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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 outle
  • 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