If there’s to be any chance of stabilizing the global climate, a large proportion of existing reserves of coal will need to be left in the ground. The Galilee Basin in Queensland, estimated to contain 27 billion tonnes of coal, enough to raise atmospheric concentrations of CO2 by several parts per million on its own, is arguably the biggest test case in the world right now. Fortunately, the latest news is good.
The critical project is the Carmichael Mine proposed by Indian conglomerate Adani . To get the coal out Adani proposed a new rail line and a port expansion at Abbot Point. A Korean conglomerate, POSCO (originally a steelmaker)m was named as the builder of the railroad, with the prospect that POSCO would take an equity share and the Korean Export-Import Bank would lend money on favorable terms. If the rail line is built, other projects could go ahead. One such project, owned by Bandanna Coal (now in receivership) was just approved by Environment Minister Greg Hunt.
It now seems clear that Adani is mothballing the project. A month ago, the engineering design teams were told to stop work, and now Posco’s contractors have been sent home. Coincidentally or otherwise, Posco has announced the intention to return to its steelmaking roots, with aggressive cuts to its engineering and construction divisions.
Adani is still blaming regulatory delays, but this seems increasingly implausible. The sacking of the engineering teams will set the project back many months, if not years, and burning your primary equity partner doesn’t seem like a sensible response to regulatory problems. At this point, I’d say the strategy is to obtain and bank the regulatory approvals then hope that the price of coal increases in the future. This seems unlikely, given the collapse of demand in the US, declining demand in China and increasing Indian focus on renewables, in which Adani itself is a big player.
Moreover, with every year that passes, the obstacles to coal projects of any kind get bigger. Most international development banks will no longer lend to such projects, global banks are under similar pressure and institutional equity investors are being pushed to divest. It’s unlikely that the proponents of new coal projects in Australia will ever again see a government as favorable as the Abbott government, so if they can’t succeed now, they will probably never do so.
{ 50 comments }
Rich Puchalsky 07.24.15 at 12:12 pm
JQ: “To get the coal out Adani proposed a new rail line and a port expansion at Abbot Point. […] It’s unlikely that the proponents of new coal projects in Australia will ever again see a government as favorable as the Abbott government […]”
Once again, the critical decision points are always governmental and turn on whether infrastructure will be built. Price of coal might seem to be the driver, but this in turn depends primarily on a lot of other governmental, not market, decisions about what kinds of power plants to build.
Barry 07.24.15 at 1:38 pm
Seconding Rich. I’ve seen figures on how much the oil companies are subsidized in the USA, and they are large numbers.
Map Maker 07.24.15 at 2:05 pm
decisions on what power plants to build … Isn’t that supposed to be how a carbon tax works? Raise the cost of high carbon energy generation, tip the scales towards lower carbon alternatives, either from LNG from Australia or local solar/wind.
anon 07.24.15 at 3:08 pm
This is a very good thing. The world certainly needs energy. But burning coal is almost the worst way to do that. Harvesting and burning trees would be much worse.
Rich Puchalsky 07.24.15 at 5:11 pm
Map maker: “decisions on what power plants to build … Isn’t that supposed to be how a carbon tax works?”
It does it really badly. Carbon taxes get passed along to consumers, and consumers don’t buy power plants. Consumers just use whatever the government has caused to be built.
Omega Centauri 07.24.15 at 7:52 pm
I might quibble with whether the government is literally making decisions on powerplant type, or simply building infrastructure at public expense which will be used primarily by one industry or corporation. In either case, it is effectively a subsidy. Although in a case like this it is probably a subsidized export.
Obviously, slowing the development of coal is a good thing at this point in time, as in many cases, delay will lead to leaving it in the ground permanently, which is what we need to happen.
We also need the same sort of thing to happen with oil and gas, but thats currently a much
tougher sell, as there seems to be too much money to be made.
PlutoniumKun 07.24.15 at 10:14 pm
I think we are seeing one consequence of quantitative easing, which had the effect of greatly exacerbating the normal cycle of over investment in commodities that usually comes with an upturn. There has been a vast over investment in oil, gas and coal over the past few years. Normally, the producers are fairly happy to withstand a few years of low prices, knowing at some stage there will be an upturn. But it seems pretty clear that the days of huge expansion (in China in particular) are gone. Its generally accepted now in the oil industry that low prices will last at least 3-5 years, and its likely to be at least as bad for coal – maybe much worse if the large number of older coal powered electricity plants are not replaced, and there is a major retraction in cement and steel manufacture in China (which seems inevitable).
The key point will, I think come when the financial world realises that there is no point in pumping yet more money into the sector in order to keep uneconomic plays going for some putative upturn. It will be very unpleasant for them to write off billions in investments, but they are not likely to have much choice. There are signs that this is already happening with oil and gas in the US and Brazil (in the latter case there has been huge investment in ‘pre-salt’ off-shore oil). If anything, it could be worse for coal as it is not as irreplaceable a commodity as liquid fuels.
john c. halasz 07.25.15 at 1:30 am
@5:
That’s ignorant. In any sensible proposal, the “tax” gets rebated to households and businesses with a fairly progressive tilt, which actually helps cushion the population against rising energy prices, as well as solicits their buy-in and attention. It’s simply a matter of shifting relative prices and thus via demand, investment decisions on household and business levels.
Rich Puchalsky 07.25.15 at 3:18 am
If it was actually rebated to households, then of course it wouldn’t effect household investment or demand: if it’s rebated in the sense that average users get no charge and heavy users pick up the whole thing, it generates its own oppositional constituency, especially of people who for some reason are stuck with heavy use.
No large electricity generating plant, once built, is allowed to go out of business — the power sources for the grid are generally not overbuilt to that extent. Regulation varies by country, of course, but it most often works out so that they have a guaranteed rate of profit. So they will have to pass the cost on to someone.
Where it might come up is in new plants. “Look, the cost of power from coal is (price plus tax) and the cost of power from solar is (price), so let’s build a solar plant.” But what would be even more effective would be the government simply saying “We’re not going to build or permit any more coal plants: they all have to be solar (or whatever).” Since coal has to be eliminated, any time where the coal price plus tax appears to be lower, even if it’s rare, is a pricing failure.
The whole thing is a complicated Rube Goldberg device that’s intended to camouflage what has to be a governmental decision as a market decision.
john c. halasz 07.25.15 at 3:51 am
@9:
I’m not arguing that a carbon tax-and-rebate scheme is sufficient, nor that public planning and investment are not also necessary. But you’re just talking through your hat.
“No large electricity generating plant, once built, is allowed to go out of business”:
https://en.wikipedia.org/wiki/Vermont_Yankee_Nuclear_Power_Plant
“So they will have to pass the cost on to someone.” Such as bankrupt shareholders and bondholders.
“if it’s rebated in the sense that average users get no charge and heavy users pick up the whole thing, “:- But that’s the whole point. Trucking firms pay more, so railroads get advantaged, and over time more railroads, especially electrified ones, get built and fewer trucks are involved in freight transport.
” the power sources for the grid are generally not overbuilt to that extent”- But in fact renewable energy would be more distributed and require a smarter but less extensive grid, precisely because highly inefficient base-load plants with equally inefficient peak load generators would become much less necessary. Further rescheduling prices and activities in ways no longer structured by the base-load/peak-load distinction can itself accomplish a lot. And grid storage, by economizing on excess transmission capacity, can accomplish a lot as well, surprisingly even at quite high current prices.
” it generates its own oppositional constituency”- Look up British Columbia.
” Since coal has to be eliminated, any time where the coal price plus tax appears to be lower, even if it’s rare, is a pricing failure.”- Spot market prices, quite volatile, are no basis for any energy utility system. That’s one of the prime fallacies of neo-liberal utility de-regulation, which has resulted in rampant price manipulation schemes.
Rich Puchalsky 07.25.15 at 12:01 pm
When I wrote “go out of business”, I meant “go out of business unpredictably due to market factors”. Power plants do “go out of business” when the planned need for them is over or when governments decide that they do. Vermont Yankee is an unusual example because it was the subject of a conflict between state and Federal government: Entergy won its appeal in which a court ruled that Vermont couldn’t close it on August 14 2013, and then announced that it would close the plant due to economic factors two weeks later. If it really was economic factors and not Entergy not wanting to take the hit of continued resistance, then it was a rare case in which they could stop operating because the plant wasn’t wanted by local government.
With the “power sources for the grid are generally not overbuilt to that extent” I was trying to distinguish between existing power plants (and the existing grid) and new power plants. Basically, any kind of intervention whether regulatory / command-and-control or market-based (carbon tax, carbon trading etc.) is going to have to stop new coal plants. This is also the easiest place for command-and-control to work, since there aren’t owners of an existing plant who have to be dealt with. Carbon taxes aren’t going to put already-built and within-license coal plants out of business unless they are pretty much calculated to do so: in which case you might as well just put them out of business.
Basically I think that governments are going to have bite the bullet and acknowledge that this fundamentally is not an economic problem, that the externalities so far outweigh any other part of the “economics” of planetary crisis that this is really a political problem, and as such they have to make a political decision and not desperately try to make the magic of the marketplace take it all away.
john c. halasz 07.26.15 at 6:43 am
Rich, just to be frank here, you’re scatter-shot and don’t have any coherent, integrated multi-track POV here. (You’re a self-proclaimed anarchist and yet you’re appealing to government action and regulation? I actually agree with that, that the fiscal and regulatory powers of states are key here, provided they can be relatively autonomous from corporate capitalist control, but that’s part of why I call myself a reluctant and ambivalent neo-Hegelian statist).
I could have just as well cited Brayton Point, (where the recent purchase and shut down is suspected of being part of a price-manipulation scheme), as VY. (I’m part of the rump steering committee of VYDA, and I can assure you that the idea that activist opposition played no part in the shit down is not only offensive to long-time activists, but plays into corporate propaganda, and ignores the difficulties going forth, even though we or the state have little legal “authority” in the process). And why do you think that regulatory schemes are not subject to corporate capture? In the Midwest, utilities are heavily lobbying against wind energy, precisely because its success endangers the economic viability of coal and nuke base-load plants. And of course, coal plants are not the only source of GHG emissions and are largely being put out of commission by the temporary NG glut, (which the flaccid Obama administration regulatory proposal takes advantage of, in focusing only on CO^2 and not methane, together with relying on extending nuke licenses).
Further this is not either a supply side or a demand side problem, but involves the entwinement of both, even as definitions shift. So long as the capital stocks and infrastructures of energy usage/consumption remain in place, the demand for fossil fuels and the like will persist. Both sides of the equation need to be dealt with, (rather than just vilifying fossil fuels). And there are sunk cost investments on both sides. But one of the peculiarities of renewable energy, wind, solar, and hydro, is that the upfront capital investment costs are high, whereas the further maintenance and incremental or marginal costs are low, since no fuel costs are involved. That is why “levelized cost” estimates are so dubious, because they include the cost of financing, according to current capitalist “discount rates”, (which is why government fiscal financing is a key). But one of the features of an incrementally increasing carbon tax is that it provides a robust schedule of increasing marginal costs to fuel vs. the benefits of renewable energy investment, which influences in a highly dispersed way prospective sunk cost investments, while, of course, also encouraging conservation/efficiency on the usage/consumption side. (And also, since the U.S. is the second highest emitter of GHGs both per capita and in total, and since such a tax would be applied quite legally to imports, it would have a huge effect internationally). This is not matter of the ideology of the “magic of the market”, but precisely a public policy measure, among other complementary measures, (which aren’t mutually exclusive).
I deal with enviros and greenies a lot. And I’m aware of how much they tend to substitute moralizing, (often of a quite retrograde or nostalgic “nature”), for actual functional analysis and stubborn facts. (It’s a trait, though differently situated ,of left-liberals in general). I’m perhaps more red than green, but sobeit. But if you want to deal with actual facts, this flow chart is a good place to start, being official and all that. It doesn’t define “work”, the efficiency of actual energy usage, but it’s easy to tell on examination where the largest components of energy waste and inefficiency lie:
https://www.llnl.gov/sites/default/files/2014_us_energy.png
Rich Puchalsky 07.26.15 at 3:05 pm
“Rich, just to be frank here, you’re scatter-shot and don’t have any coherent, integrated multi-track POV here. ”
I think that the real difficulty is that you simply have difficulties with reading comprehension — just to be frank. For instance, I didn’t claim that activist opposition played no part in the shut down of VY: on the contrary, I was clearly implying that it did, as against the implication that market reasons were the cause of the shutdown. “If it really was economic factors and not Entergy not wanting to take the hit of continued resistance” — continued resistance from whom? — “then it was a rare case in which they could stop operating because the plant wasn’t wanted by local government.” Not wanted why? Because local government just decided that on its own?
I’ve written before about the “OMG you’re an anarchist and yet you advocate for government regulation!” bit. We have something like 15 years to have a significant effect on GHG infrastructure. So either we have worldwide anarchist revolution in that time, or we do this through governmental regulation. Which seems more likely?
Finally this is just wrong: “So long as the capital stocks and infrastructures of energy usage/consumption remain in place, the demand for fossil fuels and the like will persist.” There is no particular reason why we can’t decarbonize and still have essentially the same energy usage and consumption as we did before. Car engines powered by fossil have pretty much drop-in replacements with electric engines: power plants burning fossil can be replaced without revamping all of consumption. What’s more, consumption efficiency can be actually harmful because of the Jevons effect: if consumption efficiency goes up without a decision to ban fossil, the world as a whole could end up still burning all of the easily available fossil fuels.
You end your comment with the usual gambit: you look at facts, other people are emotional moralizers. Perhaps you’re right about some things and perhaps I’m wrong, but I suspect that your actual grasp on facts is not as solid as you think it is.
Omega Centauri 07.26.15 at 5:35 pm
Rich v John.
Sure, I think John gave too little credit for your indirect assertion that maybe activism might have had something to do with the closing. In a similar vein John’s statement “So long as the capital stocks and infrastructures of energy usage/consumption remain in place, the demand for fossil fuels and the like will persist.†was interpreted by myself at least, as not implying that we won’t switch because we have stuff that uses energy, but rather that our industrial/economic system is resistant to writing off sunk costs. Those who own coal or natural gas power plants, will resist their closure, precisely because they will take a hit to their bottom lines. And there are many stakeholders whose stakes are not direct ownership, such as people whose carer expertise is built around the fossil fuel industrial supply chain -from mining, to the design and operation of power plants, or even the serving of domestic space heaters. There are quite a lot of people who would be nervous about their future in a world that is rapidly transitioning away from fossil fuels.
Obviously political opportunist will take advantage of that angst. Its not going to be easy, even if its now possible to largely glimpse the shape of the replacement technology, getting that message to the electorate is going to be a long and hard struggle.
Rich Puchalsky 07.26.15 at 6:15 pm
Omega Centauri: “but rather that our industrial/economic system is resistant to writing off sunk costs.”
Sure, I agree with that. It’s why I kept trying to distinguish between new plants and existing plants. There are many other sunk cost stakeholders, many of whom you mention: people with gasoline-powered cars, people with oil-fired home heating, coal miners who’ve spent their lives learning a trade — yes, all of that is true.
But that’s why I really think it’s best to be honest about what we’re doing and why we’re doing it. Over and over, with carbon taxes, opponents have said something like “this is tantamount to a war on coal.” Well, yes, we have to eliminate coal use. It has nothing to do with whether coal is cheap or expensive in monetary terms, because the environmental externalities are so much greater that the cost of coal in dollars really is irrelevant. We can design carbon pricing or trading schemes that try to gradually get buy-in, but there’s always something deceptive about them and people can understand that.
Here’s something that I don’t understand that people can educate me in. (I’m not being sarcastic — I really don’t understand.) As industrialized countries respond to this crisis and use less coal, the demand for coal drops, right? So presumably the price of coal is going to drop: lots of supply, less demand. No countries that I know of seem to be closing down their coal mining industries as a matter of policy rather than economics. The price of coal can’t drop to lower than the cost of digging up and shipping the coal, presumably, unless its subsidized, but there are a lot of subsidies left. So, as demand and price drops, what keeps other countries that don’t have carbon taxes or whatever from just burning the coal that the industrialized countries are no longer burning? If Bangladesh decides to buy the cheapest power sources it can find, isn’t coal going to get awfully cheap? Or is the cost of digging it up and shipping it high enough so that solar and other renewables are cheaper than that cost?
Matt 07.26.15 at 8:02 pm
As industrialized countries respond to this crisis and use less coal, the demand for coal drops, right? So presumably the price of coal is going to drop: lots of supply, less demand. No countries that I know of seem to be closing down their coal mining industries as a matter of policy rather than economics. The price of coal can’t drop to lower than the cost of digging up and shipping the coal, presumably, unless its subsidized, but there are a lot of subsidies left. So, as demand and price drops, what keeps other countries that don’t have carbon taxes or whatever from just burning the coal that the industrialized countries are no longer burning? If Bangladesh decides to buy the cheapest power sources it can find, isn’t coal going to get awfully cheap? Or is the cost of digging it up and shipping it high enough so that solar and other renewables are cheaper than that cost?
You have previously, correctly identified the thing that prevents falling domestic coal consumption in industrialized countries from easily shifting to overseas consumption: key infrastructure and investment decisions controlled by governments. The key pieces in both exporter countries and importer countries are ports and rail transport. Coal is too low-value and high-volume to travel significantly by anything but rail and ship. In the case of the USA, for example, this means that when a big domestic power plant stops burning Wyoming coal and there’s a million tonnes of annual production now without a buyer, the mining company needs to be able to send it by rail to West Coast ports so it can go overseas*. But the West Coast states burn little coal, mine none of it, and have governors and legislatures that are trying to reduce CO2 emissions. There’s even more concentrated opposition at the local level: coal handling is largely automated, so there’s not a big voter bloc** for more coal, and an extra million tonnes of coal by rail in port areas has locals worrying about the filth of stray coal dust and the extra traffic congestion caused by waiting for trains at crossings. In the case of the proposed Gateway Pacific Terminal in Cherry Point, Washington there are also Indian treaty rights at stake; the Lummi Nation says that approving the coal terminal would violate their protected fishing rights in the nearby waters.
There are also barriers on the import side even if the exports can get sorted out. Coal India Limited is the largest coal company in the world. Its workers, executives, and political allies are at best indifferent and more likely hostile to lower cost competition in the form of imports from Australia and the USA. China too has a huge domestic coal industry, and most of it losing money, so they’re all trying to restrict imports to return domestic mines to profitability even as the central government plans big cuts in coal burning in densely populated eastern urban regions.
In the case of e.g. Thailand there is not a large established domestic coal industry, and they really do want more electricity. But any particular plan for new coal plants may meet with stiff local opposition. The same thing happens in Pakistan, India, and Bangladesh, for that matter. There are few suitable large parcels of land with no current occupants. Local opposition can delay big coal and hydro construction projects for years until corporate partners give up and withdraw or governments change the plans.
In India, a state of the art solar PV or wind plant already produces electricity at a lower cost per megawatt hour than a state of the art coal plant with pollution controls built to European standards. But India doesn’t require pollution controls built to European standards, so coal power is still cheaper, so one may well despair that coal consumption is just being delayed a decade or so — no real change in the final outcome. On the other hand the cost of wind and especially solar PV is still falling at a good rate, so a decade’s delay may be enough to block most new coal plants going forward. On the third hand any coal plant that is built will be used; once the construction cost is sunk, it is much harder for competing electricity sources to drive a coal plant entirely out of business.
On the fourth hand the contests over land control that delay big central power plants favor wind and solar: one can build a nine megawatt wind or solar plant on a much smaller parcel of land than you would need for a coal plant, even an irregularly shaped parcel, and it will be nearly as technically efficient and low-cost as a mega-project of 900 megawatts. A wind turbine has a very small ground-level footprint so you can install turbines on agricultural land and continue to graze animals or plant crops beneath them. Solar can scale down even more than wind; a 0.9 megawatt rooftop array for a single factory or refrigerated warehouse is within 20% of the cost per watt of a 9 megawatt utility array. Coal is a technically efficient and low cost fuel for producing electricity only when it is used in larger facilities and it always requires its own land. Forget about putting a 0.9 megawatt coal plant on the roof of anything.
*There is some additional export capacity already available in British Columbia, and a more favorable local reception for the idea of new coal ports on the Gulf Coast, but both of those options are more expensive for Wyoming exporters than the US West Coast terminals they really want.
**This is a trend that I think has contributed to the successful press against coal in the USA. US coal mining companies have increased productivity per worker with a flat or declining work force for decades. They’ve also been adept (like most other large businesses) at minimizing their taxes. As a result, there’s a lot fewer households that feel like they have a personal interest in the success of the coal industry now than there were 30 or 60 years ago. Also fewer states, counties, and towns where taxes on coal related activities are a large part of government budgets. Now when the companies face tough times they have to spend more money on lobbyists, lawyers, and PR. In Poland or India it’s the coal industry workers who provide the bulk of political support for mines; having successfully hobbled the power of workers, it’s the mine owners who have to defend the industry in the USA.
Rich Puchalsky 07.26.15 at 8:54 pm
Matt: “You have previously, correctly identified the thing that prevents falling domestic coal consumption in industrialized countries from easily shifting to overseas consumption: key infrastructure and investment decisions controlled by governments. ”
OK, thanks. I’m used to thinking of rail / ship infrastructure as so built out that it’s essentially already built, but I forgot what kind of likely volumes we’re talking about. I’m also not used to thinking about places with geography that different from the U.S. — in the U.S., there still seems to be relatively unpopulated / low-cost large parcels of land in every direction. But I note that the article you says that the Thai government still plans to build nine coal plants, so there must be room for them somewhere unless you expect all sites to be blocked.
Omega Centauri 07.26.15 at 9:29 pm
Matt:
“A wind turbine has a very small ground-level footprint so you can install turbines on agricultural land and”
I question whether in actual practice that footprint is nearly as small as you assume. I commute through an area that recently had 80 megawatts of wind installed. Its true that the actual area now occupied by the (2.3)MW towers is small, but high quality surface access roads were first installed. And access to all the land around these turbines is controlled (although that was the case before also). At least in the developed world windfarms are areas with very little access by the local population.
Before and during construction an area of a couple of acres per turbine was cleared in order to provide a safe working environment. Despite these safeguards, there was a fatality (truck rolled down a hill). So at a minimum we must add service roads, and for at least a couple of years construction staging areas. This doesn’t seem like the sort of area impact that would translate well into any sort of a populated area.
Matt 07.26.15 at 9:46 pm
I’m also not used to thinking about places with geography that different from the U.S. — in the U.S., there still seems to be relatively unpopulated / low-cost large parcels of land in every direction. But I note that the article you says that the Thai government still plans to build nine coal plants, so there must be room for them somewhere unless you expect all sites to be blocked.
I don’t know the Thai situation as well as other nations, but I wouldn’t be sure that there is room for all of them somewhere. Starting in 2005 India planned the ambitious Ultra Mega Power Projects series of 12 enormous coal plants using the highest-efficiency generation technology and low cost domestic coal. As of 2015 2 have been completed, 1 canceled outright, 3 deferred indefinitely, and the remainder not formally cancelled or deferred but nonetheless having failed to complete any generating units, often because of disputes over local land rights. Land rights disputes have also slowed efforts to build high capacity transmission corridors to serve centralized generating plants and have slowed efforts to expand domestic coal production.
In Pakistan coal projects have been even more delayed and canceled. Pakistan has huge domestic coal reserves and an acute need for more electricity. But the security situation discourages foreign involvement in infrastructure projects (though some Chinese companies are working on it) and there is not a domestic industrial base for coal plant construction. The government orders electricity generators and distributors to provide more electricity but is perpetually late and behind on payments to them, so compliance is minimal. Even the existing electrical system runs well below theoretical capacity because the government is perpetually behind on buying the fuel to run plants. Many Pakistani plants were built to run on oil when it was cheap in the late 1990s and are much more expensive to run now. In theory it should be possible to replace the oil based plants in just a few years, like Western countries did in the 1970s following oil price shocks, but so far there has been no substantial progress.
Matt 07.26.15 at 9:58 pm
Before and during construction an area of a couple of acres per turbine was cleared in order to provide a safe working environment. Despite these safeguards, there was a fatality (truck rolled down a hill). So at a minimum we must add service roads, and for at least a couple of years construction staging areas. This doesn’t seem like the sort of area impact that would translate well into any sort of a populated area.
The agricultural areas I’m thinking of aren’t really populated. I am talking about grazing pastures or fields of crops, e.g. as seen here. In the US and UK a lot of farmers have been able to negotiate rights to use their land for wind turbine installations, paid of course, and still continue to farm the vast majority of the land. I don’t know the exact percentages but from the air I’ve seen fields like the one I linked a picture of, and it looks like most of the ground, at ground level, is still being used to grow things.
In the case of pasture use, mounting solar panels just a few feet off the ground is enough that grass continues to get enough light to grow and smaller ruminants can graze beneath. Photosynthesis does not go up linearly with light exposure the way PV generation does, so this is not as zero-sum as it sounds, though it wouldn’t work for e.g. a field of soybeans where large harvesting machines also need to move through. Sheep and goats have even been introduced for plant growth control on solar sites that weren’t employed agriculturally at all before.
Omega Centauri 07.26.15 at 11:58 pm
Matt as much as I like dual use, I question whether we can afford it. We litterally need terawatts of mostly solar. I think its highly likely the price of panels will drop enough that the cost of the mounting structure will become key. The higher off the ground we mount, the more its going to cost. There are three PV covered parking lots within five miles of where I’m typing, all on on very robust structures roughly twenty feet off the ground. I can’t imagine any would/could have been built without large subsidies, the cost of such being about three times the cost of ground mounts. One datum that supports that, is that there is virtually no commercial rooftop PV, of shopping center parking lot PV. Lots of residential roofs, and highschool parking lots, buts thats about it. At least here in California there is lots of scarcely used land, and if this drought becomes the norm, there will be even more. But, we need renewables everywhere there are people, not just in the favorable places.
derrida derider 07.27.15 at 2:26 am
We’re a bit off track here talking about carbon pricing – John’s point in this post is that this particular increase in coal production is pretty economically marginal even absent that pricing. Galilee was always hoping for a big infrastructure subsidy from a sympathetic government (federal or state), and it is probably only trying to keep the project alive in hope of those subsidies – which will not be forthcoming on (ironically) austerian grounds. Plus the local farmers hate it on local environmental grounds too – and they have clout.
But effective carbon pricing would certainly put it all beyond doubt. For Australia, though, the main question is not our own carbon price but that of the customers to which this coal was to be exported. We weren’t going to burn any ourselves.
john c. halasz 07.27.15 at 4:17 am
R.P @13:
No, I didn’t misinterpret your sentence or intention. I recognized that it was garbled, as so much of your comments here. But this kerfuffle began when you gratuitously attacked, (i.e. not reasonably criticized), carbon taxes, without showing much in the way of understanding the point.
SO then we get this:
“There is no particular reason why we can’t decarbonize and still have essentially the same energy usage and consumption as we did before. Car engines powered by fossil have pretty much drop-in replacements with electric engines: power plants burning fossil can be replaced without revamping all of consumption. What’s more, consumption efficiency can be actually harmful because of the Jevons effect: if consumption efficiency goes up without a decision to ban fossil, the world as a whole could end up still burning all of the easily available fossil fuels.”
Which just goes to show that not only are you not really any sort of left-anarchist, just a bog standard status quo left-liberal reformist, who likes to cross-dress, mainly to stigmatize other leftists, but you aren’t much of an environmentalist either. (The Jevons or rebound effect BTW is a real possibility, but much over-estimated, as economic brakes pretty quickly kick in to limit it). AGW is scarcely the only environmental, ecological or natural resource crisis we face. It’s more like their intensification rather than their source. A common estimate is that resource usage/consumption is already 50% higher than any sustainable level, (with at least a couple of billion in population increase already on the way), and achieving a truly sustainable, yet still advanced economy will require much more efficient resource utilization. (To economize means to produce more with less, or to use fewer resources per unit output, but it all depends on which resources one wants to economize upon).
So since you distained to examine the official flow chart of raw U.S. energy input vs. actual work, (in which 60% of input does no work), and it’s obvious that most of the waste comes from 1) thermal methods of electric generation and 2) a petroleum based transport system, preferring to shill for Tesla Motors, let’s look at some actual factors. The Tesla Roadster has a battery weight of some 700 lbs. and gets 300 miles. 20 gallons of gasoline weighs 120 lbs. and should get 500 miles. So right there, leaving aside the spacial engineering problem, 1/3 of the efficiency gain is lost carrying the extra weight. Leaving aside the issue of supporting infrastructure. And I would have no idea how much of the earth would have to be dug up to provide for all that battery storage. Further, the average auto contains 270 bn joules of embedded in its manufacture alone, not to mention other raw materials, and in the U.S. the average auto is used just 75 minutes per diem. If such a transport system were substantially replaced by electrified urban mass transit, reducing the required vehicles by say 12 mn annually, the energy savings alone would equal 3 quadrillion BTUs, more than 3% of current energy use. (Not to mention other resource savings or social benefits).
A really sustainable advanced production economy would require much energy, but also much more efficient resource usage, including recycling of wastes, (which would also require energy). But have you considered any such prospect?
And then we get the likes of this:
” Well, yes, we have to eliminate coal use. It has nothing to do with whether coal is cheap or expensive in monetary terms, because the environmental externalities are so much greater that the cost of coal in dollars really is irrelevant.”
Really? Do you actually want to put some numbers on that? No one pretends that the full externalities can be put into a monetary price, but it sure could help. JQ puts the carbon price, (which actually should be a carbon equivalent GHG price), at $50/ton. Lord Stern at $80/ton. The VT House bill at $100/ton after 10 years, (though it has no real chance of passing soon and such a steep schedule would likely be stripped out before passage). It’s already too late, but a carbon price must be introduced in increments to prevent more costly economic disruptions. And did you miss the point that it would be applied at the border on imports, which would effect investment decisions not only here, but in much of the world which wishes to export to here? The whole point is to drive a wedge between the “market” price and the real costs, however approximately, and since, if effective, a “tax” would drive down the demand price, a certain overshoot on the “real” price would be desirable IMO.
But then you’re not interested in any substantive discussion, are you Rich? Instead, whenever your adventitious intentions are questioned, you resort to ad hominems. (not that ad hominems are always wrong, but you don’t seem to have any sense of their valid and invalid contexts and uses). The only real sense in which you’re an “anarchist” is 1) that you hold to an entirely voluntaristic conception of human agency/behavior and 2) that you similarly hold to a crudely intentionalist hermeneutics. (Framing must be wrong because, obviously, the mind is transparently receptive to understanding the external world/environment and it operates according to its own entirely self-generated intentionality). Because it’s obvious that people are never confused, ambivalent or conflicted, since they always get what they intend or want. Which just allows for your rather whiny self-insistency on your own intentions and “moral purity”, (i.e. self-righteous narcissism), to the detriment of others. I’m just surprised that no one has called you out on the obvious bigotry of so many of your comments here, (and you do comment a lot and often quite contentiously, making up much of some threads).
Map Maker 07.27.15 at 12:51 pm
Well, hard to keep the thread going after that.
But, +1 for electric cars. Nissan Leaf, Chevy Spark, PiP, MiV, all <$30k cars with range suitable for +85% of the US population's daily commute and 95% of all trips.
Rich Puchalsky 07.27.15 at 1:57 pm
Woo boy, jch is doing that age-old standard where he’s insulting, then accuses me of turning to ad homs. No doubt his own are OK because he has a proper understanding of their valid and invalid contexts. I could care less whether you think I’m a good anarchist or not, jch: I guess the advantage of being “a reluctant and ambivalent neo-Hegelian statist” is that you’ve basically created a one-shot category designed to keep anyone from catching you in a contradiction. I think it’s quite revealing that you like to use “cross-dress” as an insult, and if you think I’m talking about moral purity, then you’re only demonstrating the fact that I’ve often noticed that you have no idea how to read what anyone else writes.
Basically, you’re doing what JQ has often commented on here: making the AGW problem larger by insisting that we have to completely rework how society uses energy. Would that be a good idea? Maybe, in some cases. Does it make it less likely that we will actually solve the most immediate and pressing problem? Yes. It’s kind of exactly like going to an AGW thread and talking about how people took a whole lot of activist energy and turned that towards trying to shut down a nuclear plant.
Trader Joe 07.27.15 at 2:38 pm
@23 jch
It may be true that investment in mass transit as described could produce substantial benefit and certainly its an option that should be considered more diligently that it currently is in most cities. That said, the vast majority of cities, particularly in the U.S. as well as much of Europe, are too decentralized and not designed in a way to facilitate the sort of mass transit you describe.
It would be nice if it were otherwise, but the sort of land planning and zoning necessary would take decades if it could even be accomplished (people get sorta funny when the government talks about seizing and rezoning land).
Operating on power generation and transmission, particularly since people are usually predisposed to dislike power companies in general and coal/nuclear plants in specific would seem to have a much greater chance of producing tangible long-term benefits. Asking people to use more mass transit is like asking them to eat more kale – we know its good for us, but few want it all the time. You’d have an easier time prying guns from the hand of an NRA member than taking the car keys away from the average suburbanite.
Trader Joe 07.27.15 at 2:44 pm
@23
I’d add, that even if a widespread switch to electrified mass transit were feasible, it would still rely, ultimately, on generation of clean electricity and as such, building the right kind of power plants (i.e. decarbonized) would still be a condition precedent to the change you propose. Not saying what you propose isn’t right or doesn’t make sense, just not sure it doesn’t put the cart before horse.
Omega Centauri 07.27.15 at 3:38 pm
I’m with trader Joe on the electric car front. Obviously switching all vehicles to EVs wouldn’t suddenly make our civilization sustainable, even given totally green electric generation, but it does move us in that direction, and buys time for a more a efficient economy wrt transport needs/modalities to be built. No one change is going to carry us all the way there, but it is a major step in the right direction. And starving the oil companies of revenue would have a salutory effect on politics -by removing a major source of “dirty” money. So a push for EVs as well as better transport modalities is called for.
john c. halasz 07.27.15 at 10:17 pm
@26-28:
I was saying that both production and consumption ends would need to be reconfigured (of course, over time), and that “clean” energy production is important is almost to obvious to say. (Since energy is what does work, and is required to reconstruct the system, the more renewable electricity comes on line, the more it is available to do the work, which feed-back dynamic is some small ray of hope).
BTW increasing urban concentration has been in the U.N reports since the ’90’s, and that cuts against suburban and exurban sprawl, which will provoke resistance from the upper-middle class and their “property values”, a highly influential voting group, just as substituting electrified rail,- (not in any way a new technology),- for truck freight will be resisted by trucking interests. (And NIMBYism and litigiousness run rife in the U.S.) But that just indicates the obstacles to be overcome. (With today’s IT, highly personalize mass transit systems are perfectly possible, as witness the absurd effort to produce self-driving cars).
I emphasize usage/consumption, because ex-transport, actual household consumption is just 12% of the total, so even if measures such as weatherization are low-hanging fruit and easily and quickly pay for themselves, they are just a small part of the solution. The average person doesn’t realize that most energy beyond its generation is actually intermediate.
If you look at the flow chart I provided, (and it concerns flows and not stocks), it’s clear that the largest source of waste energy on the “production” side, (though that’s not a clear distinction), derives from thermal methods of energy production and from the petroleum based transport sector. My ball-park estimate is that eliminating such waste would require maybe 16 quads of replacement and alternative energy, in order to eliminate 40 quads of useless energy. (Renewal energy is largely electricity; bio-fuels are mostly a bad idea).
But the idea that maintaining the quantitative “standard of living”, based on wasteful energy use/consumption, among other natural resources, is to be championed just amounts to the latest version of the “white man’s burden”.
JQ only focuses on AGW and distains any other environmental concern, (perhaps because it appeals to his statistical skill set). But IMHO he bases his “optimism” on just temperamental factors and airy macro-economic abstraction.
The “2000 watt society” proposes a global per capita equalization. I doubt that that would be possible, or even necessary. But it is clear that the largest damage comes from the first world and not the “developing” world, and the best we can do is not promote or export our “mistakes”.
Omega Centauri 07.28.15 at 1:17 am
John: great comment.
I think if we think in terms of the end use, rather than the energy used for current means some useful insights can be gained. For instance lighting a room. Old-style: a thermal coal plant produces electricity, which powers an inefficient Edison bulb. Today to produce the same amount of visible light, we could source the electricity from renewables, and use an LED bulb. The total amount of energy needed to fulfill the same end function is more than ten times lower! And we would have similar numbers for watching a big screen TV, LCD versus LED. There are huge potentials to reduce the net amount of energy required to deliver the same human end result. Capture much of these efficiencies, and use renewables, and at least the energy needs of something resembling our current lifestyle becomes sustainable. Of course as John will be quick to point out, there are a lot of other things that will have to be made sustainable as well as energy. As a guy with a physics background, I’d say that energy is actually the easy part. But because of climate, its one we have to get serious about today.
TM 07.28.15 at 3:13 pm
RP 15: I worry about that too, a lot. However, if the US and EU were (were!) determined to phase out coal and impose meaningful carbon taxes (or something equivalent), they could without a doubt design a system that would impose the same carbon taxes on imports from countries that do not themselves participate in the carbon pricing system. TINA economists will loudly proclaim that we can’t do that because Free Trade and apple pie but really there is no reason in the world why this couldn’t happen, it’s a straightforward question of political will.
TM 07.28.15 at 3:21 pm
Omega 18: a wind park with five 140 m turbines recently opened close to my native village (about a mile from my brother’s backyard). I can attest that the footprint is very small. Sure they need to have access roads but there are no fences and no restrictions on access. As far as I can tell, the farmers cultivate the surrounding land as they would without the turbines. This is a rural area but it’s by no means unpopulated wilderness. There is a picture here http://www.naturfinanz.de/news/aktuell-oekologische-geldanlage/article/windpark-ma/ which I think is a different location but that’s about how it looks.
Rich Puchalsky 07.28.15 at 3:58 pm
TM: “However, if the US and EU were (were!) determined to phase out coal and impose meaningful carbon taxes (or something equivalent), they could without a doubt design a system that would impose the same carbon taxes on imports from countries that do not themselves participate in the carbon pricing system.”
I’m not so much concerned about imports as exports. Most current carbon tax schemes don’t actually charge a tax on e.g. coal shipped to another country. (British Columbia: “purchase of use of fuels within the province”: Chile: emissions from power sector: Denmark: consumption: France: consumption: Iceland: import: Ireland: consumption (I think): Japan: consumption: Mexico: sales and imports: Norway & Sweden I don’t know: UK: electricity generation). But without one all that you have are the infrastructural, land-use, and domestic-industry protections that Matt mentioned above to keep all that coal from being exported and burned elsewhere.
Putting a carbon tax of coal exports is pretty much equivalent to saying that your country isn’t going to export any coal. So it’s going to be another round of the conversation that I already alluded to: 1) tax implemented, 2) opponents say “but this means no coal exports!”, 3) people who supported the tax tie themselves up on knots trying not to admit the obvious, that yes it means no coal exports.
TM 07.28.15 at 4:31 pm
My remark refers not to the shipping of coal but the carbon embodied in the production of imported goods. If a country imposes a carbon price on domestic producers, producers in other countries that don’t tax carbon would have an advantage. Therefore the equivalent carbon price must be imposed on imported goods or the system won’t work. It is often argued that the US for example can’t commit to carbon pricing if China etc. don’t participate. But they could penalize imports from non-participating countries. It’s all a matter of political will.
TM 07.28.15 at 4:37 pm
I agree of course that eventually, coal mining needs to phase out globally, and countries with big coal reserves aren’t likely to leave them in the ground voluntarily. There must be strong economic incentives against burning the coal.
Trader Joe 07.28.15 at 4:42 pm
@34
Considering the tone of rhetoric around TPP, it would take a stunningly strong leader to both pass a carbon-tax and attach to it import tarriffs on the carbon content of inbound goods. Certainly none of the current panel of candidates (either side) has the will to do so.
Not disagreeing with your premise, but wouldn’t some carbon tax be better than a perfect one if the alternative is none?
Rich Puchalsky 07.28.15 at 5:01 pm
TM @ 35: The problem is that “eventually” is getting a whole lot closer in time, for this issue, than it ordinarily is. I don’t think that any economic incentives are going to work in a cross-national sense: it’s too difficult to design them so that they cover all of the different kinds of nations.
If we’re talking about how to do this politically, then we have the choice of saying that we’re going to implement a tax, that we’re going to hurt our country’s competitiveness, or that we’re going to eliminate coal. I think that it’s actually an easier task, politically, to just say what we actually need to do.
Does anyone have a good reference for what happened in Australia, politically, around the 2012 – to – 2014 implementation and repeal of the carbon tax?
TM 07.28.15 at 5:59 pm
I don’t disagree – our best hope is probably a grassroots movement directly against coal mining and burning, similar to the anti nuclear power movement. Some new coal power plants have already been prevented by activism. That doesn’t in any way exclude pursuing the carbon pricing strategy.
James Wimberley 07.28.15 at 6:45 pm
Mat in #19: Thanks for the history of the Indian plan for Ultra Mega coal plants from 2005. I’ve been puzzled by the government’s strange plans for multi-gigawatt “ultra mega” solar farms in Rajasthan (which has lots of desert) and, amazingly, Ladakh, which consists of inaccessible mountains. Solar has negligible economies of scale above 10 MW or so, according to the very credible US NREL. In India, with a rickety and unreliable grid, giant solar plants create large transmission problems and lower reliability. Fortunately, common sense is winning out, and the “ultra mega ” plants are becoming virtualized and broken up into realistic chunks of at most 500 MW.
Matt 07.28.15 at 7:37 pm
@James Wimberly: I too have been puzzled by the Indian pursuit of “mega” solar when there are few advantages to enormous solar projects and many practical difficulties. There are only a handful of PV plants larger than 500 megawatts in the world at present. India’s plan for Ultra Mega solar is that 500 megawatts should be the entry level plant size.
Dozens of 25 megawatt PV arrays are hardly more expensive to develop than a single 500 megawatt array, land acquisition would be easier, the overall plan would be less vulnerable to single stalled projects, and more generation could be placed near demand. This odd prominence of mega-centralization has made me hesitant to celebrate India’s ambitious solar power plans. The reality might fall as far short of the plan as the Ultra Mega coal electricity plan did. I will wait and see.
Omega Centauri 07.28.15 at 8:35 pm
I think most mega class PV farms aren’t really contiguous anyway. They also aren’t built in a day, and are gradually connected as construction proceeds. Its may be more a more a case of consolidating management and ownership/financing, than it is a matter of being physically contiguous.
It may also be that a 500MW plant gets publicity, 20 25MWers just don’t get much publicity.
TM 07.28.15 at 8:36 pm
Why should this surprise anyone? For decades, Western “Economic development” gospel has taught postcolonial developing countries that bigger is better. Look at those giant dams (funded with World Bank support).
Matt 07.28.15 at 9:34 pm
I think most mega class PV farms aren’t really contiguous anyway. They also aren’t built in a day, and are gradually connected as construction proceeds. Its may be more a more a case of consolidating management and ownership/financing, than it is a matter of being physically contiguous.
I too think they will be constructed in phases and each phase will start supplying grid power as it’s completed, rather than several hundred megawatts coming on line all at once. But according to the latest reports they really are planning some very large centralized projects. This plan has 20 gigawatts of capacity spread over 25 parks. If the capacity is distributed equally across parks, each park would be larger than any solar farm currently in operation. The high degree of concentration also makes the system more fragile with regard to weather or faults in the transmission system. Clouds passing over one of the parks can send output plummeting and then spiking up again by several hundred megawatts over the course of minutes. Spreading projects out helps average out localized weather effects and smaller, more numerous grid connections are more fault tolerant and waste less energy in transmission before the electricity reaches users.
Matt 07.28.15 at 9:52 pm
Here’s another article from a year ago about how a 4000 megawatt (!) Indian solar farm planned in 2013, which was supposed to be the world’s largest by far, has stalled over land use conflicts and political party rivalry. 250 16 megawatt projects could have been completed already but this project chased the prestige of “biggest” and instead completed nothing.
India has actually made good progress in increasing solar installations each year, with non-mega projects, so I have some hope. I am afraid though that the mega-projects currently account for too much of India’s solar roadmap and will not go smoothly.
TM 07.28.15 at 10:33 pm
Do you know anything about India using PV for rural electrification? That would seem one of the most obvious, most efficient and most beneficent uses for the technology. Also, are they promoting solar water heating?
Matt 07.28.15 at 10:54 pm
Off the top of my head, India is trying to increase use of PV electricity for agricultural water pumping in rural areas. 10 years ago my grandparents did the same thing on their farm, replacing a comparatively high-maintenance small windmill that had been used to pump water since the 1940s. Water pumping is a good match for solar because you can store extra pumped water on sunnier days instead of adding expensive batteries to capture PV surplus or just wasting the surplus.
Uptake of solar water pumping in India has been slowed by policies working against each other. The rural grid electricity supply is unreliable, so solar can compensate for shortfalls in the daytime, but rural electricity is also very cheap (provided below production cost). Diesel fuel for off-grid agricultural pumps is also provided below cost. At least as of last year — I don’t know if it is still the case, following the global fall in oil prices — the long term cost of running a solar-electric pump in rural India was cheaper than a diesel pump even for farmers with access to the subsidized fuel. But note “long term.” The solar units have a higher initial purchase price that has not been fully offset by government incentives, so poorer farmers were still generally unable to afford them.
A fresh initiative announced early last year is supposed to make the solar-electric systems affordable to many more farmers, but note that farmers taking advantage of the program also have to switch to drip irrigation, so they don’t use the new pump systems to drain the water table unsustainably. No mention was made in the article if the required drip irrigation upgrades will be subsidized too or if poorer farmers will just be priced out more indirectly.
Rich Puchalsky 07.29.15 at 1:51 am
What do people think of Carma, by the way? Last updated in 2012.
Omega Centauri 07.29.15 at 4:02 pm
Matt, Any large scale PV farm is not going to behave with respect to clouds as if it were a point source, a gigawatt of PV takes many square kilometers, and at least for partly cloudy like conditions will see a lot of cloud caused noise averaged out.
With many smaller farms, it depends upon how geographically dispersed they are. I.E. if a smallish area ends up with many smallish PV projects, thats not much diferent from one huge project as far as resource variability is concerned.
Whether it pays to consolidate the approval process on a few large projects, or many smaller ones depends on local political/bureaucratic conditions.
Matt 07.29.15 at 6:33 pm
@Omega Centauri: On a day where the CAISO solar output curve was irregular I was able to look at the curve and at satellite weather photos and spot the dip in the curve from the 550 MW Topaz solar farm getting cloud cover. The farm is only 5.5 km from module edge to module edge on the narrower axis, 6 km on the other. At the time Topaz represented nearly 10% of all solar capacity measured on the CAISO grid. I have found published research comparing small distributed systems (e.g. rooftop) vs. utility scale plants, but have yet to find a formal comparison of e.g. 25 megawatt scale projects vs. 500 megawatt scale projects. I suppose my declarations should be footnoted with “citation needed – original research?”.
@Rich Puchalsky: I like the idea of Carma, though the data is growing increasingly stale. Thanks for pointing it out. I frequently use SourceWatch to look up power plant data, or the EIA reports if I want a lot of details, but I don’t think either of them has fused that information into a convenient clickable map.
Omega Centauri 07.29.15 at 9:18 pm
Matt, I think the California correlated utility issue is larger than just a few megaprojects. Most of the utility scale is in Kern county or the Mohave, and when clouds sweep over souther Cal, output does drop a lot. However the reasoning for putting megaplants in those locations is pretty much the reasoning for putting smaller and medium sized arrays nearby. We need to promote greater geographic diversity in PV farmsite selection.
I’m happy whenever I hear of Utility scale being located much firther north -which is often a day earlier/later wrt. cloud systems.
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