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Vlax: If Solar Panels Are So Clean, Why Do They Produce So Much Toxic Was...
If Solar Panels Are So Clean, Why Do They Produce So Much Toxic Waste?
Environmental scientists and solar industry leaders are raising the red flag about used solar panels, which contain toxic heavy metals and are considered hazardous waste. With recycling expensive,… Article word count: 2507
HN Discussion: https://news.ycombinator.com/item?id=18751049 Posted by vixen99 (karma: 1609) Post stats: Points: 89 - Comments: 86 - 2018-12-24T08:02:28Z
#HackerNews #are #clean #much #panels #produce #solar #they #toxic #waste #why
Article content:
Bell Labs, 1954. Solar Panel Waste, 2014Bell Labs & PV Cycle
Para la traducción al español, haga [1]clic aquí
The last few years have seen growing concern over what happens to solar panels at the end of their life. Consider the following statements:
* The problem of solar panel disposal “will explode with full force in two or three decades and wreck the environment” because it “is a huge amount of waste and they are not easy to recycle.” * “The reality is that there is a problem now, and it’s only going to get larger, expanding as rapidly as the PV industry expanded 10 years ago.” * “Contrary to previous assumptions, pollutants such as lead or carcinogenic cadmium can be almost completely washed out of the fragments of solar modules over a period of several months, for example by rainwater.”
Were these statements made by the right-wing Heritage Foundation? Koch-funded global warming deniers? The editorial board of the Wall Street Journal?
None of the above. Rather, the quotes come from [2]a senior Chinese solar official, [3]a 40-year veteran of the U.S. solar industry, and [4]research scientists with the German Stuttgart Institute for Photovoltaics.
With few environmental journalists willing to report on much of anything other than the good news about renewables, it’s been left to environmental scientists and solar industry leaders to raise the alarm.
“I’ve been working in solar since 1976 and that’s part of my guilt,” the veteran [5]solar developer told Solar Power World last year. “I’ve been involved with millions of solar panels going into the field, and now they’re getting old.”
The Trouble With Solar Waste
The International Renewable Energy Agency (IRENA) in 2016 estimated there was about 250,000 metric tonnes of solar panel waste in the world at the end of that year. [6]IRENA projected that this amount could reach 78 million metric tonnes by 2050.
Solar panels often contain lead, cadmium, and other toxic chemicals that cannot be removed without breaking apart the entire panel. “Approximately 90% of most PV modules are made up of glass,” [7]notes San Jose State environmental studies professor Dustin Mulvaney. “However, this glass often cannot be recycled as float glass due to impurities. Common problematic impurities in glass include plastics, lead, cadmium and antimony.”
Researchers with the Electric Power Research Institute (EPRI) [8]undertook a study for U.S. solar-owning utilities to plan for end-of-life and concluded that solar panel “disposal in “regular landfills [is] not recommended in case modules break and toxic materials leach into the soil” and so “disposal is potentially a major issue.”
California is in the process of [9]determining how to divert solar panels from landfills, which is where they currently go, at the end of their life.
Californiaʼs Department of Toxic Substances Control (DTSC), which is implementing the new regulations, [10]held a meeting last August with solar and waste industry representatives to discuss how to deal with the issue of solar waste. At the meeting, the representatives from industry and DTSC all acknowledged how difficult it would be to test to determine whether a solar panel being removed would be classified as hazardous waste or not.
The DTSC described building a database where solar panels and their toxicity could be tracked by their model numbers, but itʼs not clear DTSC will do this.
“The theory behind the regulations is to make [disposal] less burdensome,” explained Rick Brausch of DTSC. “Putting it as universal waste eliminates the testing requirement.”
The fact that cadmium can be washed out of solar modules by rainwater is increasingly a concern for local environmentalists like the Concerned Citizens of Fawn Lake in Virginia, where a [11]6,350 acre solar farm to partly power [12]Microsoft data centers is being proposed.
“We estimate there are 100,000 pounds of cadmium contained in the 1.8 million panels,” Sean Fogarty of the group told me. “Leaching from broken panels damaged during natural events — hail storms, tornadoes, hurricanes, earthquakes, etc. — and at decommissioning is a big concern.”
There is real-world precedent for this concern. A tornado in 2015 broke 200,000 solar modules at southern California solar farm Desert Sunlight.
“Any modules that were broken into small bits of glass had to be swept from the ground," Mulvaney explained, "so lots of rocks and dirt got mixed in that would not work in recycling plants that are designed to take modules. These were the cadmium-based modules that failed [hazardous] waste tests, so were treated at a [hazardous] waste facility. But about 70 percent of the modules were actually sent to recycling, and the recycled metals are in new panels today.”
And when Hurricane Maria hit Puerto Rico last September, the nation’s second largest solar farm, responsible for 40 percent of the island’s solar energy, [13]lost a majority of its panels.
Destroys Solar Farm in Puerto RicoBob Meinetz
Many experts urge mandatory recycling. The main finding promoted by IRENAʼs in its [14]2016 report was that, “If fully injected back into the economy, the value of the recovered material [from used solar panels] could exceed USD 15 billion by 2050.”
But IRENA’s study did not compare the value of recovered material to the cost of new materials and admitted that “Recent studies agree that PV material availability is not a major concern in the near term, but critical materials might impose limitations in the long term.”
They might, but today recycling costs more than the economic value of the materials recovered, which is why most solar panels end up in landfills. “The absence of valuable metals/materials produces economic losses,” [15]wrote a team of scientists in the International Journal of Photoenergy in their study of solar panel recycling last year, and “Results are coherent with the literature.”
Chinese and Japanese experts agree. “If a recycling plant carries out every step by the book,” a Chinese expert told [16]The South China Morning Post, “their products can end up being more expensive than new raw materials.”
Toshiba Environmental Solutions [17]told Nikkei Asian Review last year that,
Low demand for scrap and the high cost of employing workers to disassemble the aluminum frames and other components will make it difficult to create a profitable business unless recycling companies can charge several times more than the target set by [Japan’s environment ministry].
Can Solar Producers Take Responsibility?
In 2012, First Solar [18]stopped putting a share of its revenues into a fund for long-term waste management. “Customers have the option to use our services when the panels get to the end of life stage,” a spokesperson told Solar Power World. “We’ll do the recycling, and they’ll pay the price at that time.”
Or they won’t. “Either it becomes economical or it gets mandated. ” [19]said EPRI’s Cara Libby. “But I’ve heard that it will have to be mandated because it won’t ever be economical.”
Last July, Washington became the first U.S. state to require manufacturers selling solar panels to have a plan to recycle. But the legislature did not require manufacturers to pay a fee for disposal. “Washington-based solar panel manufacturer Itek Energy assisted with the bill’s writing,” [20]noted Solar Power World.
The problem with putting the responsibility for recycling or long-term storage of solar panels on manufacturers, says [21]the insurance actuary Milliman, is that it increases the risk of more financial failures like the kinds that afflicted the solar industry over the last decade.
[A]ny mechanism that finances the cost of recycling PV modules with current revenues is not sustainable. This method raises the possibility of bankruptcy down the road by shifting today’s greater burden of ‘caused’ costs into the future. When growth levels off then PV producers would face rapidly increasing recycling costs as a percentage of revenues.
[22]Since 2016, Sungevity, Beamreach, Verengo Solar, SunEdison, Yingli Green Energy, [23]Solar World, and Suniva have gone bankrupt.
The result of such bankruptcies is that the cost of managing or recycling PV waste will be born by the public. “In the event of company bankruptcies, PV module producers would no longer contribute to the recycling cost of their products,” [24]notes Milliman, “leaving governments to decide how to deal with cleanup.”
Governments of poor and developing nations are often not equipped to deal with an influx of toxic solar waste, experts say. German researchers at the Stuttgart Institute for Photovoltaics [25]warned that poor and developing nations are at higher risk of suffering the consequences.
Maharashtra, India, 2014Dipak Sheelare
Dangers and hazards of toxins in photovoltaic modules appear particularly large in countries where there are no orderly waste management systems… Especially in less developed countries in the so-called global south, which are particularly predestined for the use of photovoltaics because of the high solar radiation, it seems highly problematic to use modules that contain pollutants.
The attitude of some solar recyclers in China appears to feed this concern. “A sales manager of a solar power recycling company,” the [26]South China Morning News reported, “believes there could be a way to dispose of China’s solar junk, nonetheless.”
“We can sell them to Middle East… Our customers there make it very clear that they don’t want perfect or brand new panels. They just want them cheap… There, there is lots of land to install a large amount of panels to make up for their low performance. Everyone is happy with the result.”
In other words, there are firms that may advertise themselves as “solar panel recyclers” but instead sell panels to a secondary markets in nations with less developed waste disposal systems. In the past, communities living near electronic waste dumps in Ghana, Nigeria, Vietnam, Bangladesh, Pakistan, and India have been [27]primary e-waste destinations.
According to [28]a 2015 United Nations Environment Program (UNEP) report, somewhere between 60 and 90 percent of electronic waste is illegally traded and dumped in poor nations. Writes UNEP:
[T]housands of tonnes of e-waste are falsely declared as second-hand goods and exported from developed to developing countries, including waste batteries falsely described as plastic or mixed metal scrap, and cathode ray tubes and computer monitors declared as metal scrap.
Unlike other forms of imported e-waste, used solar panels can enter nations legally before eventually entering e-waste streams. [29]As the United Nation Environment Program notes, “loopholes in the current Waste Electrical and Electronic Equipment (WEEE) Directives allow the export of e-waste from developed to developing countries (70% of the collected WEEE ends up in unreported and largely unknown destinations).”
A Path Forward on Solar Panel Waste
Perhaps the biggest problem with solar panel waste is that there is so much of it, and thatʼs not going to change any time soon, for a basic physical reason: [30]sunlight is dilute and diffuse and thus require large collectors to capture and convert the sunʼs rays into electricity. Those large surface areas, in turn, require an order of magnitude more in materials — whether todayʼs toxic combination of glass, heavy metals, and rare earth elements, or some new material in the future — than other energy sources.
Solar requires 15x more materials than nuclearEP
All of that waste creates a large quantity of material to track, which in turn requires requires coordinated, overlapping, and different responses at the international, national, state, and local levels.
The local level is where action to dispose of electronic and toxic waste takes place, often under state mandates. In the past, differing state laws have motivated the U.S. Congress to put in place national regulations. Industry often prefers to comply with a single national standard rather than multiple different state standards. And as the problem of the secondary market for solar shows, ultimately there needs to be some kind of international regulation.
The first step is a fee on solar panel purchases to make sure that the cost of safely removing, recycling or storing solar panel waste is internalized into the price of solar panels and not externalized onto future taxpayers. An obvious solution would be to impose a new fee on solar panels that would go into a federal disposal and decommissioning fund. The funds would then, in the future, be dispensed to state and local governments to pay for the removal and recycling or long-term storage of solar panel waste. The advantage of this fund over extended producer responsibility is that it would insure that solar panels are safely decommissioned, recycled, or stored over the long-term, even after solar manufacturers go bankrupt.
Second, the federal government should encourage citizen enforcement of laws to decommission, store, or recycle solar panels so that they do not end up in landfills. Currently, citizens have the right to file lawsuits against government agencies and corporations to force them to abide by various environmental laws, including ones that protect the public from toxic waste. Solar should be no different. Given the decentralized nature of solar energy production, and lack of technical expertise at the local level, it is especially important that the whole society be involved in protecting itself from exposure to dangerous toxins.
“We have a County and State approval process over the next couple months,” Fogarty of Concerned Citizens of Fawn Lake told me, “but it has become clear that local authorities have very little technical breadth to analyze the impacts of such a massive solar power plant.”
Lack of technical expertise can be a problem when solar developers like Sustainable Power Group, or sPower, [31]incorrectly claim that the cadmium in its panels is not water soluble. That claim has been contradicted by the previously-mentioned Stuttgart [32]research scientists who found cadmium from solar panels “can be almost completely washed out…over a period of several months…by rainwater.”
Third, the United Nations Environment Programme’s [33]Global Partnership for Waste Management, as part of its [34]International Environmental Partnership Center, should more strictly monitor e-waste shipments and encourage nations importing used solar panels into secondary markets to impose a fee to cover the cost of recycling or long-term management. Such a recycling and waste management fund could help nations address their other e-waste problems while supporting the development of a new, high-tech industry in recycling solar panels.
None of this will come quickly, or easily, and some solar industry executives will resist internalizing the cost of safely storing, or recycling, solar panel waste, perhaps for understandable reasons. They will rightly note that there are other kinds of electronic waste in the world. But it is notable that some new forms of electronic waste, namely smartphones like the iPhone, have in many cases replaced things like stereo systems, GPS devices, and alarm clocks and thus reduced their contribution to the e-waste stream. And no other electronics industry makes being “clean” its main selling point.
Wise solar industry leaders can learn from the past and be proactive in seeking stricter regulation in accordance with growing scientific evidence that solar panels pose a risk of toxic chemical contamination. “If waste issues are not preemptively addressed,” [35]warns Mulvaney, “the industry risks repeating the disastrous environmental mistakes of the electronics industry.”
If the industry responds with foresight, Mulvaney notes, it could end up sparking clean innovation including “developing PV modules without hazardous inputs and recycled rare metals.“ And thatʼs something everyone can get powered up about.
References
Visible links 1. https://docs.google.com/document/d/e/2PACX-1vQi__sfgZAK5HDD5IDw1mWK560owVAFBrD4tLMb6CE2y-5_vn6245o-ja8C8J8m9ouzeLjj8YHGgtyz/pub 2. http://www.scmp.com/news/china/society/article/2104162/chinas-ageing-solar-panels-are-going-be-big-environmental-problem 3. https://www.solarpowerworldonline.com/2018/04/its-time-to-plan-for-solar-panel-recycling-in-the-united-states/ 4. https://www.welt.de/wirtschaft/article176294243/Studie-Umweltrisiken-durch-Schadstoffe-in-Solarmodulen.html 5. https://www.solarpowerworldonline.com/2018/04/its-time-to-plan-for-solar-panel-recycling-in-the-united-states/ 6. http://www.irena.org/publications/2016/Jun/End-of-life-management-Solar-Photovoltaic-Panels 7. https://solarindustrymag.com/online/issues/SI1507/FEAT_02_Act-Now-To-Handle-The-Coming-Wave-Of-Toxic-PV-Waste.html 8. https://www.solarpowerinternational.com/wp-content/uploads/2016/09/N253_9-14-1530.pdf 9. https://www.dtsc.ca.gov/HazardousWaste/PVRegs.cfm 10. https://www.youtube.com/watch?v=B2bYYpyHJv8&feature=youtu.be 11. http://www.fredericksburg.com/opinion/columns/column-planting-a-mega-solar-farm-in-spotsy-is-a/article_7a0043b3-af15-58a5-80b9-98ece15c95a6.html 12. http://www.richmond.com/business/local/microsoft-says-it-will-buy-power-from-virginia-s-largest/article_a9296399-1bbf-526e-9c42-eb534c9628d0.html 13. http://www.theweatherjunkies.com/single-post/2017/09/28/Puerto-Rican-Solar-Farms-Heavily-Damaged-By-Hurricane-Maria 14. http://www.irena.org/-/media/Files/IRENA/Agency/Publication/2016/IRENA_IEAPVPS_End-of-Life_Solar_PV_Panels_2016.pdf 15. https://www.hindawi.com/journals/ijp/2017/4184676/ 16. http://www.scmp.com/news/china/society/article/2104162/chinas-ageing-solar-panels-are-going-be-big-environmental-problem 17. https://asia.nikkei.com/Tech-Science/Tech/Japan-tries-to-chip-away-at-mountain-of-disused-solar-panels?page=2 18. https://www.solarpowerworldonline.com/2018/04/its-time-to-plan-for-solar-panel-recycling-in-the-united-states/ 19. https://www.solarpowerworldonline.com/2018/04/its-time-to-plan-for-solar-panel-recycling-in-the-united-states/ 20. https://www.solarpowerworldonline.com/2018/04/its-time-to-plan-for-solar-panel-recycling-in-the-united-states/ 21. http://www.milliman.com/insight/insurance/Solar-cell-guarantees-When-recycling-gets-expensive/ 22. https://www.fool.com/investing/2017/04/18/solar-shake-up-why-more-bankruptcies-are-coming-in.aspx 23. https://www.fool.com/investing/2017/05/19/bankruptcies-continue-in-solar-industry.aspx 24. http://www.milliman.com/insight/insurance/Solar-cell-guarantees-When-recycling-gets-expensive/ 25. https://www.welt.de/wirtschaft/article176294243/Studie-Umweltrisiken-durch-Schadstoffe-in-Solarmodulen.html 26. http://www.scmp.com/news/china/society/article/2104162/chinas-ageing-solar-panels-are-going-be-big-environmental-problem 27. https://www.unenvironment.org/news-and-stories/press-release/illegally-traded-and-dumped-e-waste-worth-19-billion-annually-poses 28. https://www.unenvironment.org/news-and-stories/press-release/illegally-traded-and-dumped-e-waste-worth-19-billion-annually-poses 29. http://web.unep.org/gpwm/what-we-do/e-waste-management 30. https://www.forbes.com/sites/michaelshellenberger/2018/04/25/yes-solar-and-wind-really-do-increase-electricity-prices-and-for-inherently-physical-reasons/#7e796c9c17e8 31. http://www.fredericksburg.com/news/local/debate-over-solar-farm-heats-up-in-spotsylvania/article_abf2e1fd-9483-5c07-a45a-987a54bee320.html 32. https://www.welt.de/wirtschaft/article176294243/Studie-Umweltrisiken-durch-Schadstoffe-in-Solarmodulen.html 33. http://web.unep.org/gpwm/what-we-do/integrated-solid-waste-management 34. http://web.unep.org/ietc/ 35. https://solarindustrymag.com/online/issues/SI1507/FEAT_02_Act-Now-To-Handle-The-Coming-Wave-Of-Toxic-PV-Waste.html
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Wait For It: Serotonin and Confidence at the Root of Patience in New Study
Just a little longer. It’s a common experience: hanging on in the hopes that our patience will pay off in the end. From waiting from a restaurant seat to queuing at a theme park, we’re all able to put our desire for immediate gratification to one side when we know there’s something good coming up. Most of the time. But this isn’t just a human trait – a new study shows that mice can be patient too, and reveals a link between the brain’s chemical system and the mice’s belief about how waiting will pay off.
The effect of neuromodulator serotonin on mice’s ability to stay patient when waiting for a reward is at the core of a new study published in Nature Communications. The authors, Dr. Katsuhiko Miyazaki and Dr. Kayoko Miyazaki, analyzed how the rodents behaved under the influence of serotonin, as part of a study conducted in the Neural Computation Unit at the Okinawa Institute of Science and Technology.
Serotonin is a chemical messenger that influences neuron functions. It has been linked to a huge array of behaviors, from mood and sleep, to cravings and spontaneity. The power of the chemical over human behavior has made it a key focus in the treatment of mental conditions, such as depression by selective serotonin receptor inhibitors (SSRIs), which slow down the reabsorption of serotonin and keep it active in the brain.
“Serotonin has had a lot of study in pharmacology, and serotonergic drugs are commonly prescribed,” said Katsuhiko Miyazaki, “but the role that serotonin has over behavior isn’t clear”. The team investigated for a causal relationship between serotonin levels and behavior in mice.
The mice were trained to perform a task to obtain a food reward: place their nose into a small hole and wait – dubbed a “nose poke”. After a pre-set duration, the reward was delivered. In a previous study, the team used a method called optogenetics, a method which allows scientist to use light to stimulate specific neurons with precise timing. These neurons are genetically modified to a produce a light-sensitive protein that are then stimulated by shining light along a fiber optic implanted in the brain. In the study, serotonin-producing neurons were optogenetically stimulated in a part of the brain called the dorsal raphe nucleus (DRN), which output widely to the forebrain. The result was that increasing the activity of serotonin neurons in the DRN drastically increased the amount of time mice were willing to wait for a food reward.
While the study showed that serotonin increased patience, the latest study tested whether mice respond similarly in circumstances when getting a reward was uncertain. Would mice wait for food regardless of the probability and timing of it turning up, or would they give up if they predicted a low chance of return on their time investment?
The new trials showed there are limits to serotonin’s ability to enhance patience. Mice were given a nose-poke trial with a 75% chance of a reward, with a 3 second waiting period before the reward was delivered. When these mice were subject to a no-reward outcome, their waiting time was prolonged, as expected from the previous paper. However, in tests where the chance of reward delivery following a nose-poke was 50% or 25%, increasing serotonin had no effect on the mice’ waiting time. “The patience effect only works when the mouse thinks there is a high probability of reward” said Dr Miyazaki.
(Figure 1: With a 25% probability of reward, the nose-poke time in no-food trials did not change even if serotonin neurons were activated (left). But with a 75% reward probability, the nose-poke time during no-food trials increased when serotonin neurons were activated (right))
They also found that serotonin stimulation made the mice to wait longer when the timing of a reward was harder to predict. In a test with a 75% chance of getting a reward, in some sessions mice were rewarded after precise periods, while in other sessions they were rewarded after randomized timing. The extended waiting times by serotonin neuron stimulation were more prominent when the reward timing was randomized. (Fig. 2).
(Figure 2: In a test where food rewards were always delivered after 6 seconds, serotonin’s effect of extending nose-poke time was small (left). But in tests where food goes was delivered after two, six, or ten seconds later, serotonin boosted nose poke times significantly (right))
To help explain the results of their experiment, the team constructed a computational model to coherently explain the experimental data. In the model, the mice were able to expect when a food reward would be delivered, and to judge when they were subject to a no-reward trial. The model could reproduce the experimental results by assuming that serotonin affects the mice’ confidence of receiving a reward when their subjective confidence is high. In a 75% reward probability trial, for example, serotonin made the mice behave as if there was a 95% chance of reward.
The model also reproduced the result of timing uncertainty. When the mice were uncertain of the timing of when a reward would be delivered, it became difficult for them to judge whether they were waiting in a reward trial or no-reward trial. Serotonin stimulation increased the mice’s belief that they were in a reward trial, delaying their judgement further as reward timing was less clear.
The findings show that the relationship between the activation of serotonin and subsequent behavior is highly dependent on the animals’ belief about the circumstances. These results may have implications for our understanding of how humans taking serotonin boosting drugs can also be affected. “This could help explain why combined treatment of depression with SSRIs and Cognitive Behavior Therapy (CBT) is more effective than just SSRIs alone,” said Dr. Miyazaki. “The psychological boost of the therapy is enhanced by raised serotonin levels.”
starting a counterpart tumblr blog to “shittycarmods” called shittypcbuilds and the first post will be this
Carrying on the legacy of being completely wrong 99% of the time are we?
Gingerbread Caramel Candy (Homemade Chewy Caramel Recipe No Corn Syrup)
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Random forest
still a win tho!!
check out my book kick-starter : )
Fast Pix2Pix
Project from Zaid Alyafeai presents a faster interactive verson of familiar image translation demos which presents instant renderings after each drawn input:
A simple implementation of the pix2pix paper on the browser using TensorFlow.js. The code runs in real time after you draw some edges. Make sure you run the model in your laptop as mobile devices cannot handle the current models. Use the mouse to draw.
Try it out here
Avocado Eggrolls with BBQ Chicken
Really nice recipes. Every hour.
Show me what you cooked!
Quality. Content.
the only post i care about
BULGOGI BEEF KOREAN TACOS WITH ASIAN PEAR MANGO SLAW
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