Detailed Energy Audit

A detailed energy audit is a comprehensive analysis that provides a detailed and long-term analysis of energy use in industrial enterprises across all processes and equipment. This study identifies energy consumption points, performs measurements, and identifies efficiency-enhancing opportunities.

Within the Scope of Our Detailed Energy Audit Service

• ✔ Preliminary Interview and Survey: The facility's existing energy infrastructure and production processes are analyzed.
• ✔ Detailed Measurements: Comprehensive measurements are made on electricity, heat, steam, cooling, compressed air, and process systems.
• ✔ Data Analysis and Energy Analysis: Collected data is analyzed in detail on a system basis, and consumption densities are calculated.
• ✔ Development of Efficiency-Enhancing Recommendations: Technical, economic, and environmental feasibility studies are conducted to address the identified energy losses.
• ✔ Reporting and Presentation: All study findings are presented in a detailed report. These are presented and communicated to the management team.

Major Systems Examined in the Detailed Energy Audit

During detailed energy audits, all energy-consuming systems of the facility are analyzed in detail. Both technical performance and energy efficiency are evaluated for each system.

• ✔ Electrical Systems: Electrical distribution systems, motors, lighting, and energy monitoring are examined. The goal is to optimize energy use and reduce losses.
• ✔ Steam and Hot Water Systems: Boiler efficiency, waste heat losses, insulation status, and automation elements are evaluated to identify energy-saving opportunities.
• ✔ Compressed Air Systems: Compressor performance, leak detection, and system control are analyzed. Compressed air production requires high energy consumption, and leaks can lead to significant losses.
• ✔ Refrigeration and Air Conditioning (HVAC) Systems: System efficiency, automation level, and equipment status are examined. Improvement recommendations are developed.
• ✔ Lighting Systems: Lighting systems in all areas of the facility are evaluated. Energy consumption is reduced with more efficient solutions.
• ✔ Waste Heat Recovery Systems: Resources such as boiler flue gases, process heat, and equipment exhausts are utilized. Energy savings are achieved and environmental benefits are created.
• ✔ Process Equipment: The energy performance of equipment used in production lines is analyzed. Solutions to increase efficiency in energy-intensive processes are developed.
• ✔ Auxiliary Systems: The efficiency and usage of auxiliary systems such as water pumps, electric heaters, and generators are reviewed.