Introduction
- What is Oil Refining Plant Monitoring?
- Continuous observation and management of refinery operations to ensure safety and efficiency.
- Uses advanced technologies, sensors, and data analysis for real-time monitoring of processes and equipment.
Key Value Proposition
Combines all benefits to increase profitability.
- Improved Safety
Real-time detection of critical issues like gas leaks and equipment malfunctions.
2. Enhanced Efficiency
Optimizes refining processes, reduces waste, and increases high-quality product yield.
3. Predictive Maintenance
Reduces downtime and costs by addressing issues before failures occur.
4. Environmental Compliance
Tracks emissions and waste to ensure adherence to environmental regulations.
5. Energy Management
Lowers energy costs and carbon footprint by optimizing usage.
6. Process Optimization
Improves product quality and reduces costs through data-driven adjustments.
7. Data Security
Protects sensitive operational data from cyber threats.
8. Supply Chain Optimization
Enhances inventory, procurement, and logistics planning.
9. Reduced Operational Costs
Combines all benefits to increase profitability.
Core Features
- Pump Station Monitoring
- Tracks parameters like pressure, temperature, vibration, and flow.
- Utilizes flow meters and vibration sensors.
- Oil Pipeline Monitoring
- Monitors pressure, temperature, and vibration to ensure seamless transportation.
- Tank Storage Monitoring
- Provides data on liquid levels, pressure, and temperature in storage tanks.
- Plant Equipment Monitoring
- Tracks key equipment like pumps, compressors, centrifuges, blowers, and generators using wireless vibration and temperature sensors.
- Fuel Station Monitoring
- Monitors fuel dispenser meters, liquid levels, and potential alarm triggers.
- Equipment Safety Status
- Ensures safety through gas leak detectors, earthquake sensors, water level monitoring, and emergency shut-off valves.
How It Works
Step 1: Sensor Integration
- Sensors monitor parameters and transmit data via LoRa, Ethernet, or 4G.
- Existing sensors can be integrated into the system without replacement.
Step 2: Data Collection and Transmission
- Data is collected from equipment and sent to a gateway.
Step 3: Cloud-Based Analysis
- Data is processed in the cloud for real-time insights.
Step 4: Accessibility
- Accessible from offices, homes, or remote locations using PCs, tablets, or mobile devices.
Industries Served
Oil Refining
Transportation
Energy Management
Environmental Compliance
FAQ
TARS stands for Technical Assessment and Renewable Solutions. It specializes in industrial automation and condition monitoring, using advanced technologies such as IIoT (Industrial Internet of Things).
TARS was established in 2022 by a team of engineers and renewable energy enthusiasts.
TARS solutions are applicable across various industries including manufacturing, oil and gas, power plants, and other heavy industries that rely on machinery.
Condition monitoring involves tracking parameters like vibration and temperature in machinery to detect potential faults and ensure safety and efficiency.
It reduces downtime, extends asset life, enhances safety, and lowers repair costs by enabling predictive and planned maintenance.
TARS collects vibration (RMS, Peak) and temperature data across multiple axes and uses advanced FFT (Fast Fourier Transform) analysis for fault detection.
TARS integrates advanced IoT technology with user-friendly software, offering real-time monitoring, customizable dashboards, and automated alerts via email, SMS, and WhatsApp.
TARS software can be accessed via mobile applications, web browsers, and desktop applications.
TARS sends notifications through email, SMS, and WhatsApp for critical alerts, warnings, and daily updates.
TARS sensors use LoRaWAN technology to transmit data up to 10 km in rural areas and 3 km in urban environments.
TARS sensors can be powered by a battery or cable. Battery-powered sensors have a life of up to 3 years with updates every 30 minutes.
FFT analysis decomposes vibration signals into frequencies, helping to detect issues such as imbalance, misalignment, and bearing faults.
Yes, users can define custom standards for monitoring equipment with specific operational characteristics, such as older machines with high constant vibrations.
Currently, TARS supports Azerbaijani and English, with plans for further language additions based on customer needs.
The Maintenance section allows users to log and track issues, solutions, and equipment servicing details.
Yes, TARS has been implemented in industries such as oil and food factories, and polyethylene plants.
Yes, TARS provides sensor installation and ensures proper configuration for seamless data collection and monitoring.
You can reach TARS via email at [email protected] or call +90 535 103 69 29 / +99 450 300 21 24.