Removed from wastewater through actions such as adsorption and internal storage! For factory wastewater, hot spring wastewater, etc.
"Adsoap" is a porous material made from several types of clay minerals developed for the purpose of adsorbing and fixing various ionized harmful substances contained in wastewater. The main components are MgO, Fe2O3, and SiO2, and it is shaped like pellets with a diameter of 5mm and a length of approximately 6 to 8mm. When this product is immersed in wastewater, the components inside cause the nearby water pH to gradually rise to around 9. Additionally, arsenic, boron, and fluoride, which exist as anions in water, are removed from the wastewater through adsorption onto the positively charged surface of the product and other actions such as storage within the material due to electrostatic attraction. [Features] - It has the ability to precipitate and remove heavy metals such as cadmium, lead, and zinc as hydroxides, as well as to solidify and capture them. - The main components are MgO, Fe2O3, and SiO2. - It is shaped like pellets with a diameter of 5mm and a length of approximately 6 to 8mm. - It has been adopted in the public project for the Ministry of the Environment's research on the development and dissemination of wastewater treatment technology for hot springs in fiscal year 2009. *For more details, please refer to the PDF materials or feel free to contact us.*
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basic information
【Possible Contaminants (Partial List)】 ■ Cadmium (Cd) ■ Hexavalent Chromium (Cr(VI)) ■ Cyanide (CN) ■ Mercury (Hg) ■ Selenium (Se) ■ Lead (Pb) ■ Arsenic (As) ■ Fluorine (F) *For more details, please refer to the PDF document or feel free to contact us.
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【Target】 ■Factory wastewater ■Hot spring wastewater *For more details, please refer to the PDF document or feel free to contact us.
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Company information
Our company specializes in the decomposition of harmful substances present in soil, water, and air, and we possess the necessary patented technologies and a certain track record to significantly contribute to the improvement of the global environment in the future. The main achievements to date and the areas where we can contribute in the future are as follows: 1. The harmless treatment of coal ash generated from coal-fired power plants and the recovery of CO2 during this process. (Using this technology, the demonstration tests for the recovery and mineralization of CO2 emitted from coal-fired power generation will be future challenges.) 2. The adsorption and fixation of various ionized harmful substances contained in wastewater and waste liquids. 3. The decomposition of harmful organic compounds in waste liquids, the detoxification of wastewater, and deodorization. (Using this technology, the demonstration tests for the practical application of decomposition technology for PFAS, which has recently become a problem in various regions, will be future challenges.) 4. The reduction of radiation (cesium) released into the environment.
