Collapse is underway……

5 06 2017

(By the Doomstead Diner)

Due to my High & Mighty position as a Global Collapse Pundit, I am often asked the question of when precisely will Collapse arrive?  The people who ask me this question all come from 1st World countries.  They are also all reasonably well off with a computer, an internet connection, running water and enough food to eat.  While a few of us are relatively poor retirees, even none of us wants for the basics as of yet.  The Diner doesn’t get many readers from the underclass even here in Amerika, much less from the Global Underclass in places like Nigeria, Somalia, Sudan and Yemen.

The fact is, that for more than half the world population, Collapse is in full swing and well underway.  Two key bellweathers of where collapse is now are the areas of Electricity and Food.

In his seminal 1996 Paper The Olduvai Theory: Sliding Towards a Post-Industrial Stone Age, Richard Duncan mapped out the trajectory of where we would be as the years passed and fossil fuels became more difficult and expensive to mine up.  Besides powering all our cars and trucks for Happy Motoring and Just-in-Time delivery, the main thing our 1st World lifestyle requires is Electricity, and lots of it on demand, 24/7.  Although electricity can be produced in some “renewable” ways that don’t depend on a lot of fossil fuel energy at least directly, most of the global supply of electric power comes from Coal and Natural Gas.  Of the two, NG (NatGas) is slightly cleaner, but either way when you burn them, CO2 goes up in the atmosphere.  This of course is a problem climatically, but you have an even bigger problem socially and politically if you aren’t burning them.  Everything in the society as it has been constructed since Edison invented the Light Bulb in 1879 has depended on electricity to function.

Now, if all the toys like lights, refrigerators big screen TVs etc had been kept to just a few small countries and the rest of the world lived a simple subsistence farming lifestyle, the lucky few with the toys probably could have kept the juice flowing a lot longer.  Unfortunately however, once exposed to all the great toys, EVERYBODY wanted them.  The industrialists also salivated over all the profit to be made selling the toys to everyone.  So, everybody everywhere needed a grid, which the industrialists and their associated banksters extended Credit for “backward” Nation-States all over the globe to build their own power plants and string their own wires.  Now everybody in the country could have a lightbulb to see by and a fridge to keep the food cold.  More than that, the electricity also went to power water pumping stations and sewage treatment plants, so you could pack the Big Shities with even more people who use still more electricity.

This went on all over the globe, today there isn’t a major city or even a medium size town anywhere on the globe that isn’t wired for electricity, although many places that are now no longer have enough money to keep the juice flowing.

Where is the electricity going off first?  Obviously, in the poorest and most war torn countries across the Middle East and Africa.  These days, from Egypt to Tunisia, if they get 2 hours of electricity a day they are doing good.

The Lights Are Going Out in the Middle East

Public fury over rampant outages has sparked protests. In January, in one of the largest demonstrations since Hamas took control in Gaza a decade ago, ten thousand Palestinians, angered by the lack of power during a frigid winter, hurled stones and set tires ablaze outside the electricity company. Iraq has the world’s fifth-largest oil reserves, but, during the past two years, repeated anti-government demonstrations have erupted over blackouts that are rarely announced in advance and are of indefinite duration. It’s one issue that unites fractious Sunnis in the west, Shiites in the arid south, and Kurds in the mountainous north. In the midst of Yemen’s complex war, hundreds dared to take to the streets of Aden in February to protest prolonged outages. In Syria, supporters of President Bashar al-Assad in Latakia, the dynasty’s main stronghold, who had remained loyal for six years of civil war, drew the line over electricity. They staged a protest in January over a cutback to only one hour of power a day.

Over the past eight months, I’ve been struck by people talking less about the prospects of peace, the dangers of ISIS, or President Trump’s intentions in the Middle East than their own exhaustion from the trials of daily life. Families recounted groggily getting up in the middle of the night when power abruptly comes on in order to do laundry, carry out business transactions on computers, charge phones, or just bathe and flush toilets, until electricity, just as unpredictably, goes off again. Some families have stopped taking elevators; their terrified children have been stuck too often between floors. Students complained of freezing classrooms in winter, trying to study or write papers without computers, and reading at night by candlelight. The challenges will soon increase with the demands for power—and air-conditioning—surge, as summer temperatures reach a hundred and twenty-five degrees.

The reasons for these outages vary. With the exception of the Gulf states, infrastructure is old or inadequate in many of the twenty-three Arab countries. The region’s disparate wars, past and present, have damaged or destroyed electrical grids. Some governments, even in Iraq, can’t afford the cost of fueling plants around the clock. Epic corruption has compounded physical challenges. Politicians have delayed or prevented solutions if their cronies don’t get contracts to fuel, maintain, or build power plants.

Now you’ll note that at the end of the third paragraph there, the journalist implies that a big part of the problem is “political corruption”, but it’s really not.  It’s simply a lack of money.  These countries at one time were all Oil Exporters, although not on the scale of Saudi Arabia or Kuwait.  As their own supplies of oil have depleted they have become oil importers, except they neither have a sufficient mercantilist model running to bring in enough FOREX to buy oil, and they can’t get credit from the international banking cartel to keep buying.  Third World countries are being cut off from the Credit Lifeline, unlike the core countries at the center of credit creation like Britain, Germany and the FSoA.  All these 1st World countries are in just as bad fiscal deficit as the MENA countries, the only difference is they still can get credit and run the deficits even higher.  This works until it doesn’t anymore.

Beyond the credit issue is the War problem.  As the countries run out of money, more people become unemployed, businesses go bankrupt, tax collection drops off the map and government employees are laid off too.  It’s the classic deflationary spiral which printing more money doesn’t solve, since the notes become increasingly worthless.  For them to be worth anything in FOREX, somebody has to buy their Government Bonds, and that is precisely what is not happening.  So as society becomes increasingly impoverished, it descends into internecine warfare between factions trying to hold on to or increase their share of the ever shrinking pie.

The warfare ongoing in these nations has knock on effects for the 1st World Nations still trying to extract energy from some of these places.  To keep the oil flowing outward, they have to run very expensive military operations to at least maintain enough order that oil pipelines aren’t sabotaged on a daily basis.  The cost of the operations keeps going up, but the amount of money they can charge the customers for the oil inside their own countries does not keep going up.  Right now they have hit a ceiling around $50/bbl for what they can charge for the oil, and for the most part this is not a profit making price.  So all the corporations involved in Extraction & Production these days are surviving on further extensions of credit from the TBTF banks.  This also is a paradigm that can’t last. The other major problem now surfacing is the Food Distribution problem, and again this is hitting the African countries first and hardest.  It’s a combination problem of climate change, population overshoot and the warfare which results from those issues.

Currently, the UN lists 4 countries in extreme danger of famine in the coming year, Nigeria, Sudan, Somalia and Yemen.  They estimate currently there are 20M people at extreme risk, and I would bet the numbers are a good deal higher than that.

World faces four famines as Trump administration [and Australia] plans to slash foreign aid budget

‘Biggest humanitarian crisis since World War II’ about to engulf 20 million people, UN says, as governments only donate 10 per cent of funds needed for essential aid.

The world is facing a humanitarian crisis bigger than any in living memory, the UN has said, as four countries teeter on the brink of famine.

Twenty million people are at risk of starvation and facing water shortages in Somalia, Nigeria and Yemen, while parts of South Sudan are already officially suffering from famine.

While the UN said in February that at least $4.4 billion (£3.5 bn) was needed by the end of March to avert a hunger catastrophe across the four nations, the end of the month is fast approaching, and only 10 per cent of the necessary funds have been received from donor governments so far.

It doesn’t look too promising that the UN will be able to raise the $4B they say is necessary to feed all those hungry mouths, and none of the 1st World countries is too predisposed to handing out food aid when they all currently have problems with their own social welfare programs for food distribution.  Here in the FSoA, there are currently around 45M people on SNAP Cards at a current cost around $71B.  The Repugnants will no doubt try to cut this number in order to better fund the Pentagon, but they are not likely to send more money to Somalia.

Far as compassion for all the starving people globally goes in the general population, this also appears to be decreasing, although I don’t have statistics to back that up. It is just a general sense I get as I read the collapse blogosphere, in the commentariats generally.  The general attitude is, “It’s their own fault for being so stupid and not using Birth Control.  If they were never born, they wouldn’t have to die of starvation.”  Since they are mostly Black Africans currently starving, this is another reason a large swath of the white population here doesn’t care much about the problem.

There are all sorts of social and economic reasons why this problem spiraled out of control, having mainly to do with the production of cheap food through Industrial Agriculture and Endless Greed centered on the idea of Endless Growth, which is not possible on a Finite Planet.

More places on Earth were wired up with each passing year, and more people were bred up with each passing year.  The dependency on fossil fuels to keep this supposedly endless cycle of growth going became ever greater each year, all while this resource was being depleted more each year.  Eventually, an inflection point had to be hit, and we have hit it.

The thing is, for the relatively comfortable readers of the Doomstead Diner in the 1st World BAU seems to be continuing onward, even if you are a bit poorer than you were last year. 24/7 electricity is still available from the grid with only occasional interruptions.  Gas is still available at the pump, and if you are employed you probably can afford to buy it, although you need to be more careful about how much you drive around unless you are a 1%er.  The Rich are still lining up to buy EVs from Elon Musk, even though having a grid to support all electric transportation is out of the question.  The current grid can’t be maintained, and upgrading to handle that much throughput would take much thicker cables all across the network.  People carry on though as though this will all go on forever and Scientists & Engineers will solve all the problems with some magical new device.  IOW, they believe in Skittle Shitting Unicorns.

That’s not going to happen, however, so you’re back to the question of how long will it take your neighborhood in the UK or Germany or the FSoA to look like say Egypt today?  Well, if you go back in time a decade to Egypt in 2007, things were still looking pretty Peachy over there, especially in Tourist Traps like Cairo.  Terrorism wasn’t too huge a problem and the government of Hosni Mubarak appeared stable.  A decade later today, Egypt is basically a failed state only doing marginally better than places like Somalia and Sudan.  The only reason they’re doing as well as they are is because they are in an important strategic location on the Suez Canal and as such get support from the FSoA military.

So a good WAG here for how long it will take for the Collapse Level in 1st World countries to reach the level Egypt is at today is about a decade.  It could be a little shorter, it could be longer.  By then of course, Egypt will be in even WORSE shape, and who might still be left alive in Somalia is an open question.  Highly unlikely to be very many people though.  Over the next decade, the famines will spread and people will die, in numbers far exceeding the 20M to occur over the next year.  After a while, it’s unlikely we will get much news about this, and people here won’t care much about what they do hear.  They will have their own problems.

The original article can be found at the Doomstead Diner here: Dimming Bulb 3: Collapse Has ARRIVED!


A very interesting article by the folks at Doomstead Diner.  While their forecast of collapse could be off a few years, it seems as if they are looking at the same time-frame the Hills Group and Louis Arnoux are projecting for the Thermodynamic oil collapse.

Lastly, people need to realize COLLAPSE does not take place in a day, week, month or year.  It takes place over a period of time.  The folks at Doomstead Diner are making the case that it has ARRIVED.  It is just taking time to reach the more affluent countries will good printing presses.

So… it is going to be interesting to see how things unfold over the next 5-10 years.





INDUSTRY IN A LOW ENERGY FUTURE: TURNING TO NETWORK THEORY FOR SOLUTIONS

15 03 2016

This is Simon Michaux’s follow up to his article on the Implications of Peak Energy

Simon Michaux

SIMON MICHAUX

Dr Simon Michaux has a Bach App Sc in Physics and Geology and a PhD in mining engineering. He has worked in the mining industry for 18 years in various capacities. He has worked in industry funded mining research, coal exploration and in the commercial sector in an engineering company as a consultant. Areas of technical interest have been: Geometallurgy; mineral processing in comminution, flotation and leaching; blasting; mining geology; geophysics; feasibility studies; mining investment; and industrial sustainability.

There is a macro-scale pattern unfolding under all of us. Every non-renewable natural resource we depend upon is now depleting to the point of peak extraction, or will soon. Industrial systems that are heavily dependent on energy reserves and metal resources are now at serious risk of collapse as production of those raw materials will soon not be able to meet demand, since easy to access reserves will be exhausted, leaving low-grade stocks that are expensive or technically challenging to extract. All living systems on the planet are under stress and are also heavily degrading. Natural systems of all kinds are being depleted in the name of economic development, and the planet’s climate is also undergoing change.

Our culture’s fundamental belief that there are no limits and growth is good, is related to the belief that all resources are infinite. Humans, like all animals on the planet, are biologically driven to consume and expand – it’s a built-in survival mechanism. Yet, as this is a finite planet and our exploitation of these natural resources is exponential in form, there will come a point where severe volatility and resource scarcity will become a reality.

Energy is the rate determining step, which facilitates the continued application of technology with economies of scale. As studies have shown, total world fossil fuel supply is close to peak, driven by peak of oil production. What’s more, putting all energy sources together gives a snapshot of our industrial capability and suggests that peak total energy is projected to be approximately in the year 2017.

energy sources

The industrial systems vital for our society to function are supported by each of these energy sources in quite different ways, and they are not interchangeable easily. A compelling case can be made that that our society and its industrial sector energy supply faces a fundamental problem, that is systemic in nature.

Our industrial requirements will have to be met with a fundamentally different approach to anything we have achieved before. We need to stop depending on non-renewable natural resources and stop the material requirements of the human societal footprint growing exponentially. Mining will continue but according to a radically different business model, and with a very different mandate.

NETWORK SYSTEMS THEORY

Network theory and systems thinking has some insights to what the required new system of industrialisation could look like. Our human society, its economic and social interactions could be modelled as a system, where each activity could be a connection, for example the transport of goods, or the consumption of electricity. Nodes are where many connections intersect. For example, most activities involve a finance transfer thus will engage the services of a bank. The bank is a node, where many connections are able to function through. Not all nodes are equal though in regard to the number of connections they facilitate. The node of a car manufacturing business, for instance, will have many fewer connections than, say, the European Union Bank.

Image: NASA / Flickr CC BY NC 2.0
Image: NASA / Flickr CC BY NC 2.0

If connections are broken due to circumstance (using a city example, heavy storms and flooding could temporarily interrupt power supply to an individual neighbourhood) then the network is smaller in size but it still functions (power is still being supplied to other parts of the power grid). But if that same storm causes the power station used for electricity generation (a node) to shut down, then every consumer attached to that power station will lose power. The whole grid will crash.

The complexity of a network is supported by and defined by the energy inputs that support it. Our current complex system is supported by cheap abundant high density energy – oil. Complex system networks are not made ‘in situ’, but are grown over time from simple system networks.

What does all this mean for the current industrial grid? Peak total energy means the node of energy supply is about to be disrupted. All links in the network system supported by energy will be logistically traumatized. As it stands, any replacement energy is less dense per unit volume than oil, and requires extensive infrastructure to be built. Think of the amount of energy invested in the creation of our current system over time – without plentiful, easy to access energy, the replacement network system will need to be less complex than the current one, once fully operational. It will also take time for the network to reach full complexity.

The old system cannot function because input energy is sourced from non-renewable natural resources, all of which are depleting or soon will. As energy is the master resource, it defines what happens with all other resource systems. Any replacement system that is a practical option will have to have certain signatures.

PROGNOSIS

Due to energy constraints, all industrial output would have to be sourced from a geographically local area. This would affect everything from raw material consumption, water consumption to waste disposal. Product delivery to market would also be changed. All of this would have to become as close to net zero footprint in terms of source material and waste disposal. Industrial output would have to be simpler. Technology cannot be as complex as it is now. This implies that manufacturing goods will require more effort on our part, which means that we would have to value ‘stuff’ differently. All waste products will also require greater effort to dispose of, meaning that if they could be recycled, reused or repurposed, there would be less strain on the system to function. Maintaining QA/QC material standards and equipment maintenance would all have to be done within a relatively local geographic region. These challenging statements represent practical limits of a low energy future. As this represents quite a paradigm shift from our current state of exponential consumption based on whim, the most difficult but significant task in front of us is a revolution in perception and a restructuring of governance.

Political systems like capitalism, socialism, communism, fascism, etc. are all built in the context of unlimited natural resources. Whatever the new system looks like, it won’t be anything like what has been seen before. We can call it what we like. Planning will have to be projected over 50 to 60 years into the future but be flexible to evolve organically to its environs. The current system is very centralised, whereas the new system would have to be very decentralised due to energy constraints. The flow of information will become very important.

The Great Acceleration indicators, published by IGBP in collaboration with the Stockholm Resilience Centre
The Great Acceleration indicators, published by IGBP in collaboration with the Stockholm Resilience Centre

From a civilisation network systems footprint viewpoint, we must ask ourselves how we can develop an economy that offers enough for everyone, forever. Real world systems and their inputs must reflect this, and the familiar exponential curves of today’s economy must move to flat line or sinusoidal wave functions. We also need to ask what profile human civilisation has amongst the natural environment. Dynamic natural systems must be able to operate unhindered, where natural capital and biodiversity is allowed to recover. The new economic framework must appreciate that inputs and outputs to all systems must be stable over time.

There are two related conceptual ideas which could be a starting point to help us develop the above requirements: the circular economy and the steady state economy. In a future in which peak energy has dramatically changed the rules of the game, these concepts are required to maintain our industrial capacity. It is not a question of choice, as our natural resources are being depleted at an exponential rate. The timing is now. The next 100 years will be very different to the last 100 years.





What is a Scientific Theory?

29 07 2013

A scientific theory summarises a hypothesis or group of hypotheses that have been supported after repeated testing.  If sufficient evidence amasses to support a hypothesis, it shifts to the next step – known as a theory – in the scientific method and becomes accepted as a valid explanation of a phenomenon.

scientific theory

Used in non-scientific context, the word “theory” to most people implies that something is “unproven or speculative”.  As used in science, however, a theory is an explanation or model based on observation, experimentation, and reasoning; especially one that has been tested and/or confirmed as a “general principle” helping to explain and predict natural phenomena.

Any scientific theory must be based on a careful and rational examination of the facts….. In “the scientific method”, there is an unambiguous distinction between facts, which can be observed and/or measured, and theories, which are scientists’ explanations and interpretations of the facts.  NOTE: interpretations are NOT beliefs…..  Scientists can have various interpretations of the outcomes of experiments and observations, but the facts, which are the cornerstone of the scientific method, do not change.

A theory must include statements that have observational consequences.  A good theory, like Newton’s theory of gravity, has unity, which means it consists of a limited number of problem-solving strategies that can be applied to a wide range of scientific circumstances.  Another feature of a good theory is that it is formed from a number of hypotheses that can be tested independently.

A scientific theory is not the end result of the scientific method; theories can be proven or rejected, just like hypotheses.  Theories can be improved or modified, constantly, as and when more information or data is gathered so that the accuracy of the prediction becomes greater over time……  theories are rarely if ever “settled”.

Theories are foundations for furthering scientific knowledge and for putting the information gathered to practical use.  Scientists use theories to develop inventions or find a cure for a disease, even though they may not be ‘proven’…..

Some theories do become laws, but theories and laws have separate and distinct roles in the scientific method. A theory is an explanation of an observed phenomenon, while a law is a description of an observed phenomenon.