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Decycle New Materials mainly aims at introducing MBBR reactor technology to water purification. This innovative solution represents a cost-effective approach to treating waste water.
One example of such a treatment process is a MBBR (abbreviation for Moving Bed Biofilm Reactor). The operation of this technology is to use biofilm carriers that are suspended in the reactor, providing a big surface for microorganisms. Having only recently been used as utensils, in our presence they break down pollutants and organics in the water. Moving biofilm carriers also minimizefouling and enhance treatment. In general, the separation of the pollutants in wastewater by MBBR reactor technology is a very efficient process that eliminates any need for further drainage other than on to beesriver or discharge for another use.
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When making a choice from among the various MBBR reactors, one needs to consider biofilm carrying material, mixing and aeration system together with some other key characteristics. Although not yet the mainstream MBBR BIOFILM MEDIA system on the market, you should expect to find systems with heavy duty carriers which have been designed for long (discussed in next section) and have a great deal of additional area where biomass may develop. The mixing system is designed to promote the movement of wastewater and carriers, while the aeration system should provide sufficientoxygen for microorganism growth. On top of them, we put in flexible and reliable control and monitoring for optimal performance and efficiency.
The MBBR processes are superior to the conventionalwastewater plants. They take up less land and energy, and are more treatment productive. MBBR Media are likewise more flexible than activated sludge in dealing with varying loads and wastewater characteristics. They were also simpler to use and service -- as compared to the legions of maintenance shops dealing with yesterday's technology, which means they were more affordable to run. Given these advantages, MBBR reactors have become increasingly popular among a range of industries and municipalities seeking environmentally friendly, sustainable water treatment solutions.
In spite of the several advantages of the MBBR reactor technology, there are common issues when integrating and operating such systems. Another potential trouble is that right biofilm carrier must be selected and maintained in order to achieve best performance. A further problem is the requirement to meet the changes of waste water quality as well as increase of the volume itself in order to keep efficient treatment. Appropriate system design, frequent sterility control and maintenance are part of the answer to these issues, helping MBBR Bio Media technology remain at its optimum.
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