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Incorporation of Energy Management System

The basic objectives of the studies shall be to assist an organization to incorporate Energy Management System based on the ISO – 50001 Energy Management System Standard. The scope of work can cover

Conducting Awareness & Training Programs
Preparation of formats for Energy Management System
Evaluating Log Sheets to include key parameters impacting energy performance
Overviewing Present & Proposed Energy Savings Schemes & Proposals
Assessing & Analyzing MIS reports & Log Sheets
Periodic visit for measurement & analysis of key based on mutual discussions and as listed below Preparation of ISO manuals and related documentation
Periodic visit for implementation of the standard
Any other areas based on mutual discussions


Periodic Visits (Independent Services and / or part of the Annual Contracts)

Pump Performance:
• Measuring the flow with non-contact ultrasonic transit time flow meter
• Gauging Pressure with digital pressure gauge
• Determining Power with clamp on power meter
• Computing Hydraulic Power to assess overall Efficiency of the pump (and motor).
• Assessing the performance and suggesting ways for improvement, as applicable
• Submitting the report

Chillers Performance:
• Measuring the flow of chilled fluid with non-contact ultrasonic transit time flow meter
• Gauging temperature drop across the chiller with digital temperature indicator
• Determining Power with clamp on power meter
• Computing Chilling Effect and assessing Specific Power Consumption as well as Energy Efficiency Ratio (EER)
• Measuring the flow of cooling water with non-contact ultrasonic transit time flow meter
• Gauging temperature rise across the condenser with digital temperature indicator
• Computing Heat Load on the condenser and comparing the same with chiller data
• Noting down the key parameters including suction & discharge pressure
• Assessing the performance and suggesting ways for improvement, as applicable
• Submitting the report

Cooling Tower Performance:
• Measuring the flow of cooling water with non-contact ultrasonic transit time flow meter
• Gauging temperature drop across the cooling tower with digital temperature indicator
• Computing Heat Load on the cooling tower and delivered cooling effect
• Determining fan Power with clamp on power meter
• Noting down the key parameters including ambient dry bulb and wet bulb temperature
• Measuring air flow rate to determine water to air to ratio
• Assessing the performance and suggesting ways for improvement, as applicable
• Submitting the report

Heat exchanger performance:
• Measuring the flow of process fluid with non-contact ultrasonic transit time flow meter
• Gauging temperature change across the heat exchanger with digital temperature indicator
• Computing Heat transferred for the process side
• Measuring the flow of the utility fluid with non-contact ultrasonic transit time flow meter
• Gauging temperature change across the heat exchanger with digital temperature indicator
• Computing Heat transferred for the process side and comparing the same with process data
• Noting down the key parameters including pressure drops on both the sides
• Assessing the performance and suggesting ways for improvement, as applicable
• Submitting the report

Liquid Flow Rates:

• Measuring the flow with non-contact ultrasonic transit time flow meter at mutually decided locations
• Submitting the report

Fans & Blowers Performance:
• Measuring the flow with Anemometer or Pitot Tube
• Gauging Pressure with digital manometer
• Determining Power with clamp on power meter
• Computing Pneumatic Power to assess overall Efficiency of the fan (and motor).
• Assessing the performance and suggesting ways for improvement, as applicable
• Submitting the report

Boiler performance:
• Measuring Oxygen, Carbon Mono-Oxide & Temperature Contents in flue gas at Air Preheater / Economizer outlet
• Measuring Oxygen Contents in flue gas at outlet of APH & inlet of ID Fan.
• Computing Combustion Efficiency of the boiler
• Estimating air ingress in Air Preheater, Bag Filter / Electrostatic Precipitator (ESP)
• Submitting the report

Steam Trap Performance:

• Checking the traps with thermal imager and / or ultrasonic trap leak detector
• Qualitatively assessing the performance
• Tagging the points (if the tags are provided by the plant)
• Submitting the report

Thermopac performance:
• Measuring Oxygen, Carbon Mono-Oxide & Temperature Contents in flue gas at Thermopac outlet
• Measuring Oxygen Contents in flue gas at outlet of APH & inlet of ID Fan.
• Computing Combustion Efficiency of the thermopac
• Estimating air ingress in Air Preheater, Bag Filter / Electrostatic Precipitator (ESP)
• Submitting the report

Compressed Air Leakages:

• Checking the entire system for identifying leakages with Ultrasonic Leak Detector
• Qualitatively assessing & categorizing the leakages in major, moderate or minor
• Tagging the points (if the tags are provided by the plant)
• Submitting the report

Thermography:

• Checking the entire electrical system for identifying hot spots
• Capturing & Providing visual and thermal images for the hot spots
• Qualitatively assessing & categorizing the hot spots in major, moderate or minor
• Submitting the report