Improvement Strategies

We provide digital solutions to enhance energy efficiency in your facility and detect hidden leaks. Our software works like a digital energy engineer, continuously improving your operation’s energy performance.

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Hire Your Digital Energy Engineer. Increase Your Efficiency Instantly!

Analyze your facility’s energy consumption in real time and automatically detect hidden losses. With smart recommendations, reducing energy costs is now easier than ever.

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Features

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Electrical Power Efficiency

Motor and pump systems

Efficient Motor (IE3/IE4) Recommendations
Variable Frequency Drive (VFD) Optimization
Harmonic Filtering Solutions

Illumination

LED Retrofit Projections
Daylight Sensor Integrations

Other remarks

Peak Demand Reduction (Load Balance)
Compensation Optimization (Reactive Penalty Prevention)
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Natural Gas and Heating Systems

Boiler Efficiency Monitoring and Automatic Adjustment Recommendations
Condensate Recovery
Production of Hot Water or Process Steam from Waste Heat
Heat Insulation Gaps and Improvement Recommendations
Combustion Efficiency Analysis (O₂ Trim System Recommendation)
Heat Exchanger Cleaning Interval Optimization
Steam Trap Replacement Recommendations
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Waste Heat Recovery

high heat sources

Thermal Oil Heating from Exhaust Gas
ORC (Organic Rankine Cycle) System Simulation

Low heat Sources

Building Heating from Wastewater Heat
Absorption Cooling Systems
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Compressed Air Systems

Leak Detection (Flow/Pressure Relationship)
Reduction of Unnecessary Operations
Compressor Efficiency Benchmarking
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Cooling and HVAC Systems

Inefficiency Detection through COP Analysis
Night/Weekend Unnecessary Operation Alert
Free Cooling or Night Cooling Recommendation
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Process Energy Consumption

Production/Energy Efficiency (kWh/Product) Analysis
Identification of High Energy-Consuming Lines and Machines
Energy Management Scenarios through Automation
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Optimization of Energy Resources

Tariff Compliance (Using OSOS Data)
Site and ROI Analysis for Solar Energy Investment
Energy Storage Solutions (Battery/Heat Tank) Scenarios
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Energy Audit and Reporting Engine

Automatic Energy Audit Report Generation
Generating Outputs Compliant with Processes like VAP, EVD, ISO 50001
Impact-Analyzed Recommendation List (with Savings % and Annual Spent Value)
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Equipment Health Management

Malfunction predictions

Real-time fault predictions are made by combining machine learning with methods such as vibration, thermal, and current analysis.

Lifespan monitoring

Degradation analyses are conducted using technologies like Digital Twin, enabling insights into equipment lifespan.
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Safety and Compliance Management

Layered Process Safety (at SIL 3 Level)
Explosion Risk Analysis (ATEX/DSEAR Compliant)
Automated Regulatory Reporting (EPA, ISO 50001, TSE)
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Maintenance Scheduling

Maintenance activities within the process are tracked to optimize spare parts usage.
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Reporting and Analytics

Customizable Dashboard (Power BI/Tableau Integration)
Automated Performance Reports (OEE, ENPI, PUE)
Carbon Footprint Calculation (Scope 1-2-3)
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Sector Tailored Solutions

Textile

Boiler Efficiency Analyses → Improvement Recommendations Based on Heat Loss and Flue Gas Temperature.
Automatic Stop Recommendation for Dryers Using Humidity Sensors.
If the condensate recovery rate is low, a recovery investment recommendation is provided.
Detection of Motors/Fans Operating Unnecessarily During Night Shifts.
kWh/m³ Reporting per Product in Energy-Intensive Processes (Painting, Finishing).

Mechanical and automative

Parallel Operation Analysis in Compressor Systems → Single Compressor Operation Recommendation.
Idle Time Analysis in CNC Machines → Start-Stop Algorithm Recommendation.
Process Efficiency Improvement Recommendations Based on kWh per Product.
Servo Motor Load Analysis with Overcapacity Warning.
Photovoltaic (Solar) Investment Feasibility → Payback Period Based on Roof Area.

Seramics and glass industries

Recovery of Waste Heat from Furnaces → Hot Water Production or Pre-Drying.
Furnace Adjustment Recommendation Based on Inlet/Outlet Temperature Difference Analysis.
Tank Recommendation for Cooling Water Recovery.
Load balancing recommendation with peak consumption analysis during night operation.

chemical and petro-chemical

COP Monitoring in Process Cooling Systems and Performance Degradation Detection.
Two-Stage Compressor Control with Recommendations Based on Load Demand.
Heat Exchanger Efficiency Loss Detection (Alarm System Based on Inlet/Outlet Difference).
Mapping Recoverable Waste Heat Points During the Process.

Food and drink consumables

Deviation Analysis in Temperature Control Systems → Overheating/Overcooling.
Night Mode Recommendation for Cooling Systems.
Automatic Alert for Faulty Steam Traps.
Detection of Unnecessary CIP Water/Energy Consumption.

Steels and heavy industries

Electric arc furnace power consumption profile → graphite electrode optimization.
Compressed air leakage analysis with daily loss estimation and detection area.
Efficiency analyses in rolling mill motors, list of low-efficiency motors.
Regenerative heat exchanger recommendation.
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Frequently Asked Questions

We have listed the questions we think you should know.

What is an improvement plant?

An improvement plant is a facility where resources such as wastewater and process water are treated and made reusable. This reduces water consumption and protects the environment.

How is treated water reused?

Treated water can be reused in processes, cleaning, cooling systems, or irrigation of green areas. This provides both economic and environmental benefits.

Can plant systems be controlled through automation?

Yes. All treatment and improvement processes can be monitored and managed in real time through automation systems, ensuring maximum efficiency and safety.