countries (74%).
Total traffic through the Suez Canal fell in 2009, and total oil flows dropped to 1.8 million bbl/d, their lowest level in recent years. The decrease in oil flows during that time reflected the collapse in world oil market demand that began in the fourth quarter of 2008, followed by OPEC production cuts (primarily from the Persian Gulf), which caused a sharp fall in regional oil trade starting in early 2009. Egypt's 2011 revolution did not have any noticeable effect on oil transit flows through the Suez Canal. Over the past few years, oil flows through the Suez Canal have increased, recovering from previous lower levels during the global economic downturn.
SUMED Pipeline
The 200-mile long SUMED Pipeline, or Suez-Mediterranean Pipeline, transports crude oil through Egypt from the Red Sea to the Mediterranean Sea. The crude oil flows through two parallel pipelines that are 42 inches in diameter, with a total pipeline capacity of 2.34 million bbl/d. Oil flows north starting at the Ain Sukhna terminal along the Red Sea coast to its end point at the Sidi Kerir terminal on the Mediterranean Sea. SUMED is owned by the Arab Petroleum Pipeline Co., a joint venture between the Egyptian General Petroleum Corporation (50%), Saudi Aramco (15%), Abu Dhabi's International Petroleum Investment Company (15%), multiple Kuwaiti companies (15%), and Qatar Petroleum (5%).16
The SUMED Pipeline is the only alternative route to transport crude oil from the Red Sea to the Mediterranean Sea if ships were unable to navigate through the Suez Canal. Closure of the Suez Canal and the SUMED Pipeline would necessitate diverting oil tankers around the southern tip of Africa, the Cape of Good Hope, adding approximately 2,700 miles to transit from Saudi Arabia to the United States, increasing both costs and shipping time, according to the U.S. Department of Transportation.17 According to the International Energy Agency (IEA), shipping around Africa would add 15 days of transit to Europe and 8-10 days to the United States.18
Fully laden VLCCs going toward the Suez Canal also use the SUMED Pipeline for lightering. Lightering occurs when a vessel needs to reduce its weight and draft by offloading cargo to enter a restrictive waterway, such as a canal. The Suez Canal is not deep enough for a fully-laden VLCC and, therefore, a portion of the crude is offloaded at the SUMED Pipeline at the Ain Sukhna terminal. The now partially-laden VLCC goes through the Suez Canal and picks up the offloaded crude at the other end of the pipeline at the Sidi Kerir terminal.
In 2013, 1.4 million bbl/d of crude oil was transported through the SUMED Pipeline to the Mediterranean Sea, which was then loaded onto a tanker for seaborne trade. SUMED crude flows decreased over the past few years, but the decrease has been offset by more oil transiting northbound via the Suez Canal. Total oil flows via SUMED and the Suez Canal were 4.6 million bbl/d in 2013, 0.1 million bbl/d higher compared with the previous year. Total oil flows via the Suez Canal and SUMED pipeline accounted for about 8% of total seaborne-traded oil in 2013.
million barrels per day | 2009 | 2010 | 2011 | 2012 | 2013 |
---|---|---|---|---|---|
Total oil flows via the Suez Canal and SUMED pipeline | 3 | 3.1 | 3.8 | 4.5 | 4.6 |
Suez Canal total flows | |||||
crude oil | 0.6 | 0.7 | 0.7 | 1.4 | 1.5 |
refined products | 1.3 | 1.3 | 1.4 | 1.6 | 1.7 |
total oil | 1.8 | 2 | 2.2 | 3 | 3.2 |
LNG (Tcf per year) | 0.8 | 1.6 | 2.1 | 1.5 | 1.2 |
Suez northbound flows | |||||
crude oil | 0.3 | 0.4 | 0.5 | 0.9 | 1.1 |
refined products | 0.7 | 0.7 | 0.9 | 0.8 | 0.7 |
total oil | 1 | 1.2 | 1.4 | 1.7 | 1.9 |
LNG (Tcf per year) | 0.8 | 1.5 | 1.8 | 1.2 | 1 |
Suez southbound flows | |||||
crude oil | 0.3 | 0.3 | 0.2 | 0.5 | 0.4 |
refined products | 0.6 | 0.5 | 0.6 | 0.8 | 1 |
total oil | 0.9 | 0.8 | 0.8 | 1.3 | 1.3 |
LNG (Tcf per year) | 0.1 | 0.1 | 0.2 | 0.3 | 0.2 |
SUMED pipeline crude oil flows | 1.2 | 1.1 | 1.7 | 1.5 | 1.4 |
Notes: Totals may not exactly match corresponding values as a result of independent rounding. Tcf = Trillion cubic feet. Source: U.S. Energy Information Administration analysis based on Lloyd's List Intelligence, Suez Canal Authority (with EIA conversions).19 |
Liquefied natural gas (LNG)
LNG flows through the Suez Canal in both directions were 1.2 Tcf in 2013, accounting for 10% of total LNG transported worldwide.
LNG flows through the Suez Canal in both directions were 1.2 Tcf in 2013, accounting for around 10% of total LNG traded worldwide. Southbound LNG transit mostly originates in Egypt and Algeria and is largely destined for Asian markets, while northbound transit is mostly from Qatar mainly destined for European markets. The rapid growth in LNG flows through the Suez Canal after 2008 represents the use of multiple LNG trains in Qatar in 2009-10.
LNG flows through the Suez Canal in both directions have declined from their peak of almost 2.1 Tcf in 2011. The decrease mostly reflects the fall in northbound LNG flows and is consistent with LNG import data for the United States and Europe, which show that total LNG imports into both areas decreased, particularly from Qatar. U.S. LNG imports from Qatar fell by 63% from 2011-2012 and again by 78% in 2013. The changes reflect growing domestic natural gas production in the United States, a decrease in LNG demand in some European countries, and strong competition for LNG in the global market. As a result, total Suez LNG flows as a share of total LNG traded worldwide fell to 10% in 2013, compared with 18% in 2011.
Bab el-Mandeb
Closing the Bab el-Mandeb Strait could keep tankers in the Persian Gulf from reaching the Suez Canal and the SUMED Pipeline, diverting them around the southern tip of Africa.
The Bab el-Mandeb Strait is a chokepoint between the Horn of Africa and the Middle East, and it is a strategic link between the Mediterranean Sea and the Indian Ocean. The strait is located between Yemen, Djibouti, and Eritrea, and connects the Red Sea with the Gulf of Aden and the Arabian Sea. Most exports from the Persian Gulf that transit the Suez Canal and SUMED Pipeline also pass through Bab el-Mandeb.
An estimated 3.8 million bbl/d of crude oil and refined petroleum products flowed through this waterway in 2013 toward Europe, the United States, and Asia, an increase from 2.9 million bbl/d in 2009. Oil shipped through the strait decreased by almost one-third in 2009 because of the global economic downturn and the decline in northbound oil shipments to Europe. Northbound oil shipments increased through Bab el-Mandeb Strait in 2013, and more than half of the traffic, about 2.1 million bbl/d, moved northbound to the Suez Canal and SUMED Pipeline.
The Bab el-Mandeb Strait is 18 miles wide at its narrowest point, limiting tanker traffic to two 2-mile-wide channels for inbound and outbound shipments. Closure of the Bab el-Mandeb could keep tankers from the Persian Gulf from reaching the Suez Canal or SUMED Pipeline, diverting them around the southern tip of Africa, adding to transit time and cost. In addition, European and North African southbound oil flows could no longer take the most direct route to Asian markets via the Suez Canal and Bab el-Mandeb.
Figure 5. Map of Bab el-Mandeb
Source: CIA Factbook (See closer view of Bab el-Mandeb)
Turkish Straits
Increased oil exports from the Caspian Sea region make the Turkish Straits one of the busiest chokepoints in the world. Oil through these straits supplies Western and Southern Europe.
The Turkish Straits, which includes the Bosporus and Dardanelles waterways, divide Asia from Europe. The Bosporus is 17-mile waterway that connects the Black Sea with the Sea of Marmara. The Dardanelles is a 40-mile waterway that links the Sea of Marmara with the Aegean and Mediterranean Seas.20 Both are located in Turkey and supply Western and Southern Europe with oil from Russia and the Caspian Sea Region.
An estimated 2.9 million bbl/d flowed through the Turkish Straits in 2013. About 70% of this volume was crude oil and the remainder was petroleum products. These Black Sea ports are among the primary oil export routes for Russia and other Eurasian countries, including Azerbaijan and Kazakhstan.
Oil shipments through the Turkish Straits decreased from more than 3.4 million bbl/d at its peak in 2004 to 2.6 million bbl/d in 2006 as Russia shifted crude oil exports toward the Baltic ports. Traffic through the Turkish Straits increased from 2010-2011 as crude production and exports from Azerbaijan and Kazakhstan increased.
Only half a mile wide at the narrowest point, the Turkish Straits are among the world's most difficult waterways to navigate because of their sinuous geography. About 48,000 vessels transit the straits each year, making this area one of the world's busiest maritime chokepoints.21
Commercial shipping has the right of free passage through the Turkish Straits in peacetime, although Turkey claims the right to impose regulations for safety and environmental purposes. Bottlenecks and heavy traffic also create problems for oil tankers in the Turkish Straits. Turkey has raised concerns over the navigational safety and environmental threats to the Turkish Straits, and the country has suggested that an alternate route could be developed between the Black Sea and the Sea of Marmara.22
Figure 6. Map of Turkish Straits
Source: U.S. Government (See closer view of Turkish Straits)
Panama Canal
The United States is the primary country of origin and destination for all commodities going through the Panama Canal; however, it is not a significant route for U.S. petroleum trade.
The Panama Canal is an important route connecting the Pacific Ocean with the Caribbean Sea and the Atlantic Ocean. The Canal is 50 miles long and only 110 feet wide at its narrowest point – the Culebra Cut – at the Continental Divide.23 More than 13,000 vessels transited the Canal in fiscal year 2014, representing more than 200 million tons of cargo.24 Goods either originating from or destined for the United States accounted for 43% of the total shipments passing through the Panama Canal during that period.25
Alternatives to the Panama Canal include the Straits of Magellan, Cape Horn, and Drake Passage at the southern tip of South America, but these routes would significantly increase transit times and costs, adding about 8,000 miles of travel.
Although petroleum and petroleum products represented 18% of the principal commodities that crossed through the Panama Canal,26 it is not a significant route for global petroleum and petroleum product transit. In 2013, 1.4% of total global maritime petroleum and petroleum product flows went through the Panama Canal. According to the Panama Canal Authority, 877,000 bbl/d of petroleum and petroleum products were transported through the canal in fiscal year 2014, of which 748,000 bbl/d were refined products, the remainder being crude oil.27 About 78% of total petroleum, 688,000 bbl/d, went southbound from the Atlantic to the Pacific.28
The relevance of the Panama Canal to the global oil trade has diminished, as many modern tankers are too large to travel through the canal. Some oil tankers, such as the ULCC (Ultra Large Crude Carrier) class tankers, can be nearly five times larger than the maximum capacity of the canal. The largest vessel that can transit the Panama Canal is known as a Panamax-size vessel (ships ranging from 60,000 to 80,000 deadweight tons and no wider than 106 ft).
To make the canal more accessible, the Panama Canal Authority undertook an expansion program planned to be completed by 2015. The expansion will be able to accommodate a fully loaded Aframax tanker at 120,000 deadweight tons,29 but will not be able to accommodate carriers the size of VLCCs or larger. The Panama Canal Authority website features a description of the expansion program and progress reports.
thousand barrels per day | 2009 | 2010 | 2011 | 2012 | 2013 |
---|---|---|---|---|---|
Panama Canal total flows | |||||
total oil | 788 | 741 | 755 | 802 | 849 |
crude oil | 176 | 110 | 119 | 118 | 91 |
refined products | 612 | 630 | 637 | 684 | 759 |
Panama Canal southbound flows | |||||
total oil | 588 | 566 | 600 | 687 | 708 |
crude oil | 116 | 53 | 68 | 71 | 39 |
refined products | 471 | 514 | 532 | 616 | 669 |
Panama canal northbound flows | |||||
total oil | 200 | 174 | 156 | 115 | 141 |
crude oil | 60 | 57 | 51 | 47 | 51 |
refined products | 140 | 117 | 105 | 68 | 90 |
Notes: Tcf = Trillion cubic feet. 2013 LNG is a preliminary estimate. Sources: U.S. Energy Information Administration analysis based on Lloyd's List Intelligence, Panama Canal Authority (with EIA conversions).30 |
Figure 7. Map of Panama Canal
Source: CIA Factbook (See closer view of Panama Canal)
Trans-Panama Pipeline
The Trans-Panama Pipeline (TPP), operated by Petroterminal de Panama, S.A. (PTP), is located outside the former Canal Zone near the Costa Rican border. It runs from the port of Charco Azul on the Pacific coast to the port of Chiriqui Grande in Bocas del Toro, Panama on the Caribbean Sea. The pipeline began operating in 1982, with the original purpose of facilitating crude oil shipments from Alaska's North Slope to refineries in the Caribbean and in the U.S. Gulf Coast.31 However, in 1996, the TPP was shut down as oil companies began shipping Alaskan crude along alternative routes. Since 1996, there have been intermittent requests and proposals to use the TPP. In August 2009, the TPP completed a project to reverse its flows so the pipeline could transport oil from the Caribbean to the Pacific. The pipeline's capacity is about 600,000 bbl/d.32
In 2012, BP and PTP signed a seven-year transportation and storage agreement, allowing BP to lease storage facilities located on the Caribbean and Pacific coasts of Panama and to use the pipeline to transport crude oil to U.S. West Coast refiners. According to PTP, BP has leased 5.4 million barrels of PTP's storage and committed to east-to-west shipments through the pipeline averaging 100,000 bbl/d. The route reduces transport time and costs of ships having to go around Cape Horn at the southern tip of South America to get to the U.S. West Coast.33
According to Lloyd's List Intelligence, 95,000 bbl/d of crude oil was transported through the pipeline to the port of Charco Azul in 2013, an increase of more than 20,000 bbl/d from the previous year.
Danish Straits
The Danish Straits are an important route for Russian oil exports to Europe.
The Danish Straits consist of a series of channels that connect the Baltic Sea to the North Sea. They are an important route for Russian oil exports to Europe. An estimated 3.3 million bbl/d of crude oil and petroleum products flowed through the Danish Straits in 2013.
Russia shifted a significant portion of its crude oil exports to its Baltic ports after opening the port of Primorsk in 2005. In 2011, Primorsk oil exports accounted for more than half of all exports through the Danish Straits, although the volume fell to 42% in 2013. A small amount of oil (less than 100,000 bbl/d), primarily from Norway and the United Kingdom, also flowed eastward to Scandinavian markets in 2013.
Figure 8. Map of Danish Straits
Source: CIA Factbook
Cape of Good Hope
Although not a chokepoint, the Cape of Good Hope is a major global trade route. Crude oil flows around the Cape accounted for about 9% of all seaborne-traded oil.
The Cape of Good Hope, located on the southern tip of South Africa, is a significant transit point for oil tanker shipments around the globe. EIA estimates about 4.9 million bbl/d of seaborne-traded crude oil moved around the Cape of Good Hope in both directions in 2013, accounting for about 9% of all seaborne-traded oil. EIA does not currently estimate petroleum product flows around the Cape of Good Hope.
In 2013, 3.6 million bbl/d of crude oil around the world moved eastbound, originating mostly from Africa (2.1 million bbl/d) and from South America and the Caribbean (1.3 million bbl/d). Eastbound crude oil flows were nearly all destined for Asian markets (3.5 million bbl/d). In the opposite direction, nearly all westbound flows originated from the Middle East (1.3 million bbl/d), mostly destined for the Americas, with the United States making up a majority of the total.
The Cape of Good Hope is also an alternative sea route for vessels traveling westward seeking to bypass the Gulf of Aden, Bab el-Mandeb Straits, and/or the Suez Canal. However, diverting vessels around the Cape of Good Hope would increase costs and shipping time. For example, closure of the Suez Canal and the SUMED Pipeline would necessitate diverting oil tankers around the Cape of Good Hope, adding approximately 2,700 miles to transit from Saudi Arabia to the United States, increasing both costs and shipping time, according to the U.S. Department of Transportation.34
million bbl/d | 2011 | 2012 | 2013 | ||
---|---|---|---|---|---|
Total flows | 4.7 | 5.3 | 4.9 | ||
Eastbound | 2.9 | 3.7 | 3.6 | ||
Westbound | 1.7 | 1.6 | 1.3 | ||
Note: Estimates may not add up to their totals due to differences in rounding. Source: U.S. Energy Information Administration analysis based on Lloyd's List Intelligence35 |
Notes
- Data presented in the text are the most recent available as of November 10, 2014.
- Data are EIA estimates unless otherwise noted.
Endnotes
2U.S. Energy Information Administration analysis based on United Nations Conference on Trade and Development (UNCTAD/RMT/2013), Review of Maritime Transport 2013, Annex I: World seaborne trade by country group (December 2013). http://unctad.org/en/pages/PublicationWebflyer.aspx?publicationid=753; Cedigaz, Statistical Database (August 29, 2013); Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database; BP, Statistical Review of World Energy 2014.
3UNCTAD, Review of Maritime Transport 2013, p. 37
4Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database; Panama Canal Authority, Annual Report 2013; Eastern Bloc Research, CIS and Eastern Europe Databook 2014;Suez Canal Authority, Traffic Statistics; UNCTAD/RMT/2013.
5U.S. Energy Information Administration, "Oil tanker sizes range from general purpose to ultra-large crude carriers on AFRA scale", Today in Energy (September 16, 2014). http://www.eia.gov/todayinenergy/detail.cfm?id=17991
6Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database.
7BP, Statistical Review of World Energy 2014 (June 2014). http://www.bp.com/en/global/corporate/about-bp/energy-economics/statistical-review-of-world-energy.html
8Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database.
9National Defense University, "Chokepoints: Maritime Economic Concerns in Southeast Asia", Institute for National Strategic Studies (1996), p. 2
10International Chamber Of Commerce (ICC) International Maritime Bureau, Piracy and Armed Robbery Against Ships – 2013 Annual Report, p. 21
11National Defense University, 1996. "Chokepoints: Maritime Economic Concerns in Southeast Asia", Institute for National Strategic Studies, pp. 80-81
12Larson, "China's Oil Pipeline Through Myanmar Brings Both Energy and Resentment." Bloomberg Businessweek (February 04, 2014). http://www.businessweek.com/articles/2014-02-04/chinas-oil-pipeline-through-myanmar-brings-both-energy-and-resentment
13IHS Energy, "Myanmar to receive 40,000 b/d of crude from Myanmar-China pipeline." Oil & Gas Risk Service (July 26, 2013)
14Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database; Cedigaz, Statistical Database (August 29, 2013);BP, Statistical Review of World Energy 2014 (June 2014).
15Suez Canal Authority, Suez Canal Future Plans.
16SUMED Arab Petroleum Pipelines Company, SUMED system: Main Pipelines and Share Holders.
17U.S. Department of Transportation, Economic Impact of Piracy in the Gulf of Aden on Global Trade, (2010).
18International Energy Agency, Oil Market Update, (January 31, 2011).
19Suez Canal Authority, Annual Report 2013 and Suez Canal Traffic Statistics; Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database.
20Association of French Ship Captains, The Turkish Straits Vessel Traffic Service (TSVTS), http://www.afcan.org/dossiers_techniques/tsvts_gb.html
21Ibid
22Sam Jones, "Istanbul's new Bosphorus canal 'to surpass Suez or Panama'". The Guardian (April 27, 2013). http://www.theguardian.com/world/2011/apr/27/istanbul-new-bosphorus-canal
23Panama Canal Authority, This is the Canal (February 22, 2013). http://www.pancanal.com/eng/acp/asi-es-el-canal.html
24Panama Canal Authority, Transit Statistics Fiscal Year 2014.http://www.pancanal.com/eng/op/transit-stats/2014/2014-Table01.pdf
25Panama Canal Authority, Transit Statistics Fiscal Year 2014. http://www.pancanal.com/eng/op/transit-stats/2014/2014-Table09.pdf
26Panama Canal Authority, Transit Statistics Fiscal Year 2014. http://www.pancanal.com/eng/op/transit-stats/2014/2014-Table07.pdf
27Ibid, Table 7. http://www.pancanal.com/eng/op/transit-stats/2014/2014-Table07.pdf
28Ibid.
29U.S. Energy Information Administration, Liquid Fuels and Natural Gas in the Americas (January 2014). http://www.eia.gov/countries/americas/pdf/americas.pdf
30Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database; Panama Canal Authority, Annual Report 2013.
31Fielden, "The Crude from Transpanama - Pipeline Shipments from the Gulf to the Pacific Coasts", RBN Energy (August 15, 2013). https://rbnenergy.com/the-crude-from-transpanama-pipeline-shipments-from-the-gulf-to-the-pacific-coasts
32Ibid; Burkhardt and Galouchko, "BP to Ship Crude on Trans-Panama Pipeline to U.S. West Coast," Bloomberg (February 2, 2012). http://www.bloomberg.com/news/2012-02-02/bp-to-ship-crude-on-trans-panama-pipeline-to-u-s-west-coast-1-.html
33Smith, "BP begins east-west crude pipeline shipments across Panama", Oil & Gas Journal (February 3, 2012). http://www.ogj.com/articles/2012/02/bp-begins-east-west-crude-pipeline-shipments-across-panama.html
34U.S. Department of Transportation, Economic Impact of Piracy in the Gulf of Aden on Global Trade, (2010).
35Lloyd's List Intelligence, Analysis of Petroleum Exports (APEX) database.
Project Feedback
Read what others are saying about this project.
01/18/2017 - District of Columbia, United States
Clicking on the first graphic on this page zooms in way too much (the height of the graphic is 3x the size of the pop-up) and only the vertical scroll bar works. http://www.eia.gov/beta/international/regions-topics.cfm?RegionTopicID=CSR#
12/19/2016 - China
Where can I find the previous function that could enable to view and download selected data in tables ? Thanks.
12/01/2016 - Italy
First of all, congrats for this huge and helpful dataset!Secondly, how can I recover the data for Biodiesel production and see them in the chart/table? The Source button seem not to do any changes.. Thanks a lot again
11/28/2016 - Colombia
It would be easier, if when using metric units, instead of writing "billion kWh" you would specify whether this is 10^9 (as in english speaking countries) or 10^12 (everywhere else). Am I correct to assume 1 billion kW equal 1 GW?
11/19/2016 - Missouri, United States
International energy - consumption per capita years 2010 and 2011 seem wildly out of line with the previous years. US goes for 308 to 69,595 in 2010? Seems incorrect
11/11/2016 - Indiana, United States
I very much liked the previous version where excel downloaded data was much easier to work with. With this new version and the way it generates excel files when we download data, it takes me a huge amount of time to effectively use a downloaded file.
11/11/2016 - Virginia, United States
Per capita consumption data for 2011 by continent is coming up strangely. For global consumption of 529 Quad BTUs, it's showing per capita 9.5 trillion BTUs (which would assume a world pop. ~56,000).
11/02/2016 - India
Hi, great work with the interface. However, there are parts of the database that we could access in the previous version, that we are unable to access here (Imports and exports of petroleum crude and products, consumption of renewable energy in QTBTU among others). It would be great if these issues were cleared up asap so as to improve usability and access to data. Thank you!
10/24/2016 - India
Hi, We are unable to download crude oil and refined petroleum products imports by country. Kindly help.
10/13/2016 - Iran
Can you please create new links for your new things? I just saved a link for total renewable electricity net consumption, every time I just use this link address, but this time because of your update, it was not found. It makes me confused, I need this data in excel format, I search all of your website, I did not find this variable data/
10/11/2016 - New York, United States
The old system to download data was much easier - why fix something that worked well. I saw a comment that person can download all countries - I can not find that. Can you please direct me to it - thanks
10/01/2016 - Texas, United States
I'm just curious why the data period ends at 2013 - it's now Oct 2016 - seems like there should be data at least thru 2015. Has the beta site been replaced? Am I just in the wrong place?
09/28/2016 - Japan
I'm using the data for elec. generation (e.g. PV or wind) for my own research. Before this version, the data were down to 3 to 4 decimal places. However, only 1 decimal seems to be shown in Beta. It would be more useful and helpful for research if some options for more decimal place were added or units could be modified (e.g. other than billion kWh for generation). Thanks.
09/13/2016 - Norway
Hi, this gives me a very interesting picture of the global energy sector. Thank you.
08/29/2016 - Texas, United States
The organization of downloaded CSV data makes the data almost unusable. All headers for each country are shown as having equal value to the country itself so the data cannot be sorted without losing the country identification. I downloaded All Countries>Crude Oil and Lease Condensate Production. Column B makes every heading equal i.e., the country and various information headings. It is unfortunate that a download cannot be directly used but it is frustrating that as an expert Excel user I cannot easily determine a way to organize the data in a way that makes it usable. Thanks, Art Berman
08/16/2016 - Texas, United States
Really helpful and easy to use.
08/12/2016 - United Kingdom
Excellent. This is much easier to navigate and use.
07/27/2016 - Brazil
Excelent job! What does the "other liquids" in Total Petroleum and Other Liquids Production 2015 include?
07/18/2016 - India
Very useful data. However, it would be great if you could mention how much of India's energy (especially oil and gas) imports come by sea, in order to get a clearer picture of India's energy imports.
06/23/2016 - United Kingdom
I was using your import figures for china i.e. the pie chart for percentage world wide imports 2014 and when added up it is 99% rather than 100.
06/22/2016 - Japan
More new information will be helpful to understand global enegy situation.
06/15/2016 - Ecuador
Srs, I am probably one of the thousands readers that are eager to learn of the new information produced by EIA. Excellent, by the way. OPEC report on revenue is very informative. Our governments always keep us in the dark. Why???. Thank you
06/07/2016 - United Kingdom
Amazing data, thank you very much!
05/25/2016 - China
Very helpful information!! Well researched, clear figures and graphs.
05/18/2016 - California, United States
There is no data available for the petroleum or natural gas reserves in the U.S.A.
05/01/2016 - Australia
It is incredibly frustrating trying to view the data you want. Today I simply want to view the imports of crude oil in bbld in South Africa. BTU is a completely unhelpful metric.
04/22/2016 - California, United States
2014?? Where are the production numbers of 2015 and up 4/22/16?
04/03/2016 - United Kingdom
Fantastic resource. Very well researched, clear and easy figures and graphs. Well organised too. Incredible useful!
03/08/2016 - District of Columbia, United States
What a handy tool, thanks!
03/06/2016 - New Jersey, United States
Well organized information with easy access.
02/15/2016 - West Virginia, United States
Very helpful information!
02/14/2016 - China
I like the old version which had a country brief.
02/09/2016 - Saudi Arabia
Excellent work for the country analysis. However, i'm struggling to cite the South African country analysis report....would appreciate if you could sent it
01/30/2016 - Spain
Your website is very useful for me as a teacher, particularly the world thematic maps. My students like it as well. Thanks a lot!
01/22/2016 - Vietnam
Useful data for my work. Thanks sincerely.
01/04/2016 - Canada
Best government website ever
01/02/2016 - Turkey
Goood
12/29/2015 - Michigan, United States
We use your 'Total Electricity Net Consumption' data for comparing countries for a market potential index we create each year. Data in the previous years was available up to 5 decimal places. However, data is available with only 1 decimal place this year (through the beta interface) and comparing countries became a challenge because there are too many countries with the same values now. Is there a way to download the full data-set with all the decimal points available?
12/22/2015 - United Kingdom
Brilliant bit of website, made my life a thousand times easier!
12/06/2015 - Argentina
Excellent!!
11/29/2015 - Malaysia
May I know if there is a latest write up on Malaysia year 2015. The one I have obtained is 2014.
11/21/2015 - Virginia, United States
Terrific article on Brazil...thank you.
11/20/2015 - Egypt
I note that the analysis of energy in Israel in this site is not covered in details as other countries?
11/17/2015 - Michigan, United States
Great PDF file on Canada's energy and trade success! Exactly what I needed to bring me up to speed for my research on Michigan and on the Midwest - thanks! (Mike at McGuire Research)
11/15/2015 - California, United States
Why are your maps so hard to copy and past? It should be easy to get a nice graph of yours.
11/12/2015 - Alabama, United States
I work with Excel spreadsheets. I looked at your Excel download function and examined your Excel spreadsheet. It appears that if I am going to load the data into my spreadsheets, I will have to do one line at a time, each country individualy.
10/06/2015 - United Kingdom
The analysis on South Korea was a very interesting and worthwhile read. Great to see such an informed analysis presented with tables to illustrate it
09/30/2015 - France
Excellent interface, very very efficient. Having global data is definitely a plus. Too bad data goes up to 2012 and does not include 2013 and 2014. Comments coming from an IT manager used to major systems with large databases.
09/12/2015 - India
I always rely on data published by EIA to make various comparisons and analysis reports. This tool makes my job much easier.
09/11/2015 - Russia
Amazing tool, thank you for such a useful application for data export .
08/16/2015 - Colorado, United States
So... Pretty! Really appreciate you guys going the extra mile with your data tools, this makes my research so much more effective. You guys have been an utter joy to work with (not a typical experience for government bureaucracy), and this new beta is the icing on the cake. Thanks for the hard work you have put in to make this information clear and understandable! Looking forward to seeing what you guys cook up in the future.
06/09/2015 - District of Columbia, United States
Why can't I download any of this to spreadsheets? Why can't I download multiple years?
06/01/2015 - Nigeria
Dear Sirs, I have been using your data for almost 20 yrs, in particular the international Petroleum data. I like the granularity provided, by country by month. Unfortunately it seems from the beta site, that I can only access the annual data and only download as a CSV file. Is that correct? regards Casper
05/31/2015 - Virginia, United States
Where are the country pages!!!? I am writing a book chapter and referenced your site, where I found terrific info on India and Japan several months ago. Unfortunately, it appears you deleted those pages. Why?
05/27/2015 - Antarctica
I really love this beautiful webpage! It is very wonderful:) I love learning about this stuff!
05/25/2015 -
I need to access country profiles in .pdf form.
05/20/2015 - New York, United States
Thank you for all the info and help over the past few years. Before the layout, I was able to find annual #s of net exports of petro for each country, and now I have no idea where it is.
05/20/2015 - New York, United States
I am looking for bbl and bcf , not Btu , can you tell me where to look for country's oil bbl and gas in bcf? Thanks
05/20/2015 - Canada
Where can I find the original spreadsheets with the country data for Crude + Condensate and the one for all liquids. The new look is too complicated for me. The spreadsheet is more easily used for good analysis.
05/19/2015 - Texas, United States
Would like a link to the pdf of the entire country analysis brief.