On 11 March 2011, Japan suffered a magnitude 9 earthquake, which also impacted the Fukushima Nuclear Power Plant. Since then, more than a million tonnes of radioactive water has been collected from the damaged cooling system of the plant, but the tanks will be filled to capacity by 2022.
“The only option will be to drain it into the sea and dilute it,” said Yoshiaki Harada, Japan’s environment minister about the future fate of the radioactive water after the tanks are full. The issue will be discussed by the Japanese government, and they will also obtain a report from an expert committee before making a decision.
If the government gives a green light to dumping the radioactive water in the ocean, that may anger neighbouring countries such as South Korea.
Coastal nuclear plants usually dump some cooling water into the ocean. That water contains tritium, an isotope of hydrogen that is hard to separate and is considered relatively harmless.
Source: MTI – Hungarian News Agency
Despite the continuous development of wastewater treatment technologies, the complete removal of synthetic pharmaceuticals using the three-step method currently in use is yet to be achieved. A number of researchers are working to improve the efficiency of the removal of these molecules from the present value of 10 to 30 percent.
As part of a campaign launched by the European Union, which culminated on 21 September, International Coastal CleanUp Day, marine waste washed up on beaches is collected in more than 80 countries on all inhabited continents, the European Commission has announced.
This astonishing video is about the creation of the Great Pacific Garbage Patch, which is twice the size of the state of Texas.
The set of problems around pharmaceutical residues is extremely complex: the active compounds that are released can reach not only drinking water but also our food. Luckily, scientists have started investigating the problem, and the development of technologies able to offer a solution is also under way.
The active ingredients of various medicines are released into the environment with treated and untreated wastewater, and today they can be detected not only in surface waters but also in underground waters and the soil. But what defensive measures can we take against them? Hundreds of research groups are studying that question worldwide.
Data from the UK Cetacean Strandings Investigation Programme indicates that between 2011 and 2017, almost five thousand marine mammals were stranded around the shores of the UK.
Nine of the ten most common types of seaside waste are related to human food and drink consumption.
More and more pharmaceutical drugs are sold each year, which, along with their benefits, have their disadvantages, too: some of the active ingredients are discharged from our bodies unchanged and they end up polluting our natural waters. Our current knowledge suggests that this does not carry a significant health risk, but as we do not know the long-term effects of the process, it is a problem for which we must find a solution in the near future, for instance by introducing new technologies.
Three design students in Taiwan teamed up to create the Polluted Water Popsicles project so as to call attention to the increasing level of water pollution caused by the country’s economic growth and urbanisation.
Modern medical science offers effective solutions to an increasing number of health problems, and in most cases they take the form of medications. Pills make our pain go away, they improve our quality of life and aid our recovery. But, unfortunately, the effects of their active ingredients do not stop there.