A Harvard professor named Avi Loeb, the chair of Harvard’s Department of Astronomy, believes the first sign we will get of an alien intelligence won’t be spacecraft. Rather he thinks the first sign we will get of extraterrestrial life will be the civilization’s trash. Loeb has a book being published on January 26 that lays out a case for why a bizarre asteroid that entered our solar system in 2017 was a piece of alien technology.
The object he is talking about was the first known interstellar object to enter our solar system and traveled to our solar system from the direction of Vega. Vega is a star about 25 light-years, nearby in the cosmic scale. The object entered our solar system’s orbital plane on September 6, 2017. By September 9, the object, known as Oumuamua, made its closest approach to the sun, and by the end of September and it traveled past Venus’s orbital distance.
It streaked past Earth at about 58,900 mph on October 7 and moved quickly towards the constellation Pegasus. The object was about 100 yards long and was cigar-shaped. The big splash the object made was that it was the first interstellar object ever detected in the solar system. Astronomers came to that conclusion after studying the object’s trajectory. They found it was not bound by the Sun’s gravity, suggesting it was passing through our solar system.
Initially was believed to be an ordinary comet, but Loeb theorized that it could be discarded technology from an alien civilization. Several observations lead him to the conclusion. The first observation was that the cigar-shaped object was 5 to 10 times longer than it was wide, and scientists have never seen a naturally occurring space body look like that.
It was also unusually bright, at least ten times more reflective than typical stony asteroids or comets. The observation that pushed Loeb to believe it was a discarded alien technology was the way it moved. He said it had excess push away from the sun. He said typically, the sun’s pull will significantly speed up an object as it nears, then the object will slow considerably after it passes the sun and gets further away. However, Oumuamua accelerated at a slight but statistically significant rate away from the sun.
Loeb believes it was being pushed by force besides the Sun’s gravity alone. Loeb and colleagues looked at numbers having do with the shape and size of the object and concluded that it wasn’t cigar-shaped but possibly a disk less than a millimeter thick with sail-like proportions. If it was a solar sail, which would account for his acceleration as it moved away from the sun. Not all scientists agree with this theory and will likely never know exactly what Oumuamua was.
Three more COVID-19 cases at GRT – KitchenerToday.com
Grand River Transit is confirming three more COVID cases.
All the affected employees are bus drivers.
Two of them last worked on January 15, while the third was last on the job on Jan. 11.
GRT points out all three are now self-isolating at home.
So far in Janaury, nine employees have tested positive for the virus.
Grand River Transit lists COVID-19 cases on its website for transparency purposes, but some details are not released due to privacy concerns.
Since the on-set of the pandemic, multiple safety precautions have been put in place to protect drivers and riders, including barriers and mandatory masks.
Microplastics could be eliminated from wastewater at source – E&T Magazine
A team of researchers from the Institut national de la recherche scientifique (INRS), Quebec, Canada, have developed an electrolytic process for treating wastewater, degrading microplastics at the source.
Microplastics are fragments of plastic less than 5mm long, often contained in toiletries or shedding from polyester clothing. They are present in virtually every corner of the Earth, and pose a particularly serious threat to marine ecosystems. High concentrations of microplastics can be carried into the environment in wastewater.
There are no established degradation methods to handle microplastics during wastewater treatment; although some techniques exist, these involve physical separation as a means of filtering the pollutant. These techniques do not degrade microplastics, which requires additional work to manage the separated fragments. So far, research into degradation of microplastics has been very limited.
The INRS researchers, led by water treatment expert Professor Patrick Drogui, decided to try degrading plastic particles through electrolytic oxidation – a process that does not require the addition of chemicals.
“Using electrodes, we generate hydroxyl radicals to attack microplastics,” Drogui said. “This process is environmentally friendly because it breaks them down into CO2 and water molecules, which are non-toxic to the ecosystem.”
Drogui and his colleagues experimented with different anode materials and other parameters such as current intensity, anode surface, electrolyte type, electrolyte concentration and reaction time. They found that the electrolytic oxidation could degrade more than 58 ± 21 per cent of microplastics in one hour. The microplastics appeared to degrade directly into gas rather than breaking into smaller particles.
Lab-based tests on water artificially contaminated with fragments of polystyrene showed a degradation efficiency as high as 89 per cent.
“This work demonstrated that [electrolytic oxidation] is a promising process for degradation of microplastics in water without production of any waste or by-products,” the researchers wrote in their Environmental Pollution report.
Drogui envisions this technology being used to treat microplastic-rich wastewater emerging from sources such as commercial laundries.
“When this commercial laundry water arrives at the wastewater treatment plant, it is mixed with large quantities of water, the pollutants are diluted and therefore more difficult to degrade,” he explained. “Conversely, by acting at the source, i.e. at the laundry, the concentration of microplastics is higher, thus more accessible for electrolytic degradation.”
Next, the researchers will move on to experimenting with degrading microplastics on water outside the artificial laboratory environment. Real commercial laundry water contains other materials that can affect the degradation process, such as carbonates and phosphates, which can trap radicals and limit degradation. If the technology is effective under these circumstances, the researchers plan to conduct a study to determine the cost of scaling up this treatment to implement in laundries.
Last week, researchers from the University of Barcelona published a study suggesting that encouraging a greater proliferation of seagrass meadows in the shallows of oceans could help trap, extract and carry marine plastic debris to shore.
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Eliminating microplastics in wastewater directly at the source – EurekAlert
A research team from the Institut national de la recherche scientifique (INRS) has developed a process for the electrolytic treatment of wastewater that degrades microplastics at the source. The results of this research have been published in the Environmental Pollution journal.
Wastewater can carry high concentrations of microplastics into the environment. These small particles of less than 5 mm can come from our clothes, usually as microfibers. Professor Patrick Drogui, who led the study, points out there are currently no established degradation methods to handle this contaminant during wastewater treatment. Some techniques already exist, but they often involve physical separation as a means of filtering pollutants. These technologies do not degrade them, which requires additional work to manage the separated particles.
Therefore, the research team decided to degrade the particles by electrolytic oxidation, a process not requiring the addition of chemicals. “Using electrodes, we generate hydroxyl radicals (* OH) to attack microplastics. This process is environmentally friendly because it breaks them down into CO2 and water molecules, which are non-toxic to the ecosystem,” explains the researcher. The electrodes used in this process are more expensive than iron or steel electrodes, which degrade over time, but can be reused for several years.
An effective treatment
Professor Drogui envisions the use of this technology at the exit of commercial laundries, a potential source of microplastics release into the environment. “When this commercial laundry water arrives at the wastewater treatment plant, it is mixed with large quantities of water, the pollutants are diluted and therefore more difficult to degrade. Conversely, by acting at the source, i.e., at the laundry, the concentration of microplastics is higher (per litre of water), thus more accessible for electrolytic degradation,” explains the specialist in electrotechnology and water treatment.
Laboratory tests conducted on water artificially contaminated with polystyrene showed a degradation efficiency of 89%. The team plans to move on to experiments on real water. “Real water contains other materials that can affect the degradation process, such as carbonates and phosphates, which can trap radicals and reduce the performance of the oxidation process,” says Professor Drogui, scientific director of the Laboratory of Environmental Electrotechnologies and Oxidative Processes (LEEPO).
If the technology demonstrates its effectiveness on real commercial laundry water, the research group intends to conduct a study to determine the cost of treatment and the adaptation of the technology to treat larger quantities of wastewater. Within a few years, the technology could be implemented in laundry facilities.
About the study
The article “Treatment of microplastics in water by anodic oxidation: A case study for polystyrene”, by Marthe Kiendrebeogo, Mahmoodreza Karimiestahbanati, Ali Khosravanipour Mostafazadeh, Patrick Drogui and Rajeshwar Dayal Tyagi, was published in the Environmental Pollution journal. The team received financial support from the Fonds de recherche du Québec – Nature et technologies (FRQNT), the CREATE-TEDGIEER program, the Natural Sciences and Engineering Research Council of Canada (NSERC) and the Canadian Francophonie Scholarship Program (CFSP).
INRS is a university dedicated exclusively to graduate level research and training. Since its creation in 1969, INRS has played an active role in Quebec’s economic, social, and cultural development and is ranked first for research intensity in Quebec and in Canada. INRS is made up of four interdisciplinary research and training centres in Quebec City, Montreal, Laval, and Varennes, with expertise in strategic sectors: Eau Terre Environnement, Énergie Matériaux Télécommunications, Urbanisation Culture Société, and Armand-Frappier Santé Biotechnologie. The INRS community includes more than 1,400 students, postdoctoral fellows, faculty members, and staff.
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