91.120.10 建筑物绝热 标准查询与下载



共找到 1265 条与 建筑物绝热 相关的标准,共 85

本文件规定了保温材料体积吸水率测定的术语和定义、原理、仪器设备和材料、试样、试验步骤、试验数据处理和试验报告。 本文件适用于燃烧性能等级为A级的保温材料体积吸水率的测定。

Determination of water absorption by volume for thermal insulating products

ICS
91.120.10
CCS
E486
发布
2022-08-17
实施
2022-08-23

BS EN 17886. Laboratory test method. assessment of the susceptibility of thermal insulation products to mould growth

ICS
91.120.10
CCS
发布
2022-07-28
实施
2022-07-28

1.1 Products that comply with the requirements of this Standard are intended for use as thermal insulation in building construction. This Standard covers requirements and test methods for closed cell polyurethane and polyisocyanurate foam thermal insulation in the form of flat rigid boards covered on both sides with a facing material which impart some physical characteristics. 1.2 This closed cell polyurethane and polyisocyanurate foam thermal insulation is primarily intended for use in applications where the continuous use temperature is within the range -60 °C to +93 °C. 1.3 These rigid boards are not intended to be used as structural panels. 1.4 This Standard covers only products in which the facing material has been bonded to the foam core in the original foam manufacturing process. This Standard does not apply to products using fibreboard, perlite board, gypsum board, oriented strand board, or any other rigid board, as a facing material on one or both sides (users are referred to ASTM C1289, Standard Specification for Faced Rigid Cellular Polyisocyanurate Thermal Insulation Board, for these products). 1.5 The products covered by this standard are classified into six Types based on mechanical properties and three Classes based on water vapour permeance. 1.6 This document does not purport to address all the health and safety aspects associated with its use. Anyone using this Standard has the responsibility to consult the appropriate authorities and to establish health and safety practices, in conjunction with any existing applicable regulatory requirements, prior to its use.

STANDARD FOR THERMAL INSULATION, POLYURETHANE AND POLYISOCYANURATE, BOARDS, FACED

ICS
91.120.10
CCS
发布
2022-07-20
实施

主要技术内容包括:总则、术语、基本规定、体系构造和要求、设计、施工和验收等内容,系统地对RZGH 无机复合保温板外墙防火保 温系统做了具体的技术要求和规定。同时为进一步对该技术体系的设计提出规范和指导,有针对性地对设计详图和设计构造等作出明确的热工计算和设计要求。

RZGH Inorganic Composite Insulation Board Exterior Wall Fire Protection and Insulation System Application Technical Regulations

ICS
91.120.10
CCS
E4710
发布
2022-07-18
实施
2023-03-17

产品理化性能应符合表3的要求。 表3  纳米孔铝镁质纤维绝热毡理化性能要求 项    目 要    求  燃烧性能 不燃A1级  压缩回弹率 / % ≥85  抗拉强度 / kPa ≥70  压缩强度(10%压缩变形)/ kPa ≥1.5  振动质量损失率 / % ≤0.5  体积密度 /(kg/m3) 120±20  耐水煮性能(100 ℃,96 h,导热系数变化率)/ % ≤1  氯离子含量 / % ≤0.003  氟离子含量 / % ≤0.003  加热永久线变化 / % ≥-2.0

Nanoporous Al-Mg fiber felts for thermal insulation

ICS
91.120.10
CCS
C265
发布
2022-06-24
实施
2022-08-02

本文件规定了船用耐火型气凝胶复合绝热制品的术语和定义、分类和标记、要求、试验方法、检验规则、标志、包装、运输及贮存。 本文件适用于船用耐火型气凝胶复合绝热制品(毡、异形)。

Refractory aerogel composite thermal insulation products for ships

ICS
91.120.10
CCS
C303
发布
2022-06-20
实施
2022-06-21

本文件规定了低温用气凝胶复合毡的术语和定义、标记、要求、试验方法、检测规则、标志、包装、运输及贮存。 本文件适用于使用温度范围为(-196℃~125℃)气凝胶复合毡。本文件未规定材料制造商或系统供应商为了低温系统采取的湿气阻隔措施。

Aerogel composite banket for cryogenic applications

ICS
91.120.10
CCS
C303
发布
2022-06-20
实施
2022-06-21

BS EN ISO 18393-1. Thermal insulation products. Determination of ageing by settlement - Part 1. Blown loose-fill insulation for ventilated attics, humidity and temperature cycling

ICS
91.120.10
CCS
发布
2022-06-17
实施
2022-06-17

This document gives rules for the calculation of heat-transfer-related properties of building equipment and industrial installations, predominantly under steady-state conditions. This document also gives a simplified approach for the calculation of thermal bridges.

Thermal insulation for building equipment and industrial installations - Calculation rules (ISO 12241:2022, Corrected version 2022-11)

ICS
91.120.10
CCS
发布
2022-06-15
实施
2022-09-30

外墙外保温用锚栓的现场抗拔力检验检测

On-the-spot inspection and testing standard for pullout resistance of anchor bolts used for external wall insulation

ICS
91.120.10
CCS
E4710
发布
2022-06-10
实施
2022-06-20

This document gives rules for the calculation of heat-transfer-related properties of building equipment and industrial installations, predominantly under steady-state conditions. This document also gives a simplified approach for the calculation of thermal bridges.

Thermal insulation for building equipment and industrial installations — Calculation rules

ICS
91.120.10
CCS
发布
2022-06-07
实施

This document describes a building enclosure commissioning process to achieve a well performing, durable and maintainable building enclosure. This document includes procedures, methods and documentation requirements describing the application of the commissioning process to a building enclosure at each phase of a project. These project phases span from predesign through owner occupancy and operation. This process is referred to throughout this document as building enclosure commissioning (BECx). This document applies to new building construction and building re-commissioning. This document is for use by an owner, commissioning provider, building developer, owner's representative, construction manager, architect, contractor, and/or consultant, etc. Its purpose is to determine and complete the required tasks and activities to deliver a building enclosure which meets the performance requirements of the owner. Requirements for the project are established by the owner and/or commissioning provider (CxP). This document identifies steps necessary to perform a building enclosure risk analysis. The analysis will result in tasks that define the level of BECx, commensurate with the owner's tolerance for risk associated with building enclosure performance. The BECx process covered by this document is applicable to an individual assembly, a combination of assemblies or a whole enclosure assembly. For example, an individual assembly can be the fenestration, the air barrier or the thermal insulation. A combination of assemblies would include the fenestration, the air barrier and the complete heat transfer system, (e.g. both the insulation and roof assembly). A whole building enclosure assembly would include all heat, air and moisture control layers of the building enclosure, on all six sides of the building. This document describes requirements for any third-party consultants and/or building enclosure commissioning providers (BECxP) to document their technical qualifications, independence and knowledge of the BECx process, including their education, training, and experience.

Performance of buildings — Building enclosure thermal performance verification and commissioning — Part 1: General requirements

ICS
91.120.10
CCS
发布
2022-05-12
实施

Thermal insulation-Determination of steady-state thermal transmission properties-Calibrated and guarded hot box

ICS
91.120.10
CCS
发布
20220503
实施
20220503

Testing method for thermal resistance of glass wool heat insulating material

ICS
91.120.10
CCS
发布
20220503
实施
20220503

主要技术内容包括:总则、术语、基本规定、体系构造和要求、设计、施工和验收等内容,系统地对JGHG装配式轻质石膏复合条板内隔墙做了具体的技术要求和规定。同时为进一步对该技术体系的设计提出规范和指导,有针对性地对设计详图和设计构造等作出明确的热工计算和设计要求。

JGHG prefabricated lightweight gypsum composite slat inner partition wall building structure

ICS
91.120.10
CCS
E4710
发布
2022-04-06
实施
2022-05-14

主要技术内容包括:总则、术语、基本规定、体系构造和要求、设计、施工和验收等内容,系统地对JGHG装配式轻质石膏复合条板内隔墙做了具体的技术要求和规定。同时为进一步对该技术体系的设计提出规范和指导,有针对性地对设计详图和设计构造等作出明确的热工计算和设计要求。

JGHG prefabricated lightweight gypsum composite slat inner partition wall application technical specification

ICS
91.120.10
CCS
E4710
发布
2022-04-06
实施
2022-05-14

1.1 Purpose—The purpose of this standard is to define a commercially useful practice in the United States of America for conducting a building energy performance assessment (BEPA) on a building involved in a commercial real estate transaction and subsequent reporting of the building energy performance information. The practice is intended to provide a methodology to the user for the collection, compilation, analysis, and reporting of building energy performance information associated with a commercial building. The practice may be used independently or as a voluntary supplement to Guide E2018 for property condition assessments or Practice E1527 for Phase I environmental site assessments. Utilization of this practice and performance of a BEPA is voluntary. If the property owner (for example, the seller) is unwilling or unable to provide building energy consumption and cost information, a BEPA cannot be performed. 1.2 Building Energy Performance—This practice defines building energy performance as the building’s total annual energy consumption and cost for heating, cooling, electricity, and other related uses. Energy consumption, for example, includes total electricity purchased; purchased or delivered steam, hot water, or chilled water; natural gas; fuel oil; coal; propane; biomass; or any other matter consumed as fuel and any electricity generated on site from renewable/alternative energy systems (for example, wind energy generator technology, fuel cells, microturbines or solar photovoltaic systems). 1.3 Objectives—Objectives in the development of this practice are to: (1) define a commercially useful practice for collecting, compiling, and analyzing building energy performance information associated with a building involved in a commercial real estate transaction; (2) facilitate consistency in the collection, compilation, analysis, and reporting of building energy performance information as may be required under building benchmarking, labeling, disclosure, or mandatory auditing regulations; (3) supplement as needed a property condition assessment conducted in accordance with Guide E2018 or an environmental site assessment conducted in accordance with Practice E1527; (4) provide that the process for building energy performance data collection, compilation, analysis, and reporting is consistent, transparent, practical and reasonable; and (5) provide an industry standard for the conduct of a BEPA on a building involved in a commercial real estate transaction, subject to existing statutes and regulations which may differ in terms of scope and practice. 1.4 Documentation—The scope of this practice includes data collection, compilation and reporting requirements. Documentation of all sources, records, and resources relied upon in the investigation is provided in the report. 1.5 Considerations Outside the Scope—The use of this practice is limited to the collection, compilation, and analysis of building energy performance information as defined by this practice for real estate transactions in the United States of America. While this information may be used to facilitate building benchmarking, labeling, rating or ranking, reporting of building energy performance information between a seller and a buyer or a landlord and a tenant on a voluntary basis or as may be required by building benchmarking, labeling, disclosure or mandatory auditing regulations applicable to the building, or any other use, such use is beyond the scope of this practice. This ASTM Standard Practice does not supersede existing statutes and regulations. 1.6 Organization of This Practice—This practice has 13 sections and 11 appendices. The appendices are included for informational purposes only and are not part of the procedures prescribed in this practice. Section 1 Describes the scope of the practice. Section 2 Identifies referenced documents. Section 3 Provides terminology pertinent to the practice. Section 4 Discusses the significance and use of the practice. Section 5 Discusses the relationship between this practice and ASTM Guide E2018 or ASTM Practice E1527. Section 6 Describes the user’s responsibilities under this practice. Section 7 Describes the BEPA process. Section 8 Describes the site visit and walk-through. Section 9 Discusses interviews with owner, operator, or key site manager. 1 This practice is under the jurisdiction of ASTM Committee E50 on Environmental Assessment, Risk Management and Corrective Action and is the direct responsibility of Subcommittee E50.02 on Real Estate Assessment and Management. Current edition approved April 1, 2022. Published June 2022. Originally approved in 2011. Last previous edition approved in 2015 as E2797–15. DOI: 10.1520/E2797–22. Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. 1 Section 10 Describes records collection for the BEPA process. Section 11 Provides the records analysis methodology for building energy consumption data. Section 12 Focuses on BEPA report preparation and reporting of building energy consumption information. Section 13 Identifies non-scope considerations. Appendix X1 Provides the legal background on federal, state, or local building energy consumption disclosure legislation and regulation. Appendix X2 Identifies building energy performance and sustainability labeling programs. Appendix X3 Discusses government and utility energy efficiency incentives and grants. Appendix X4 Provides guidance on suggested qualifications for the consultant conducting the BEPA. Appendix X5 Information that can be collected from the property owner/operator/key site manager. Appendix X6 Provides a recommended table of contents and report format for the BEPA. Appendix X7 Provides general property types with categories and subcategories that can impact building energy consumption. Appendix X8 Provides a general commercial building survey checklist. Appendix X9 Presents carbon emission estimation methodology associated with combustion processes related to energy consumption in a commercial building. Appendix X10 Provides common no-cost/low-cost energy saving measures for commercial buildings. Appendix X11 Provides illustrative example of building site energy consumption calculations. 1.7 Units—The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.8 This practice cannot replace education or experience and should be used in conjunction with professional judgment. Not all aspects of this practice may be applicable in all circumstances. This ASTM standard practice is not intended to represent or replace the standard of care by which the adequacy of a given professional service must be judged, nor should this practice be applied without consideration of a building’s many unique aspects. The word “standard” in the title means only that the practice has been approved through the ASTM consensus process. 1.9 Nothing in this practice is intended to create or imply the existence of a legal obligation for reporting of energy, performance, or other building-related information. Any consideration of whether such an obligation exists under any federal, state, local, or common law is beyond the scope of this practice. 1.10 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.11 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Practice for Building Energy Performance Assessment for a Building Involved in a Real Estate Transaction

ICS
91.120.10
CCS
发布
2022-04-01
实施

Construction technology specification for building engineering Part 12: Insulation engineering

ICS
91.120.10
CCS
P31
发布
2022-03-28
实施
2022-07-01

This document specifies the energy performance calculation of water-based distribution systems for space heating, space cooling and domestic hot water (DHW). This document is applicable to the heat flux from the distributed water to the space and the auxiliary energy of the related pumps. The heat flux and the auxiliary energy for pumps can be calculated for any time interval (hour, month and year). The input and output data are mean values of the time interval. Instead of calculating the energy performance of water-based distribution systems, it is also possible to use measurements as long as they follow the time intervals of the whole performance calculation or can be divided into those time intervals.

Energy performance of buildings — Energy requirements and efficiencies of heating, cooling and domestic hot water (DHW) distribution systems — Part 1: Calculation procedures

ICS
91.120.10
CCS
发布
2022-03-28
实施

主要技术内容包括:总则、术语、基本规定、体系构造和要求、设计、施工和验收等内容,系统地对SC钢丝网片组合保温板现浇混凝土墙体自保温系统做了具体的技术要求和规定。同时为进一步对该技术体系的设计提出规范和指导,有针对性地对设计详图和设计构造等作出明确的热工计算和设计要求。

SC steel mesh combined insulation board cast-in-place concrete wall self-insulation system building structure

ICS
91.120.10
CCS
E4710
发布
2022-03-24
实施
2022-03-24



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