Tag Archives: renewable energy

2010s: order of magnitude increase in renewable energy cost-effectiveness

This article in Project Syndicate presents the numbers on renewable energy cost-effectiveness for the decade.

The costs of solar and wind power have fallen more than 80% and 70%, respectively, while lithium-ion battery costs are down from $1,000 per kilowatt-hour in 2010 to $160 per kWh today. These and other breakthroughs guarantee that energy systems which are as much as 85% dependent on variable renewables could produce zero-carbon electricity at costs that are fully competitive with those of fossil-fuel-based systems.

Project Syndicate

November 2019 in Review

Most frightening and/or depressing story:
  • The Darling, a major river system in Australia, has essentially dried up.
Most hopeful story: Most interesting story, that was not particularly frightening or hopeful, or perhaps was a mixture of both:

hydrogen fuel cell buses

The transportation agency serving the University of Illinois Urbana-Champaign is using fuel cell-powered buses and planning to produce and store its own hydrogen supply.

The cost of acquiring the two new buses, a fueling station and fuel storage equipment will be about $3.5 million, of which $1.5 million will be covered by federal grants…

MTD plans to produce the hydrogen for its fuel-cell buses itself. It could use solar power, wind turbines or, if need be, gas from the local landfill to separate the hydrogen from oxygen in water molecules for the buses.
The transit agency will soon be accepting bids for the equipment it will use for that conversion. It plans to add a total of 12 hydrogen fuel-cell buses by 2023, or about one-tenth of its fleet. By that time, the rest of its buses will be diesel-electric hybrids.

I’ve always thought that nuclear power, fuel cells, and membranes for water treatment would go together pretty well for a coastal city. You could size the nuclear reactor for peak demand, then use the excess energy to desalinate and electrolyze sea water whenever you are not at peak demand, storing the hydrogen to use in transportation vehicles and any other applications where you need decentralized or off-the-grid energy. You can use the membrane technology to produce drinking water and water for industry, either from seawater or treated sewage. I think you could substitute LNG for the hydrogen in this system if you need to for some reason, for example if the nuclear reactor were down for maintenance. You would have that occasional pesky problem of nuclear waste to deal with, but I am gradually coming around to the idea that managing the risks of nuclear reactors and nuclear waste may be preferable to the certainty of destroying the planet’s ecosystems and oceans. Inventing fusion power would be nice.

May 2019 in Review

This wasn’t my most prolific writing (or reading) month ever. In fact, it my have been my worst. But here are a few highlights of what I did get around to.

Most frightening and/or depressing story:

  • Without improvements in battery design, the demand for materials needed to make the batteries might negate the environmental benefits of the batteries. I’m not really all that frightened or depressed about this because I assume designs will improve. Like I said, it was slim pickings this month.

Most hopeful story:

  • Planting native plants in your garden really can make a difference for biodiversity.

Most interesting story, that was not particularly frightening or hopeful, or perhaps was a mixture of both:

  • Joseph Stiglitz suggested an idea for a “free college” program where college is funded by a progressive tax on post-graduation earnings.

 

renewable energy, batteries, and demand for metals

This report from the Institute for Sustainable Futures at the University of Technology, Sydney talks about the increasing demand for metals driven by renewable energy and battery technology. Basically, recycling has to be improved a lot if current technologies are going to scale up without damaging the environment as much as they help.

I got to work with the Institute for Sustainable Futures once, which was fun. They had a worm compost bin in their office. They were also one inspiration for the title of this blog. I don’t know any of the authors of this report.

generating hydrogen from solar panels

It makes sense that you could use electricity from solar panels to split water vapor into hydrogen and oxygen, but why do that instead of just using the electricity? I guess if storing and using the hydrogen gas is more cost-efficient or reliable than charging a battery. Still, it seems like the days of storing and burning dangerous gases and liquids rather than electrifying might be numbered.

space based solar

The government is finally getting serious about space based solar. The government of China, that is. The U.S. government (Jimmy Carter, NASA) was serious about it back in the 1970s as I recall (actually, I don’t recall because I was an infant, but I have since read). Our cynical government stopped looking into shortly thereafter and the public imagination withered and died. The interesting thing is that the Earth is in the path of only an infinitessimal portion of the sun’s energy. However much energy we need and are able to harness with our technology, we should be able to intercept it and beam it back, without depriving anyone or any natural ecosystem of their fair share. Utlimately, the limit would probably be how to deal with waste heat rather than any upper limit on how much energy we could intercept and beam back to Earth.

renewables can supply a reliable electric baseload

According to this 2011 article in The Conversation (a blog that is new to me), the idea that solar and wind can’t provide reliable electricity is just wrong. This article doesn’t even focus on batteries and other storage technologies, which have certainly improved since 2011. Basically, as long as the grid is fed by a variety of sources spread over a fairly large and varied geography, it will not be all that common that the renewables are not providing the necessary baseload. And in that case, standby gas generators can make up the difference without too much trouble. All this suggests that the “reliable baseload” argument is mostly fossil fuel industry propaganda. Just put it out there, and it will be picked up and repeated by know-it-alls for a long time. And the beauty of propaganda in our current age where everyone has a voice and all voices are equal is that this repetition is free, and the more something is repeated the more people will believe it, even smart people who are not experts in the subject will believe it and repeat it themselves, until it drowns out any accurate information released too little, too late.

September 2018 in Review

Most frightening stories:

Most hopeful stories:

  • The Suzuki and Kodaly methods are two ways of teaching music to young children that may actually help them think later in life. Training in jazz improvisation may also be good for young brains in a slightly different way.
  • There are some bright ideas for trying to improve construction productivity, which has languished for decades. Most involve some form of offsite fabrication.
  • In energy news, there’s a big idea to produce half the world’s electricity from sunlight in the Sahara desert. Another idea for collecting solar energy in otherwise (ecologically) wasted space is solar roadways, and there are a few prototypes around the world but this doesn’t seem to be a magic bullet so far. Another big idea is long-term storage of energy to smooth out fluctuations in supply and demand over months or even years.

Most interesting stories, that were not particularly frightening or hopeful, or perhaps were a mixture of both:

what’s up with solar roadways

This article from “The Conversation” surveys a number of solar road installations around the world. It is pretty down on them, saying they are less efficient and less cost-effective than solar panels on solar farms or rooftops. Okay, but it never says they make bad roads. So where this has been tried, you have functioning roads that didn’t generate electricity before and now do. Most technologies have a tendency to improve and come down in cost over time, so the fact that these pilot projects are up and running and generating power without major mishap doesn’t seem to me like a reason to give up on the idea.