A water sampling method including: a detection step of detecting an index value related to an amount of microorganisms in a liquid flowing through a flow channel; a determination step of determining whether the index value detected in the detection step has reached a threshold value; and a water sampling step of, when determining in the determination step that the index value has reached the threshold value, sampling via a water sampling flow channel the liquid flowing through the flow channel as a liquid sample to be used for measurement of the microorganisms.

A method of operating a waste water treatment plant (WWTP) having at least one of an aerobic digester (AD) and a membrane bioreactor (MBR) is described. The method of operating AD is comprised of monitoring and controlling AD in real-time using an online extended Kalman filter (EKF) having a online dynamic model of AD. The EKF uses real-time AD measured data, and online dynamic model of AD to update adapted model parameters and estimate model based inferred variables for AD, which are used for AD control by AD control system having supervisory and low-level control layers. The method of operating MBR is similar to that of AD. The supervisory control ensures the WWTP satisfying the effluent quality requirement while minimize the operation cost. A WWTP having at least one of an AD or MBR is disclosed. The method of operating a WWTP can be implemented using a computer.

A change in electromotive force of a microbial fuel cell is sensed and visualized by use of electric supply from the microbial fuel cell. A sensing section (8) and an output section (9) are configured to be powered by the electromotive force of a microbial fuel cell (100).

A method of operating a waste water treatment plant (WWTP) having at least one of an aerobic digester (AD) and a membrane bioreactor (MBR) is described. The method of operating AD is comprised of monitoring and controlling AD in real-time using an online extended Kalman filter (EKF) having a online dynamic model of AD. The EKF uses real-time AD measured data, and online dynamic model of AD to update adapted model parameters and estimate model based inferred variables for AD, which are used for AD control by AD control system having supervisory and low-level control layers. The method of operating MBR is similar to that of AD. The supervisory control ensures the WWTP satisfying the effluent quality requirement while minimize the operation cost. A WWTP having at least one of AD or MBR is disclosed. The method of operating a WWTP can be implemented using a computer.

A method for characterizing toxicity of toxic pollutants and a method for characterizing comprehensive toxicity of water bodies. The methods include constructing a reporter gene cell line expressing CHOP gene associated with endoplasmic reticulum stress.

A computer of a prediction-rule generating system includes an input unit configured to input time series data of an abundance proportion of microorganisms or nucleotide sequences included in activated sludge in which a water treatment is performed and water quality information indicating water quality after a water treatment associated with data at each time constituting the time series data, a principal component analyzing unit configured to perform principal component analysis on the input time series data and calculate principal component scores of data at each time constituting time series data, and a prediction rule generating unit configured to generate a prediction rule for predicting water quality after a water treatment from an abundance proportion of microorganisms or nucleotide sequences on the basis of the calculated principal component scores and the input water quality information indicating water quality after a water treatment.

A device for analysis and monitoring of toxicity in waters is described. The device is specifically devised for determining toxicity in waters in several samples at the same time and in quick time with a high degree of accuracy and precision. The device has application in the field of controlling and monitoring the water resources and in the field of the ecotoxicological analyses.

The present invention relates to a method of separating cultured cells, which is used in a configuration including: a first accommodation space; a cell suspension which is present in a liquid in the first accommodation space in a state in which a plurality of cells is connected to one another; a filter container which is hermetically connected to the first accommodation space and mounted with a cell dividing member having one or more through holes having an average diameter of 5 m to 300 m; and a second accommodation space which is hermetically connected to the filter container, in which the cell suspension flows from the first accommodation space to the second accommodation space through the filter, such that the connection between the cells is passively and mechanically separated while the cells collide with a fixed resistance portion of the filter.

The present disclosure provides uses and methods for using compositions comprising a tetrabrachion protein from Staphylothermus marinus or a fragment thereof for detecting and/or recovering a chemical element from a solution or a suspension. The fragment of the tetrabrachion protein includes the right handed coiled coil (RHCC).

The invention discloses a biological water-quality detection method using said obstructive multi-module biological water-quality detection device. This device includes an obstruction index-selecting device and a water-quality testing device, wherein the obstruction index-selecting device is used to select a qualified or valid stepped obstruction level combination, the water-quality testing device detects the water-quality of the water body to be tested depending on the behavior at each obstruction in the valid obstruction level combination after injecting indicator organisms into the water body to be tested. The relationship between the degree of water pollution and the distribution area of indicator organisms is established and the distribution area of indicator organisms is counted in this method based on the difference between the behaviors of indicator organisms in the clean water body and the polluted water body count, so as to determine the degree of water pollution. The invention can accurately and quickly detect the degree of water body pollution, does not need the processes such as chemical analysis and physical detection, and has the advantages of low cost, fast operation and accurate results, etc.