Richard Heinberg post COP21: “we may have to write off aviation as anything but a specialty transport mode”

After COP21, Richard Heinberg has had a long, hard look at how humanity can reduce consumption of fossil fuels and achieve the carbon reductions needed  before 2050. He only touches on aviation, but his message is very clear: Looking at shipping: “One way or another, global trade will have to shrink.” On aviation: “There is no good drop-in substitute for aviation fuels; we may have to write off aviation as anything but a specialty transport mode. Planes running on hydrogen or biofuels are an expensive possibility, as are dirigibles filled with (non-renewable) helium, any of which could help us maintain vestiges of air travel.” One recommendation: “Where key uses of fossil fuels are especially hard to substitute (aviation fuel, for example), argue for work-arounds (such as rail) or for the managed, gradual scaling down of those uses.”  And “It will likely require a global authority to determine how to direct the use of the world’s remaining burnable fossil fuels—whether toward the further growth of conventional manufacturing and transportation, or toward the build-out of renewable energy-based generation and consumption infrastructure. Only such an authority could globally prioritize and coordinate sectoral shifts….”
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Renewable Energy After COP21: Nine issues for climate leaders to think about on the journey home

By Richard Heinberg, from the Post Carbon Institute

This is a very long paper, well worth reading in its entirety.  Below are just a few extracts, especially relating to transport and aviation …… there is much, much more on a range of energy topics in the paper.

Full paper at

http://www.resilience.org/stories/2015-12-14/renewable-energy-after-cop21-nine-issues-for-climate-leaders-to-think-about-on-the-journey-home#

 

Extracts:

COP21 in Paris is over.  Now it’s back to the hard work of fighting for, and implementing, the energy transition.We all know that the transition away from fossil fuels is key to maintaining a livable planet. Several organizations have formulated proposals for transitioning to 100 percent renewable energy; some of those proposals focus on the national level, some the state level, while a few look at the global challenge. David Fridley (staff scientist of the energy analysis program at Lawrence Berkeley Laboratory) and I have been working for the past few months to analyze and assess many of those proposals, and to dig deeper into energy transition issues—particularly how our use of energy will need to adapt in a ~100 percent renewable future.

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Level One: The “easy” stuff
Nearly everyone agrees that the easiest way to kick-start the transition would be to replace coal with solar and wind power for electricity generation. That would require building lots of panels and turbines while regulating coal out of existence. Distributed generation and storage (rooftop solar panels with home- or business-scale battery packs) will help. Replacing natural gas will be harder, because gas-fired “peaking” plants are often used to buffer the intermittency of industrial-scale wind and solar inputs to the grid (see Level Two).
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Transportation represents a large swath of energy consumption, and personal automobiles account for most of that. We could reduce oil consumption substantially if we all drove electric cars (replacing 250 million gasoline-fueled automobiles will take time and money, but will eventually result in energy and financial savings). But promoting walking, bicycling, and public transit will take much less time and investment, and be far more sustainable in the long-term.
The food system is a big energy consumer, with fossil fuels used in the manufacturing of fertilizers, in food processing, and transportation. We could reduce a lot of that fuel consumption by increasing the market share of organic, local foods. While we’re at it, we could begin sequestering enormous amounts of atmospheric carbon in topsoil by promoting farming practices that build soil rather than deplete it.
If we got a good start in all these areas, we could achieve at least a 40 percent reduction in carbon emissions in ten to twenty years.
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Level Two: The harder stuff
Solar and wind technologies have a drawback: they provide energy intermittently. When they become dominant within our overall energy mix, we will have to accommodate that intermittency in various ways. We’ll need substantial amounts of grid-level energy storage as well as a major grid overhaul to get the electricity sector to 80 percent renewables (thereby replacing natural gas in electricity generation). We’ll also need to start timing our energy usage to better coincide with the availability of sunlight and wind energy. That in itself will present both technological and behavioral hurdles.
Electric cars aside, the transport sector will require longer-term and sometimes more expensive substitutions. We could reduce our need for cars (which require a lot of energy for their manufacture and de-commissioning) by densifying our cities and suburbs and reorienting them to public transit, bicycling, and walking. We could electrify all motorized human transport by building more electrified public transit and intercity passenger rail links. Heavy trucks could run on fuel cells, but it would be better to minimize trucking by expanding freight rail. Transport by ship could employ modern fsails to increase fuel efficiency (this is already being done on a tiny scale), but re-localization or de-globalization of manufacturing would be a necessary co-strategy to reduce the need for shipping.
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Level Three: The really hard stuff
Doing away with the last 20 percent of our current fossil fuel consumption is going to take still more time, research, and investment—as well as much more behavioral adaptation. Just one example: we currently use enormous amounts of cement for all kinds of construction activities. Cement making requires high heat, which could theoretically be supplied by sunlight, electricity, or hydrogen—but that will entail a nearly complete redesign of the process.
While with Level One we began a shift in food systems by promoting local organic food, driving carbon emissions down further will require finishing that job by making all food production organic, and requiring all agriculture to sequester carbon through building topsoil. Eliminating all fossil fuels in food systems will also entail a substantial re-design of those systems to minimize processing, packaging, and transport.
The communications sector—which uses mining and high heat processes for the production of phones, computers, servers, wires, photo-optic cables, cell towers, and more—presents some really knotty problems. The only good long-term solution in this sector is to make devices that are built to last a very long time and then to repair them and fully recycle and re-manufacture them when absolutely needed. The Internet could be maintained via the kinds of low-tech, asynchronous networks now being pioneered in poor nations, using relatively little power.
Back in the transport sector: we’ve already made shipping more efficient with sails in Level Two, but doing away with petroleum altogether will require costly substitutes (fuel cells or biofuels). One way or another, global trade will have to shrink. There is no good drop-in substitute for aviation fuels; we may have to write off aviation as anything but a specialty transport mode. Planes running on hydrogen or biofuels are an expensive possibility, as are dirigibles filled with (non-renewable) helium, any of which could help us maintain vestiges of air travel. Paving and repairing roads without oil-based asphalt is possible, but will require an almost complete redesign of processes and equipment.

One of the Recommendations: 

  • Where key uses of fossil fuels are especially hard to substitute (aviation fuel, for example), argue for work-arounds (such as rail) or for the managed, gradual scaling down of those uses.

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The technical coordination of the renewable transition is itself an enormous task, and currently nobody is handling it. It will likely require a global authority to determine how to direct the use of the world’s remaining burnable fossil fuels—whether toward the further growth of conventional manufacturing and transportation, or toward the build-out of renewable energy-based generation and consumption infrastructure. Only such an authority could globally prioritize and coordinate sectoral shifts (in agriculture, transport, manufacturing, and buildings) to reduce fossil fuel consumption as quickly as possible without reducing economic benefits in unacceptable ways.
But in the absence of such an international authority, the onus of this work will fall largely upon nonprofit environmental organizations and their funders, along with national and local governments.
One way or another, it’s time to make a plan—as comprehensive and detailed as we can manage—and run with it, revising it as we go. And to “sell” that plan, honestly but skillfully, to policy makers and our fellow citizens.

http://www.resilience.org/stories/2015-12-14/renewable-energy-after-cop21-nine-issues-for-climate-leaders-to-think-about-on-the-journey-home#

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