World's Largest Private Coal Company Files For Bankruptcy

An anonymous reader writes: Peabody Energy Corp filed for U.S. bankruptcy protection on Wednesday after a sharp drop in coal prices left it unable to service debt of $10.1 billion, much of it incurred for an expansion into Australia. As demand for metallurgical coal fell, particularly in China, Peabody's financial woes intensified. The company took a $700 million write-down on its Australian metallurgical coal assets last year. At home, the U.S. shale boom of the past few years made natural gas competitive with thermal coal, and the Obama administration's environmental regulations raised operational costs. Mr. Peabody's coal train might not be hauling away any more of paradise. Peabody, the world's biggest private-sector coal producer, said it expected its mines to continue to operate as usual and said its Australian assets were excluded from the bankruptcy. "This process enables us to strengthen liquidity and reduce debt, build upon the significant operational achievements we've made in recent years and lay the foundation for long-term stability and success in the future," Peabody Chief Executive Officer Glenn Kellow said in a statement.

Yes, but will it be chap 11?

[WindBourne]

Most of these are going in as chap 11. IOW, they are simply dropping their debt and then being allowed to go back to mining coal. Yet, the real issue is that the coal burning plants are closing left, right, and sideways. Last year, Coal accounted for around 30% of America's electricity. And at this rate of dropping, coal will account for about 15-20% in another 2 years (they expect about 1/2 of the plants to close over the next 2 years).

So, unless these companies are jumping on other mining ventures, OR they are developing uses for coal, then these will be bankrupt in another 3-5 years. So, society is being stuck with these loses over and over.

Re:Yes, but will it be chap 11?

[Stephan+Schulz]

We can use the Fischer-Tropsch process to convert the coal to more usable forms. We aren't going to just let all those delicious hydrocarbons go to waste.

The Fischer-Tropsch process can turn coal into liquid hydrocarbons, but it is not energy efficient. Its feedstocks are hydrogen (currently mostly produced at a loss from methane, i.e. natural gas) and carbon monoxide (produced from the coal). If you have the Hydrogen, you can just use it directly, e.g. in a fuel cell, and burn the coal for electricity or heat. The Fischer-Tropsch process is only interesting if you need liquid fuels, say for operating tanks or aircraft, and don't have more efficient sources.

Re:Yes, but will it be chap 11?

[rtb61]

This story is nothing to do with energy or coal but all about fiscal shenanigans. Track the debt and all other fiscal manipulations and you will likely see the big banks fingerprints all over this either directly or indirectly. Run up debts, pay to much for capital assets, dress it all up and the sell it to pension funds et al and the bet the whole thing will collapse and then buy back those capital assets at a discount, then sell them again at a high price and repeat. You will see this happen again and again and again. The electric car is taking over and fossil fuels days are numbered.

Re:Yes, but will it be chap 11?

[silentcoder]

It made sense when South Africa used it extensively in the 1980s - it provided a way to get fuel for cars when the world refused to sell it to us. We had coal, we didn't have oil - and nobody would sell it, so we made our own from the coal.

But I would not suggest the US implements vast-scale segregation and human-rights abuses in order to create a new market for coal... though if the company's asked nicely I'm sure Trump would consider it.

Plastics are about to be a million times cheaper.

[BlueCoder]

Coal is a very cheap hydrocarbon. Very easy and cheap to extract. So it's the most ideal resource for processing new plastics from. Once energy production drops from coal expect plastics to be used even more as they will be cheaper. Imagine plastic effused concrete.

We might actually be heading into the true plastics era. You ain't seen nothing yet.

$10 billion debt ?

[swell]

Who in this century had the misplaced wisdom to invest $10B in this coal company? How is it possible to be so blind to the changing tide in the energy world? Whatever . . . I have a bridge in Brooklyn to sell them if you can find these investors for me.

Do we have the Green Tech we need?

[FlyHelicopters]

http://www.newsweek.com/begley...

The irony is that the above was written in 2009, when CO2 levels were 386 PPM, now they have passed 400 PPM and show no signs of stopping.

Two viewpoints:

The Intergovernmental Panel on Climate Change, which assesses the causes, magnitude and impacts of global warming, said in 2007 that "currently available" technologies and those on the cusp of commercialization can bring enough zero-carbon energy online to avoid catastrophic climate change. And I regularly get reports from renewable-energy and environmental groups arguing that off-the-shelf technologies, fully deployed, can get us there.

And on the other side:

In the opposite corner is the Department of Energy, which in December concluded that we need breakthroughs in physics and chemistry that are "beyond our present reach" to, for instance, triple the efficiency of solar panels; DOE secretary Steven Chu has said we need Nobel caliber breakthroughs.

---

In short:

That is also the view of energy chemist Nate Lewis of the California Institute of Technology. "It's not true that all the technologies are available and we just need the political will to deploy them," he says. "My concern, and that of most scientists working on energy, is that we are not anywhere close to where we need to be. We are too focused on cutting emissions 20 percent by 2020â"but you can always shave 20 percent off" through, say, efficiency and conservation. By focusing on easy, near-term cuts, we may miss the boat on what's needed by 2050, when CO2 emissions will have to be 80 percent below today's to keep atmospheric levels no higher than 450 parts per million.

Worth noting is that 450 PPM is 100 PPM higher than the Club 350 people want to keep it at and say is the "safe level".

So is that possible? Here is a 12 step program from someone who says it could be done. And perhaps in a fantasy world, it could. Most of this list is completely silly stuff.

http://sustainabilityadvantage...

1. Mandate net zero energy (NZE) residential and commercial buildings. - Well that sounds nice for new construction, but what do you plan to do with existing buildings? People don't tear down and rebuild stuff every 10 years. This will also raise the price of new buildings making it harder to afford them.

2. Design walkable, bikeable communities - That works for future communities, but not the ones already built. It also really only works for places that have expensive land or are boxed in by mother nature to small areas. In places that have lots of cheap land, it simply makes no economic sense.

3. Stabilize the population - Talk about a political minefield. Go see if the Pope is going to start supporting birth control.

4. Put a price on carbon - You can do this, but in the short term it will just push a billion people into poverty. Do it enough to actually matter and you may end up with riots. You ALSO have to do it world wide, or it doesn't matter.

5. Capture CO2 - This is an easy suggestion to give, I'd like to see the worldwide pricetag for paying for it. Technically possible things are not always affordable.

6. Electrify transportation - Even if you banned gas car production tomorrow, at current car production rates it would take nearly 15 years to replace the gas cars in the world with EVs, and that assumes that people will have the money for them, have a place to charge them, and that power plants can somehow produce enough power for a billion cars cleanly. Since you can't actually ban gas cars tomorrow, you might phase this in over a decade or two, at best, but in reality you're looking at multiple decades before even half the car fleet is EV.

7. Create a national, smart elect

Re:Plastics are about to be a million times cheape

[silentcoder]

There is a longer-term risk to plastics we don't usually consider (because it's *very* long term ?) but it is worth thinking about maybe. The last time there was such an abundance of a molecule that nothing could break down it was lignin. Lignin being the key molecule that allowed plants to form wood and grow into trees. For quite some time there was nothing that could break down lignin - the era is what we now call the carboniferous. The presence of that molecule in abundance had interesting effects on nature. Firstly - a lot of carbon did not get broken down into CO2 when trees died, so it ended up being trapped and forming the fossil fuels we're now burning (interesting how the new unbreakable molecule is made from the results of the old one). In the meantime those trees produced oxygen but because they didn't decompose nothing balanced that out. The earth's oxygen content jumped to 40% - the highest it has been in it's entire history.

In that environment a lot of things that can't grow very big due to inefficient lungs grew gigantic. There was a dragonfly with a 1m wingspan, the largest known arachnid of all time - which had a jaw almost 90cm long (we have no complete fossils but it's estimated to have been well over 3m from head to tail - nothing like that could live today).

And when eventually things DID evolve that could break down lignin... in a very short time, all those creatures went extinct.

Imagine if the results of something evolving that can break down plastics - is actually worse for us than the plastic dumping was... it's entirely possible and the simple fact is that if we keep putting plastic everywhere - things WILL evolve that can eat it. Sooner or later.