P31 建筑物理 标准查询与下载

BS EN ISO 12354-4:2017 建筑声学.根据元件性能评定建筑物声学性能.室内到室外的声音传播

Building acoustics. Estimation of acoustic performance of buildings from the performance of elements. Transmission of indoor sound to the outside

BS EN 16798-3:2017 建筑物的能源性能 建筑物的通风 对于非住宅建筑 通风和房间调节系统的性能要求（模块 M5-1、M5-4）

Energy performance of buildings. Ventilation for buildings. For non-residential buildings. Performance requirements for ventilation and room-conditioning systems (Modules M5-1, M5-4)

BS EN 16798-7:2017 建筑物的能源性能 建筑物的通风 确定建筑物内空气流量（包括渗透）的计算方法（模块 M5-5）

Energy performance of buildings. Ventilation for buildings. Calculation methods for the determination of air flow rates in buildings including infiltration (Modules M5-5)

BS EN 15232-1:2017 建筑物的能源性能.建筑自动化、控制和建筑管理的影响.模块M10-4,5,6, 7,8,9,10

Energy Performance of Buildings. Impact of Building Automation, Controls and Building Management. Modules M10-4,5,6, 7,8,9,10

BS EN 16798-5-1:2017 建筑物能源性能. 建筑物通风. 通风和空调系统能源需求的计算方法(模块M5-6, M5-8, M6-5, M6-8, M7-5, M7-8). 方法1: 配电和发电

Energy performance of buildings. Ventilation for buildings. Calculation methods for energy requirements of ventilation and air conditioning systems (Modules M5-6, M5-8, M6-5, M6-8, M7-5, M7-8). Method 1: Distribution and generation

BS ISO 17772-1:2017 建筑物的能源性能 室内环境质量 建筑能源性能设计和评估的室内环境输入参数

Energy performance of buildings. Indoor environmental quality. Indoor environmental input parameters for the design and assessment of energy performance of buildings

ISO 12354-1:2017 建筑声学.从建筑构件性能评定建筑物声学性能.第1部分:房间之间的空气声隔绝

This document specifies calculation models designed to estimate the airborne sound insulation between adjacent rooms in buildings, primarily using measured data which characterize direct or indirect flanking transmission by the participating building elements, and theoretically-derived methods of sound propagation in structural elements. A detailed model is described for calculation in frequency bands, in the frequency range 1/3 octave 100 Hz to 3150 Hz in accordance with ISO 717-1, possibly extended down to 1/3 octave 50 Hz if element data and junction data are available (see Annex I); the single number rating can be determined from the calculation results. A simplified model with a restricted field of application is deduced from this, calculating directly the single number rating, using the single number ratings of the elements; a method to determine uncertainty is proposed for the simplified model (see Annex K). This document describes the principles of the calculation scheme, lists the relevant quantities and defines its applications and restrictions.

Building acoustics - Estimation of acoustic performance of buildings from the performance of elements - Part 1: Airborne sound insulation between rooms

ISO 12354-3:2017 建筑声学.根据元件性能对建筑物声学性能的估计.第3部分：空气传播的户外隔音

This document specifies a calculation model to estimate the sound insulation or the sound pressure level difference of a façade or other external surface of a building. The calculation is based on the sound reduction index of the different elements from which the façade is constructed and it includes direct and flanking transmission. The calculation gives results which correspond approximately to the results from field measurements in accordance with ISO 16283-3. Calculations can be carried out for frequency bands or for single number ratings. The calculation results can also be used for calculating the indoor sound pressure level due to for instance road traffic (see Annex E). This document describes the principles of the calculation model, lists the relevant quantities and defines its applications and restrictions.

Building acoustics - Estimation of acoustic performance of buildings from the performance of elements - Part 3: Airborne sound insulation against outdoor sound

ISO 12354-4:2017 建筑声学.根据元件性能对建筑物声学性能的估计.第4部分：室内声音向室外的传输

This document specifies a calculation model to estimate the sound power level radiated by the envelope of a building due to airborne sound inside that building, primarily by means of measured sound pressure levels inside the building and measured data which characterize the sound transmission by the relevant elements and openings in the building envelope. These sound power levels, together with those of other sound sources in or in front of the building envelope, form the basis for the calculation of the sound pressure level at a chosen distance from a building as a measure for the acoustic performance of buildings. The prediction of the inside sound pressure level from knowledge of the indoor sound sources is outside the scope of this document. The prediction of the outdoor sound propagation is outside the scope of this document. NOTE For simple propagation conditions an approach is given for the estimation of the sound pressure level in Annex E. This document describes the principles of the calculation model, lists the relevant quantities and defines its applications and restrictions.

Building acoustics - Estimation of acoustic performance of buildings from the performance of elements - Part 4: Transmission of indoor sound to the outside

ISO 12354-2:2017 建筑声学.根据元件性能对建筑物声学性能的估计.第2部分：房间之间的冲击隔音

This document specifies calculation models designed to estimate the impact sound insulation between rooms in buildings, primarily using measured data which characterize direct or indirect flanking transmission by the participating building elements and theoretically-derived methods of sound propagation in structural elements. A detailed model is described for calculation in frequency bands, in the frequency range 1/3 octave 100 Hz to 3150 Hz in accordance with ISO 717-1, possibly extended down to 1/3 octave 50 Hz if element data and junction data are available (see Annex E); the single number rating of buildings can be determined from the calculation results. A simplified model with a restricted field of application is deduced from this, calculating directly the single number rating, using the single number ratings of the elements; the uncertainty on the apparent impact sound pressure level calculated using the simplified model can be determined according to the method described in ISO 12354-1:2017, Annex K (see Clause 5). This document describes the principles of the calculation scheme, lists the relevant quantities and defines its applications and restrictions.

Building acoustics - Estimation of acoustic performance of buildings from the performance of elements - Part 2: Impact sound insulation between rooms

BS ISO 16817:2017 建筑环境设计 室内环境 视觉环境设计流程

Building environment design.Indoor environment. Design process for the visual environment

BS EN 15193-1:2017 建筑物的能量绩效.照明用能量需要.规格,模块M9

Energy performance of buildings. Energy requirements for lighting. Specifications, Module M9

ISO 52000-1:2017 建筑物能源性能. 首要EPB评定. 第1部分: 通用框架和程序

This document establishes a systematic, comprehensive and modular structure for assessing the energy performance of new and existing buildings (EPB) in a holistic way. It is applicable to the assessment of overall energy use of a building, by measurement or calculation, and the calculation of energy performance in terms of primary energy or other energy-related metrics. It takes into account the specific possibilities and limitations for the different applications, such as building design, new buildings ‘as built’, and existing buildings in the use phase as well as renovation. NOTE Table 1 in the Introduction shows the relative position of this document within the set of EPB standards in the context of the modular structure as set out in this document.

Energy performance of buildings - Overarching EPB assessment - Part 1: General framework and procedures

ISO 52016-1:2017 建筑物能源性能. 供暖和冷却, 室内温度以及感热和潜热负荷的能源需求. 第1部分: 计算程序

Energy performance of buildings - Energy needs for heating and cooling, internal temperatures and sensible and latent heat loads - Part 1: Calculation procedures

ISO 17772-1:2017 建筑物能源性能. 室内环境质量. 第1部分: 设计和评定建筑物能源性能的室内环境输入参数

Energy performance of buildings - Indoor environmental quality - Part 1: Indoor environmental input parameters for the design and assessment of energy performance of buildings

ISO 52010-1:2017 建筑物能源性能. 外部气候条件. 第1部分: 能源计算的气候数据转换

This document specifies a calculation procedure for the conversion of climatic data for energy calculations. The main element in this document is the calculation of solar irradiance on a surface with arbitrary orientation and tilt. A simple method for conversion of solar irradiance to illuminance is also provided. The solar irradiance and illuminance on an arbitrary surface are applicable as input for energy and daylighting calculations, for building elements (such as roofs, facades and windows) and for components of technical building systems (such as thermal solar collectors, PV panels). Other parameters of climatic data needed to assess the thermal and moisture performance of buildings, building elements or technical building systems [like wind, temperature, moisture and long-wave (thermal) radiation] are to be obtained according to the procedures in ISO 15927-4. These data are listed in this document as input and passed on as output without any conversion. NOTE 1 The reason for passing these data via this document is to have one single and consistent source for all EPB standards and to enable any conversion or other treatment if needed for specific application. NOTE 2 Table 1 in the Introduction shows the relative position of this document within the set of EPB standards in the context of the modular structure as set out in ISO 52000-1.

Energy performance of buildings - External climatic conditions - Part 1: Conversion of climatic data for energy calculations

ISO 13789:2017 建筑物的热性能.热损失系数.计算方法

Thermal performance of buildings - Transmission and ventilation heat transfer coefficients - Calculation method

ISO 52022-1:2017 建筑物能源性能. 建筑物组件和构件的热, 太阳光和日光性能. 第1部分: 玻璃装配遮阳装置太阳光和日光特征的简化计算方法

This document specifies a simplified method based on thermal, solar and light characteristics of the glazing and solar and light characteristics of the solar protection device, to estimate the total solar energy transmittance, direct energy transmittance and the light transmittance of a solar protection device combined to a glazing. This document is applicable to all types of solar protection devices parallel to the glazing, such as louvre, venetian or roller blinds. The position of the solar protection device can be interior, exterior or between single panes in a dual glazing system. It is applicable when the total solar energy transmittance of the glazing is between 0,15 and 0,85. Venetian or louvre blinds are assumed to be adjusted so that there is no direct solar penetration. It is assumed that for external solar protection devices and for integrated solar protection devices, the space between the solar protection devices and the glazing is unventilated and for internal solar protection devices this space is ventilated. The resulting g-values of the simplified method given here are approximate and their deviation from the exact values lie within the range between +0,10 and -0,02. The results generally tend to lie on the safe side for cooling load estimations. The results are not intended to be used for calculating beneficial solar gains or thermal comfort criteria. The simplified method is based on the normal incidence of radiation and does not take into account either the angular dependence of transmittance and the reflectance or the differences of spectral distribution. This should be considered when applying the method. The simplified method can also be used for inclined elements. This document can be applied when the solar transmittance and solar reflectance of the solar protection devices are within the following ranges: 0 ≤ τe,B ≤ 0,5 and 0,1 ≤ ρe,B ≤ 0,8 For reflectance and transmittance values outside these ranges ISO 52022-3 applies. For cases not covered by the method given in this document more exact calculations based on the optical properties (in general the spectral data) of glass and solar protection device can be carried out in accordance with ISO 52022-3. NOTE Table 1 in the Introduction shows the relative position of this document within the set of EPB standards in the context of the modular structure as set out in ISO 52000-1.  1 

Energy performance of buildings - Thermal, solar and daylight properties of building components and elements - Part 1: Simplified calculation method of the solar and daylight characteristics for solar protection devices combined with glazing

ISO 52018-1:2017 建筑物能源性能. 热能平衡和组构特征相关部分EPB要求指标. 第1部分: 选项综述

The set of EPB assessment standards produces a great number of overall and partial EPB indicators as outputs, which can be used for different purposes. This document deals with the use as requirement of partial EPB indicators related to the fabric and related to the thermal balance of the building. Thermal balance aspects concern both the heating and cooling needs and the free floating temperatures, especially with respect to overheating or too cold indoor temperatures. This document can support both private parties and public regulators (and all stakeholders involved in the regulatory process) with the “post-processing” of these outputs. This document provides standardized tables for reporting, in a structured and transparent manner, the choices that are to be made with respect to the partial EPB requirements covered by this document. The tables are non-restrictive, thus allowing for full regulatory flexibility. NOTE Table 1 in the Introduction shows the relative position of this document within the set of EPB standards in the context of the modular structure as set out in ISO 52000-1.

Energy performance of buildings - Indicators for partial EPB requirements related to thermal energy balance and fabric features - Part 1: Overview of options

ISO 10211:2017 建筑结构热桥.热流和表面温度.详细计算

Thermal bridges in building construction - Heat flows and surface temperatures - Detailed calculations