Decline curves + global population growth: energy demand will outpace supply through 2040 (and beyond)

So far in 2017 a number of global energy experts and commodities watchers have looked beyond the current reporting period and they see a growing long term demand for oil and gas.

The World's Coming Mega-Population Centers and the Energy They Will Need

Chevron CEO John Watson. Photo: Business Roundtable

Chevron CEO John Watson on Monday warned that U.S. shale oil alone cannot meet the world’s growing appetite for crude oil, CNBC reported this week.

“Shale can help. Certainly between now and the end of the decade it will be a big contributor to meeting that million-barrels-of-oil-demand growth that’s out there,” Watson told CNBC’s “Power Lunch” on the sidelines of the Milken Global Conference in Los Angeles.

“But ultimately oil fields decline, and we’re going to need all sources of supply, including the shales, but also deepwater and other sources around the world,” Watson told CNBC.

Watson’s comments mirror the oil market outlook put forth in January 2017 by Jeff Currie, Global Head of Commodities Research, Goldman Sachs. Currie said his group believes U.S. shale has ushered in a new era of price volatility but that the overall demand-supply fundamentals call for a bullish outlook for oil. “It’s that scarcity premium that’s driving our positive outlook on oil and commodities, not higher prices,” Currie said.

More people: big cities are going to become much bigger ‘megacities’

ExxonMobil’s EnergyFactor blog this week pointed out some facts about the world’s population that could make you wonder if there is going to be enough oil or natural gas in the world’s formations to handle the vast energy needs lurking just over the horizon—especially for the 37 largest “megacities” outlined in a new report from Demographia. The megacities are topped right now by Japan’s Tokyo-Yokohama and that megacity’s almost 38 million people. That’s three million more people than live in the entire country of Canada, all living in one geographic metroplex.

“Twenty-five years ago there were only 10 urban areas in the world that could boast more than 10 million inhabitants. Now there are more than 35 so-called “megacities” worldwide, and by 2040 the United Nations estimates that nearly 65 percent of the world’s population will call cities home,” Exxon reported.

The World's Coming Mega-Population Centers and the Energy They Will Need

Source: Geographia

According to Demographia’s latest World Urban Areas 13th Annual Edition, 37 urban areas provide habitat for at least 10 million people in 2016. The largest 12 metropolitan areas are home to almost 300 million people in those 12 cities alone. And they’re going to get bigger according to the report.

Exxon forecasts energy demand rising 25% by 2040, but governments look toward economy

Referencing its Outlook for Energy, Exxon predicts global energy demand will increase by 25% over the same period. But if up to 65% of the globe’s human population is living in cities by 2040, there should be screaming demand growth for electricity and transportation fuels of all kinds.

In its energy blog Exxon looks at five of the smaller metropolises–12 million down to 7.5 million–where it says governments are stepping in to change the energy mix. “Increasing urbanization means governments are already changing their energy footprints.” Here’s how:

  •  Shenzhen, China (12 million people):  installing efficient technologies in office buildings

According to Exxon, “Shenzhen was little more than a sleepy fishing village bordering Hong Kong when the Chinese government made it one of the country’s first Special Economic Zones in 1979. The move unlocked foreign investment, and the population skyrocketed to over 12 million. Today Shenzhen’s factories produce 90 percent of the world’s electronics, including Apple’s iPhone. All of these factories consume a lot of energy, but the local government is working with various private companies to install efficient technologies in office buildings. One of the best contemporary examples are the offices of the appropriately named Shenzhen Institute of Building Research, where natural ventilation uses 30 percent less air conditioning than a comparable building in the city, and daylight for office spaces reduces the need for artificial lighting. Moreover, the city has a program that allows building owners to use the cost savings from reduced energy consumption to pay for efficiency upgrades.

  • Tianjin, China (11 million people): green building codes target energy efficiency

According to Exxon, “Tianjin, a walled city founded in the 15th century, has a population of 11 million. In 2005 the local government began enforcing tough new energy-efficiency building codes that include increasing heat retention in buildings during the city’s chilly winters and natural shading for Tianjin’s hot summers. According to the Energy Foundation of China, by 2020 over 75 percent of new buildings will meet energy-efficiency standards. By 2030 the local government expects over 90 percent of new buildings to be “green buildings.” Even residents of older buildings are benefitting from requirements to upgrade their insulation or heating systems. The Tianjin Housing and Urban-Rural Development Commission estimates that 60 percent of residents in an energy-efficiency pilot program paid less in heating costs than they did before the building codes went into effect.”

  • Hyderabad, India (10 million people): energy-saving building codes, solar incentives to stop outages

According to Exxon, “By 2020 Hyderabad will have 10 million inhabitants, up almost 2.5 million from its current population. This rapid growth comes with its share of challenges, including regular power outages that threaten the city’s growing IT industry. To solve their energy problems, city leaders adopted an energy-saving building code in 2012. In addition, incentives for installing rooftop solar panels adopted in 2015 cut through what was previously a stifling bureaucratic process, guaranteeing that applications for rooftop solar panels are processed in weeks.”

  •  Bangalore, India (10 million people): government may make rooftop solar mandatory

According to Exxon, “With a thriving tech scene, Bangalore is one of the world’s fastest-growing cities. However, the city’s infrastructure is struggling to keep up with its burgeoning population, resulting in an average of over 50 power outages a day. Many in Bangalore use diesel generators as backup, but India’s Centre for Science and Environment (CSE) believes that making rooftop solar panels mandatory could help curb the use of the generators, providing another source of household electricity and improving air quality.”

  •  Onitsha, Nigeria (7.5 million people): switching to energy-efficient household appliances

According to Exxon, “Few people outside of West Africa have heard of Onitsha, but the port city on the banks of the Niger River boasts a population of almost 7.5 million. Residents of this rapidly expanding city use a mix of oil, natural gas, solar, wind power and biomass to deliver energy. Onitsha is less developed than similarly sized cities in China and India, but the city’s rising middle class is hungry to make the switch to modern, energy-efficient household appliances, a change that USAID and the Nigerian Energy Support Program estimate could reduce energy consumption by as much as 40 percent.”

Energy demand will rise by 30%: IEA

The World's Coming Mega-Population Centers and the Energy They Will Need

High energy demand. Photo: Wikimedia

In its World Energy Outlook 2016, the International Energy Agency (IEA) tops Exxon’s 25% demand increase, predicting instead a 30% rise in global energy demand by 2040.

The International Energy Agency said that a 30% rise in global energy demand means an increase in consumption for all modern fuels, but “the global aggregates mask a multitude of diverse trends and significant switching between fuels.”

For 2016, the IEA’s Oil Market Report forecasts worldwide average demand of nearly 96 million barrels of oil and liquid fuels per day. But the agency says much higher consumption is on the horizon.

Natural gas sees higher consumption, oil tops 103 MMBOPD, coal grinds to a halt: IEA

  • Natural gas fares best among the fossil fuels, with consumption rising by 50%.
  • Growth in oil demand slows over the projection period, but tops 103 MMBOPD by 2040.
  • Coal use is hit hard by environmental concerns and, after the rapid expansion of recent years, growth essentially grinds to a halt.
  • An increase in nuclear output is spurred mainly by deployment in China.

In developed countries’ energy demand is falling; but Asia’s developing countries will consume more oil than the entire OECD: IEA

With total demand in OECD countries on a declining path, the geography of global energy consumption continues to shift towards industrializing, urbanizing India, Southeast Asia and China, as well as parts of Africa, Latin America and the Middle East, according to the agency.

China and India see the largest expansion of solar photovoltaics (PV); while by the mid-2030s developing countries in Asia consume more oil than the entire OECD.

Even in its +30% scenario, hundreds of millions lack basic energy services by 2040: IEA

The agency believes “hundreds of millions of people are still left in 2040 without basic energy services… large swathes of the global population are set to remain without modern energy,” according to the IEA projection. That would lead to the need for further infrastructure build-out along with a lot more fuel to meet demand in developing countries after 2040.

“More than half a billion people, increasingly concentrated in rural areas of subSaharan Africa, are still without access to electricity in 2040 (down from 1.2 billion today). Around 1.8 billion remain reliant on solid biomass as a cooking fuel (down by a third on today’s 2.7 billion); this means continued exposure to the smoky indoor environments that are currently linked to 3.5 million premature deaths each year,” the IEA reports.

$44 trillion needed to fill the world’s coming energy needs: IEA

According to the IEA, the world needs $44 trillion in investment in global energy supply to fill the coming energy needs. Here is how the agency breaks it out:

  • 60% — $26 trillion – goes to oil, gas and coal extraction and supply, including power plants using these fuels;
  • 20% — $8.8 trillion – goes to renewable energies.

In addition to that investment, the agency calls for an extra $23 trillion for improvements in energy efficiency.

In 2000- 2015, close to 70% of total supply investment went to fossil fuels. The IEA projection through 2040 drops fossil fuels to 60% and “represents a significant reallocation of capital, especially given the expectation of continued cost declines for key renewable energy technologies,” the IEA says.

Tightening global hydrocarbons supply: decline curves don’t go away

The main stimulus for upstream oil and gas investment is the decline in production from existing fields, the IEA says, confirming the sentiment frequently expressed by oil and gas company CEOs, including David Demshur, CEO of global reservoir production enhancement technology leader Core Laboratories (ticker: CLB).

The World's Coming Mega-Population Centers and the Energy They Will Need

Core Lab CEO David Demshur discusses decline curves at EnerCom Dallas. Photo: Oil & Gas 360

During a Core Lab earnings call last summer, Demshur made some predictions based on his company’s eight decades of studying global oil reservoirs. “Core believes that worldwide crude oil supply and demand markets are close to balancing and will balance this second half of 2016. On the crude oil supply side, U.S. unconventional production peaked at 5.5 million barrels of oil per day in March of 2015, and has since fallen by over a million barrels a day owing to high decline curve rates associated with these tight oil reservoirs.

“Offsetting these sharp production declines have been additions of approximately 160,000 barrels a day from several deep water Gulf of Mexico legacy projects that were commissioned several years ago and started to bear fruit in late 2015/2016. These additions in no way will offset what’s coming from the deductions that will occur on land throughout this year and into 2017.

“The sharp declines from U.S. land production are continuing in 2016, and Core believes these decreases could reach 1.1 million barrels of oil per day or more by year end. Lower levels of new wells and delayed production maintenance will exacerbate the fall in U.S. land production going into 2016/2017. Remember, production decline curves are linear in time but logarithmic in production declines.

“A year ago, month-over-month, the U.S. production declines were in the tens of thousands of barrels per day, per month. Now these month-over-month per day losses quite often reach 100,000 barrels of oil per day or more. So look for that to expand and continue to expand into late 2016 and into 2017. From these analyses, we would take the over on the drop of 1.1 million barrels per day by year-end,” Core said on the call last July.

The IEA believes the decline in global oil production through natural decline curves is “equivalent to losing the current output of Iraq from the global balance every two years.”

The projected growth of global population and the demand for energy from the industrializing countries and their megacities, along with the oil and gas decline curves, the world could be looking at a decades-long growth cycle for E&P.

The World's Coming Mega-Population Centers and the Energy They Will Need

Global Head of Commodities Research Jeff Currie, Goldman Sachs

“When commodity demand is above commodity supply, deficits result, inventories are drawn down and scarcity premiums begin to arise—and that’s what’s driving our bullish expectations,” Goldman’s Global Head of Commodities Research Jeff Currie said.


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