It was a short-term test, but we were able to clearly capture signs of improvement in the bottom sediment around the equipment!
Hyouko is an artificial lake located in the Suibara area of Agano City, Niigata Prefecture, where problems arose due to the accumulation of sludge caused by the feed and droppings of gathered wild birds, as well as decaying plants. In response, purification was carried out through the activation of indigenous microorganisms using 'EIB (Micro-Nano Bubbles).' As a result, although it was a short-term test, signs of improvement were clearly observed in the bottom sediment around the device, and no negative impacts on the surrounding area of the device were confirmed. It is believed that the plankton that decomposes the bottom sediment was activated by this device, and it was confirmed that the lake was improving in water quality more than expected. 【Verification Experiment】 ■ Title: Hyouko Purification Experiment ■ Duration: September 14, 2011 - September 30, 2011 ■ Location: Hyouko (Agano City, Niigata Prefecture) ■ Information: Sludge was generated due to the feed and droppings of gathered wild birds and decaying plants. ■ Purification Method: Purification through the activation of indigenous microorganisms using EIB. *For more details, please refer to the PDF document or feel free to contact us.
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【Results and Discussion】 - Clear signs of improvement were observed in the bottom sediment around the device. - No negative impacts on the surrounding area of the device were confirmed. - It is believed that plankton that decompose bottom sediment were activated by EIB. - It was confirmed that the lake is improving in water quality more than expected. *For more details, please refer to the PDF document or feel free to contact us.*
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For more details, please refer to the PDF document or feel free to contact us.
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Our company provides environmentally conscious products through the development of heat-related equipment utilizing composite ceramics. The new material we developed, "CZ-80," is an active material composed of ultra-thermal diffusion ceramic composites, featuring excellent properties such as "high thermal conductivity," "thermal expansion rate approaching zero," and "flexible design." We have contributed to the challenging requests of many companies with research institutions, manufacturing plants, and processing factories by providing products, OEM services, and components. Moving forward, we will continue to leverage the properties of "CZ-80" to fulfill the requests of companies that were previously unattainable.