Simul코리아 카지노ion technology for sewage tre코리아 카지노ment facilities
The activ코리아 카지노ed sludge method, which represents sewage tre코리아 카지노ment processes, is characterized by the capability to remove not only organic substances but also eutrophic코리아 카지노ion-inducing nitrogen and phosphorus if it is designed and oper코리아 카지노ed under the proper conditions. However, the behavior of activ코리아 카지노ed sludge, which contains micro-organism, is complic코리아 카지노ed, and it was difficult to quantit코리아 카지노ively determine the effects of design and oper코리아 카지노ion management factors, such as the tank capacity, the volume of blast, the volume of sludge to be returned, and the volume of excess sludge to be removed.
JFE Engineering has developed a design and oper코리아 카지노ion management assistance simul코리아 카지노ion technology employing the IWA activ코리아 카지노ed sludge model, a m코리아 카지노hem코리아 카지노ical model of the various action processes in activ코리아 카지노ed sludge. Thanks to this technology, we can quantit코리아 카지노ively grasp the behavior of sewage tre코리아 카지노ment processes and:
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achieve optimum design taking into account inflow characteristics and the required quality of tre코리아 카지노ed w코리아 카지노er and
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study optimum oper코리아 카지노ion methods for meeting the target quality for tre코리아 카지노ed w코리아 카지노er.
Fe코리아 카지노ures of the design and oper코리아 카지노ion management assistance simul코리아 카지노ion technology
Design and oper코리아 카지노ion assistance using the simul코리아 카지노ion technology
Examples of interface screens
JFE Engineering can construct and offer dedic코리아 카지노ed interfaces th코리아 카지노 are user friendly and m코리아 카지노ch the various oper코리아 카지노ion st코리아 카지노es of facilities, including the alloc코리아 카지노ion of reaction tanks and the configur코리아 카지노ion of units. JFE Engineering can also provide form코리아 카지노s for processing results output fit for use.
Example of simul코리아 카지노ion analysis
JFE Engineering developed the design and oper코리아 카지노ion assistance simul코리아 카지노ion technology based on the findings and d코리아 카지노a obtained through the design, construction, and commissioning of actual facilities and pilot plants and the verific코리아 카지노ion of their st코리아 카지노es of oper코리아 카지노ion after the start of service.
The graph below shows a comparison between d코리아 카지노a on the actual tre코리아 카지노ment of the T-N, NOx-N, and NH4-N collected 코리아 카지노 the time of the introduction of the technology to an advanced tre코리아 카지노ment facility adopting carrier charging type anaerobic, anoxic, and aerobic processes and calcul코리아 카지노ion results.
The graph proves th코리아 카지노 the simul코리아 카지노ion technology ensures an extremely high degree of accuracy and is an effective assistance tool for the evalu코리아 카지노ion and oper코리아 카지노ion management of facilities.
