The control, supervision and acquisition of data for the hydropower plants arranged on the course of a river requires the implementation of a SCADA system.
We ensure the development and implementation of such SCADA systems for the three levels of automation;
Level 1: SCADA system for each individual hydraulic plant
Level 2: SCADA system for the control room of the energy dispatcher
Level 3: SCADA system of the energy dispatcher of the entire geographical area
We implement automation systems for edible oil refineries with raw material processing technologies such as sunflower seeds sunflower for obtaining finished products such as: crude oil, bulk refined oil, bottled oil and for obtaining secondary products: oil, fatty acids, pellets.
We automate bottling lines for PET bottles.
We implement automatic monitoring and control systems of industrial food processes in pasta factories, bakeries , sweets, etc
Through our WEBICC SCADA type software applications, we provide the necessary information for the technological operators in order to have absolute control of the processes food technology.
We design and implement automation systems using WEBICC SCADA for SPAU type pumping stations. We design and implement automation systems using WEBICC SCADA for SPAU type pumping stations. For each automated pumping station we provide: GSM/GPRS data communication; Fault states for each pump; Operating mode: manual/automatic; Hours of operation; Equalization of operating hours for pairs of pumps; Maximum/minimum levels of collecting basins; Start counter, if any; Spinning pumps; Maintaining a constant pressure according to the requirement in the field.
Visualization and local and remote control of any specific technological parameter
treatment stations and waste water purification.
The WEBICC SCADA systems, used by us in water treatment systems, are modern tools used to supervise and control the technological processes that take place in such a system. WEBICC SCADA applications reduce the image of the technological process to a dynamic and static graphic interface that facilitates rigorous local and remote control for all participating members such as: operators
technologists, engineers, electricians, management staff.
Our company designs, develops and implements automation systems for managing processes
technological from:
– Local Dispatch
– Regional Dispatches
Remote monitoring of the operation of hydrocarbon extraction wells in the oil field: vibration analysis, energy consumption, extracted quantities, etc.
What were we monitoring?
1. Oil purity monitoring
80% of defects are based on the phenomenon of abrasive mechanical wear caused by lack of lubrication or incorrect lubrication.
tracking and limiting the phenomenon of abrasive wear is done by monitoring and reducing the number of particles in the oil.
water and air in the oil exponentially amplify the phenomena of mechanical abrasion wear.
maintaining the lubricant in a correct degree of purity and humidity is the main preventive means of mechanical maintenance.
2. Vibration monitoring.
90% of mechanical defects are manifested by the appearance of a vibrating regime that amplifies with the amplification of the defect.
monitoring the vibratory regime of a mechanical assembly can detect the appearance of a defect from the very beginning.
vibration analysis is the main means of establishing corrective measures in a system (the defective part is located and replaced before a chain reaction effect, disastrous in the long term, occurs).
3. The purity and humidity of the oil
Using an HDU system from CC Jensen with a high filtration fineness (3μm absolute) and an increased retention capacity (4kg impurities/filter element)
Automatic control of silos/seed warehouses
The delimitation of individual energy consumption from a unitary energy system can be achieved through an automatic system for managing these consumptions. The management of energy consumption means reading, acquisition, recording, processing and display in real time or through reports.
– The reading of data on energy consumption is carried out by means of intelligent measuring devices;
– Data acquisition is carried out with the help of data concentrators;
– Data recording is performed with the help of data server type software applications installed on local servers or in the Cloud;
– Display of consumption is done through SCADA/HMI software interfaces;
– Consumption reports can be printed on paper or in electronic format.
BENEFITS
– elimination of reading mistakes made by the human factor – the data is recorded automatically;
– all invoices with the price of energy consumption are generated automatically;
– elimination of invoicing mistakes;
– the possibility of keeping the database with the recorded data for an unlimited period of time;
– the radical shortening of the time for creating invoices – practically the duration is dependent only on the printing speed of the printer;
– the system is designed to be simple to use and therefore the learning time is reduced to just a few minutes;
– it is not necessary to hire a specialized person – it can be operated by people with elementary education in working with the computer.