More Reasons Why We are Reaching Limits to Growth

Posted on January 25, 2012 by

In a recent post, I talked about why we may be reaching Limits to Growth of the type foretold in the 1972 book Limits to Growth. I would like to explain some additional reasons now.

Figure 1. Base scenario from 1972 Limits to Growth, printed using today's graphics by Charles Hall and John Day in "Revisiting Limits to Growth After Peak Oil" http://www.esf.edu/efb/hall/2009-05Hall0327.pdf

In my earlier post, I talked about how rising oil prices are associated with rising food prices, and how these high prices can make it harder for borrowers to repay their loans, as is now happening in Europe. These same problems can lead to a contraction of credit availability. A contraction in credit availability can be doubly problematic: it can lead to a cutback in demand because buyers cannot afford goods using oil, such as new cars, and it can lead to a drop in financing for industrial uses, including expanded oil drilling. All of these issues may lead to contraction of the type expected in Limits to Growth. US governmental debt limit problems and European debt defaults are also outcomes of the type expected with rising oil prices.

In this post, I would like to discuss some other basic issues that seem to be associated with Limits to Growth, and that may eventually lead to an abrupt downturn or collapse.

Limits to Growth: More Basic Issues

1. The over-use of resources by humans seems to be of very-long standing origin, dating to the time-period 100,000 BC when there were fewer than 100,000 people on earth. Capitalism today is an extension of this long-term pattern.

2. World systems often seem to work as a gradual build-up of forces followed by a cataclysmic release. Examples include earthquakes and hurricanes. Even getting hungry, and then eating, follows this pattern. A similar pattern may happen with the Limits to Growth that we seem to be reaching.

3. The extent to which humans can gather resources for their own use depends on their geographical reach. As hunter-gatherers, our reach was quite limited. This reach has gradually grown through inventions such as ships, through the settling of new lands and colonialism, and most recently through international globalization. Globalization is necessarily the end of this growth.

4. Globalization sows the seeds of its own demise because factory workers are effectively forced to compete for wages with workers from around the world. Workers in the Global South can get along with lower wages for a number of reasons, including the fact that they tend to live in warmer areas, so do not need to build as sturdy homes and have less need to heat them. With fewer jobs and less investment in the Global North, demand falls and debt defaults become more of a problem.

5. In the normal scheme of things, world systems would rest and regroup once resources reach some sort of crisis point, defined by Liebig’s Law of the Minimum. Soils would build up again; aquifers would refresh; climate would reach a new equilibrium; and a different group of plants and animals would become dominant. Oil and gas supplies might even be rebuilt, over millions of years. It is not clear that humans will be part of the new world order, however.

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Where do continued high oil prices lead us?

Posted on January 18, 2012 by

We know high oil prices have an adverse impact on the economy, often leading to recession. According to Economist James Hamilton, 10 out of 11 of US recessions since World War II have been associated with oil price spikes. But where do continuing high oil prices lead us? How will economic contraction “play out,” if tight oil supply and high oil prices continue?

Figure 1. Structure built with blocks. (Barkless tree blocks from www.childmode.com) Our economy is also built piece by piece, based on the rules and prices that are in effect when individual decisions are made.

Clearly there are many possible ways forward. Using Figure 1 as an analogy, there is the theoretical possibility of continuing to build our economy to ever-higher heights, as we are told by economists and politicians, despite the obstacle of high oil prices. There is the possibility of taking down parts of the economy, and rebuilding in a more fuel-efficient manner. There is also the theoretical possibility of eliminating unneeded parts of the economic structure we have built to date, so that the structure is more compact. And, unfortunately, there is also the possibility that a major portion of what we have built to date will inadvertently be knocked down, as constricted oil supply makes its effects known.

Before discussing what paths may lie ahead, I would like to talk about how contraction of an economy differs from continued expansion. Continue reading

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The Faustian Bargain that Modern Economists Never Mention

Posted on January 9, 2012 by

This is a guest post by Dr. Gary Peters. He is a retired geography professor.

Historically people have shifted their belief systems in various ways. The Greeks and Romans believed in numerous gods and goddesses and attributed all kinds of powers to them. Then the great monotheistic religions came along and people began to believe in just one god, though they honored him under different names.

Recently, beliefs have shifted again, with people worshipping just one part of a god, the invisible hand. Thanks to Adam Smith and those who followed him, especially the current neoclassical economic theologians, we have seen such an increase in the world’s wealth and sheer numbers that it is hard to imagine life before the industrial revolution, with its shift from mostly human and animal muscle power to the energy dense fossil fuels—coal, oil, and natural gas. It is also hard to imagine that humanity could someday slide back into another age of scarcer and more expensive energy, but that is a possibility that cannot be excluded from our thinking.

The Faustian Bargain

What about the Faustian bargain? It remains deeply hidden from view because its exposure by the high priests of modern economics would force us to rethink how we live and why we live this way, as well as what we’re planning to leave for future generations. The Faustian bargain goes something like this: Thanks to the discovery and exploitation of fossil fuels, humans (really just a small minority of them) are able to live richer lives today than even the queens and kings of yore could have dreamed of.

Furthermore, we’ve used some of those finite resources to increase food supplies and to expand the human population, which provides the economic system with both more workers and more consumers, a necessity to keep the economy growing under our current economic model. The world’s population increased from 1.6 billion in 1900 to 7 billion today, and we add about 80 million more each year. Humans have quickly become the most numerous megafauna on the planet.

The other side of the bargain, the side hidden from view and never mentioned in economics texts is this: At some undetermined time in the future, one that creeps ever closer, this economic system, fed by energy and other resources at ever increasing rates at one end and spewing out waste products at rates that cannot be absorbed by Earth’s ecosystems at the other, is unsustainable. What that means is simple enough: Industrial society as we know it cannot go on as it has forever—not even close.

Our economic system must exist within Earth’s finite limits, so recent and current generations have sold their soul to the devil for temporary riches, leaving the Devil to collect his due when the system falls apart under its own weight and the four horsemen of the apocalypse ride again across the world’s landscapes. None of this will happen tomorrow or this week or this year, but our economic system is faltering at both ends.

For many, if not most, of the world’s population life may become more difficult, incomes lower, and uncertainty greater. It does not mean the end of the world, as some predict for 2012, but it will mean that future generations probably will not live like current ones. Rather than admit that the current system cannot be sustained, the affluent and powerful will do everything possible to maintain the status quo. Continue reading

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Obstacles Facing US Wind Energy

Posted on January 4, 2012 by

In the United States, we have been working on scaling up wind energy but not getting very far. In 2010, wind energy supplied only 2.3% of electricity purchased.

Wind energy

Figure 1. Wind energy (dark green) is barely visible in a graph of US energy consumption by source. Based on EIA data.

Such slow progress seems strange for a product that seems to have such great promise. It can reduce CO2 emissions. It doesn’t require fuel. It is at least partly US made. It seems to have promise for protecting against rising fossil fuel prices.

In this post, I discuss a few of the obstacles facing wind energy in the United States and their implications for the expansion of wind energy.  Continue reading

Posted in Alternatives to Oil | Tagged , , | 81 Comments

Can we invest our way out of an energy shortfall?

Posted on December 19, 2011 by

The world has many ideas for solving our energy shortfall, but they all seem to involve investment:

  • Drill for more oil and gas;
  • Develop alternative energy sources;
  • Build more efficient gas-powered cars or electric cars;
  • Fix homes and offices so they are more energy efficient.

I thought I would check through government data to see if we really have a chance of being able to invest enough money to solve our problems.

What I found was more than a little disturbing. United States’ “Net Savings,” as a percentage of Gross National Income has dropped greatly and is now below zero. This is a situation one website described as implying an “unsustainable path”.

Figure 1. US Net Savings as a Percentage of Gross National Income, based on Bureau of Economic Analysis Data (Table 5.1)

Back in the 1950s and 1960s, when the Interstate Expressway System was built and the electric grid that we are still using today was built, Net Savings averaged close to 10% of Gross National Income. It has dropped since then, and is now negative.

Let me explain “Net Savings” by showing a second graph.

Continue reading

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OPEC says, ‘Don’t Count on Us’ for More Oil Supply

Posted on December 14, 2011 by

The results of OPEC’s latest meeting to set oil production quotas were announced this morning. Instead of production targets for individual countries, a group production ceiling of 30 million barrels a day was set. This amount is a bit less than OPEC produced in November 2011 (actual 30.367 mbd), according to its reckoning, and less than it would have produced most of 2011, if Libyan production had stayed on line, based on the amounts shown in its November Oil Market Report.

A recent history of oil production from the November Oil Market Report, both for OPEC and in total, is shown in Figure 1.

Figure 1. Recent oil production for World and for OPEC, according to OPEC November Oil Market Report.

According to a Platts report of the meeting, Venezuelan Oil Minister Rafael Ramirez told reporters, “We are going to reduce the level of production of each country to make space for Libya.” That is not what people want to hear–Brent oil price is still over $100 barrel, even with what seems to be record production for both the world and OPEC, based on Figure 1.

The same Platts report also says, “OPEC on Tuesday said it expected demand for OPEC crude next year to average 30.09 million b/d.” Thus, the new production cap is slightly less than what OPEC sees as demand going forward.

It should be noted that the new limit includes Iraq in addition to the “regular” OPEC countries. Thus, the agreement says that if Iraq increases its production, other OPEC countries will reduce their production to keep total production to 30 million barrels a day.  Continue reading

Posted in News Related Post, Oil and Its Future | Tagged , , | 26 Comments

Saudi Arabia – Headed for a Downfall?

Posted on December 5, 2011 by

Saudi Arabia recently announced that it had halted a $100 billion oil production expansion plan to raise capacity to 15 million barrels a day by 2020. At this point, the country claims to have capacity of 12 million barrels a day. What does this mean for its future? Let’s take a look behind the figures.

Figure 1. Saudi Arabian oil production and exports, from Energy Export Data Browser. Note that oil production is in grey, oil exports are in green, and the black line represents consumption.

The figure shows that Saudi Arabia has not been increasing its production for many years. At the same time, the country’s own oil consumption has been rising rapidly. The combination means that oil exports have already started declining. Continue reading

Posted in Financial Implications, Oil and Its Future | Tagged , | 30 Comments

Thoughts on why energy use and CO2 emissions are rising as fast as GDP

Posted on November 30, 2011 by

In a recent post, I discovered something rather alarming–the fact that in the last decade (2000 to 2010) both world energy consumption and the CO2 emissions from this energy consumption were rising as fast as GDP for the world as a whole. This relationship is especially strange, because prior to 2000, it appeared as though decoupling was taking place: GDP was growing more rapidly than energy use and CO2 emissions. And even after 2000, many countries continued to report decoupling.

I decided to sift through individual country results, to see if I could see a pattern emerging behind these changing results. When I did this, I found three major groupings of countries:

1. Southeast Asia, excluding Japan, Australia, and New Zealand. This group has been rapidly industrializing. In total, the group’s energy consumption has grown as rapidly as GDP in the last decade, and CO2 emissions have grown faster than GDP. This group includes China, India, Korea, Viet Nam, and a long list of other countries in Southeast Asia, including nearby islands.

2. Middle Eastern Countries. This group showed energy use growing more rapidly than GDP,  suggesting that it was taking more energy to extract oil and to pacify its population, over time. I included all countries in this group that BP includes in its Middle Eastern grouping, even though Israel (and perhaps some other countries) do not fit the pattern well.

3. Rest of the World. This group is the only group showing a favorable trend in energy growth relative to GDP growth, even in the last decade, although the pace of improvement has slowed. Two reasons for this favorable trend seem to be (a) continued growth of services, such as financial service, healthcare, and education, which use relatively little energy and (b) outsourcing of a major portion of heavy industry to Southeast Asia.

When we look at CO2 emissions broken out into these three categories, the shift over time is quite surprising:

Figure 1. Carbon dioxide emissions emitted in year shown by the three major areas described (Southeast Asia, Middle East, Remainder), based on BP Statistical Data

The vast majority of the CO2 increase since 1980 has taken place in the Southeast Asia and the Middle Eastern areas!

The energy intensity of GDP (that is, the amount of energy consumed per trillion dollars of real GDP) has shown very different patterns for the three groups of countries:

Figure 2. Energy Intensity of GDP by Area, based on BP Statistical Data regarding Energy Consumption in Barrels of Oil Equivalent, and USDA Economic Research Data regarding real GDP.

The World energy intensity of GDP has flattened in the last decade, reflecting a combination of the impacts of the three areas. The only area that has an improving energy intensity of GDP is the Remainder group. The Southeast Asia group is roughly flat. The Middle Eastern group is shows increasing energy use, relative to GDP growth.

Based on data in this post, I come to the following tentative conclusions:

1. The industrialization of Southeast Asia has allowed importers from around the world to reduce their energy intensity of GDP, but much of the savings has been offset by greater energy use (largely coal) in Southeast Asia. On a CO2 basis, we are likely  worse off, because of this transfer.

2. There is no evidence that the Kyoto Protocol reduced worldwide CO2 emissions. In fact, to the extent that it encouraged outsourcing of industrial production to the Far East and made goods from the Far East more competitive, it may have contributed to rising world CO2 emissions. It would appear that a different approach is needed that recognizes the fact that fuels are part of a world market. Fuel savings in one part of the world are not necessarily helpful for the world as a whole.

3. In my view, world industrial production has self-organized in a way that assigns different roles to companies operating in the three country groups I described above, as a way to minimize manufacturing costs. Over the long term, this particular version of self-organization cannot continue. The Middle East will reach a point where its oil exports drop rapidly. Southeast Asia will reach maximums on coal production/imports and on pollution levels. The “Remainder” is already reaching limits in competing with Southeast Asia. Unemployment rates are high, manufacturing wages are low, and many workers lack the  income needed to purchase additional services which might “grow” GDP. Continue reading

Posted in Energy policy | Tagged , , | 50 Comments

Pipeline changes to fix WTI/Brent spread are likely to add new problems

Posted on November 21, 2011 by

For many years, Brent oil (a European grade) and West Texas Intermediate (WTI) oil, a US grade, sold at close to the same price. Starting in January 2011, WTI price dropped below Brent, at times by more than 20%.

When the price of WTI dropped, the prices of quite a few other grades of oil (especially in the Midwest, but perhaps elsewhere) were affected as well. To get an idea of how much the overall impact was, I compared the price refiners pay for oil to that of Brent and WTI (Figure 1).

Figure 1. Average refiners acquisition cost, Brent oil price, and WTI oil price, based on EIA data.

I found that the drop in the prices refiners pay for crude oil prices is much more akin to the drop a person would expect if 40% of crude were affected, than the small drop one would expect if only WTI itself were affected. The price change during 2011 did not seem to be due to changes in average viscosity or in sulfur content either.

Some of the types of crude that have been hit by lower prices are those from the Alberta. Recently, there have been proposals by Canadian companies to try to fix the problem. Enbridge announced that it is buying a 50% stake in the Seaway pipeline, and will reverse its direction, so that it will carry crude oil southward, from Cushing to the Gulf, instead of northward, as soon as the second quarter of 2012. In addition, TransCanada has announced the it wants to build the segment of the Keystone XL pipeline from Cushing to the Gulf, possibly starting as soon as January 2012.

The question now is what impact the proposed pipelines will have. Will they even out the Brent/WTI price disparity, and, at the same time, cause the prices of other crudes, such as Canadian and Bakken crudes, to rise as well? Or will the pipeline adjustments fix only part of the problem, and add new problems at the same time? In my view, the latter seems more likely, for reasons I discuss in this post.

For those who are interested, I wrote a post in February giving more background, which can be found here.
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Is it really possible to decouple GDP Growth from Energy Growth?

Posted on November 15, 2011 by

In recent years, we have heard statements indicating that it is possible to decouple GDP growth from energy growth. I have been looking at the relationship between world GDP and world energy use and am becoming increasingly skeptical that such a decoupling is really possible.

Figure 1. Growth in world energy consumption (based on BP data) and growth in world real GDP

Prior to 2000, world real GDP (based on USDA Economic Research Institute data) was indeed growing faster than energy use, as measured by BP Statistical Data. Between 1980 and 2000, world real GDP growth averaged a little under 3% per year, and world energy growth averaged a little under 2% per year,  so GDP growth increased about 1% more per year than energy use. Since 2000, energy use has grown approximately as fast as world real GDP–increases for both have averaged about 2.5% per year growth. This is not what we have been told to expect.

Why should this “efficiency gain” go away after 2000? Many economists are concerned about energy intensity of GDP and like to publicize the fact that for their country, GDP is rising faster than energy consumption. These indications can be deceiving, however. It is easy to reduce the energy intensity of GDP for an individual country by moving the more energy-intensive manufacturing to a country with higher energy intensity of GDP.

What happens when this shell game is over? In total, is the growth in world GDP any less energy intense? The answer since 2000 seems to be “No”.

It seems to me that at least part of the issue is declining energy return on energy invested (EROI)–we are using an increasing share of energy consumption just to extract and process the energy we use–for example, in “fracking” and in deep water drilling. This higher energy cost is acting to offset efficiency gains. But there are other issues as well, which I will discuss in this post.

If GDP growth and energy use are closely tied, it will be even more difficult to meet CO2 emission goals than most have expected. Without huge efficiency savings, a reduction in emissions (say, 80% by 2050) is likely to require a similar percentage reduction in world GDP. Because of the huge disparity in real GDP between the developed nations and the developing nations, the majority of this GDP reduction would likely need to come from developed nations. It is difficult to see this happening without economic collapse.

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