Tag Archives: power

Electrify by Saul Griffith – a Review

I think at this point just about everyone knows someone who thinks climate change is a problem, but that it will be too expensive to fix, or that the solutions just aren’t viable. I think Saul Griffith’s new book, Electrify, is the perfect book for this audience.

You can’t judge a book by its cover, but the blue foil shimmering on the white background of this cover certainly conjures images of the future. While tech bros promise techno-utopian carbon capture machines more efficient than trees, this book excels in rampant pragmatism. Griffith lays out a pathway to decarbonizing the United States transportation and power sectors with only currently existing technologies.

I don’t think I’m the target audience for this book, but I do think the plan to #ElectrifyEverything is a necessary, but not sufficient part of a solarpunk future. The catchphrase usually comes with some caveats, like probably not all industrial processes, and I do feel that solar thermal needs more love since a large percentage of energy use in the home is used for heating, but it’s a decent simplification for the bulk of our current fossil fuel applications.

Electrify can be criticized for not addressing climate justice beside a passing mention. We can’t afford to reinforce the racist and otherwise imbalanced power structures that originally lead to climate change during the energy transition. That said, this book isn’t designed to message an entire Green New Deal in one fell swoop. As someone who grew up listening to talk radio as a red state Republican (more on that later this year), I think Griffith does an excellent job of doing what we engineers do best – sticking to the facts.

He lays out a clear, but concise, explanation of how daunting climate change is, but then paints a solution by the numbers to how we can overcome it and be more prosperous by doing so. I’m not usually a big fan of all the militaristic language used to describe climate work, but the comparisons in this book to World War II mobilization are useful to put the scope of the issue into perspective. In short, reducing most of our emissions will cost a little less than it cost the US to fight WWII in terms of national GDP.

I think part of the reason climate inaction has been such an easy sell is because it feels too big for any one person to have any agency in the fight. Griffith points the way for how families, especially when bolstered with government-backed loans, can replace the pieces of equipment that generate the bulk of their carbon emissions – their car(s) and their appliances. This gets people in the door for the climate conversation.

A snowy field full of solar panels with a large wind turbine reaching toward the sky in the background. There are two buildings in the background, and one appears to be a silo or astronomy tower based on the hemispherical top.

I know centrism is a dirty word in solarpunk circles, but I don’t think we’re going to succeed in overcoming climate change or climate injustice if we decide that we can’t work with people who are coming from a different political background. Red states already generate the majority of the renewable power in the country, so that’s a starting point. The Republicans I know believe in fairness and justice, but the party and conservative talk show hosts have had decades to distort what those words mean in a political context. We aren’t going to overcome that conditioning overnight, but this book is a step in the right direction, even if it does just seem like neoliberal techno-utopianism at first blush. I feel there’s more going on here than that, but maybe I’m naive.

I am sending this book and my copy of Repair Revolution to my dad. He’s retired and does solar installs on the side since he has his certification as well as experience from wiring up his old and new houses for solar. He’s also a Trump supporter which led to some… strain in our relationship over the last few years. I’m hoping that this book will at least show how we have viable path forward to overcoming the worst effects of climate change without some massive government takeover of every industry, which is what many Republicans fear. Is it going to make him gung-ho about climate equity? No, but at least maybe he’ll be interested in talking about climate solutions instead of automatically shutting down the conversation. It’s not going to be an easy process to get to a solarpunk future, but we’ll get there, step by excruciating step. Electrify shows how the energy transition can at least be a relatively painless part of the process.

Is saving money and increasing our resiliency a way to bridge the political gap, or is storytelling the answer? I think it’s probably a mix, but let me know what you think below!


Disclaimer: If you order the book using the Indie Bound affiliate link above, I may receive a small commission.

Energy: A Human History – Review

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Energy: A Human History by Richard Rhodes chronicles the development of industrial power sources with a focus on the innovators and scientists who developed the technologies. Starting in Elizabethan England with none other than William Shakespeare, Rhodes weaves a compelling tale of the western world’s energy sources starting with the transition from wood to coal in 1600s Britain.

The book paints the picture of the industrialists we now love to hate as human beings with hopes, dreams, and failings. It can be hard to remember after so long that James Watt and Henry Ford were once actual, living beings, and that they had hoped to make the world a better place with their inventions.

Drawing from many primary sources, Rhodes has lifted many gems of what the people of the time found concerning about these new technologies. With references to coal as “the devil’s excrement,” and many other such epithets, one might wonder why such dirty fuels ever became predominant. As Rhodes points out in the book though, industrialization with coal and other fossil fuels led to a near doubling of human life span and a higher standard of living. Rhodes does devote a fair bit of the book to the work that various towns and nations did to combat the air quality problems associated with the use of fossil fuels to varying degrees of success.

Concerns were not just constrained to air quality. Safety of steam engines, locomotives, and automobiles were a great concern of the time. As to cars, we have definitely come out on the wrong end of that technology with many US cities being designed for cars instead of people, but some of the concerns for trains seem amusing now as this quote Rhodes found shows.

“What can be more palpably absurd and ridiculous,” asked a reviewer for London’s Quarterly Review who favored a plan for a railway to Woolwich, “than the prospect held out of locomotives traveling twice as fast as stagecoaches! We should as soon expect the people of Woolwich to suffer themselves to be fired off upon one of Congreve’s… rockets, as trust themselves to the mercy of such a machine going at such a rate… We trust that Parliament will, in all railways it may sanction, limit the speed to eight or nine miles an hour, which… is as great as can be ventured on with safety.”

If you are firmly anti-nuclear, the end of the book will not be to your liking. As a cautiously optimistic person regarding nuclear energy, I feel the author may be a bit nuke-happy. Many of his points in favor of nuclear base loads are legitimate, however. Current nuclear generation technologies have been shown by IPCC and NREL (National Renewable Energy Laboratory) analysts to have a carbon footprint similar to wind and solar. With many cities and states looking at 100% renewable commitments, including nuclear as a base load to counter the intermittency of renewable sources seems reasonable in geologically stable areas. Unfortunately, when states set “renewable” goals for their energy goals, they sometimes include waste incineration, which is both gross and bad for local air quality.

Beside its overly-western focus, the other main shortcoming of the book is its relatively light treatment of renewable technologies. There was very little regarding solar, hydro, and wind, and I’m not sure if geothermal was mentioned at all. I suspect that this was due to a desire of the author to focus on the technologies that were the primary drivers of industrialization. Regardless, I think this is a good treatment of the subject of modern industrial energy sources and the people who brought them to fruition.

Do you have any recommendations for other books about energy generation or transmission? Let us know below!

Cradle to Cradle – A review

Book cover for Cradle to Cradle - blue top and green bottom with mirrored vehicle silhouettes

Cradle to Cradle – Remaking the Way We Make Things

Cradle to Cradle by William McDonough and Michael Braungart is about envisioning a better way to manage human interactions with the natural world. The authors ask,

“What if humans designed products and systems that celebrate an abundance of human creativity, culture, and productivity? That are so intelligent and safe, our species leaves an ecological footprint to delight in, not lament?”

Starting from the beginnings of the Industrial Revolution, they analyze the design decisions that led capitalist society to the environmental crossroads it faces today. While things weren’t quite so dire in 2002 when the book was written, its analyses of the pitfalls of rampant industrialization are thorough and thought provoking.

The most refreshing part of this book though is it isn’t just a list of where capitalism went wrong and why we’re all doomed. Cradle to Cradle outlines ways in which designers, engineers, and scientists can work together to deconstruct the current way we make things and redesign our material lives to benefit the natural world. The main idea, which I find to be very solarpunk, is to look at how in nature there is no waste. Everything serves a purpose in the environment. The fruit of the cherry tree feeds birds and animals while those animals spread the seeds of the tree. The droppings of those birds and animals fertilize the ground where the cherry tree and its offspring grow so that they can offer more food. Everything has its place in the cycle.

In one project, a shampoo was redesigned from scratch to only have positive effects by carefully selecting every chemical going into it, including the bottle. Herman Miller had a new factory designed including natural lighting, more ventilation, and a “street” with plants inside to bring nature closer to the workers. As we saw with the Nature Fix, bringing humans and nature together has positive benefits for human health, and by bringing the outdoors in, Herman Miller was able to bring its new focus on environmental sustainability to the forefront.

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Photo by Luka Siemionov on Pexels.com

The book isn’t just anecdotes and feel-good aphorisms, it also includes a framework for how to approach design to ensure maximum good. One of the ongoing themes in the book is that so far, most industry has tried to do less bad to the environment when it cares at all, but it’s time to go a step further and see how we can take industry and make it improve the world around us.

A success story in this vein tells of a textile factory in Europe that worked to make a better upholstery fabric for office chairs. When the regulators came to check the factory’s wastewater (effluent), they were confused as the water coming out of the plant was cleaner than that going in.

The equipment was working fine; it was simply that by most parameters the water coming out of the factory was as clean as — or even cleaner than — the water going in. When a factory’s effluent is cleaner than its influent, it might well prefer to use its effluent as influent. Being designed into the manufacturing process, this dividend is free and requires no enforcement to continue or to exploit. Not only did our new design process bypass the traditional responses to environmental problems (reduce, reuse, recycle), it also eliminated the need for regulation, something that any businessperson will appreciate as extremely valuable.

One of the things I’m hoping to investigate further in 2019 is the circular economy, and I think the design strategies outlined in Cradle to Cradle are a good first step in this direction. I found there is a followup book called The Upcycle written in 2013 that I will be checking out from the library soon.

Have you read Cradle to Cradle or have thoughts on the circular economy? Let us know below!

Solarpunk winters

aurora borealis

Photo by Tobias Bjørkli on Pexels.com

As we observe the winter solstice, my thoughts have turned to how solarpunks approach winter. As the days turn dark and cold, how does a society dependent on the sun continue to prosper?

Finland

If anyone knows about how to approach long nights, it’s the people who live at the poles. Finland, which was recently rated the world’s happiest country, has no shortage of darkness given it’s proximity to the Earth’s North Pole. In the northernmost parts of the country, the sun doesn’t rise for 51 days in the winter. Why are they so happy then? A stable government with minimal corruption is probably a contributing factor, along with free healthcare and college programs. In the Nature Fix, author Florence Williams suggests it’s the access to nature. Provided you don’t cut down anyone’s trees or damage their property, there’s no such thing as trespassing in Finland. Unlike in the United States where fences and no trespassing signs prohibit free passage, you can hike from one end of Finland to another without running afoul of the law. Also, the combination of low population density and relatively late urbanization, most of Finland’s population is only minutes away from a Nordic walk in the woods or one of the many wintertime diversions available to residents such as ice skating or cross country skiing. For more, check out this Buzzfeed article that is a nice summary of how Fins stay happy, no matter the weather.

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Photo by kailash kumar on Pexels.com

Wool

While the vegans in the audience will groan, I feel wool is one of the best resources we have when it comes to staying warm in the wintertime. Since wool is a material that can be harvested without harming the sheep, it seems like a win-win to me. It’s important to look at how you’re sourcing the wool when you get it, but wool from a well-treated sheep will keep you warm at the expense of them getting a haircut. Is wool cheap? No. But, it mother nature has taken millions of years plus a few hundred of human intervention to develop a fabric that breathes well, is the bomb at temperature regulation, and like all natural fibers, is biodegradable. That last part is important since so much of the microplastics in the ocean are coming from washing our synthetic fabrics. REI has a great article about sustainable clothing and textile choices for more info on wool and other options to stay warm in the winter/

Geothermal heat pumps

One way to make sure things stay toasty is with geothermal, or ground source, heat pumps. Often overlooked as a source of clean power, geothermal electricity generation isn’t something that works in all areas. Geothermal heat pumps work just about anywhere though to help keep things nice and warm inside with a minimal investiture of electrical power. In short, geothermal heat pumps replace the HVAC (heating, ventilation, and air conditioning) system of a building and use the Earth as a heat sink. Since the ground is roughly 18 Celsius in most places, you can cool in the summer and heat in the winter with little energy expenditure. According to Wikipedia, these systems offer a 44-75% increase in efficiency over more traditional heating systems. The US Department of Energy has a good overview of the technology.

Solar fluid

In an interesting development announced last month, scientists at Chalmers University of Technology in Sweden have developed a fluid that can store solar energy for up to  18 years. So, excess capacity in the summer could be stored into the winter from your solar array and retrieved when needed. Since the system is heat storage, it can be converted to electricity, or could be used as a means of storing summer’s warmth to heat your home in the winter. The original paper can be found here in Energy and Environmental Science.

Person wearing a black, white, and crimson cape patterned like moth wings. Cape is wider than armspan in width, makeing the wearer appear to have moth wings.

Moth Wings Cape by CostureoReal on Etsy

Lunarpunks

I would be remiss to not mention our lunarpunk cousins here when talking about the darkest time of the year. Lunarpunks are the night dwellers of solarpunk society. They are a subculture within our subculture, favoring the night. Biomimmicry of bioluminescent creatures, moth-themed cloaks, and gossamer fabrics fluttering in the night breeze are some of the aesthetic influences here. Winter would be the lunarpunk’s time to be more active, hosting all kinds of events in the cooler nights from art displays to street festivals.


Do you have any thoughts on what solarpunk winters might be like? Let us know below, or consider submitting a story to World Weaver Press’s call for stories for their Solarpunk Winters anthology which opens in January!

What is Solarpunk, anyway?

photo of smiling woman in white dress and brown boots posing in multicolored glass house

Photo by Jeremy Bishop on Pexels.com

The first thing you need to acknowledge when looking at solarpunk is that the world is on fire. The last few centuries of human development have taken a growth-at-all-costs approach to building up human society, and unfortunately, the bill is due. Solarpunk began as an attempt to imagine a brighter future wherein humans managed to transcend our current predicament and come out better for it on the other side. What began as a smattering of neat drawings and inspirational ideals is slowly coalescing into a movement to take back the Earth from the powers that would see it smolder.

Where is the punk in solarpunk? It’s in direct action to oppose ICE and police violence. It’s in the community energy coop putting solar panels on their roofs to save money. It’s the guerrilla gardeners throwing seed bombs into fenced-off abandoned properties. It’s in the schools where transgender students are welcome in the bathroom of their choice. It’s in the makerspace where people are finding ways to repurpose waste into useful and beautiful items. It’s remaking society into that hopeful future. The punk of solarpunk is in the now. The solarpunk future won’t happen without a concerted effort by a lot of people to fight the status quo and the powers keeping things that way.

Solarpunk doesn’t have one encompassing political or aesthetic vision. I think the most cohesive elements though are equity, environment, and appropriate technology. Equity is more complicated than simple equality, as it requires us to make sure everyone has what they need, which may not be the same exact thing as demanded by equality. For example, living with disabilities is more expensive and results in most disabled individuals having poor economic outcomes. While the exact method of providing an equitable society is something that will need experimentation, that goal is one of the central tenets of solarpunk.

Keeping the environment in mind as a stakeholder in all decision-making processes is another important theme in solarpunk. From the name, you can tell that solarpunk prefers a renewably-powered future, but reducing plastic waste, air and noise pollution, and waste are also environmentally-motivated goals of the solarpunk community. We’ve only got the one planet, so let’s make sure to keep Mother Earth in good shape. She doesn’t need us, but we need her desperately.

Appropriate technology is the idea that we don’t necessarily need “smart” everything in our lives. While solarpunk doesn’t eschew technology like some primitivists, solarpunk is interested in only using the appropriate level of technology for the task at hand and not making technology for technology’s sake alone.

If you’re concerned about climate change or the growing march of fascism across the globe, you might already be a solarpunk and not know it. To learn more check out the Scuttlebutt social network or look for #solarpunk on Mastadon or Tumblr. If you have any questions feel free to use the contact form on this website or comment below.

Solarpunk and energy fragility

A couple weeks ago we were treated to a 9 hour power outage here at home. It wasn’t a terrible experience, but it did remind me of how fragile our infrastructure really is. In the US, the American Society of Civil Engineers puts together a “report card” for infrastructure every four years. In 2017, US energy infrastructure scored a D+.

Large sections of the grid are reaching the end of their design life, and we don’t have enough funding dedicated to upgrading and replacing parts. Decentralized power generation such as solar and wind will help immensely as the power can be generated closer to where it’s used. This means when one part of the grid goes down, there still should be electricity in the others. Some communities have started investing in their own local grids, and you can convert some of your usage to solar even if you rent an apartment.

Since one of the main parts of solarpunk for me is decentralization, both political and technological, I think that having a more decentralized grid will lead to more resilient communities and services. Does your community have any programs right now to help people become less reliant on the grid? Let us know below!

 

LEGO Human-powered tool station

LEGO Modular Tool Station

Technic Man pedaling his tool platform

I had some time to make a crude LEGO prototype of the human-powered tool station.  I made do with meshed gears instead of pulleys since I didn’t have any rubber bands to use as a belt. Given some of the constraints of spacing with LEGO, our brave Technic Man can’t actually pedal the machine, but I think it does get the idea across more or less.

LEGO Modular Tool Station Internal Workings

Some of the internal workings of the LEGO prototype

Do you have any thoughts about the system? Are there LEGO parts that you like to use for prototyping purposes? Let us know below!

GoSun Fusion oven on Kickstarter

Want to cook with the sun?

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GoSun has been making solar ovens for awhile and is now Kickstarting the GoSun Fusion which can use either solar power or electricity to cook a meal for up to five people. I don’t have any affiliation with GoSun, but their ovens have pretty good reviews, and I really like the idea of being able to cook with the sun both day and night.

I think this oven looks like it would be really awesome if you have an off-grid house or do a lot of campground camping where you have a base camp. It’s probably too big to use for backpacking, although it does look like GoSun has a smaller model that might work for that, the GoSun Go.

Do you have a solar cooker? Do you know of any good DIY plans that we should try out here at Solarpunk Station? Let us know below!

Re-purposing malls as solarpunk co-housing

One of the best ideas for solarpunk co-housing I’ve seen is Bluelightning42’s post about re-purposing malls on Tumblr. While there has been the mixed use redevelopment of the Arcade in Providence, Rhode Island, and NewLab, an incubator+housing in Brooklyn, I’ve seen little else done in regards to this concept.

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Bellevue Square Mall courtesy of Debs (ò‿ó)♪

Business Insider ran a story last year as part of it’s “Death of Suburbia” series talking about the roughly 25% of shopping malls in the US at risk of closing. I think the main issue is that most malls aren’t in particularly easy to access areas, but with a large enough community, I think you could get a public transit stop (if there isn’t one already) and car-sharing to provide off-site transportation. If you want to see the really cool architecture in some of these malls, Seph Lawless has been getting amazing photos of abandoned malls.

Rezoning the mall (where needed) as mixed-use would allow some small stores on-site for groceries and other small items. I know that I would love to be able to just walk down the hall to grab some Swedish fish out of a bulk bin in the middle of the night (I’m so healthy). You could leave the food court going too with shared communal kitchens and restaurants run by the people living there.

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Garden courtesy of cuprikorn

Most of the parking lots could be reclaimed as greenspace, leaving a small area for car-sharing vehicles and the bus stop. A community garden could spring up where there was once only asphalt. Depending on the bike infrastructure in your city, you might also be able to build spur trails from the mall to other interesting parts of town.

Most malls have some natural lighting, so why not make some of the skylights stained glass to keep up the solarpunk vibe? With the huge roofing area of a mall, you could generate power for residents by adding solar panels and small wind turbines. There might be enough area that you would qualify as a small-scale renewable power plant. I would want to update the HVAC system to heat/cool with a geothermal heat pump to maximize the efficiency of the building along with the other requisite insulation and lighting efficiency upgrades.

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Stained glass in Kaohsiung City courtesy of MiNe

So, do you have any ideas about how a repurposed mall could be a great place to live? Are there any concerns that you have regarding the idea? Sound of in the comments and let us know!


Photos are from Flikr users under a Creative Commons License

  1. Prettyy!! Want! {Nature/ 1 of 3} by Debs (ò‿ó)♪
  2. MiNe-KissX_103-0082RG by MiNe
  3. Garden by Cuprikorn (this picture is under a different license: CC BY-NC-ND 2.0)