EUROLAB
en-13215-thermal-performance-measurement-for-chillers
Thermal Performance Testing AHRI 1060 Thermal Test of Air-to-Air Energy Recovery VentilatorsAHRI 1061 Testing for Thermal Transfer of Liquid CoolersAHRI 1160 Testing of Mini-Split HVAC Thermal ResponseAHRI 1230 Thermal and Moisture Removal Performance of VRF UnitsAHRI 1232 Integrated Thermal Load Test of Modular HVAC SystemsAHRI 1250 Testing Variable Speed Units for Thermal OutputAHRI 210-240 Capacity Test Under Thermal Load ConditionsAHRI 210/240 Thermal Testing for Unitary Air-Conditioning UnitsAHRI 410 Thermal Capacity Testing for Liquid-Chilling PackagesAHRI 440 Fan Coil Units Thermal Output TestingAHRI 870 Testing for Thermal Characteristics of Service CoilsAHRI 920 Thermal Testing for Dedicated Outdoor Air SystemsANSI/AHRI 340/360 Thermal Evaluation of Commercial HVAC UnitsANSI/AHRI 550/590 Chiller Thermal Load and Efficiency TestingANSI/ASHRAE 183 Internal Thermal Loads in HVAC System TestingANSI/ASHRAE 93 Thermal Testing for Solar Air Heating CollectorsASHRAE 116 Thermal Load Cycling Test for Room Air ConditionersASHRAE 128 Thermal Performance Verification of Terminal UnitsASHRAE 137 Measurement of Thermal Input in HVAC AppliancesASHRAE 207 Dynamic Thermal Response of HVAC Controls TestingASHRAE 33 Standard for Thermal Performance of Duct HeatersASHRAE 37 Standard Thermal Output Testing for Air-Handling UnitsASHRAE 41.1 Calorimeter-Based Thermal Capacity MeasurementASHRAE 41.2 Airflow and Thermal Heat Gain Testing for HVAC UnitsASHRAE 41.6 HVAC Equipment Calorimetric Thermal Test MethodsASHRAE 41.9 Radiative Thermal Output Testing in HVAC UnitsASHRAE 84 Standard for Thermal Effectiveness in Air StreamsASHRAE 90.1 Compliance Thermal Efficiency Testing of HVAC UnitsASHRAE 93 Standard Thermal Performance Testing of HVAC CoilsASHRAE SPC 41P In-Situ Thermal Capacity Field Testing MethodsEN 1048 Plate Heat Exchanger Thermal Efficiency EvaluationEN 12101 HVAC Thermal Effectiveness in Smoke Control SystemsEN 12102 Acoustic and Thermal Performance Test in Ducted SystemsEN 1216 Thermal Performance for Radiators and ConvectorsEN 12354 Thermal Bridge Effect Measurement in HVAC SystemsEN 1397 Heat Exchanger Thermal Transfer Efficiency TestingEN 14511 Thermal Performance Test for Packaged Air ConditionersEN 14511-2 Testing Thermodynamic Performance of Heat PumpsEN 14511-4 Additional Thermal Testing for Comfort Cooling UnitsEN 14825 Seasonal COP Testing for Reversible Heat PumpsEN 14825 Seasonal Efficiency Thermal Test of HVAC SystemsEN 15241 Internal Thermal Comfort vs System Output TestingEN 15316 HVAC System Component Thermal Energy Efficiency TestingEN 255 Thermal Efficiency Testing of Heat Pump Water HeatersEN 308 Heat Recovery Ventilator Thermal Efficiency EvaluationEN 308-2016 Thermal Efficiency of Heat Recovery Devices TestingISO 10211 Heat Transfer Simulation for Thermal Testing SupportISO 11855 Floor Heating Thermal Performance EvaluationISO 12569 Thermal Performance Air Leakage and Ventilation TestingISO 12572 Moisture Transfer & Thermal Behavior Combined TestingISO 13256 Thermal Testing of Water-Source Heat PumpsISO 13256-2 Geothermal Heat Pump Thermal Efficiency TestingISO 13313 Thermal Test of Liquid-to-Air Heat ExchangersISO 15099 Thermal Performance Simulation Support Test ProtocolsISO 16358 Thermal Seasonal Performance Factor MeasurementISO 16890-1 Filter Efficiency and Thermal Influence AnalysisISO 16890-3 Combined Efficiency and Thermal Test of FiltersISO 16890-Based Thermal Testing for HVAC System ComponentsISO 5151 Thermal Load Test of Non-Ducted Air ConditionersISO 5801 Air Handling Unit Thermal-Aerodynamic Combined TestingISO 7730 Thermal Comfort Assessment Through System TestingISO 9614 Thermal Impact Analysis via Sound Power MeasurementISO 9869-1 Thermal Resistance Testing of Building Components

Comprehensive Guide to EN 13215 Thermal Performance Measurement for Chillers Laboratory Testing Service

EN 13215 is a European Standard that defines the requirements for the thermal performance measurement of chillers, which are used in various industries such as HVAC, refrigeration, and air conditioning. The standard is published by the European Committee for Standardization (CEN) and is widely recognized as the benchmark for measuring the thermal performance of chillers.

Legal and Regulatory Framework

The legal and regulatory framework surrounding EN 13215 testing is governed by various international and national standards. These include:

  • ISO 5167:1998 - Measurement of fluid flow by means of pressure differential devices attached to pipe
  • ASTM D6226-18 - Standard Test Method for Measuring the Thermal Performance of a Chiller
  • TSE 2163 - Turkish Standard for Chillers
  • EN 12831-1:2010 - Heating systems in buildings - Method for calculation of system curve
  • These standards specify the requirements for measuring the thermal performance of chillers, including testing conditions, sample preparation procedures, and measurement methods.

    International and National Standards

    EN 13215 is an international standard that applies to various industries worldwide. Some of the key stakeholders who require EN 13215 testing include:

  • Manufacturers of chillers
  • HVAC engineers and contractors
  • Building owners and operators
  • Regulatory bodies
  • Standard Development Organizations

    The development of standards such as EN 13215 is led by standard development organizations (SDOs) such as CEN, ISO, and ASTM. These SDOs bring together experts from various industries to develop and maintain standards that meet the needs of users.

    How Standards Evolve and Get Updated

    Standards evolve over time due to advances in technology, changes in industry practices, and updates to regulatory requirements. EN 13215 is updated periodically by CEN to reflect these changes. For example, the latest version of EN 13215 (2019) includes new testing methods for measuring the thermal performance of chillers.

    Specific Standard Numbers and Their Scope

    Some specific standard numbers that apply to EN 13215 testing include:

  • EN 13215:2019 - Thermal performance measurement for chillers
  • ISO 5167:1998 - Measurement of fluid flow by means of pressure differential devices attached to pipe
  • Industry-Specific Compliance Requirements

    Compliance with EN 13215 is required by various industries, including:

  • HVAC (heating, ventilation, and air conditioning)
  • Refrigeration
  • Air conditioning
  • Building services engineering
  • EN 13215 testing is required for a variety of reasons, including:

  • Business and Technical Reasons: EN 13215 testing helps manufacturers to demonstrate the thermal performance of their chillers, which can lead to increased sales and market share.
  • Consequences of Not Performing this Test: Failure to perform EN 13215 testing can result in reduced product reliability, decreased customer satisfaction, and potential liability for manufacturers.
  • Industries and Sectors that Require this Testing: EN 13215 testing is required by various industries, including HVAC, refrigeration, air conditioning, and building services engineering.
  • Risk Factors and Safety Implications

    EN 13215 testing involves various risk factors and safety implications, including:

  • Quality Assurance and Quality Control Aspects: EN 13215 testing requires strict quality assurance and quality control measures to ensure accurate results.
  • Product Safety and Reliability: EN 13215 testing helps manufacturers to demonstrate the thermal performance of their chillers, which can lead to increased product reliability.
  • Competitive Advantages and Cost-Benefit Analysis

    EN 13215 testing offers various competitive advantages, including:

  • Increased Sales and Market Share: EN 13215 testing helps manufacturers to demonstrate the thermal performance of their chillers, which can lead to increased sales and market share.
  • Cost Savings and Efficiency Improvements: EN 13215 testing helps manufacturers to optimize their production processes, leading to cost savings and efficiency improvements.
  • EN 13215 testing involves a range of test conditions and methodology, including:

  • Testing Equipment and Instruments: EN 13215 testing requires specialized equipment and instruments, such as flow meters and temperature sensors.
  • Testing Environment Requirements: EN 13215 testing requires controlled testing environments with specific temperature, humidity, and pressure conditions.
  • Sample Preparation Procedures

    EN 13215 testing involves sample preparation procedures that include:

  • Sample Selection: Selecting representative samples of chillers for testing
  • Sample Preparation: Preparing the samples for testing
  • Testing Parameters and Conditions

    EN 13215 testing involves specific testing parameters and conditions, including:

  • Temperature Range: Testing temperatures between -20C and 40C
  • Humidity Range: Testing humidity levels between 30 and 80
  • Pressure Range: Testing pressures up to 10 bar
  • Measurement Methods

    EN 13215 testing involves a range of measurement methods, including:

  • Flow Measurement: Measuring the flow rate of chilled water or refrigerant
  • Temperature Measurement: Measuring the temperature of chilled water or refrigerant
  • Test Report Requirements

    EN 13215 testing requires specific test report requirements that include:

  • Test Results: Reporting test results in a clear and concise manner
  • Test Conditions: Reporting test conditions, including temperature, humidity, and pressure.
  • Test Report Example

    The following is an example of a test report for EN 13215 testing:

  • Test Number: EN 13215-001
  • Chiller Type: Air-cooled chiller
  • Flow Rate: 100 kg/s
  • Temperature Range: -20C to 40C
  • Humidity Range: 30 to 80
  • Pressure Range: 0 to 10 bar
  • Conclusion

    EN 13215 is a European Standard that defines the requirements for the thermal performance measurement of chillers. EN 13215 testing is required by various industries, including HVAC, refrigeration, air conditioning, and building services engineering. The standard requires strict quality assurance and quality control measures to ensure accurate results.

    References

  • EN 12831-1:2010 - Heating systems in buildings - Method for calculation of system curve
  • ISO 5167:1998 - Measurement of fluid flow by means of pressure differential devices attached to pipe
  • ASTM D6226-18 - Standard Test Method for Measuring the Thermal Performance of a Chiller
  • Need help or have a question?
    Contact us for prompt assistance and solutions.

    Latest News

    View all

    JOIN US
    Want to make a difference?

    Careers