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Aquatoria is a modular software that combines SCADA system functions and analytical functions built on technologies of artificial intelligence.
The system may be introduced either by deployment of the “Basic package” of modules on the embedded SCADA system Mitsubishi Adroit, or by integration of “Basic package” into the SCADA system used at the facility. Functions of Aquatoria may be flexibly configured to the customer’s needs by adding optional modules to the “Basic package.”
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Geo Module

The module is built on an interactive map that allows to monitor status of water supply facilities.

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Facility Configurator

Intended to add new or edit configurations of existing pumping stations and control points in the water supply control system using the parameterization method.

It makes programming unnecessary and does not require engagement of any third party organizations.

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Adoptive control module

  1. Discharge pressure of pumping tation adoptive control through pressure maintanance at consumer's side algorithm. One or several pressure control points (pressure loggers) with automatic switchover are allowed.
  2. Virtual pressure contol point algorithm. Used for adoptive pressure maintanence of low power pumping stations not equipped with flow metering instrumentation.
  3. VFD driven pump low-efficient operation prevention algorithm. Used for multipump stations with one frequency inverter unit.
  4. Energy saving reservoir filling algorithm build on multi-tarrif power cost analysis and automatic pump best efficiency area determination.
  5. Energy saving borehole pump adoptive control algorithm, build on mutual interference of hydraulically interconnected wells analysis.
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Infrastructure diagnostics

Ensures the possibility to monitor status of a company IT infrastructure which serves the basis for the Aquatoria complex. Provides the opportunity to detect troubles in communication equipment, data transmission channels, status of server hardware, databases and other elements of the control system at early stages.

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Process analysis module

The group of algorithms developed to automatiсally identify deviations and abnormalties in process operation modes and pumping equipment operation.

The module executes complex analysis of several process and equipment parameters that are concurrently changed in time in order to detect the most probable causes of abnormalties, failures or equipment breakdowns at early stages.

  1. Diagnostics of pipeline bursts
  2. Diagnostics of leaks by overnight flow rates analysis
  3. Diagnostics of back valves operation
  4. Diagnostics of pump impeller wear
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Pump selector module

Selection of optimal pumping equipment

The module is aimed to assess installed pumping equipment on actual fitness to the required operation modes and to select the most relevant pumps with respect to power consumption and expected life-time.

The module algorithms take into account VFD-driven pump effectiveness change along the operation as well as pump recommended flow operation area.

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Master control room module

Master Control Room

This specially developed tile-based interface is aimed to monitor key parameters of a large number of facilites and control metering points at one screen.

Color-coded status indication and hierarchically structured display of facilities allows an operator to promptly evaluate the situation and respond to emergency conditions.

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Operator training module

The module is developed for training of a water intake operators to gain skill of control the system in manual mode. It simulates Aqautoria workstation screens and actual operating modes of a water intake with respect to:

  1. Daily water consumption
  2. VFD-driven pumps efficiency change along the operation
  3. Water reservoir level change
  4. Pressure at consumer side
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Service personnel training module

Service personnel training

This module is based on VR-technology and is aimed to gain service staff skills in emergency cases simulated by the software. A personell has to fulfill a sequence of actions to fix a problem caused an accident.

Accurate simulation of physical processes is ensured by an empirical digital model created on process parameters of an actually operating system. Virtual pumping station response to personell's actions is closely resembling real life situations.