U.S. petroleum and natural gas production increased by 16% and by 12%, respectively, in 2018, and these totals combined established a new production record. The United States surpassed Russia in 2011 to become the world's largest producer of natural gas and surpassed Saudi Arabia in 2018 to become the world's largest producer of petroleum. Last year’s increase in the United States was one of the largest absolute petroleum and natural gas production increases from a single country in history.
For the United States and Russia, petroleum and natural gas production is almost evenly split; Saudi Arabia's production heavily favors petroleum. Petroleum production is composed of several types of liquid fuels, including crude oil and lease condensate, natural gas plant liquids (NGPLs), and bitumen. The United States produced 28.7 quadrillion British thermal units (quads) of petroleum in 2018, which was composed of 80% crude oil and condensate and 20% NGPLs.
Source: U.S. Energy Information Administration, based on International Energy Statistics
Note: Petroleum includes crude oil, condensate, and natural gas plant liquids.
U.S. crude oil production increased by 17% in 2018, setting a new record of nearly 11.0 million barrels per day (b/d), equivalent to 22.8 quadrillion British thermal units (Btu) in energy terms. Production in the Permian region of western Texas and eastern New Mexico contributed to most of the growth in U.S. crude oil production. The United States also produced 4.3 million b/d of NGPLs in 2018, equivalent to 5.8 quadrillion Btu. U.S. NGPL production has more than doubled since 2008, when the market for NGPLs began to expand.
U.S. dry natural gas production increased by 12% in 2018 to 28.5 billion cubic feet per day (Bcf/d), or 31.5 quadrillion Btu, reaching a new record high for the second year in a row. Ongoing growth in liquefied natural gas export capacity and the expanded ability to reach new markets have supported increases in U.S. natural gas production.
Russia’s crude oil and natural gas production also reached record levels in 2018, encouraged by increasing global demand. Russia exports most of the crude oil that it produces to European countries and to China. Since 2016, nearly 60% of Russia’s crude oil exports have gone to European member countries in the Organization for Economic Cooperation and Development (OECD). Russia’s crude oil is also an important source of supply to China and neighboring countries.
Russia’s natural gas production increased by 7% in 2018, which exceeded the growth in exports. The Yamal liquefied natural gas (LNG) export facility, which loaded its first cargo in December 2017, can liquefy more than 16 million tons of natural gas annually and accounts for almost all of the recent growth in Russia’s LNG exports. Since 2000, more than 80% of Russia’s natural gas exports have been sent to Europe.
Saudi Arabia’s annual average crude oil production increased slightly in 2018, but it remained lower than in 2016, when Saudi Arabia’s crude oil output reached a record high. Saudi Arabia’s crude oil production reached an all-time monthly high in November 2018 before the December 2018 agreement by the Organization of the Petroleum Exporting Countries (OPEC) to extend production cuts.
In addition to exporting and refining crude oil, Saudi Arabia consumes crude oil directly for electricity generation, which makes Saudi Arabian crude oil consumption highest in the summer when electricity demand for space cooling is relatively high. Since 2016, Saudi Arabia’s direct crude oil burn for electric power generation has decreased for a number of reasons, including demand reductions from a partial withdraw of power subsidies, greater use of residual fuel oil, and increased availability of domestic natural gas.
Crude oil exports account for about 60% of Saudi Arabia’s total economic output. China, along with Japan, South Korea, Taiwan, and the United States remain critical markets for Saudi Arabia’s petroleum exports.
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The global oilfield scale inhibitor market was valued at USD 509.4 Million in 2014 and is expected to witness a CAGR of 5.40% between 2015 and 2020. Factors driving the market of oilfield scale inhibitor include increasing demand from the oil and gas industry, wide availability of scale inhibitors, rising demand for biodegradable and environment-compatible scale inhibitors, and so on.
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The oilfield scale inhibitor market is experiencing strong growth and is mainly driven by regions, such as RoW, North America, Asia-Pacific, and Europe. Considerable amount of investments are made by different market players to serve the end-user applications of scale inhibitors. The global market is segmented into major geographic regions, such as North America, Europe, Asia-Pacific, and Rest of the World (RoW). The market has also been segmented on the basis of type. On the basis of type of scale inhibitors, the market is sub-divided into phosphonates, carboxylate/acrylate, sulfonates, and others.
Carboxylate/acrylic are the most common type of oilfield scale inhibitor
Among the various types of scale inhibitors, the carboxylate/acrylate type holds the largest share in the oilfield scale inhibitor market. This large share is attributed to the increasing usage of this type of scale inhibitors compared to the other types. Carboxylate/acrylate meets the legislation requirement, abiding environmental norms due to the absence of phosphorus. Carboxylate/acrylate scale inhibitors are used in artificial cooling water systems, heat exchangers, and boilers.
RoW, which includes the Middle-East, Africa, and South America, is the most dominant region in the global oilfield scale inhibitor market
The RoW oilfield scale inhibitor market accounted for the largest share of the global oilfield scale inhibitor market, in terms of value, in 2014. This dominance is expected to continue till 2020 due to increased oil and gas activities in this region. The Middle-East, Africa, and South America have abundant proven oil and gas reserves, which will enable the rapid growth of the oilfield scale inhibitor market in these regions. Among the regions in RoW, Africa’s oilfield scale inhibitor market has the highest prospect for growth. Africa has a huge amount of proven oil reserves and is one of the leading oil producing region in the World. But political unrest coupled with lack of proper infrastructures may negatively affect oil and gas activities in this region.
Major players in this market are The Dow Chemical Company (U.S.), BASF SE (Germany), AkzoNobel Oilfield (The Netherlands), Kemira OYJ (Finland), Solvay S.A. (Belgium), Halliburton Company (U.S.), Schlumberger Limited (U.S.), Baker Hughes Incorporated (U.S.), Clariant AG (Switzerland), E. I. du Pont de Nemours and Company (U.S.), Evonik Industries AG (Germany), GE Power & Water Process Technologies (U.S.), Ashland Inc. (U.S.), and Innospec Inc. (U.S.).
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Headline crude prices for the week beginning 9 December 2019 – Brent: US$64/b; WTI: US$59/b
Headlines of the week
In the U.S. Energy Information Administration’s (EIA) International Energy Outlook 2019 (IEO2019), India has the fastest-growing rate of energy consumption globally through 2050. By 2050, EIA projects in the IEO2019 Reference case that India will consume more energy than the United States by the mid-2040s, and its consumption will remain second only to China through 2050. EIA explored three alternative outcomes for India’s energy consumption in an Issue in Focus article released today and a corresponding webinar held at 9:00 a.m. Eastern Standard Time.
Long-term energy consumption projections in India are uncertain because of its rapid rate of change magnified by the size of its economy. The Issue in Focus article explores two aspects of uncertainty regarding India’s future energy consumption: economic composition by sector and industrial sector energy intensity. When these assumptions vary, it significantly increases estimates of future energy consumption.
In the IEO2019 Reference case, EIA projects the economy of India to surpass the economies of the European countries that are part of the Organization for Economic Cooperation and Development (OECD) and the United States by the late 2030s to become the second-largest economy in the world, behind only China. In EIA’s analysis, gross domestic product values for countries and regions are expressed in purchasing power parity terms.
The IEO2019 Reference case shows India’s gross domestic product (GDP) growing from $9 trillion in 2018 to $49 trillion in 2050, an average growth rate of more than 5% per year, which is higher than the global average annual growth rate of 3% in the IEO2019 Reference case.
Source: U.S. Energy Information Administration, International Energy Outlook 2019
India’s economic growth will continue to drive India’s growing energy consumption. In the IEO2019 Reference case, India’s total energy consumption increases from 35 quadrillion British thermal units (Btu) in 2018 to 120 quadrillion Btu in 2050, growing from a 6% share of the world total to 13%. However, annually, the level of GDP in India has a lower energy consumption than some other countries and regions.
Source: U.S. Energy Information Administration, International Energy Outlook 2019
In the Issue in Focus, three alternative cases explore different assumptions that affect India’s projected energy consumption:
EIA’s analysis shows that the country's industrial activity has a greater effect on India’s energy consumption than technological improvements. In the IEO2019 Composition and Combination cases, where the assumption is that economic growth is more concentrated in manufacturing, energy use in India grows at a greater rate because those industries have higher energy intensities.
In the IEO2019 Combination case, India’s industrial energy consumption grows to 38 quadrillion Btu more in 2050 than in the Reference case. This difference is equal to a more than 4% increase in 2050 global energy use.