Energy Audit of Buildings

1. Introduction to Energy Audit of Buildings

What is an Energy Audit?

An energy audit means the verification, monitoring and analysis of use of energy including submission of technical report containing recommendations for improving
energy efficiency with cost benefit analysis and an action plan to reduce energy consumption.  It identifies opportunities for energy savings, improves efficiency, and reduces operational costs. The purpose is to provide actionable insights that lead to enhanced energy performance and sustainability.

Contents

The objective of energy audit is to have Energy Performance Assessment of equipments and utilities in the electrical sub-station, Electric power distribution network, HVAC systems, Electric motors and drives, Fans and blowers, Water pumping systems, UPS systems, Lighting systems, Diesel generator sets etc. including study of energy consumption pattern and management of power demand in the buildings.

Importance and Benefits of Energy Audits

With increasing energy costs and environmental concerns, energy audits play a critical role in ensuring that buildings operate efficiently. They help in reducing energy waste, lowering carbon footprints, and complying with environmental regulations.

2. Understanding Energy Audits

Types of Energy Audits: Comprehensive, Preliminary and Investment-Grade

      • Preliminary Audits: A quick assessment to identify obvious areas of energy waste.
      • Detailed Audits: A thorough analysis involving data collection, monitoring, and in-depth evaluation.
      • Investment-Grade Audits: A comprehensive audit aimed at securing financing for energy-saving measures.

Steps to Conduct an Energy Audit/ Manner of Energy Audit

  • Pre-Audit Phase:
    • Setting Objectives and Goals: Establishing what the audit aims to achieve, whether it’s reducing costs, improving efficiency, or meeting regulatory requirements.
    • Identifying Scope and Boundaries: Determining the specific areas, systems, or equipment to be audited.
    • Assembling the Audit Team: Gathering experts, including engineers, energy auditors, and facility managers, to ensure a thorough audit.
  • On-Site Audit:
    • Data Collection: Gathering historical energy usage data, equipment specifications, and operational schedules.
    • Inspection of Systems: Examining the HVAC, lighting, electrical, and mechanical systems for efficiency.
    • Use of Diagnostic Tools: Utilizing tools like thermal imaging cameras, flow meters, and data loggers to assess performance.
  • Post-Audit Phase:
    • Data Analysis: Interpreting the collected data to identify inefficiencies and potential savings.
    • Report Preparation: Compiling the findings into a detailed report, highlighting key areas for improvement.
    • Presenting Findings: Discussing recommendations with stakeholders to gain support for implementation.

3. Energy Auditor: Role and Qualifications

Who is an Energy Auditor? Responsibilities and Skills

An energy auditor is a professional who evaluates the energy consumption of a building, industrial facility, or other systems to identify inefficiencies and opportunities for energy savings. They assess how energy is used, pinpoint areas where energy waste occurs, and recommend strategies to reduce energy consumption while maintaining or improving the performance of the systems involved.

Key Responsibilities of an Energy Auditor:

  • Conducting on-site inspections of buildings and facilities to assess energy usage.
  • Collecting and analyzing data related to energy consumption, including electricity, gas, and other fuels.
  • Using diagnostic tools (e.g., thermal cameras, data loggers) to detect energy inefficiencies.
  • Preparing detailed reports with recommendations for energy-saving measures.
  • Advising on the implementation of energy efficiency improvements, such as upgrading equipment, enhancing insulation, or adopting renewable energy sources.
  • Ensuring compliance with energy regulations and standards.

How to Become a Certified Energy Auditor: Qualifications and Certification Process

Becoming a Certified Energy Auditor involves a mix of education, training, certification, and practical experience.

Educational Qualifications:

To be eligible for the Bureau of Energy Efficiency (BEE) exam in India, candidates must have:

  • A Bachelor’s degree in Engineering (B.E./B.Tech) or equivalent with three years of relevant work experience.
  • A Master’s degree in Engineering (M.E./M.Tech) or equivalent with two years of relevant work experience.
  • A Bachelor’s degree in Engineering with a postgraduate degree in Management or equivalent, with two years of relevant work experience.

Certification Process:

  • BEE Certification: In India, passing the BEE exam is mandatory to become a Certified Energy Auditor or Energy Manager. Energy managers focus more on implementing and managing energy-saving projects.
  • International Certifications: Professionals may also pursue international certifications like Certified Energy Manager (CEM) or Certified Measurement & Verification Professional (CMVP) for broader recognition.

4. Energy Audit Report: Essential Elements

An Energy Audit Report is a comprehensive document that details the findings of an energy audit conducted on a building, or other energy-consuming systems. It serves as a crucial tool for understanding how energy is being used, identifying inefficiencies, and recommending actionable measures to improve energy efficiency and reduce costs.

Purpose of an Energy Audit Report:

  • Identify Energy Wastage: Identify areas where energy is being wasted, such as inefficient lighting, outdated HVAC systems, or poor insulation.
  • Propose Solutions: Provide practical recommendations to improve energy efficiency, reduce energy consumption, and lower operating costs.
  • Compliance and Standards: Ensure that the facility meets regulatory requirements and industry standards for energy use.
  • Support Decision-Making: Offer data-driven insights that help facility managers and building owners make informed decisions about energy management and investments.

Key Components of an Energy Audit Report: Findings, Recommendations, and Implementation

  1. Executive Summary
    • A high-level overview of the audit findings, key energy-saving opportunities, and recommended actions.
    • Provides a quick snapshot for decision-makers to understand the report’s significance.
  2. Introduction and Scope
    • An introduction to the audit, including the objectives, scope, and boundaries of the assessment.
    • Defines what was audited (e.g., entire building, specific systems) and the time period covered.
  3. Methodology
    • A detailed explanation of the methods and tools used to conduct the audit.
    • Includes data collection techniques, diagnostic tools employed (e.g., thermal imaging, data loggers), and software used for analysis.
  4. Energy Consumption Analysis
    • A breakdown of the facility’s energy usage patterns, including historical data on electricity, gas, and other fuels.
    • Analysis of peak demand times, seasonal variations, and comparisons with industry benchmarks.
  5. Findings and Observations
    • A detailed account of the audit findings, including areas of energy inefficiency, equipment performance issues, and potential energy savings.
    • Includes visual aids like graphs, charts, and images to illustrate key points.
  6. Recommendations
    • Energy Conservation Measures (ECMs): Specific actions to reduce energy consumption, such as upgrading to energy-efficient lighting, optimizing HVAC systems, or improving insulation.
    • Cost-Benefit Analysis: An evaluation of the cost of implementing each recommendation versus the expected savings and return on investment (ROI).
    • Prioritization: A ranking of recommendations based on impact, cost, and ease of implementation, distinguishing between short-term fixes and long-term investments.
  7. Implementation Plan
    • A step-by-step guide to implementing the recommended energy conservation measures, including timelines, required resources, and potential challenges.
    • Assigns responsibilities and sets milestones to track progress.
  8. Compliance and Regulatory Requirements
    • An assessment of how the facility’s energy use aligns with local, national, and industry-specific regulations.
    • Recommendations to ensure compliance with energy efficiency standards and guidelines.
  9. Conclusion
    • A summary of the audit’s key findings, the potential for energy savings, and the long-term benefits of implementing the recommendations
  10. Appendices
    • Additional data, technical specifications, and detailed calculations that support the findings and recommendations in the report.

Why Energy Audit Reports Matter: Benefits and Uses

An Energy Audit Report is vital for:

  • Reducing Operational Costs: By implementing the report’s recommendations, businesses can significantly cut down on energy costs, leading to increased profitability.
  • Enhancing Sustainability: Improving energy efficiency contributes to environmental sustainability by reducing carbon footprints and conserving natural resources.
  • Informed Decision-Making: The report provides the data and insights needed to make strategic decisions about energy investments and infrastructure upgrades.
  • Regulatory Compliance: Ensures that the facility meets all legal requirements related to energy use, avoiding penalties and enhancing corporate responsibility.

5. Energy Audit Checklist: Streamlining the Process

What is an Energy Audit Checklist? Purpose and Benefits

An Energy Audit Checklist is a tool used by energy auditors to systematically assess a building or facility’s energy usage. It guides auditors through the key areas to inspect, measure, and evaluate, ensuring a thorough and consistent audit. The checklist helps identify inefficiencies, uncover energy-saving opportunities, and recommend improvements.

Purpose and Benefits:

  • Ensures Comprehensive Audits: Covers all essential aspects, leaving no area uninspected.
  • Standardizes the Audit Process: Provides consistency across different facilities and projects.
  • Identifies Key Energy-Wasting Areas: Focuses on critical hotspots where energy is often wasted.
  • Facilitates Data Collection: Aids in gathering necessary data for accurate analysis.
  • Supports Compliance: Ensures alignment with industry standards, regulations, and best practices.

Essential Items to Include in an Energy Audit Checklist

  1. Pre-Audit Preparation
    • Define Objectives: Clarify the goals of the energy audit (e.g., cost savings, regulatory compliance, sustainability).
    • Gather Historical Data: Collect utility bills, previous energy audits, and any other relevant energy consumption data.
    • Assemble the Audit Team: Ensure the audit team includes all necessary experts, such as engineers, technicians, and facility managers.
    • Review Building Plans: Examine architectural plans, mechanical systems, and electrical layouts.
  2. Building Envelope Inspection
    • Walls, Windows, and Doors: Check for insulation quality, air leaks, and the condition of windows and doors.
    • Roof and Attic: Inspect for insulation gaps, roof condition, and potential heat loss areas.
    • Basement and Foundation: Look for moisture issues, insulation adequacy, and potential air leaks.
  3. HVAC System Evaluation
    • Heating Systems: Assess the efficiency of boilers, furnaces, and heat pumps.
    • Cooling Systems: Inspect air conditioning units, chillers, and ventilation systems for efficiency.
    • Thermostats and Controls: Verify the settings and operation of thermostats and control systems, ensuring they are optimized for energy savings.
    • Ductwork: Check for leaks, insulation quality, and airflow efficiency in the duct system.
  4. Lighting Systems
    • Interior Lighting: Evaluate the type, placement, and usage of lighting fixtures. Check for opportunities to upgrade to energy-efficient LED lighting.
    • Exterior Lighting: Assess outdoor lighting systems for efficiency and consider the use of motion sensors or timers.
    • Lighting Controls: Inspect the operation of dimmers, timers, and occupancy sensors to ensure optimal use of lighting.
  5. Electrical Systems
    • Equipment and Appliances: Inventory and assess the energy efficiency of major electrical equipment, including motors, pumps, and office equipment.
    • Power Distribution: Examine the electrical distribution system for any inefficiencies or opportunities for improvement.
    • Standby Power: Identify equipment that draws standby power and recommend solutions to minimize this consumption.
  6. Water Heating Systems
    • Water Heaters: Check the efficiency of water heaters, including insulation and thermostat settings.
    • Hot Water Distribution: Inspect pipes for insulation and potential heat loss, and evaluate the efficiency of hot water delivery systems.
  7. Renewable Energy Opportunities
    • Solar Energy: Assess the potential for installing solar panels for electricity generation or water heating.
    • Wind Energy: Evaluate the feasibility of wind turbines if applicable.
    • Other Renewables: Consider the use of biomass, geothermal, or other renewable energy sources.
  8. Operational and Behavioral Aspects
    • Occupant Behavior: Review energy usage patterns among occupants and identify opportunities for behavior change.
    • Operational Schedules: Examine the operating hours of systems and equipment to identify periods of unnecessary energy consumption.
    • Maintenance Practices: Evaluate current maintenance practices to ensure they support energy efficiency.
  9. Energy Management and Monitoring
    • Energy Management Systems (EMS): Check the installation and operation of EMS for real-time monitoring and control of energy use.
    • Metering and Sub-Metering: Assess the accuracy and placement of energy meters and sub-meters for detailed energy tracking.
  10. Post-Audit Reporting
    • Data Analysis: Compile and analyze all collected data to identify trends, inefficiencies, and opportunities for improvement.
    • Recommendations: Develop a prioritized list of energy-saving measures based on the audit findings.
    • Implementation Plan: Outline a plan for implementing the recommended measures, including timelines, costs, and expected savings.

6. Energy Audit Tender: Overview and Sample

What is an Energy Audit Tender? Definition and Purpose

An Energy Audit Tender is a formal request issued by an organization, government body, or private entity seeking qualified professionals or firms to conduct an energy audit on their facilities. The tender outlines the scope of work, specific requirements, evaluation criteria, and the terms under which the audit should be conducted. It serves as an invitation to energy auditing companies or experts to submit their proposals, detailing how they would approach the project, their qualifications, and the cost of their services.

Purpose of an Energy Audit Tender:

  • Ensure Transparency: Tenders ensure a transparent and competitive process for selecting the best-qualified energy audit provider.
  • Define Scope and Expectations: The tender clearly defines the scope of the audit, the deliverables, and the expectations of the client.
  • Encourage Competition: By opening the project to multiple bidders, the client can compare different proposals and choose the most cost-effective and efficient option.
  • Facilitate Compliance: Tenders help organizations comply with regulatory requirements by ensuring that the energy audit is conducted according to established standards.

Sample Energy Audit Tender: Structure and Key Components

Tender Notice: Request for Proposals for Energy Audit Services

  1. Introduction

[Your Organization’s Name] invites proposals from qualified and experienced energy audit firms or professionals to conduct a comprehensive energy audit of our facilities located at [Facility Address]. The purpose of this energy audit is to identify opportunities for energy savings, improve energy efficiency, and reduce operational costs.

  1. Scope of Work

The energy audit should cover the following areas:

  • Building Envelope: Evaluation of insulation, windows, doors, and overall thermal performance.
  • HVAC Systems: Performance Assessment of heating, ventilation, and air conditioning systems for efficiency.
  • Lighting Systems: Analysis of interior and exterior lighting, including potential upgrades to energy-efficient alternatives.
  • Other Electrical Systems: Inspection of electrical distribution, major power consuming  equipments and standby power consumption.
  • Water Heating Systems: Review of water heating systems, including efficiency and insulation.
  • Renewable Energy Potential: Evaluation of opportunities for integrating renewable energy sources.
  • Operational and Behavioral Aspects: Analysis of energy usage patterns and occupant behavior.
  • Energy Management Systems: Assessment of existing energy management and monitoring systems.
  1. Deliverables

The selected firm will be required to deliver the following:

  • Comprehensive Energy Audit Report detailing findings, energy conservation measures (ECMs), and cost-benefit analysis.
  • Recommendations for Energy Efficiency Improvements with a prioritization of actions based on impact and ROI.
  • Implementation Plan with timelines, estimated costs, and expected savings.
  • Presentation of Findings to the organization’s management team.
  1. Eligibility Criteria

The bidder must meet the following criteria:

  • Professional Qualifications: Must be a certified energy auditor or an energy audit firm with relevant accreditations.
  • Experience: A minimum of [X] years of experience in conducting energy audits for similar facilities.
  • Technical Expertise: Demonstrated expertise in using advanced diagnostic tools and energy management software.
  • References: Provide at least [X] references from previous clients for whom similar work has been completed.
  1. Submission Requirements

Interested firms must submit:

  • Technical Proposal: Including the methodology, tools to be used, and a detailed work plan.
  • Financial Proposal: Clearly outlining the cost of services, including any additional expenses.
  • Company Profile: Including the firm’s experience, team qualifications, and relevant certifications.
  • Timeline: Proposed timeline for completing the audit, including key milestones.
  1. Evaluation Criteria

Proposals will be evaluated based on the following:

  1. Technical Approach ( say 40%): Understanding of the scope, methodology, and innovation.
  2. Experience and Qualifications (say 30%): Relevant experience and the credentials of the team.
  3. Cost (say 20%): Competitiveness of the financial proposal.
  4. References and Past Performance (say 10%): Feedback from previous clients.

7. Terms of Payments…….

8. Compensation for delay…….

9. Earnest Money Deposit with the tender……..

10.Submission Deadline

All proposals must be submitted by [Closing Date], either electronically via [Email Address] or physically to [Mailing Address]. Late submissions will not be considered.

11. Contact Information

For any inquiries or further information, please contact: [Your Name] [Your Title] [Your Email Address] [Your Phone Number]

12. Disclaimer

[Your Organization’s Name] reserves the right to accept or reject any or all proposals without assigning any reason.

How to Write an Effective Energy Audit Tender: Tips and Best Practices

  • Define Scope of Work – Clearly outline specific areas and objectives of the audit.

  • Provide Background Information – Include facility overview, energy data, and past audits.

  • Specify Technical Requirements – Detail required qualifications, certifications, and preferred methodologies.

  • Set Clear Deliverables – Define report content, format, and timelines.

  • Outline Evaluation Criteria – Clearly state selection criteria and weighting (if applicable).

  • Include Legal and Compliance Requirements – Mention regulatory compliance, contract terms, and liability clauses.

  • Provide Budget and Cost Expectations – Indicate budget range and request detailed cost breakdown.

  • Ensure Clarity and Simplicity – Use clear language and maintain consistency throughout the document.

  • Encourage Questions and Clarifications – Provide contact info and consider a pre-bid meeting or site visit.

  • Set Realistic Submission Deadline – Allow sufficient time and provide clear submission guidelines.

  • Review and Refine – Proofread and seek feedback before finalizing the tender document.

7. Energy Simulation and Modelling Softwares: Tools and Benefits

What is Energy Simulation and Modeling Software? Overview and Advantages

 

Energy simulation and modeling software are tools used to analyze and predict the energy performance of buildings, systems, or processes. These software applications simulate various aspects of energy consumption, generation, and efficiency, helping engineers, architects, and energy auditors to optimize designs, improve energy efficiency, and reduce costs.

Main Features:

  • Energy Performance Prediction:

  • Simulates energy usage patterns based on different building designs, materials, and systems.
  • HVAC System Analysis:
    • Models heating, ventilation, and air conditioning (HVAC) systems to optimize energy efficiency and comfort.
  • Renewable Energy Integration:
    • Assesses the impact and benefits of integrating renewable energy sources like solar or wind power.
  • Thermal Comfort Analysis:
    • Evaluates indoor environmental quality and occupant comfort under various conditions.
  • Building Codes and Standards Compliance:
    • Ensures designs meet local or international energy efficiency standards and regulations.
  • Life-Cycle Cost Analysis:
    • Estimates the long-term costs and savings associated with different energy strategies and investments.

Energy Simulation Software Tools:

 EnergyPlus: Detailed Building Simulation

    • Overview: Developed by the U.S. Department of Energy, EnergyPlus is an open-source building energy modeling software. It is designed to simulate energy consumption for heating, cooling, ventilation, lighting, and other building services.
    • Features:
      • Detailed Simulation: Models complex interactions between building systems, including HVAC, lighting, and thermal zones.
      • Customizable Inputs: Users can input specific details about building geometry, materials, and systems to get accurate simulations.
      • Scenario Analysis: Supports the evaluation of different design alternatives and operational strategies.
      • Weather Data: Integrates with weather data for more accurate predictions of energy consumption.
    • Usage: Popular among architects, engineers, and researchers for designing energy-efficient buildings and retrofitting existing ones.

 EQuest: User-Friendly Energy Modeling

    • Overview: EQuest is a free, user-friendly software tool that provides a quick and reliable way to perform energy simulations and building performance analysis. It combines a graphical interface with the robust DOE-2 simulation engine.
    • Features:
      • Quick Building Modeling: Allows users to rapidly create detailed building models and simulate energy use.
      • Design Optimization: Provides design alternatives and helps in selecting the most energy-efficient options.
      • Detailed Reporting: Generates comprehensive reports with energy consumption breakdowns and cost analysis.
      • User-Friendly Interface: Easy-to-use interface, making it accessible to both beginners and experts.
    • Usage: Ideal for architects, engineers, and energy auditors who need a fast and effective way to model building energy performance.

 Ecotect Analysis: Sustainable Design and Analysis

    • Overview: Ecotect Analysis, now integrated into Autodesk’s Revit platform, is a powerful tool for sustainable building design. It offers detailed simulations and visualizations of energy performance, daylighting, and thermal comfort.
    • Features:
      • Whole-Building Analysis: Simulates various environmental factors, including solar radiation, daylighting, and thermal performance.
      • Visualization Tools: Provides 3D visualizations and animations to illustrate the impact of design decisions on energy performance.
      • Integration: Seamlessly integrates with other Autodesk tools like AutoCAD and Revit for a streamlined design workflow.
      • LEED Support: Supports LEED (Leadership in Energy and Environmental Design) credit analysis for green building certification.
    • Usage: Commonly used by architects and sustainable design professionals to ensure energy efficiency in new constructions and renovations.

8. Statutory Requirements for Energy Audits in India

Energy Conservation Act, 2001

The Energy Conservation Act (EC Act) was enacted to provide for efficient use of energy and its conservation and for matters connected therewith or incidental thereto.  Bureau of Energy Efficiency (BEE), a statutory body under Ministry of Power is responsible for spearheading the improvement of energy efficiency in the economy through various regulatory and promotional instruments. 

The Energy Conservation (Amendment) Act, 2022

Energy Conservation (Amendment) Act, 2022: Amends the Energy Conservation Act, 2001, to promote energy efficiency and conservation.

  • Non-fossil energy obligation: Designated consumers (industries, transport, commercial buildings) must meet minimum non-fossil energy consumption standards. Non-compliance may result in penalties  and additional charges based on excess energy use.

  • Carbon trading: Introduces a carbon credit trading scheme, allowing entities to buy and sell carbon credit certificates.

  • Building energy code: Establishes the Energy Conservation and Sustainable Building Code with norms for energy efficiency and green buildings.

  • Applicability to residential buildings: The new code extends to office and residential buildings with a connected load of 100 kW or contract load of 120 kVA.. State governments can lower these load thresholds for applicability.

Bureau of Energy Efficiency (BEE) Guidelines: Accreditation and Reporting Standards

The Government of India set up Bureau of Energy Efficiency (BEE). on 1st March 2002 under the provisions of the Energy Conservation Act, 2001. The mission of the Bureau of Energy Efficiency is to assist in developing policies and strategies with a thrust on self-regulation and market pri nciples, within the overall framework of the Energy Conservation Act, 2001 with the primary objective of reducing energy intensity of the Indian economy.

Regulatory functions

The major regulatory functions of BEE include:

  • Develop minimum energy performance standards for equipment and appliances under Standards and Labelling
  • Develop minimum energy performance standards for Commercial Buildings
  • Develop Energy Consumption Norms for Designated Consumers
  • Certify energy managers and energy auditors.
    • Accreditation of energy auditors.
    • Manner and periodicity of mandatory energy audits.

Energy Performance Standards and Labeling: Compliance and Certification

The Standards and Labeling Scheme (S&L) is one of the major thrust areas of BEE. The scheme was launched on May, 2006 by Ministry of Power. A key objective of this scheme is to provide the consumer an informed choice about the energy saving and thereby cost saving potential of the relevant marketed product. The scheme targets display of energy performance labels on high energy end use equipment & appliances and lays down
minimum energy performance standards.

State-Level Regulations: ECBC and State Designated Agencies

The State Designated Agencies (SDAs) are nodal agencies at the state level that are responsible for coordinating, regulating, and enforcing the provisions of the EC Act. Each state has designated an SDA, which can be an existing department or a dedicated agency.

9. How to become Accredited Energy Auditor in India?

Qualifications for accredited energy auditor

  1. a) is a certified energy manager and has passed the examination in “Energy Performance Assessment for Equipment and Utility Systems” conducted by the Bureau. And
  2. b) has an experience of five years in energy audit out of which at least three years’ shall be in any of the Energy Intensive Industries; and
  3. c) has been granted a certificate of accreditation by the Bureau

Procedures for Accreditation of Energy Auditors

Bureau of Energy Efficiency (BEE)  (Qualifications for Accredited Energy Auditors and Maintenance of their List) Regulations, 2010, notification  on 31st March,2010 in the Gazette of India, mentions the procedure. The same is briefed  as under:

Procedure of granting a certificate of accreditation to Certified Energy Auditors by the Bureau of Energy Efficiency

Steps:

A. Submission of application for accreditation to BEE alongwith following documents:

    1. 5 detailed energy audit reports in any of the Energy Intensive Industries undertaken by the energy auditor in an individual capacity or as a leader or associate or active team member of the energy audit team;
    2. Feedback received from clients for the Audit reports (5 numbers)
    3. Demand draft of rupees one thousand payable by demand draft drawn in favour of Bureau of Energy Efficiency, New Delhi;
    4. A list of at least four up-to-date specified measuring  instruments duly calibrated by authorised agencies.
    5. Filled in specific Form III and Form IV
    6. Copy of the Certificate for Energy Auditor.
    7. g) Experience certificate of Minimum 5 years in the field of energy audit and out of the said 5 years, three years in any of energy intensive industries specified in the Schedule of the Energy Conservation Act, 2001
    8.  Letter from the organization, whose name is given as Firm name under which energy audit is proposed to be conducted. 

B. Assessment by the Accreditation Advisory Committee (AAC)

The Accreditation Advisory Committee (AAC) constituted by the BEE shall assess the energy auditor’s experience and competence on the basis of an oral interview. On the basis of assessment made, the Committee shall make recommendation to the Bureau for accreditation of energy auditor.

C. Issue of Certificate of accreditation: If the recommendation made by the Accreditation Advisory Committee is accepted by the Bureau, the Certificate of Accreditation shall be issued.

10. Interval of Conducting Energy Audit

As per BEE  (Manner and Interval of time for Conduct of  Energy Audit Regulation), 2010 [Noti. No. 02/11(6)/05-BEE, dt. 28-4-2010], Para 3, the same  is as under:

3. Intervals of time for conduct of energy audit

 (1) Every designated consumer shall have its first energy audit conducted, by an accredited energy auditor within 18 months of the notification issued by the Central Government under clause (i) of section 14 of the Act.

(2) The interval of time for conduct and completion of subsequent energy audits shall be three years with effect from the date of submission of the previous energy audit report by the accredited energy auditor to the management of the designated consumer”

Subsequent to the above , as per BEE Notification New Delhi, the 6th October, 2021 No. 18/1/BEE/DISCOM/2021.—Whereas the draft regulations namely, the Bureau of Energy Efficiency (Manner and Intervals for Conduct of Energy Audit (Accounting) in Electricity Distribution Companies) Regulations,
2021, were published vide notification No.18/1/BEE/DISCOM/2021, dated the 15th April, 2021.., the Interval of conduct of energy audit by DISCOM is as under:

3. Intervals of time for conduct of annual energy audit.- (1) Every electricity distribution company shall conduct an annual energy audit for every financial year and submit the annual energy audit report to the Bureau and respective State Designated Agency and also made available on the website of the electricity distribution company within a period of four months from the expiry of the relevant financial year:

error: Content is protected !!

Contents

Index