A Decline in Big Oil? The results of 2013 for three big oil companies especially Royal Dutch Shell (NYSE:RDS.A)indicate such a trend

Recently, Exxon Mobil, Royal Dutch Shell, and Chevron reported disappointing results for the fourth quarter and year of 2013. The main reason for all of their declines was lower production since oil prices remained high. More disappointing than none of these huge corporations could forecast growth in production despite vast investments especially in the North American and Russian Arctic’s, the Gulf of Mexico, and several other areas.

Shell’s performance was particularly disappointing and in the author’s opinion it reflects a mixture of management decisions which are in conflict as if the engineers and technical specialists of the company do not seem to agree with their own economists and/or accountants, which leads to huge losses in particular projects, huge underestimates of investment requirements and frequent announcement of changes in decisions for particularly import projects.

The most disappointing change to the author is the new decision of Shell not to go ahead with plans to build a major facility in Louisiana that would turn natural gas into synthetic diesel as reported in my study “Expressway to US Energy- Independence GTL Diesel” of June 2012, consumption of the middle distillates in the USA is about 4 million barrels per day (b/d) out of a consumption of oil and liquids of 19 million b/d. The use of the abandon of low cost shale gas in the USA for GTL diesel would not only be profitable but it would cut US oil imports by about 50% and save about $146 billion in foreign exchange for the USA per year.

Shell has built a GTL plant in Qatar called PEARL for about $19 billion and capacity of 140,000 barrels of products per day including: Diesel based oil to lubricate vehicle engines, gear boxes, and transmissions; GTL base oil for lubricating vehicle engines; blending with conventional diesel for cleaner burning and lower emission; GTL Kerosene for cooking, lighting, and dry-cleaning and potentially as jet fuel; GTL normal paraffin and GTL naphtha for plastics and several other products.

Shell’s Pearl GTL began operations in mid 2011 and was expected to reach full production by mid 2012. Without attributing any cost for the gas in input, a high official of Shell claimed that the Pearl GTL plant would be profitable as long as oil prices remain above $40/b. Another high official later claimed the same as long as

oil prices remained above $70/b. Who can now claim such low oil-prices? Similarly expected it’s Qatar GTL to generate $4.5 billion of annual cash flow when fully up and running at $70/ b/d oil price assumptions.

In its 2013 report Shell reported that “Pearl GTL in Qatar, contributed some 170 thousand BOE/D to production in 2013” (2). In other words, the plant has already exceeded its proclaimed capacity by 21.4% with consequent lower capital costs. At an oil price of $70/b diesel would sell between $1.67-$2.00 a gallon. In fact, now the price of diesel in USA is almost $4.00 per gallon or a difference of at least 100%. Therefore, the annual cash flow of the Pearl GTL plant should be double the 4.5 billion dollars mentioned before as estimated by Shell, $9/$10B per year. A very profitable investment indeed! The author estimates total cost of $50 per barrel of diesel even if Shell pays $5 per 1,0000 cubic feet of gas. Therefore, profit of the plant is at least one-third of the cash flow or $3 billion per year. Therefore, Shell’s decision to cancel construction of a similar plant in the USA remains a mystery and in the author’s opinion, shareholders and the public deserve an explanation for such a consequential decision for the American economy.

Shell is certainly innovative and daring. The above example of the Pearl plant shows its ability for innovation. It’s daring is perhaps best illustrated by spending as much as $5 billion in Alaska’s Beaufort and Chujhic Seas off the state’s North Slope before abandoning such a gigantic effort because of extremely frozen weather and no drilling at all.

The latest upset in Shell’s decision making is the announcement that it had renewed an option to buy site of a proposed $2 billion ethylene in western Pennsylvania. The proposed plant would turn ethane liquid produced along natural gas and oil into ethylene, used to make plastics (3).

In this connection note that the price of Marcellus shale gas is often quoted at about half the price of Henry Hub except for the recent weeks when extraordinary and record-breaking cold weather briefly gave an uplift to the shale gas price of Pennsylvania.

Despite all the above, Shell remains one of the biggest and most important oil and gas companies in the world with assets of $360.3 billion at end of 2012 and earnings of $16.7 billion in 2013 as compared to $27.2 billion in 2012, a drop of 38.6%. The drop in earnings in the fourth Quarter of 2013 was $5.2 billion from $7.4 billion in the same Quarter in 2012, an amazing drop of 297.3%! Thus the rate-of-return dropped from 13.6% in 2012 to only 7.9% in 2013.

(1) Charles Cosntantinou “Expressway to Energy Independence” June 2012

(2) Yahoo Finance “Royal Dutch Shell PLC. 4th Quarter and Full Year 2013 Unaudited Results” January 30th, 2013 page 5 Wall Street Journal “Shell Puts off

(3) Drilling in Alaska’s Arctic” by Tom Fowler and Ben Lefebure” February 28th 2013 page B7. (3) Wall Street Journal “Shell is Ruining Option for Factor Site” By James R. Hagerty, December 27th, 2013, page B5.

Authored by Charles Constantinou
http://www.shaleintelligence.com
Twitter: @shaleintel

Whiting to buy Kodiak for $3.8 billion, create No. 1 Bakken producer | Reuters

Whiting to buy Kodiak for $3.8 billion, create No. 1 Bakken producer | Reuters.

USA Energy Independence: Sense or Nonsense?

The USA became a net importer of oil after World War II due to the accelerated rate of economic growth based on low-cost energy, especially oil. Nevertheless, the USA kept some of its oil-producing capacity in reserve for emergencies through the regulation of production. This reserve was used repeatedly by the USA to supply oil to oil-importing countries in Western Europe and Japan and stabilize prices during the closure of the Suez Canal because of wars in the Middle East.

Henry Kissinger wrote, “…Until 1972 the United States had been in a position to control the world price of oil because it was producing well below full capacity. ”

Thus America was, in effect, able to set the price by increasing or withholding production. As late as 1950 the country supplied almost all of its energy needs from its own production; in 1960 we were importing 16 percent of our own requirements while still having significant unused capacity; by 1970 we were approaching full production and importing 35 percent of what we consumed.

In early 1972 the Texas Railroad Commission, the organization that established ceilings on American production, felt compelled to make a fateful decision, although it went essentially unnoticed. With demand having risen to a point where it threatened an explosion of prices, the commission authorized full production. And that seemingly technical decision signaled the end of America’s ability to the world oil price.”

Oil consumption in the USA climbed. Crude oil (including natural gas liquids), however, could not meet the increase in demand and, therefore, imports escalated. Of course, the oil situation has resulted in enormous foreign exchange costs that have climbed from $95.5 billion in 2000 to approximately $356 billion in 2011, which was equal to about 4.0% of gross domestic product or $1,145 per capita.

Hence the importance of USA energy independence which has been loudly proclaimed by every president since Mr. Nixon. However, energy independence should be defined properly to mean oil independence since the USA has always enjoyed coal independence and the recent shale gas revolution brought about by the application of the new technologies of hydraulic fracturing and horizontal drilling practically guarantees natural gas independence for many, many years to come. It has given hope through the rapid and very significant increase in shale oil production for the achievement of oil independence as well.

The US Energy Information Administration has estimated shale gas recoverable resources at 482 Trillion Cubic Feet and shale oil resources at 33.2 billion barrels in 2010. Already various projects have been announced for the export of natural gas especially to Asia and Europe through the construction of liquefied natural gas (LNG) facilities. Will the same happen with regard to oil? It all depends. According to the USEIA the USA will remain dependent on imports for about 43 percent of its oil consumption even through 2035. Other analysts, however, are much more optimistic. They base their optimism on the incredible rate of shale oil production increase in North Dakota where shale oil has jumped from 308,304 barrels per day in 2010 to 701,134 barrels per day in August 2012. Their optimism is also based on other shale oil formations in Ohio, Oklahoma, Texas and other states with resources in North Dakota alone estimated at 200-400 billion barrels and recovery factor of 25 percent and not the traditional 10 percent.

Conclusion: In view of the above estimates, USA oil independence appears to be based on a lot of sense and, of course, hope. But discussion should refer only to the USA and not talk nonsense of North America as repeatedly mentioned by one of the candidates for the US presidency for the next four years. North America, of course, includes Canada and Mexico, which are already exporters of oil. Such talk shows little respect for the intelligence of ordinary Americans and, of course, the specialists who know better than that.

http://www.ShaleIntelligence.com

Sanctions or not, Putin is under attack by forces that no one controls

Crude Oil, Gasoline Inventories Down Sharply as Holiday Weekend Nears

24/7 Wall St.

The U.S. Energy Information Administration (EIA) released its weekly petroleum status report Wednesday morning. U.S. commercial crude inventories decreased by 3.2 million barrels last week, maintaining a total U.S. commercial crude inventory to 384.9 million barrels, and have moved above the upper limit of the five-year range for this time of the year.

Total gasoline inventories decreased by 1.2 million barrels last week and are now in the middle of the five-year average range. Total motor gasoline supplied (the EIA’s measure of consumption) averaged 9 million barrels a day over the past four weeks, up about 0.5% over the same period a year ago.

Distillate inventories rose by 1 million barrels last week and are near the lower limit of the average range. Distillate product supplied averaged more than 3.8 million barrels a day over the past four weeks, down by 8% when compared with the same period last year…

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Israel’s Leviathan in talks to sell gas to BG’s Egypt LNG plant

Noble Energy Inc. Plans with Israeli government to be highly profitable for both the government and $NBL

Goldman Says Shale Gas Boom Driving Fear From Market

North Dakota and Texas now provide nearly half of U.S. crude oil production

New Global Safety and Regulations in Global Energy

Introduction: Safety and Regulations in Global Energy

Economic development has always depended on the application of new technologies in the production of new products and improved productivity. This has been particularly so since the beginning of the industrial revolution without much attention given to safety particularly when deleterious side effects could not be detected easily and left future generations to deal with it. The democratization of societies, higher education for what might be called the ordinary citizen, environmentalism and huge danger of some new technologies such as nuclear have in recent years resulted in critical eyes focusing on safety more intensely and demanding appropriate regulations in order to avoid catastrophes even at the expense of higher economic development. This has increasingly been evident in the field of energy. In the USA energy safety issues have become especially important because of the so-called Shale Revolution which has turned the country into an exporter of Liquefied Natural Gas (LNG) because of vast new reserves of shale-gas with prices at about 1/3 of gas in Europe and rapid production increases in shale oil which is rapidly replacing conventional oil imports. The Shale Revolution has raised safety and environmental concerns as described below. The paper describes environmental and safety problems in other energy sources as well as background for the debate, which is already in progress.

Continue reading New Global Safety and Regulations in Global Energy →

New Global Safety and Regulations in Global Energy

Introduction: Safety and Regulations in Global Energy

Economic development has always depended on the application of new technologies in the production of new products and improved productivity. This has been particularly so since the beginning of the industrial revolution without much attention given to safety particularly when deleterious side effects could not be detected easily and left future generations to deal with it. The democratization of societies, higher education for what might be called the ordinary citizen, environmentalism and huge danger of some new technologies such as nuclear have in recent years resulted in critical eyes focusing on safety more intensely and demanding appropriate regulations in order to avoid catastrophes even at the expense of higher economic development. This has increasingly been evident in the field of energy. In the USA energy safety issues have become especially important because of the so-called Shale Revolution which has turned the country into an exporter of Liquefied Natural Gas (LNG) because of vast new reserves of shale-gas with prices at about 1/3 of gas in Europe and rapid production increases in shale oil which is rapidly replacing conventional oil imports. The Shale Revolution has raised safety and environmental concerns as described below. The paper describes environmental and safety problems in other energy sources as well as background for the debate, which is already in progress.

The Shale Revolution

As recently as 2007 many U.S. companies were preparing for a steady increase of imports of natural gas since they could see a decrease in domestic production and an increase in demand especially in electricity generation where both capital and operating costs were lower than coal electricity plants. Billions of dollars were invested in the South by the Gulf of Mexico, in the east as far as Boston and in the west, especially in California. New technologies, however, were introduced, which resulted in the rapid increase in shale gas production, which made it obvious that the USA could become a major LNG exporter rather than an importer. Companies reversed course and at least one company Cheniere Energy (LNG), started construction in 2012 and expects to start exporting LNG at the end of 2014 or beginning of 2015. The same company has announced the construction of a second plant and about two-dozen other companies have applied for licenses to export LNG. In the meantime, an oversupply of natural gas caused the collapse of prices and companies switched to the production of shale oil, which has proved to be much more profitable. Already in North Dakota alone, more than one million barrels of shale oil is produced every day and production is expected to increase considerably both in North Dakota and elsewhere. Demand for shale oil, however, was far away at the refineries of the Gulf of Mexico, California, and the East and companies could not wait for pipelines to be built since this would take at least five years. Instead, they resorted to rail transportation, which has caused some serious accidents including the worst one in Canada in 2013, which killed 47 people. A serious train derailment on April 30, 2014 contaminated the James River in Lynchburg, Virginia which led the Department of Transportation to issue an emergency order requiring that railroad companies inform state emergency management officials about the movement of large shipments of shale oil through their states and advised shippers not to use older model railroad tank cars that could easily rupture in accidents even at slow speeds. As reported by the Wall Street Journal “Bakken Crude Is Highly Volatile, Oil Study Shows” (Lynn Gok, May 15, 2014 pg A4), oil refiners confirmed that crude from the Bakken Shale in North Dakota is very unstable and contains high levels of combustible gases. A measure of volatility called Reid Vapor Pressure, which in traditional oil measured 3.3 pounds per square inch, in Bakken shale oil averaged about 8 pounds per square inch in warmer weather and 12.5 in colder weather. Many samples were at the high end of the range, with the highest at 15.54. Although the above will be disputed and discussed by various organizations and groups with conflicting interests the importance of railroad shale oil transport is obvious. Every two hours, yet another train leaves North Dakota with about 71,000 barrels of oil for the refineries of the West and East. Out of a total annual production of about 365 million barrels about 80% are shipped by railroad for a revenue of $29.2 billion per year at the current price of about $100 per barrel. Each train carries about seven million dollars worth of oil. The shale revolution has not added safety problems to shale oil transportation by rail. The Street Journal in its’ article “As Fracking keeps Pumping, A Qatar grows on the Bayou” by Dennis K. Berman (May 28, 2014 pgs. B1 and B6) notes that SASOL will build a giant plant by Lake Charles in Louisiana at a cost of $21 billion for the production of ethylene for plastics, paints, and food packaging as well as high-quality diesel and other fuels using shale gas with its own problems of disposing massive water supplies needed for fracking and the environmental effects will include the emission of 85 times Louisiana’s threshold rate of benzene each year as well as produce massive streams of carbon dioxide and treated water. Such problems are bound to increase with the expected expansion of industrialization in the USA because of the low cost shale gas. The US Transportation Secretary has announced that new safety regulations may be published by the end of 2014. The debate had started.

Nuclear Power Safety

After the destruction of the Japanese cities of Hiroshima and Nagasaki by the first atomic bombs in 1945 with hundreds of thousands of casualties, attention focused on the use of nuclear power for electricity generation, which, according to Louis L. Strauss, the federal official promoting nuclear energy would be “too cheap to meter” (The New York Times, August 22, 2006, pgs C1 and C4). Nuclear power plants were built in the USA and several other countries but costs proved to be much higher than expected. More relevant for this article was the complete failure of the nuclear promoters to provide for the proper disposal of radioactive waste produced by nuclear reactors, which they knew could retain its destructive potential for thousands of years. For the United States efforts were made and billions of dollars spent to establish a national waste repository on the Yucca Mountain, Nevada at a potential cost of $60 billion, but the state did not agree and the hundred or so nuclear power plants now operating keep their waste on site. What appeared for a while to be a deathblow to nuclear electricity were the partial meltdown of a nuclear reactor in the Three Mile Island, Pennsylvania in 1979 and the destruction of a plant at Chernobyl, Ukraine (former Soviet Union) on April 26, 1986. According to a UN study the Chernobyl disaster would ultimately cause 4,000 deaths from diseases caused by direct exposure to radiation. Other estimates claimed up to 90,000 potential deaths. (The New York Times, April 26, 2006, pg. A8). Since then some countries, such as France, have concentrated on nuclear electricity for national demand and nuclear plants have been built in both the USA and several other countries. Other countries have closed their existing nuclear plants and prohibited the building of new ones. Perhaps two memories of the author from his experience with the energy secretariat of the United Nations in New York would illustrate the above points. The first memory is a month long attendance as an observer of a nuclear conference organized in Geneva after the Three Mile Island accident in the USA. The American representative in addressing the conference emphasized the safety of nuclear power. The following day newspaper headlines informed the world on inspectors visiting the computer control center of a nuclear power plant near Philadelphia and found all the working staff fast asleep! The second memory is of visiting Japan in the mid-1980’s as a guest of the Government for a week and instead of the expected behavior of a tourist I took it upon myself to visit with the Director of Planning of Tokyo Electric because I was concerned of their plans to build about 30 nuclear power plants despite the earthquake prone areas in most of the country. My concern was raised by a colleague of mine who was a seismologist who had visited the Philippines and found out that General Electric was planning to build a nuclear power plant at an earthquake prone area of that country. Both the government and the company dismissed his remarks. Unfortunately, I had the same experience in Japan. By 1990 nuclear power supplied 27.3% of Japan’s electricity, which increased to 34.3% in 2000 and was forecasted to reach 42% by 2010 (The Wall Street Journal, February 19, 2003 PG A12- “Will Tokyo’s Lights Go Out? Dispute Over Safety of Nuclear Plants Prompts Critical Closures.” By Todd Zaun). In 2012 it was claimed that Tokyo Electric Power Co. had falsified records on safety checks and the company had to shut down 13 of its 17 reactors for thorough inspections. Tokyo Electric denied such accusations, but could not convince inhabitants and politicians in affected areas. Japan went on to build 54 nuclear reactors by March 1, 2011, more than any other country except the USA and France. On that day an 8.9 earthquake triggered a seven meter tsunami, which knocked out the power and back-up generators of the 40-year old Fukushima nuclear plant, which caused the worst nuclear accident since Chernobyl in 1986. The most powerful earthquake caused 15,000-20,000 deaths and damages were estimated at $300 billion. Public authorities in Japan obliged the Government to close all nuclear power plants and the Japanese people still appear to be divided between supporters and opponents of going back to nuclear power dependence. Supporters claim that Japan needs to power its industries putting economic demands against safety concerns in the worlds most earthquake prone country. Yet many other countries have given up on nuclear power and prefer to depend on imported fossil fuels at great foreign exchange expense although they are not as rich as Japan. In affect they accept a lower standard of living but a safer life.

Fossil Fuels

            As shown in Tables 1 and 2-world consumption of primary energy continues to increase by about 3.0% per year and is dominated by the fossil fuels of oil, natural gas and coal. Despite substantial subsidies by governments especially in Europe, Japan, and the USA the contribution of renewables has reached only about 2% of world energy consumption and fossil fuels supply about 90%. Each of the fossil fuels has its own history of tragedies and substantial loss of lives at their various stages of exploration, mining, production, refining and transformation as well or in distribution and use. Coal mining in particular has had a disproportionate share because of the difficulty of underground mining and the explosive gases involved. Even the application of more safety procedures has not halted coal mine accidents in the USA and they are of course much more common in coal rich countries such as China and India. Oil has not been immune as demonstrated tragically by the destruction of a deep offshore well in the Gulf of Mexico drilling for BP in 2010, which caused 11 deaths and tens of billions of dollars in damages paid by the company. This so-called Deepwater Horizon explosion is regarded as the worst in USA oil history, but other accidents preceded in several places to the point that some have prohibited exploration and developments (eg. Florida) especially offshore because of fear of damages and effects on such other important income generating businesses as tourism.

Table 1: World Consumption of Primary Energy in Billion Barrels of Oil Equivalent

Year		% Change
2002	70.35
2003	72.81	3.50
2004	76.30	4.79
2005	78.49	5.73
2006	80.67	2.78
2007	82.74	2.57
2008	83.85	3.94
2009	82.90	-1.13
2010	87.55	5.61
2011	89.61	2.35
2012	91.45	2.05
2002-‘12	896.72	29.99

Source: Calculated from BP Statistical Review of World Energy, June 2013 pg. 40.

Table 2: World Energy Consumption By Fuel

Billion Barrels of Oil Equivalent

	2012	Percentage of Total
OIL	30.28	33.11
NATURAL GAS	21.90	23.95
COAL	27.34	29.90
NUCLEAR ENERGY	4.11	4.49
HYDRO-ELECTRICITY	6.09	6.66
RENEWABLES	1.74	1.90
TOTAL	91.45	100.00

Source: Calculated from BP Statistical Review of World Energy, June 2013 pg 41 The tendency to use low cost techniques in energy is very well illustrated in an excellent article (Cassandra Sweet, Gas Blasts Hook, Inevitable as Pipes Decay, Wall Street Journal, May 21, 2014 pg B9), which describes the construction of gas pipelines in the USA with cast-iron and wrought iron as early as the 1830’s. In 2011 the U.S Transportation Department issued a “Call for Action” urging companies to replace thousands of miles of discrepant iron pipes with steel or plastic because iron lines are four times as dangerous and criss-cross cities and towns, especially in Boston, Chicago, Louisville, and New York. However, it costs $1.4 million per mile to replace iron pipes. It would take roughly 60 years and $5.6 billion to carry such a job just in New Jersey where the Public Service and Electric Gas Co. owns 4,000 miles of iron pipe. It could be done faster if consumers could and would pay at higher rates.

Conclusions

All energy sources have safety and environmental problems, but economic development requires increases in energy consumption even though technological advances may lead to considerable improvements in efficiencies and less energy inputs per unit of economic output. The structure of any capitalist system calls for speedy action in the production of goods and services in order to survive and prosper in a competitive environment. Adverse environmental and safety issues are likely to be ignored or even suppressed unless appropriate authorities, either voluntary organizations or governments at the local, state and federal levels get involved. The process is tedious, controversial and often lengthy but absolutely necessary especially in the main sources of energy.

Authored by Charles Constantinou​

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