EUROLAB
iso-21930-sustainability-in-building-construction
Concrete and Mortar Testing AASHTO T112 Density of AggregateAASHTO T119 Compressive Strength of CylindersAASHTO T119 Compressive Strength of CylindersAASHTO T119 Compressive Strength of Cylindrical Concrete SpecimensAASHTO T161 Length Change of Hardened ConcreteAASHTO T22 Slump Test for Fresh ConcreteAASHTO T23 Air Content of Freshly Mixed Concrete by Pressure MethodAASHTO T24 Air Content of Hydraulic Cement Concrete by Pressure MethodAASHTO T71 Sampling and Testing of AggregateAASHTO T97 Compression Testing of ConcreteAASHTO T97 Compressive Strength of CylindersACI 209 Prediction of Creep, Shrinkage, and Temperature EffectsACI 211 Guide for Concrete Mixture ProportioningACI 214 Guide for Evaluation of Strength Test ResultsACI 234 Guide for Concrete DurabilityACI 301 Specifications for Structural ConcreteACI 318 Building Code Requirements for Structural ConcreteACI 318 Structural Concrete Code RequirementsACI 522 Guide for Fiber-Reinforced ConcreteACI 544 Fiber Reinforcement TestingASTM C1064 Temperature of Freshly Mixed Hydraulic-Cement ConcreteASTM C1074 Estimating Concrete Strength by Maturity MethodASTM C1077 Standard Practice for Laboratories Testing ConcreteASTM C109 Compressive Strength of Hydraulic Cement MortarsASTM C109M Compressive Strength of Hydraulic Cement MortarsASTM C114 Chemical Analysis of Hydraulic CementASTM C1152 Acid Soluble Chloride in Concrete and Concrete Raw MaterialsASTM C1157 Performance Specification for Hydraulic CementASTM C1202 Electrical Indication of Concrete’s Ability to Resist Chloride Ion PenetrationASTM C1231 Structural Testing of Drilled Concrete CoresASTM C1237 Flow of Mortar Using a Flow TableASTM C1240 Testing for Air-Entraining AdmixturesASTM C1260 Accelerated Mortar Bar Test for Alkali-Silica ReactionASTM C138 Unit Weight, Yield, and Air Content of ConcreteASTM C140 Density, Yield, and Air Content of MortarASTM C143 Slump of Hydraulic-Cement ConcreteASTM C143 Slump of Hydraulic-Cement ConcreteASTM C1512 Restrained Expansion of Mortar Bars Due to ASRASTM C156 Air Content in Freshly Mixed Concrete by Volumetric MethodASTM C157 Length Change of Hardened ConcreteASTM C157 Length Change of Hardened ConcreteASTM C1576 Testing Mortars for Air ContentASTM C1579 Early Age Shrinkage of Cementitious Mixtures Using Embedded Strain GaugesASTM C1585 Measurement of Rate of Absorption of Water by Hydraulic Cement ConcreteASTM C1602 Mixing Water for ConcreteASTM C1609 Flexural Performance of Fiber-Reinforced ConcreteASTM C1679 Method for Measuring Early-Age Shrinkage of Cementitious MixturesASTM C171 Sampling Fresh ConcreteASTM C185 Determination of Carbonation DepthASTM C185 Determination of Carbonation Depth in ConcreteASTM C185 Measurement of Setting Time of Hydraulic CementASTM C231 Air Content in Freshly Mixed Concrete by Pressure MethodASTM C231 Air Content of Freshly Mixed Concrete by Pressure MethodASTM C266 Time of Setting of Concrete Mixtures by Penetration ResistanceASTM C293 Flexural Strength of ConcreteASTM C293 Flexural Strength of Concrete Using Simple Beam with Third-Point LoadingASTM C293 Flexural Strength of Concrete Using Simple Beam with Third-Point LoadingASTM C293 Testing Concrete Beam Flexural StrengthASTM C31 Making and Curing Concrete Test SpecimensASTM C349 Compressive Strength of Hydraulic Cement MortarsASTM C39 Compressive Strength Testing of Concrete CylindersASTM C42 Obtaining and Testing Drilled Cores and Sawed BeamsASTM C469 Modulus of Elasticity and Poisson’s Ratio in ConcreteASTM C469 Static Modulus of Elasticity and Poisson’s Ratio of Concrete in CompressionASTM C494 Chemical Admixtures for ConcreteASTM C642 Density, Absorption, and Voids in Hardened ConcreteASTM C666 Resistance of Concrete to Rapid Freezing and ThawingASTM C78 Flexural Strength of ConcreteASTM C78 Flexural Strength of Concrete BeamsASTM C805 Rebound Number of Hardened ConcreteASTM C876 Half-Cell Potential of Steel in ConcreteBS 1881-121 Determination of Water Absorption of Hardened ConcreteBS 1881-203 Testing for Compressive StrengthBS 1881-208 Testing for Flexural StrengthBS 4550 Specification for Concrete TestingBS 4551 Testing of Concrete – Methods for Strength and DensityBS 812 Testing AggregatesBS 8500-1 Concrete – Part 1: Specification for Constituent MaterialsBS 8500-2 Concrete – Part 2: Specification for ConcreteBS EN 1015-11 Determination of Flexural and Compressive Strength of MortarBS EN 197-1 Cement StandardsBS EN 206 Specification for ConcreteBS EN 480-11 Admixtures for Concrete – Testing MethodsBS EN 934-2 Concrete AdmixturesEN 12390-10 Determination of Chloride Content in Hardened ConcreteEN 12390-2 Making and Curing Specimens for Strength TestsEN 12390-3 Compressive Strength of Test SpecimensEN 12390-5 Flexural Strength of Test SpecimensEN 12390-6 Tensile Splitting Strength of Test SpecimensEN 12390-7 Density of Hardened ConcreteEN 12390-8 Depth of Penetration of Water Under PressureEN 12620 Aggregates for ConcreteEN 12620 Aggregates for ConcreteEN 13039 Siliceous Sand for ConcreteEN 13055 Lightweight AggregatesEN 13286-47 Test Methods for Unbound and Hydraulically Bound MixturesEN 13670 Execution of Concrete StructuresEN 196-1 Determination of StrengthEN 196-3 Determination of Setting Times and SoundnessEN 196-6 Determination of FinenessEN 197-1 Cement Composition and SpecificationsEN 197-1 Composition, Specifications and Conformity Criteria for Common CementsEN 206-1 Concrete Specification, Performance, Production and ConformityISO 14001 Environmental Management in Concrete ProductionISO 15686-2 Service Life Planning of Concrete StructuresISO 1920-1 Sampling of Hardened ConcreteISO 1920-3 Sampling Fresh ConcreteISO 1920-4 Strength Testing of Concrete – Part 4: Strength by CompressionISO 1920-5 Determination of Tensile Splitting StrengthISO 1920-6 Flexural Strength Testing of ConcreteISO 1920-7 Determination of Density of Hardened ConcreteISO 1920-8 Determination of Water Absorption of Hardened ConcreteISO 1920-9 Determination of Freeze-Thaw ResistanceISO 22112 Concrete Testing – Durability TestingISO 679 Determination of Strength of Hydraulic CementISO 679 Methods of Testing Cement – Determination of Strength

ISO 21930 Sustainability in Building Construction Laboratory Testing Service: A Comprehensive Guide

ISO 21930 is an international standard that specifies the principles and guidelines for evaluating the sustainability of building construction projects. The standard is published by the International Organization for Standardization (ISO) and is applicable to all types of buildings, including residential, commercial, and industrial.

The ISO 21930 standard is based on a holistic approach that considers the environmental, social, and economic impacts of building construction projects. The standard provides a framework for assessing the sustainability of building construction projects, including their design, materials, energy efficiency, water management, waste reduction, and indoor air quality.

International and National Standards

The ISO 21930 standard is based on several international and national standards, including:

  • ISO 14001:2015, Environmental Management Systems - Requirements with Guidance for Use

  • ISO 26000:2010, Social Responsibility

  • EN 15804:2012, Sustainability of Construction Works - Environmental Impact (ISO 15628)

  • ASTM E 2597-17, Standard Guide for Estimating Energy and Resource Consumption and Potential Environmental Impacts Associated with Buildings

    • The standard is also aligned with national standards in various countries, including the United States, Canada, Australia, and Europe.

    Standard Development Organizations

    The ISO 21930 standard was developed by the ISO Technical Committee (TC) 59, Sustainability of construction works. The TC is responsible for developing and maintaining international standards related to sustainability in building construction.

    Evolution and Updates

    Standards are constantly evolving to reflect new technologies, research findings, and changing regulatory requirements. The ISO 21930 standard has undergone several revisions since its initial publication in 2008.

    The latest version of the standard (ISO 21930:2015) incorporates new guidelines for assessing the sustainability of building construction projects, including their energy efficiency, water management, and waste reduction.

    Standard Compliance Requirements

    Building construction projects must comply with various regulatory requirements, including those related to environmental impact, social responsibility, and economic sustainability. The ISO 21930 standard provides a framework for demonstrating compliance with these requirements.

    Industry-specific examples of standard compliance requirements include:

  • Green building certifications, such as LEED (Leadership in Energy and Environmental Design) or Passive House

  • Building codes and regulations, such as the International Building Code (IBC)

  • Environmental permits and licenses

    • The ISO 21930 standard is required for various industries and sectors, including:

  • Architecture and engineering firms

  • Construction companies

  • Real estate developers

  • Government agencies responsible for building construction and maintenance

  • Manufacturers of building materials and products

    • Business and Technical Reasons

    Conducting ISO 21930 testing provides several business and technical reasons, including:

  • Improved sustainability performance

  • Enhanced environmental responsibility

  • Increased energy efficiency

  • Reduced water consumption

  • Better waste management practices

  • Improved indoor air quality

  • Compliance with regulatory requirements

  • Competitive advantages in the market

    • Consequences of Not Performing this Test

    Failure to conduct ISO 21930 testing can result in:

  • Non-compliance with regulatory requirements

  • Poor sustainability performance

  • Negative environmental impacts

  • Reduced energy efficiency

  • Increased water consumption

  • Poor indoor air quality

  • Loss of competitive advantage in the market

    • The ISO 21930 standard specifies several testing conditions and methodologies, including:

  • Energy efficiency testing: The standard requires building construction projects to undergo energy efficiency testing using a certified testing laboratory.

  • Water management testing: Building construction projects must also undergo water management testing to assess their water consumption levels.

    • Testing Equipment and Instruments

    The following equipment and instruments are used for ISO 21930 testing:

  • Energy meters

  • Water flow meters

  • Air quality monitoring equipment (AQME)

  • Thermal imaging cameras

    • Testing Environment Requirements

    The standard specifies several testing environment requirements, including:

  • Temperature: The test should be conducted at a temperature between 15C and 25C.

  • Humidity: The relative humidity should be maintained between 30 and 60.

  • Lighting: Artificial lighting should be used to simulate natural daylight conditions.

    • Sample Preparation Procedures

    The standard specifies several sample preparation procedures, including:

  • Energy efficiency testing: Building components (e.g., doors, windows) must be tested separately before being assembled into the building envelope.

  • Water management testing: Water consumption levels are measured using flow meters and other equipment.

    • Testing Parameters and Conditions

    The following parameters and conditions are specified in the standard for ISO 21930 testing:

  • Energy efficiency testing:

    • Temperature range: 15C to 25C

    Humidity range: 30 to 60

    Lighting: Artificial lighting

  • Water management testing:

    • Flow rates: Measured using flow meters

    Pressure drops: Measured using pressure drop meters

    Measurement and Analysis Methods

    The standard specifies several measurement and analysis methods, including:

  • Energy efficiency testing: The energy consumption of building components is measured using energy meters.

  • Water management testing: Water consumption levels are measured using flow meters.

    • Test Report Requirements

    The ISO 21930 standard requires the following information to be included in the test report:

  • Test results

  • Testing conditions and methodologies used

  • Equipment and instruments employed

  • Measurement and analysis methods used

    • Test Report Format

    The standard specifies several formatting requirements for the test report, including:

  • Layout: The report should include a clear layout with headings, subheadings, and tables.

  • Content: The report must provide detailed information on testing conditions, methodologies, equipment, measurements, and results.

    • Certification Requirements

    Building construction projects that undergo ISO 21930 testing may be certified to the standard. Certification is provided by third-party certification bodies, such as international organizations or national standards institutes.

    Certification Benefits

    Certification to the ISO 21930 standard provides several benefits, including:

  • Improved sustainability performance

  • Enhanced environmental responsibility

  • Increased energy efficiency

  • Reduced water consumption

  • Better waste management practices

    • Continuous Improvement

    The ISO 21930 standard encourages continuous improvement through regular review and update of testing methods and results.

    ISO 21930 is a comprehensive standard that provides a framework for evaluating the sustainability of building construction projects. The standard specifies several testing conditions, methodologies, equipment, and analysis methods to assess the environmental, social, and economic impacts of building construction projects.

    The standard requires building construction projects to comply with various regulatory requirements, including those related to environmental impact, social responsibility, and economic sustainability. Certification to the ISO 21930 standard provides several benefits, including improved sustainability performance, enhanced environmental responsibility, and increased energy efficiency.

    Conducting ISO 21930 testing is required for various industries and sectors, including architecture and engineering firms, construction companies, real estate developers, government agencies responsible for building construction and maintenance, and manufacturers of building materials and products.

    Failure to conduct ISO 21930 testing can result in non-compliance with regulatory requirements, poor sustainability performance, negative environmental impacts, reduced energy efficiency, increased water consumption, and poor indoor air quality.

    The ISO 21930 standard specifies several testing conditions and methodologies for evaluating the sustainability of building construction projects. These include:

  • Energy efficiency testing: Building components must be tested separately before being assembled into the building envelope.

  • Water management testing: Water consumption levels are measured using flow meters and other equipment.

    • Testing Equipment and Instruments

    The following equipment and instruments are used for ISO 21930 testing:

  • Energy meters

  • Water flow meters

  • Air quality monitoring equipment (AQME)

  • Thermal imaging cameras

    • Testing Environment Requirements

    The standard specifies several testing environment requirements, including:

  • Temperature: The test should be conducted at a temperature between 15C and 25C.

  • Humidity: The relative humidity should be maintained between 30 and 60.

  • Lighting: Artificial lighting should be used to simulate natural daylight conditions.

    • Sample Preparation Procedures

    The standard specifies several sample preparation procedures, including:

  • Energy efficiency testing: Building components (e.g., doors, windows) must be tested separately before being assembled into the building envelope.

  • Water management testing: Water consumption levels are measured using flow meters and other equipment.

    • Testing Parameters and Conditions

    The following parameters and conditions are specified in the standard for ISO 21930 testing:

  • Energy efficiency testing:

    • Temperature range: 15C to 25C

    Humidity range: 30 to 60

    Lighting: Artificial lighting

  • Water management testing:

    • Flow rates: Measured using flow meters

    Pressure drops: Measured using pressure drop meters

    Measurement and Analysis Methods

    The standard specifies several measurement and analysis methods, including:

  • Energy efficiency testing: The energy consumption of building components is measured using energy meters.

  • Water management testing: Water consumption levels are measured using flow meters.

    • Test Report Requirements

    The ISO 21930 standard requires the following information to be included in the test report:

  • Test results

  • Testing conditions and methodologies used

  • Equipment and instruments employed

  • Measurement and analysis methods used

    • Test Report Format

    The standard specifies several formatting requirements for the test report, including:

  • Layout: The report should include a clear layout with headings, subheadings, and tables.

  • Content: The report must provide detailed information on testing conditions, methodologies, equipment, measurements, and results.

    • Certification Requirements

    Building construction projects that undergo ISO 21930 testing may be certified to the standard. Certification is provided by third-party certification bodies, such as international organizations or national standards institutes.

    Certification Benefits

    Certification to the ISO 21930 standard provides several benefits, including:

  • Improved sustainability performance

  • Enhanced environmental responsibility

  • Increased energy efficiency

  • Reduced water consumption

  • Better waste management practices

    • Continuous Improvement

    The ISO 21930 standard encourages continuous improvement through regular review and update of testing methods and results.

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