{"id":117659,"date":"2023-08-23T13:02:22","date_gmt":"2023-08-23T17:02:22","guid":{"rendered":"https:\/\/savethewater.org\/?p=117659"},"modified":"2023-08-24T10:29:13","modified_gmt":"2023-08-24T14:29:13","slug":"algal-blooms-and-the-new-sponge-method-to-combat-them","status":"publish","type":"post","link":"https:\/\/savethewater.org\/algal-blooms-and-the-new-sponge-method-to-combat-them\/","title":{"rendered":"Algal Blooms and the New Sponge Method to Combat Them"},"content":{"rendered":"

By Caroline Majewski, Publishing Associate: Researcher and Writer at Save the Water\u2122 | August 23, 2023<\/p>\n

The New Sponge<\/h2>\n

Algal blooms are an increasing worry in our water systems. Current ways of getting rid of harmful algal blooms<\/a> (HABs) don\u2019t work well enough. The methods are not practical or efficient in their practice. It\u2019s hard to recover the treatment once it’s used. Specifically, the powdered catalysts are dispersed into the water. In short, the methods aren\u2019t effective enough to use on a large scale to combat HABs.<\/p>\n

A new study<\/a> in the American Chemical Society Environmental Science and Technology (ACS ES&T) Water shows an improved method for treating HABs. The method uses a floating sponge. Previous research shows the effectiveness of acids and strong oxidizing agents. These substances damage and destroy the cells. However, they leave byproducts. Therefore, researchers at Hunan University set out to improve this method.<\/p>\n

As a result, they improved on a sponge method<\/a> with a biochar powder that works with an oxidizing agent. This destroys algal cells in bodies of water and is reusable. Meanwhile, it doesn\u2019t release byproducts into the water.<\/p>\n

What\u2019s it Made of?<\/h2>\n

This process begins with a market-available melamine<\/a> (plastic) sponge. The next step coats the sponge in a charcoal-like powder. This biochar<\/a> is a carbon-containing waste derived from shrimp shells. The shrimp shells are washed, smashed, sieved, and then pyrolyzed<\/a> in a tubular reactor. The powder acts as the catalyst needed for the oxidizing agents to work.<\/p>\n

The researchers use extreme heat to combine a thin layer of polyvinyl alcohol<\/a> between the sponge and biochar. This layer links the melamine and biochar. Both of these work together with the persulfate-based oxidizing agent. Consequently, this process allows the sponge to attack algal cells with more power than previous methods.<\/p>\n

By using these materials in this way, the sponge floats. Therefore, it can be removed after use without product discharge.<\/p>\n

How it Works<\/h2>\n

Together, the powder and persulfate-based oxidants<\/a> work to destroy the algal cells without leaving byproducts. This process targets algae on a cellular level to inactivate it and break down different parts of the cell. This process results<\/a> by attacking the cell membranes and damaging their antioxidant systems. There are three steps to this process:<\/p>\n